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The Long, Controversial Search for a ‘Cancer Microbiome’
Last year, the controversy heightened when experts questioned a high-profile study — a 2020 analysis claiming that the tumors of 33 different cancers had their own unique microbiomes — on whether the “signature” of these bacterial compositions could help diagnose cancer.
The incident renewed the spotlight on “tumor microbiomes” because of the bold claims of the original paper and the strongly worded refutations of those claims. The broader field has focused primarily on ways the body’s microbiome interacts with cancers and cancer treatment.
This controversy has highlighted the challenges of making headway in a field where researchers may not even have the tools yet to puzzle-out the wide-ranging implications the microbiome holds for cancer diagnosis and treatment.
But it is also part of a provocative question within that larger field: whether tumors in the body, far from the natural microbiome in the gut, have their own thriving communities of bacteria, viruses, and fungi. And, if they do, how do those tumor microbiomes affect the development and progression of the cancer and the effectiveness of cancer therapies?
Cancer Controversy
The evidence is undeniable that some microbes can directly cause certain cancers and that the human gut microbiome can influence the effectiveness of certain therapies. Beyond that established science, however, the research has raised as many questions as answers about what we do and don’t know about microbiota and cancer.
The only confirmed microbiomes are on the skin and in the gut, mouth, and vagina, which are all areas with an easy direct route for bacteria to enter and grow in or on the body. A series of papers in recent years have suggested that other internal organs, and tumors within them, may have their own microbiomes.
“Whether microbes exist in tumors of internal organs beyond body surfaces exposed to the environment is a different matter,” said Ivan Vujkovic-Cvijin, PhD, an assistant professor of biomedical sciences and gastroenterology at Cedars-Sinai Medical Center in Los Angeles, whose lab studies how human gut microbes affect inflammatory diseases. “We’ve only recently had the tools to study that question on a molecular level, and the reported results have been conflicting.”
For example, research allegedly identified microbiota in the human placenta nearly one decade ago. But subsequent research contradicted those claims and showed that the source of the “placental microbiome” was actually contamination. Subsequent similar studies for other parts of the body faced the same scrutiny and, often, eventual debunking.
“Most likely, our immune system has undergone selective pressure to eliminate everything that crosses the gut barrier because there’s not much benefit to the body to have bacteria run amok in our internal organs,” Dr. Vujkovic-Cvijin said. “That can only disrupt the functioning of our tissues, to have an external organism living inside them.”
The controversy that erupted last summer, surrounding research from the lab of Rob Knight, PhD, at the University of California, San Diego, centered on a slightly different but related question: Could tumors harbor their own microbiomes?
This news organization spoke with two of the authors who published a paper contesting Dr. Knight’s findings: Steven Salzberg, PhD, a professor of biomedical engineering at John Hopkins Medicine, Baltimore, Maryland, and Abraham Gihawi, PhD, a research fellow at Norwich Medical School at the University of East Anglia in the United Kingdom.
Dr. Salzberg described two major problems with Dr. Knight’s study.
“What they found were false positives because of contamination in the database and flaws in their methods,” Dr. Salzberg said. “I can’t prove there’s no cancer microbiome, but I can say the cancer microbiomes that they reported don’t exist because the species they were finding aren’t there.”
Dr. Knight disagrees with Dr. Salzberg’s findings, noting that Dr. Salzberg and his co-authors did not examine the publicly available databases used in his study. In a written response, he said that his team’s examination of the database revealed that less than 1% of the microbial genomes overlapped with human ones and that removing them did not change their findings.
Dr. Knight also noted that his team could still “distinguish cancer types by their microbiome” even after running their analysis without the technique that Dr. Salzberg found fault with.
Dr. Salzberg said that the database linked above is not the one Dr. Knight’s study used, however. “The primary database in their study was never made public (it’s too large, they said), and it has/had about 69,000 genomes,” Dr. Salzberg said by email. “But even if we did, this is irrelevant. He’s trying to distract from the primary errors in their study,” which Dr. Salzberg said Dr. Knight’s team has not addressed.
The critiques Dr. Salzberg raised have been leveled at other studies investigating microbiomes specifically within tumors and independent of the body’s microbiome.
For example, a 2019 study in Nature described a fungal microbiome in pancreatic cancer that a Nature paper 4 years later directly contradicted, citing flaws that invalidated the original findings. A different 2019 study in Cell examined pancreatic tumor microbiota and patient outcomes, but it’s unclear whether the microorganisms moved from the gut to the pancreas or “constitute a durably colonized community that lives inside the tumor,” which remains a matter of debate, Dr. Vujkovic-Cvijin said.
A 2020 study in Science suggested diverse microbial communities in seven tumor types, but those findings were similarly called into question. That study stated that “bacteria were first detected in human tumors more than 100 years ago” and that “bacteria are well-known residents in human tumors,” but Dr. Salzberg considers those statements misleading.
It’s true that bacteria and viruses have been detected in tumors because “there’s very good evidence that an acute infection caused by a very small number of viruses and bacteria can cause a tumor,” Dr. Salzberg said. Human papillomavirus, for example, can cause six different types of cancer. Inflammation and ulcers caused by Helicobacter pylori may progress to stomach cancer, and Fusobacterium nucleatum and Enterococcus faecalis have been shown to contribute to colorectal cancer. Those examples differ from a microbiome; this “a community of bacteria and possibly other microscopic bugs, like fungi, that are happily living in the tumor” the same way microbes reside in our guts, he said.
Dr. Knight said that many bacteria his team identified “have been confirmed independently in subsequent work.” He acknowledged, however, that more research is needed.
Several of the contested studies above were among a lengthy list that Dr. Knight provided, noting that most of the disagreements “have two sides to them, and critiques from one particular group does not immediately invalidate a reported finding.”
Yet, many of the papers Dr. Knight listed are precisely the types that skeptics like Dr. Salzberg believe are too flawed to draw reliable conclusions.
“I think many agree that microbes may exist within tumors that are exposed to the environment, like tumors of the skin, gut, and mouth,” Dr. Vujkovic-Cvijin said. It’s less clear, however, whether tumors further from the body’s microbiome harbor any microbes or where they came from if they do. Microbial signals in organs elsewhere in the body become faint quickly, he said.
Underdeveloped Technology
Though Dr. Salzberg said that the concept of a tumor microbiome is “implausible” because there’s no easy route for bacteria to reach internal organs, it’s unclear whether scientists have the technology yet to adequately answer this question.
For one thing, samples in these types of studies are typically “ultra-low biomass samples, where the signal — the amount of microbes in the sample — is so low that it’s comparable to how much would be expected to be found in reagents and environmental contamination through processing,” Dr. Vujkovic-Cvijin explained. Many polymerases used to amplify a DNA signal, for example, are made in bacteria and may retain trace amounts identified in these studies.
Dr. Knight agreed that low biomass is a challenge in this field but is not an unsurmountable one.
Another challenge is that study samples, as with Dr. Knight’s work, were collected during routine surgeries without the intent to find a microbial signal. Simply using a scalpel to cut through the skin means cutting through a layer of bacteria, and surgery rooms are not designed to eliminate all bacteria. Some work has even shown there is a “hospital microbiome,” so “you can easily have that creep into your signal and mistake it for tumor-resident bacteria,” Dr. Vujkovic-Cvijin said.
Dr. Knight asserted that the samples are taken under sterile conditions, but other researchers do not think the level of sterility necessary for completely clean samples is possible.
“Just because it’s in your sample doesn’t mean it was in your tumor,” Dr. Gihawi said.
Even if scientists can retrieve a reliable sample without contamination, analyzing it requires comparing the genetic material to existing databases of microbial genomes. Yet, contamination and misclassification of genetic sequences can be problems in those reference genomes too, Dr. Gihawi explained.
Machine learning algorithms have a role in interpreting data, but “we need to be careful of what we use them for,” he added.
“These techniques are in their infancy, and we’re starting to chase them down, which is why we need to move microbiome research in a way that can be used clinically,” Dr. Gihawi said.
Influence on Cancer Treatment Outcomes
Again, however, the question of whether microbiomes exist within tumors is only one slice of the much larger field looking at microbiomes and cancer, including its influence on cancer treatment outcomes. Although much remains to be learned, less controversy exists over the thousands of studies in the past two decades that have gradually revealed how the body’s microbiome can affect both the course of a cancer and the effectiveness of different treatments.
The growing research showing the importance of the gut microbiome in cancer treatments is not surprising given its role in immunity more broadly. Because the human immune system must recognize and defend against microbes, the microbiome helps train it, Dr. Vujkovic-Cvijin said.
Some bacteria can escape the gut — a phenomenon called bacterial translocation — and may aid in fighting tumors. To grow large enough to be seen on imaging, tumors need to evolve several abilities, such as growing enough vascularization to receive blood flow and shutting down local immune responses.
“Any added boost, like immunotherapy, has a chance of breaking through that immune forcefield and killing the tumor cells,” Dr. Vujkovic-Cvijin said. Escaped gut bacteria may provide that boost.
“There’s a lot of evidence that depletion of the gut microbiome impairs immunotherapy and chemotherapy. The thinking behind some of those studies is that gut microbes can cross the gut barrier and when they do, they activate the immune system,” he said.
In mice engineered to have sterile guts, for example, the lack of bacteria results in less effective immune systems, Dr. Vujkovic-Cvijin pointed out. A host of research has shown that antibiotic exposure during and even 6 months before immunotherapy dramatically reduces survival rates. “That’s pretty convincing to me that gut microbes are important,” he said.
Dr. Vujkovic-Cvijin cautioned that there continues to be controversy on understanding which bacteria are important for response to immunotherapy. “The field is still in its infancy in terms of understanding which bacteria are most important for these effects,” he said.
Dr. Knight suggested that escaped bacteria may be the genesis of the ones that he and other researchers believe exist in tumors. “Because tumor microbes must come from somewhere, it is to be expected that some of those microbes will be co-opted from body-site specific commensals.”
It’s also possible that metabolites released from gut bacteria escape the gut and could theoretically affect distant tumor growth, Dr. Gihawi said. The most promising avenue of research in this area is metabolites being used as biomarkers, added Dr. Gihawi, whose lab published research on a link between bacteria detected in men’s urine and a more aggressive subset of prostate cancers. But that research is not far enough along to develop lab tests for clinical use, he noted.
No Consensus Yet
Even before the controversy erupted around Dr. Knight’s research, he co-founded the company Micronoma to develop cancer tests based on his microbe findings. The company has raised $17.5 million from private investors as of August 2023 and received the US Food and Drug Administration’s Breakthrough Device designation, allowing the firm to fast-track clinical trials testing the technology. The recent critiques have not changed the company’s plans.
It’s safe to say that scientists will continue to research and debate the possibility of tumor microbiomes until a consensus emerges.
“The field is evolving and studies testing the reproducibility of tumor-resident microbial signals are essential for developing our understanding in this area,” Dr. Vujkovic-Cvijin said.
Even if that path ultimately leads nowhere, as Dr. Salzberg expects, research into microbiomes and cancer has plenty of other directions to go.
“I’m actually quite an optimist,” Dr. Gihawi said. “I think there’s a lot of scope for some really good research here, especially in the sites where we know there is a strong microbiome, such as the gastrointestinal tract.”
A version of this article appeared on Medscape.com.
Last year, the controversy heightened when experts questioned a high-profile study — a 2020 analysis claiming that the tumors of 33 different cancers had their own unique microbiomes — on whether the “signature” of these bacterial compositions could help diagnose cancer.
The incident renewed the spotlight on “tumor microbiomes” because of the bold claims of the original paper and the strongly worded refutations of those claims. The broader field has focused primarily on ways the body’s microbiome interacts with cancers and cancer treatment.
This controversy has highlighted the challenges of making headway in a field where researchers may not even have the tools yet to puzzle-out the wide-ranging implications the microbiome holds for cancer diagnosis and treatment.
But it is also part of a provocative question within that larger field: whether tumors in the body, far from the natural microbiome in the gut, have their own thriving communities of bacteria, viruses, and fungi. And, if they do, how do those tumor microbiomes affect the development and progression of the cancer and the effectiveness of cancer therapies?
Cancer Controversy
The evidence is undeniable that some microbes can directly cause certain cancers and that the human gut microbiome can influence the effectiveness of certain therapies. Beyond that established science, however, the research has raised as many questions as answers about what we do and don’t know about microbiota and cancer.
The only confirmed microbiomes are on the skin and in the gut, mouth, and vagina, which are all areas with an easy direct route for bacteria to enter and grow in or on the body. A series of papers in recent years have suggested that other internal organs, and tumors within them, may have their own microbiomes.
“Whether microbes exist in tumors of internal organs beyond body surfaces exposed to the environment is a different matter,” said Ivan Vujkovic-Cvijin, PhD, an assistant professor of biomedical sciences and gastroenterology at Cedars-Sinai Medical Center in Los Angeles, whose lab studies how human gut microbes affect inflammatory diseases. “We’ve only recently had the tools to study that question on a molecular level, and the reported results have been conflicting.”
For example, research allegedly identified microbiota in the human placenta nearly one decade ago. But subsequent research contradicted those claims and showed that the source of the “placental microbiome” was actually contamination. Subsequent similar studies for other parts of the body faced the same scrutiny and, often, eventual debunking.
“Most likely, our immune system has undergone selective pressure to eliminate everything that crosses the gut barrier because there’s not much benefit to the body to have bacteria run amok in our internal organs,” Dr. Vujkovic-Cvijin said. “That can only disrupt the functioning of our tissues, to have an external organism living inside them.”
The controversy that erupted last summer, surrounding research from the lab of Rob Knight, PhD, at the University of California, San Diego, centered on a slightly different but related question: Could tumors harbor their own microbiomes?
This news organization spoke with two of the authors who published a paper contesting Dr. Knight’s findings: Steven Salzberg, PhD, a professor of biomedical engineering at John Hopkins Medicine, Baltimore, Maryland, and Abraham Gihawi, PhD, a research fellow at Norwich Medical School at the University of East Anglia in the United Kingdom.
Dr. Salzberg described two major problems with Dr. Knight’s study.
“What they found were false positives because of contamination in the database and flaws in their methods,” Dr. Salzberg said. “I can’t prove there’s no cancer microbiome, but I can say the cancer microbiomes that they reported don’t exist because the species they were finding aren’t there.”
Dr. Knight disagrees with Dr. Salzberg’s findings, noting that Dr. Salzberg and his co-authors did not examine the publicly available databases used in his study. In a written response, he said that his team’s examination of the database revealed that less than 1% of the microbial genomes overlapped with human ones and that removing them did not change their findings.
Dr. Knight also noted that his team could still “distinguish cancer types by their microbiome” even after running their analysis without the technique that Dr. Salzberg found fault with.
Dr. Salzberg said that the database linked above is not the one Dr. Knight’s study used, however. “The primary database in their study was never made public (it’s too large, they said), and it has/had about 69,000 genomes,” Dr. Salzberg said by email. “But even if we did, this is irrelevant. He’s trying to distract from the primary errors in their study,” which Dr. Salzberg said Dr. Knight’s team has not addressed.
The critiques Dr. Salzberg raised have been leveled at other studies investigating microbiomes specifically within tumors and independent of the body’s microbiome.
For example, a 2019 study in Nature described a fungal microbiome in pancreatic cancer that a Nature paper 4 years later directly contradicted, citing flaws that invalidated the original findings. A different 2019 study in Cell examined pancreatic tumor microbiota and patient outcomes, but it’s unclear whether the microorganisms moved from the gut to the pancreas or “constitute a durably colonized community that lives inside the tumor,” which remains a matter of debate, Dr. Vujkovic-Cvijin said.
A 2020 study in Science suggested diverse microbial communities in seven tumor types, but those findings were similarly called into question. That study stated that “bacteria were first detected in human tumors more than 100 years ago” and that “bacteria are well-known residents in human tumors,” but Dr. Salzberg considers those statements misleading.
It’s true that bacteria and viruses have been detected in tumors because “there’s very good evidence that an acute infection caused by a very small number of viruses and bacteria can cause a tumor,” Dr. Salzberg said. Human papillomavirus, for example, can cause six different types of cancer. Inflammation and ulcers caused by Helicobacter pylori may progress to stomach cancer, and Fusobacterium nucleatum and Enterococcus faecalis have been shown to contribute to colorectal cancer. Those examples differ from a microbiome; this “a community of bacteria and possibly other microscopic bugs, like fungi, that are happily living in the tumor” the same way microbes reside in our guts, he said.
Dr. Knight said that many bacteria his team identified “have been confirmed independently in subsequent work.” He acknowledged, however, that more research is needed.
Several of the contested studies above were among a lengthy list that Dr. Knight provided, noting that most of the disagreements “have two sides to them, and critiques from one particular group does not immediately invalidate a reported finding.”
Yet, many of the papers Dr. Knight listed are precisely the types that skeptics like Dr. Salzberg believe are too flawed to draw reliable conclusions.
“I think many agree that microbes may exist within tumors that are exposed to the environment, like tumors of the skin, gut, and mouth,” Dr. Vujkovic-Cvijin said. It’s less clear, however, whether tumors further from the body’s microbiome harbor any microbes or where they came from if they do. Microbial signals in organs elsewhere in the body become faint quickly, he said.
Underdeveloped Technology
Though Dr. Salzberg said that the concept of a tumor microbiome is “implausible” because there’s no easy route for bacteria to reach internal organs, it’s unclear whether scientists have the technology yet to adequately answer this question.
For one thing, samples in these types of studies are typically “ultra-low biomass samples, where the signal — the amount of microbes in the sample — is so low that it’s comparable to how much would be expected to be found in reagents and environmental contamination through processing,” Dr. Vujkovic-Cvijin explained. Many polymerases used to amplify a DNA signal, for example, are made in bacteria and may retain trace amounts identified in these studies.
Dr. Knight agreed that low biomass is a challenge in this field but is not an unsurmountable one.
Another challenge is that study samples, as with Dr. Knight’s work, were collected during routine surgeries without the intent to find a microbial signal. Simply using a scalpel to cut through the skin means cutting through a layer of bacteria, and surgery rooms are not designed to eliminate all bacteria. Some work has even shown there is a “hospital microbiome,” so “you can easily have that creep into your signal and mistake it for tumor-resident bacteria,” Dr. Vujkovic-Cvijin said.
Dr. Knight asserted that the samples are taken under sterile conditions, but other researchers do not think the level of sterility necessary for completely clean samples is possible.
“Just because it’s in your sample doesn’t mean it was in your tumor,” Dr. Gihawi said.
Even if scientists can retrieve a reliable sample without contamination, analyzing it requires comparing the genetic material to existing databases of microbial genomes. Yet, contamination and misclassification of genetic sequences can be problems in those reference genomes too, Dr. Gihawi explained.
Machine learning algorithms have a role in interpreting data, but “we need to be careful of what we use them for,” he added.
“These techniques are in their infancy, and we’re starting to chase them down, which is why we need to move microbiome research in a way that can be used clinically,” Dr. Gihawi said.
Influence on Cancer Treatment Outcomes
Again, however, the question of whether microbiomes exist within tumors is only one slice of the much larger field looking at microbiomes and cancer, including its influence on cancer treatment outcomes. Although much remains to be learned, less controversy exists over the thousands of studies in the past two decades that have gradually revealed how the body’s microbiome can affect both the course of a cancer and the effectiveness of different treatments.
The growing research showing the importance of the gut microbiome in cancer treatments is not surprising given its role in immunity more broadly. Because the human immune system must recognize and defend against microbes, the microbiome helps train it, Dr. Vujkovic-Cvijin said.
Some bacteria can escape the gut — a phenomenon called bacterial translocation — and may aid in fighting tumors. To grow large enough to be seen on imaging, tumors need to evolve several abilities, such as growing enough vascularization to receive blood flow and shutting down local immune responses.
“Any added boost, like immunotherapy, has a chance of breaking through that immune forcefield and killing the tumor cells,” Dr. Vujkovic-Cvijin said. Escaped gut bacteria may provide that boost.
“There’s a lot of evidence that depletion of the gut microbiome impairs immunotherapy and chemotherapy. The thinking behind some of those studies is that gut microbes can cross the gut barrier and when they do, they activate the immune system,” he said.
In mice engineered to have sterile guts, for example, the lack of bacteria results in less effective immune systems, Dr. Vujkovic-Cvijin pointed out. A host of research has shown that antibiotic exposure during and even 6 months before immunotherapy dramatically reduces survival rates. “That’s pretty convincing to me that gut microbes are important,” he said.
Dr. Vujkovic-Cvijin cautioned that there continues to be controversy on understanding which bacteria are important for response to immunotherapy. “The field is still in its infancy in terms of understanding which bacteria are most important for these effects,” he said.
Dr. Knight suggested that escaped bacteria may be the genesis of the ones that he and other researchers believe exist in tumors. “Because tumor microbes must come from somewhere, it is to be expected that some of those microbes will be co-opted from body-site specific commensals.”
It’s also possible that metabolites released from gut bacteria escape the gut and could theoretically affect distant tumor growth, Dr. Gihawi said. The most promising avenue of research in this area is metabolites being used as biomarkers, added Dr. Gihawi, whose lab published research on a link between bacteria detected in men’s urine and a more aggressive subset of prostate cancers. But that research is not far enough along to develop lab tests for clinical use, he noted.
No Consensus Yet
Even before the controversy erupted around Dr. Knight’s research, he co-founded the company Micronoma to develop cancer tests based on his microbe findings. The company has raised $17.5 million from private investors as of August 2023 and received the US Food and Drug Administration’s Breakthrough Device designation, allowing the firm to fast-track clinical trials testing the technology. The recent critiques have not changed the company’s plans.
It’s safe to say that scientists will continue to research and debate the possibility of tumor microbiomes until a consensus emerges.
“The field is evolving and studies testing the reproducibility of tumor-resident microbial signals are essential for developing our understanding in this area,” Dr. Vujkovic-Cvijin said.
Even if that path ultimately leads nowhere, as Dr. Salzberg expects, research into microbiomes and cancer has plenty of other directions to go.
“I’m actually quite an optimist,” Dr. Gihawi said. “I think there’s a lot of scope for some really good research here, especially in the sites where we know there is a strong microbiome, such as the gastrointestinal tract.”
A version of this article appeared on Medscape.com.
Last year, the controversy heightened when experts questioned a high-profile study — a 2020 analysis claiming that the tumors of 33 different cancers had their own unique microbiomes — on whether the “signature” of these bacterial compositions could help diagnose cancer.
The incident renewed the spotlight on “tumor microbiomes” because of the bold claims of the original paper and the strongly worded refutations of those claims. The broader field has focused primarily on ways the body’s microbiome interacts with cancers and cancer treatment.
This controversy has highlighted the challenges of making headway in a field where researchers may not even have the tools yet to puzzle-out the wide-ranging implications the microbiome holds for cancer diagnosis and treatment.
But it is also part of a provocative question within that larger field: whether tumors in the body, far from the natural microbiome in the gut, have their own thriving communities of bacteria, viruses, and fungi. And, if they do, how do those tumor microbiomes affect the development and progression of the cancer and the effectiveness of cancer therapies?
Cancer Controversy
The evidence is undeniable that some microbes can directly cause certain cancers and that the human gut microbiome can influence the effectiveness of certain therapies. Beyond that established science, however, the research has raised as many questions as answers about what we do and don’t know about microbiota and cancer.
The only confirmed microbiomes are on the skin and in the gut, mouth, and vagina, which are all areas with an easy direct route for bacteria to enter and grow in or on the body. A series of papers in recent years have suggested that other internal organs, and tumors within them, may have their own microbiomes.
“Whether microbes exist in tumors of internal organs beyond body surfaces exposed to the environment is a different matter,” said Ivan Vujkovic-Cvijin, PhD, an assistant professor of biomedical sciences and gastroenterology at Cedars-Sinai Medical Center in Los Angeles, whose lab studies how human gut microbes affect inflammatory diseases. “We’ve only recently had the tools to study that question on a molecular level, and the reported results have been conflicting.”
For example, research allegedly identified microbiota in the human placenta nearly one decade ago. But subsequent research contradicted those claims and showed that the source of the “placental microbiome” was actually contamination. Subsequent similar studies for other parts of the body faced the same scrutiny and, often, eventual debunking.
“Most likely, our immune system has undergone selective pressure to eliminate everything that crosses the gut barrier because there’s not much benefit to the body to have bacteria run amok in our internal organs,” Dr. Vujkovic-Cvijin said. “That can only disrupt the functioning of our tissues, to have an external organism living inside them.”
The controversy that erupted last summer, surrounding research from the lab of Rob Knight, PhD, at the University of California, San Diego, centered on a slightly different but related question: Could tumors harbor their own microbiomes?
This news organization spoke with two of the authors who published a paper contesting Dr. Knight’s findings: Steven Salzberg, PhD, a professor of biomedical engineering at John Hopkins Medicine, Baltimore, Maryland, and Abraham Gihawi, PhD, a research fellow at Norwich Medical School at the University of East Anglia in the United Kingdom.
Dr. Salzberg described two major problems with Dr. Knight’s study.
“What they found were false positives because of contamination in the database and flaws in their methods,” Dr. Salzberg said. “I can’t prove there’s no cancer microbiome, but I can say the cancer microbiomes that they reported don’t exist because the species they were finding aren’t there.”
Dr. Knight disagrees with Dr. Salzberg’s findings, noting that Dr. Salzberg and his co-authors did not examine the publicly available databases used in his study. In a written response, he said that his team’s examination of the database revealed that less than 1% of the microbial genomes overlapped with human ones and that removing them did not change their findings.
Dr. Knight also noted that his team could still “distinguish cancer types by their microbiome” even after running their analysis without the technique that Dr. Salzberg found fault with.
Dr. Salzberg said that the database linked above is not the one Dr. Knight’s study used, however. “The primary database in their study was never made public (it’s too large, they said), and it has/had about 69,000 genomes,” Dr. Salzberg said by email. “But even if we did, this is irrelevant. He’s trying to distract from the primary errors in their study,” which Dr. Salzberg said Dr. Knight’s team has not addressed.
The critiques Dr. Salzberg raised have been leveled at other studies investigating microbiomes specifically within tumors and independent of the body’s microbiome.
For example, a 2019 study in Nature described a fungal microbiome in pancreatic cancer that a Nature paper 4 years later directly contradicted, citing flaws that invalidated the original findings. A different 2019 study in Cell examined pancreatic tumor microbiota and patient outcomes, but it’s unclear whether the microorganisms moved from the gut to the pancreas or “constitute a durably colonized community that lives inside the tumor,” which remains a matter of debate, Dr. Vujkovic-Cvijin said.
A 2020 study in Science suggested diverse microbial communities in seven tumor types, but those findings were similarly called into question. That study stated that “bacteria were first detected in human tumors more than 100 years ago” and that “bacteria are well-known residents in human tumors,” but Dr. Salzberg considers those statements misleading.
It’s true that bacteria and viruses have been detected in tumors because “there’s very good evidence that an acute infection caused by a very small number of viruses and bacteria can cause a tumor,” Dr. Salzberg said. Human papillomavirus, for example, can cause six different types of cancer. Inflammation and ulcers caused by Helicobacter pylori may progress to stomach cancer, and Fusobacterium nucleatum and Enterococcus faecalis have been shown to contribute to colorectal cancer. Those examples differ from a microbiome; this “a community of bacteria and possibly other microscopic bugs, like fungi, that are happily living in the tumor” the same way microbes reside in our guts, he said.
Dr. Knight said that many bacteria his team identified “have been confirmed independently in subsequent work.” He acknowledged, however, that more research is needed.
Several of the contested studies above were among a lengthy list that Dr. Knight provided, noting that most of the disagreements “have two sides to them, and critiques from one particular group does not immediately invalidate a reported finding.”
Yet, many of the papers Dr. Knight listed are precisely the types that skeptics like Dr. Salzberg believe are too flawed to draw reliable conclusions.
“I think many agree that microbes may exist within tumors that are exposed to the environment, like tumors of the skin, gut, and mouth,” Dr. Vujkovic-Cvijin said. It’s less clear, however, whether tumors further from the body’s microbiome harbor any microbes or where they came from if they do. Microbial signals in organs elsewhere in the body become faint quickly, he said.
Underdeveloped Technology
Though Dr. Salzberg said that the concept of a tumor microbiome is “implausible” because there’s no easy route for bacteria to reach internal organs, it’s unclear whether scientists have the technology yet to adequately answer this question.
For one thing, samples in these types of studies are typically “ultra-low biomass samples, where the signal — the amount of microbes in the sample — is so low that it’s comparable to how much would be expected to be found in reagents and environmental contamination through processing,” Dr. Vujkovic-Cvijin explained. Many polymerases used to amplify a DNA signal, for example, are made in bacteria and may retain trace amounts identified in these studies.
Dr. Knight agreed that low biomass is a challenge in this field but is not an unsurmountable one.
Another challenge is that study samples, as with Dr. Knight’s work, were collected during routine surgeries without the intent to find a microbial signal. Simply using a scalpel to cut through the skin means cutting through a layer of bacteria, and surgery rooms are not designed to eliminate all bacteria. Some work has even shown there is a “hospital microbiome,” so “you can easily have that creep into your signal and mistake it for tumor-resident bacteria,” Dr. Vujkovic-Cvijin said.
Dr. Knight asserted that the samples are taken under sterile conditions, but other researchers do not think the level of sterility necessary for completely clean samples is possible.
“Just because it’s in your sample doesn’t mean it was in your tumor,” Dr. Gihawi said.
Even if scientists can retrieve a reliable sample without contamination, analyzing it requires comparing the genetic material to existing databases of microbial genomes. Yet, contamination and misclassification of genetic sequences can be problems in those reference genomes too, Dr. Gihawi explained.
Machine learning algorithms have a role in interpreting data, but “we need to be careful of what we use them for,” he added.
“These techniques are in their infancy, and we’re starting to chase them down, which is why we need to move microbiome research in a way that can be used clinically,” Dr. Gihawi said.
Influence on Cancer Treatment Outcomes
Again, however, the question of whether microbiomes exist within tumors is only one slice of the much larger field looking at microbiomes and cancer, including its influence on cancer treatment outcomes. Although much remains to be learned, less controversy exists over the thousands of studies in the past two decades that have gradually revealed how the body’s microbiome can affect both the course of a cancer and the effectiveness of different treatments.
The growing research showing the importance of the gut microbiome in cancer treatments is not surprising given its role in immunity more broadly. Because the human immune system must recognize and defend against microbes, the microbiome helps train it, Dr. Vujkovic-Cvijin said.
Some bacteria can escape the gut — a phenomenon called bacterial translocation — and may aid in fighting tumors. To grow large enough to be seen on imaging, tumors need to evolve several abilities, such as growing enough vascularization to receive blood flow and shutting down local immune responses.
“Any added boost, like immunotherapy, has a chance of breaking through that immune forcefield and killing the tumor cells,” Dr. Vujkovic-Cvijin said. Escaped gut bacteria may provide that boost.
“There’s a lot of evidence that depletion of the gut microbiome impairs immunotherapy and chemotherapy. The thinking behind some of those studies is that gut microbes can cross the gut barrier and when they do, they activate the immune system,” he said.
In mice engineered to have sterile guts, for example, the lack of bacteria results in less effective immune systems, Dr. Vujkovic-Cvijin pointed out. A host of research has shown that antibiotic exposure during and even 6 months before immunotherapy dramatically reduces survival rates. “That’s pretty convincing to me that gut microbes are important,” he said.
Dr. Vujkovic-Cvijin cautioned that there continues to be controversy on understanding which bacteria are important for response to immunotherapy. “The field is still in its infancy in terms of understanding which bacteria are most important for these effects,” he said.
Dr. Knight suggested that escaped bacteria may be the genesis of the ones that he and other researchers believe exist in tumors. “Because tumor microbes must come from somewhere, it is to be expected that some of those microbes will be co-opted from body-site specific commensals.”
It’s also possible that metabolites released from gut bacteria escape the gut and could theoretically affect distant tumor growth, Dr. Gihawi said. The most promising avenue of research in this area is metabolites being used as biomarkers, added Dr. Gihawi, whose lab published research on a link between bacteria detected in men’s urine and a more aggressive subset of prostate cancers. But that research is not far enough along to develop lab tests for clinical use, he noted.
No Consensus Yet
Even before the controversy erupted around Dr. Knight’s research, he co-founded the company Micronoma to develop cancer tests based on his microbe findings. The company has raised $17.5 million from private investors as of August 2023 and received the US Food and Drug Administration’s Breakthrough Device designation, allowing the firm to fast-track clinical trials testing the technology. The recent critiques have not changed the company’s plans.
It’s safe to say that scientists will continue to research and debate the possibility of tumor microbiomes until a consensus emerges.
“The field is evolving and studies testing the reproducibility of tumor-resident microbial signals are essential for developing our understanding in this area,” Dr. Vujkovic-Cvijin said.
Even if that path ultimately leads nowhere, as Dr. Salzberg expects, research into microbiomes and cancer has plenty of other directions to go.
“I’m actually quite an optimist,” Dr. Gihawi said. “I think there’s a lot of scope for some really good research here, especially in the sites where we know there is a strong microbiome, such as the gastrointestinal tract.”
A version of this article appeared on Medscape.com.
Few Cancer Survivors Meet ACS Nutrition, Exercise Guidelines
TOPLINE:
METHODOLOGY:
- The ACS has published nutrition and exercise guidelines for cancer survivors, which include recommendations to maintain a healthy weight and diet, cut out alcohol, and participate in regular physical activities. Engaging in these behaviors is associated with longer survival among cancer survivors, but whether survivors follow these nutrition and activity recommendations has not been systematically tracked.
- Researchers evaluated data on 10,020 individuals (mean age, 64.2 years) who had completed cancer treatment. Data came from the Behavioral Risk Factor Surveillance System telephone-based survey administered in 2017, 2019, and 2021, which represents 2.7 million cancer survivors.
- The researchers estimated survivors’ adherence to guidelines across four domains: Weight, physical activity, fruit and vegetable consumption, and alcohol intake. Factors associated with adherence were also evaluated.
- Overall, 9,121 survivors (91%) completed questionnaires for all four domains.
TAKEAWAY:
Only 4% of patients (365 of 9121) followed ACS guidelines in all four categories.
When assessing adherence to each category, the researchers found that 72% of cancer survivors reported engaging in recommended levels of physical activity, 68% maintained a nonobese weight, 50% said they did not consume alcohol, and 12% said they consumed recommended quantities of fruits and vegetables.
Compared with people in the general population, cancer survivors generally engaged in fewer healthy behaviors than those who had never been diagnosed with cancer.
The authors identified certain factors associated with greater guideline adherence, including female sex, older age, Black (vs White) race, and higher education level (college graduate).
IN PRACTICE:
This study highlights a potential “gap between published guidelines regarding behavioral modifications for cancer survivors and uptake of these behaviors,” the authors wrote, adding that “it is essential for oncologists and general internists to improve widespread and systematic counseling on these guidelines to improve uptake of healthy behaviors in this vulnerable patient population.”
SOURCE:
This work, led by Carter Baughman, MD, from the Division of Internal Medicine at Beth Israel Deaconess Medical Center, Boston, Massachusetts, was published online in JAMA Oncology.
LIMITATIONS:
The authors reported several study limitations, most notably that self-reported data may introduce biases.
DISCLOSURES:
The study funding source was not reported. One author received grants from the US Highbush Blueberry Council outside the submitted work. No other disclosures were reported.
A version of this article appeared on Medscape.com.
TOPLINE:
METHODOLOGY:
- The ACS has published nutrition and exercise guidelines for cancer survivors, which include recommendations to maintain a healthy weight and diet, cut out alcohol, and participate in regular physical activities. Engaging in these behaviors is associated with longer survival among cancer survivors, but whether survivors follow these nutrition and activity recommendations has not been systematically tracked.
- Researchers evaluated data on 10,020 individuals (mean age, 64.2 years) who had completed cancer treatment. Data came from the Behavioral Risk Factor Surveillance System telephone-based survey administered in 2017, 2019, and 2021, which represents 2.7 million cancer survivors.
- The researchers estimated survivors’ adherence to guidelines across four domains: Weight, physical activity, fruit and vegetable consumption, and alcohol intake. Factors associated with adherence were also evaluated.
- Overall, 9,121 survivors (91%) completed questionnaires for all four domains.
TAKEAWAY:
Only 4% of patients (365 of 9121) followed ACS guidelines in all four categories.
When assessing adherence to each category, the researchers found that 72% of cancer survivors reported engaging in recommended levels of physical activity, 68% maintained a nonobese weight, 50% said they did not consume alcohol, and 12% said they consumed recommended quantities of fruits and vegetables.
Compared with people in the general population, cancer survivors generally engaged in fewer healthy behaviors than those who had never been diagnosed with cancer.
The authors identified certain factors associated with greater guideline adherence, including female sex, older age, Black (vs White) race, and higher education level (college graduate).
IN PRACTICE:
This study highlights a potential “gap between published guidelines regarding behavioral modifications for cancer survivors and uptake of these behaviors,” the authors wrote, adding that “it is essential for oncologists and general internists to improve widespread and systematic counseling on these guidelines to improve uptake of healthy behaviors in this vulnerable patient population.”
SOURCE:
This work, led by Carter Baughman, MD, from the Division of Internal Medicine at Beth Israel Deaconess Medical Center, Boston, Massachusetts, was published online in JAMA Oncology.
LIMITATIONS:
The authors reported several study limitations, most notably that self-reported data may introduce biases.
DISCLOSURES:
The study funding source was not reported. One author received grants from the US Highbush Blueberry Council outside the submitted work. No other disclosures were reported.
A version of this article appeared on Medscape.com.
TOPLINE:
METHODOLOGY:
- The ACS has published nutrition and exercise guidelines for cancer survivors, which include recommendations to maintain a healthy weight and diet, cut out alcohol, and participate in regular physical activities. Engaging in these behaviors is associated with longer survival among cancer survivors, but whether survivors follow these nutrition and activity recommendations has not been systematically tracked.
- Researchers evaluated data on 10,020 individuals (mean age, 64.2 years) who had completed cancer treatment. Data came from the Behavioral Risk Factor Surveillance System telephone-based survey administered in 2017, 2019, and 2021, which represents 2.7 million cancer survivors.
- The researchers estimated survivors’ adherence to guidelines across four domains: Weight, physical activity, fruit and vegetable consumption, and alcohol intake. Factors associated with adherence were also evaluated.
- Overall, 9,121 survivors (91%) completed questionnaires for all four domains.
TAKEAWAY:
Only 4% of patients (365 of 9121) followed ACS guidelines in all four categories.
When assessing adherence to each category, the researchers found that 72% of cancer survivors reported engaging in recommended levels of physical activity, 68% maintained a nonobese weight, 50% said they did not consume alcohol, and 12% said they consumed recommended quantities of fruits and vegetables.
Compared with people in the general population, cancer survivors generally engaged in fewer healthy behaviors than those who had never been diagnosed with cancer.
The authors identified certain factors associated with greater guideline adherence, including female sex, older age, Black (vs White) race, and higher education level (college graduate).
IN PRACTICE:
This study highlights a potential “gap between published guidelines regarding behavioral modifications for cancer survivors and uptake of these behaviors,” the authors wrote, adding that “it is essential for oncologists and general internists to improve widespread and systematic counseling on these guidelines to improve uptake of healthy behaviors in this vulnerable patient population.”
SOURCE:
This work, led by Carter Baughman, MD, from the Division of Internal Medicine at Beth Israel Deaconess Medical Center, Boston, Massachusetts, was published online in JAMA Oncology.
LIMITATIONS:
The authors reported several study limitations, most notably that self-reported data may introduce biases.
DISCLOSURES:
The study funding source was not reported. One author received grants from the US Highbush Blueberry Council outside the submitted work. No other disclosures were reported.
A version of this article appeared on Medscape.com.
Tiny Doses of Metabolically Armed CAR T Show Benefits
“Our study showed a manageable safety profile in r/r DLBCL/B-ALL, with promising breakthrough efficacy of a 100% complete remission in all dose groups,” said first author Jingjing Ren, MD, PhD, associate director of research and development with Leman Biotech in Shenzhen, China. Dr. Ren presented these findings at the American Association for Cancer Research annual meeting held in San Diego.
While CD19 CAR T-cell therapy has been transformative in the treatment of relapsed B -cell hematological malignancies in recent years, more than half of patients relapse within a year because of inadequate CAR T persistence.
To address the problem, Dr. Ren and her colleagues developed a metabolically armed, interleukin (IL)-10-expressing CAR T-cell product called Meta10-19 for the treatment patients with r/r DLBCL or r/r B-ALL.
According to the authors, the IL-10-expressing CAR T-cells trigger “stem-like memory responses” in various lymphoid organs, which prompt a “robust tumor eradication and durable protection,” and hence, better persistence.
Preclinical studies in mice showed the Meta10-19 CAR T-cells exhibited substantially higher expansion of approximately 100-fold compared with a control CD19 CAR-T product.
Therefore, “we dramatically reduced the dose to approximately 1% to 5% of commercial products for the IL-10-expressing CD19 CAR-T for patients,” coauthor Yugang Guo, PhD, cofounder and president of Leman Biotech said in an interview.
For the ongoing, open-label clinical trial, 12 adult patients with r/r DLBCL or r/r B-ALL and confirmed CD19 expression at a hospital center in China were enrolled between December 2022 and November 2023 and treated in three cohorts, receiving doses that corresponded to 1%, 2.5%, or 5% of the doses of other commercialized CAR-T infusion products.
All patients also underwent lympho-depleting chemotherapy with cyclophosphamide and fludarabine prior to the CAR T-cell infusion.
Six patients had r/r DLBCL and the other six had r/r B-ALL; their median age was 47 and their median time since diagnosis was 1 year.
In the single-arm, intent-to-treat analysis, the treatment induced a complete remission in all 12 patients, as evaluated by PET-CT scan, nuclear magnetic resonance (NMR) spectroscopy, or minimal residual disease assessment of bone marrow.
The median time to best response was 1 month (range 0.5 to 2.2 months).
There were no cases of severe cytokine storm syndrome or neurotoxicity, which are among key limitations with current commercial CAR-T products.
All of the patients continued to have a complete remission at 3 months. Two of the 12 patients, both with B-ALL, experienced relapses, one after 4.7 months and the other at 8 months.
The authors reported that the first treated patient had maintained continuous remission as of 9 months.
In comparison with the much higher full doses of commercial CD19 CAR-T products, only about 50% of patients with DLBCL and 70% of B-ALL patients have been shown to achieve CR at 3 months, the authors reported.
“Our IL-10 expressing CAR-T sustains CR at 3 months post infusion in the context of not following allogeneic hematopoietic stem cell transplant, which suggests IL-10 expressing CAR-T is more resistant to relapse,” Dr. Guo said.
In terms of safety, six patients with DLBCL and four with B-ALL experienced grade 1 cytokine release syndrome (CRS), and two patients with B-ALL developed grade 2 CRS. There were no grade 3 or 4 CRS cases.
One patient with B-ALL developed grade 3 ICANS.
Grade 3-4 cytopenias occurred in most patients, but all were limited to no later than 90 days.
“We observed reduced CRS, with no level 3 or 4, or ICANS,” Dr. Guo said. “There was increased cytopenia, but still manageable, compared with commercial products.”
Of note, the Meta10-19 cells showed efficacy in the extremely low infusion doses even among patients with bulky mass (≥ 7.5 cm) of DLBCL, which is associated with an increased risk of relapse.
One patient had primary central nervous system lymphoma (PCNSL), a rare form of DLBCL that is known to have the worst prognosis of all non-Hodgkin lymphomas.
Due to the unique nature of CNS primary tumors, the CAR T-cell infusion dose was further reduced to 1% of the standard dose for the patient.
The patient maintained complete remission for more than 8 months before relapsing in periphery blood, but not in the CNS, Dr. Guo noted.
“Luckily, this relapse has been easily controlled by chemotherapy, and the patient is maintaining complete remission again now,” Dr. Guo said.
Mechanisms?
Dr. Guo noted that the mechanism believed to explain the improvements despite such low doses is that “IL-10-expressing CAR-T exhibits enhanced proliferation, cytotoxicity, and stem-like antitumor memory due to enhanced metabolic activities of oxidative phosphorylation.”
The authors noted that a key major factor limiting accessibility to CAR-T therapies is the lengthy production cycle and high costs; however, the “extremely low doses of 1% to 5% can significantly reduce the production cycle and cost of CAR T-cell therapies, increasing accessibility,” they wrote in a press statement.
Currently, more than 20 patients have achieved a CR overall, and studies with a larger cohort and longer follow-up are ongoing, Dr. Guo reported.
The research team plans to launch further clinical investigation this year into patients with solid tumors.
Commenting on the study, Hongbo Chi, PhD, the Robert G. Webster Endowed Chair in Immunology at St. Jude Children’s Research Hospital in Memphis, Tennessee, noted that, based on the abstract, “the effects are quite remarkable, considering the therapeutic efficacy observed even at the low dose.
“Results from more patients are needed to fully validate these findings, but the results to date are very encouraging,” he said.
The study was sponsored by Leman Biotech. Dr. Chi had no disclosures to report.
“Our study showed a manageable safety profile in r/r DLBCL/B-ALL, with promising breakthrough efficacy of a 100% complete remission in all dose groups,” said first author Jingjing Ren, MD, PhD, associate director of research and development with Leman Biotech in Shenzhen, China. Dr. Ren presented these findings at the American Association for Cancer Research annual meeting held in San Diego.
While CD19 CAR T-cell therapy has been transformative in the treatment of relapsed B -cell hematological malignancies in recent years, more than half of patients relapse within a year because of inadequate CAR T persistence.
To address the problem, Dr. Ren and her colleagues developed a metabolically armed, interleukin (IL)-10-expressing CAR T-cell product called Meta10-19 for the treatment patients with r/r DLBCL or r/r B-ALL.
According to the authors, the IL-10-expressing CAR T-cells trigger “stem-like memory responses” in various lymphoid organs, which prompt a “robust tumor eradication and durable protection,” and hence, better persistence.
Preclinical studies in mice showed the Meta10-19 CAR T-cells exhibited substantially higher expansion of approximately 100-fold compared with a control CD19 CAR-T product.
Therefore, “we dramatically reduced the dose to approximately 1% to 5% of commercial products for the IL-10-expressing CD19 CAR-T for patients,” coauthor Yugang Guo, PhD, cofounder and president of Leman Biotech said in an interview.
For the ongoing, open-label clinical trial, 12 adult patients with r/r DLBCL or r/r B-ALL and confirmed CD19 expression at a hospital center in China were enrolled between December 2022 and November 2023 and treated in three cohorts, receiving doses that corresponded to 1%, 2.5%, or 5% of the doses of other commercialized CAR-T infusion products.
All patients also underwent lympho-depleting chemotherapy with cyclophosphamide and fludarabine prior to the CAR T-cell infusion.
Six patients had r/r DLBCL and the other six had r/r B-ALL; their median age was 47 and their median time since diagnosis was 1 year.
In the single-arm, intent-to-treat analysis, the treatment induced a complete remission in all 12 patients, as evaluated by PET-CT scan, nuclear magnetic resonance (NMR) spectroscopy, or minimal residual disease assessment of bone marrow.
The median time to best response was 1 month (range 0.5 to 2.2 months).
There were no cases of severe cytokine storm syndrome or neurotoxicity, which are among key limitations with current commercial CAR-T products.
All of the patients continued to have a complete remission at 3 months. Two of the 12 patients, both with B-ALL, experienced relapses, one after 4.7 months and the other at 8 months.
The authors reported that the first treated patient had maintained continuous remission as of 9 months.
In comparison with the much higher full doses of commercial CD19 CAR-T products, only about 50% of patients with DLBCL and 70% of B-ALL patients have been shown to achieve CR at 3 months, the authors reported.
“Our IL-10 expressing CAR-T sustains CR at 3 months post infusion in the context of not following allogeneic hematopoietic stem cell transplant, which suggests IL-10 expressing CAR-T is more resistant to relapse,” Dr. Guo said.
In terms of safety, six patients with DLBCL and four with B-ALL experienced grade 1 cytokine release syndrome (CRS), and two patients with B-ALL developed grade 2 CRS. There were no grade 3 or 4 CRS cases.
One patient with B-ALL developed grade 3 ICANS.
Grade 3-4 cytopenias occurred in most patients, but all were limited to no later than 90 days.
“We observed reduced CRS, with no level 3 or 4, or ICANS,” Dr. Guo said. “There was increased cytopenia, but still manageable, compared with commercial products.”
Of note, the Meta10-19 cells showed efficacy in the extremely low infusion doses even among patients with bulky mass (≥ 7.5 cm) of DLBCL, which is associated with an increased risk of relapse.
One patient had primary central nervous system lymphoma (PCNSL), a rare form of DLBCL that is known to have the worst prognosis of all non-Hodgkin lymphomas.
Due to the unique nature of CNS primary tumors, the CAR T-cell infusion dose was further reduced to 1% of the standard dose for the patient.
The patient maintained complete remission for more than 8 months before relapsing in periphery blood, but not in the CNS, Dr. Guo noted.
“Luckily, this relapse has been easily controlled by chemotherapy, and the patient is maintaining complete remission again now,” Dr. Guo said.
Mechanisms?
Dr. Guo noted that the mechanism believed to explain the improvements despite such low doses is that “IL-10-expressing CAR-T exhibits enhanced proliferation, cytotoxicity, and stem-like antitumor memory due to enhanced metabolic activities of oxidative phosphorylation.”
The authors noted that a key major factor limiting accessibility to CAR-T therapies is the lengthy production cycle and high costs; however, the “extremely low doses of 1% to 5% can significantly reduce the production cycle and cost of CAR T-cell therapies, increasing accessibility,” they wrote in a press statement.
Currently, more than 20 patients have achieved a CR overall, and studies with a larger cohort and longer follow-up are ongoing, Dr. Guo reported.
The research team plans to launch further clinical investigation this year into patients with solid tumors.
Commenting on the study, Hongbo Chi, PhD, the Robert G. Webster Endowed Chair in Immunology at St. Jude Children’s Research Hospital in Memphis, Tennessee, noted that, based on the abstract, “the effects are quite remarkable, considering the therapeutic efficacy observed even at the low dose.
“Results from more patients are needed to fully validate these findings, but the results to date are very encouraging,” he said.
The study was sponsored by Leman Biotech. Dr. Chi had no disclosures to report.
“Our study showed a manageable safety profile in r/r DLBCL/B-ALL, with promising breakthrough efficacy of a 100% complete remission in all dose groups,” said first author Jingjing Ren, MD, PhD, associate director of research and development with Leman Biotech in Shenzhen, China. Dr. Ren presented these findings at the American Association for Cancer Research annual meeting held in San Diego.
While CD19 CAR T-cell therapy has been transformative in the treatment of relapsed B -cell hematological malignancies in recent years, more than half of patients relapse within a year because of inadequate CAR T persistence.
To address the problem, Dr. Ren and her colleagues developed a metabolically armed, interleukin (IL)-10-expressing CAR T-cell product called Meta10-19 for the treatment patients with r/r DLBCL or r/r B-ALL.
According to the authors, the IL-10-expressing CAR T-cells trigger “stem-like memory responses” in various lymphoid organs, which prompt a “robust tumor eradication and durable protection,” and hence, better persistence.
Preclinical studies in mice showed the Meta10-19 CAR T-cells exhibited substantially higher expansion of approximately 100-fold compared with a control CD19 CAR-T product.
Therefore, “we dramatically reduced the dose to approximately 1% to 5% of commercial products for the IL-10-expressing CD19 CAR-T for patients,” coauthor Yugang Guo, PhD, cofounder and president of Leman Biotech said in an interview.
For the ongoing, open-label clinical trial, 12 adult patients with r/r DLBCL or r/r B-ALL and confirmed CD19 expression at a hospital center in China were enrolled between December 2022 and November 2023 and treated in three cohorts, receiving doses that corresponded to 1%, 2.5%, or 5% of the doses of other commercialized CAR-T infusion products.
All patients also underwent lympho-depleting chemotherapy with cyclophosphamide and fludarabine prior to the CAR T-cell infusion.
Six patients had r/r DLBCL and the other six had r/r B-ALL; their median age was 47 and their median time since diagnosis was 1 year.
In the single-arm, intent-to-treat analysis, the treatment induced a complete remission in all 12 patients, as evaluated by PET-CT scan, nuclear magnetic resonance (NMR) spectroscopy, or minimal residual disease assessment of bone marrow.
The median time to best response was 1 month (range 0.5 to 2.2 months).
There were no cases of severe cytokine storm syndrome or neurotoxicity, which are among key limitations with current commercial CAR-T products.
All of the patients continued to have a complete remission at 3 months. Two of the 12 patients, both with B-ALL, experienced relapses, one after 4.7 months and the other at 8 months.
The authors reported that the first treated patient had maintained continuous remission as of 9 months.
In comparison with the much higher full doses of commercial CD19 CAR-T products, only about 50% of patients with DLBCL and 70% of B-ALL patients have been shown to achieve CR at 3 months, the authors reported.
“Our IL-10 expressing CAR-T sustains CR at 3 months post infusion in the context of not following allogeneic hematopoietic stem cell transplant, which suggests IL-10 expressing CAR-T is more resistant to relapse,” Dr. Guo said.
In terms of safety, six patients with DLBCL and four with B-ALL experienced grade 1 cytokine release syndrome (CRS), and two patients with B-ALL developed grade 2 CRS. There were no grade 3 or 4 CRS cases.
One patient with B-ALL developed grade 3 ICANS.
Grade 3-4 cytopenias occurred in most patients, but all were limited to no later than 90 days.
“We observed reduced CRS, with no level 3 or 4, or ICANS,” Dr. Guo said. “There was increased cytopenia, but still manageable, compared with commercial products.”
Of note, the Meta10-19 cells showed efficacy in the extremely low infusion doses even among patients with bulky mass (≥ 7.5 cm) of DLBCL, which is associated with an increased risk of relapse.
One patient had primary central nervous system lymphoma (PCNSL), a rare form of DLBCL that is known to have the worst prognosis of all non-Hodgkin lymphomas.
Due to the unique nature of CNS primary tumors, the CAR T-cell infusion dose was further reduced to 1% of the standard dose for the patient.
The patient maintained complete remission for more than 8 months before relapsing in periphery blood, but not in the CNS, Dr. Guo noted.
“Luckily, this relapse has been easily controlled by chemotherapy, and the patient is maintaining complete remission again now,” Dr. Guo said.
Mechanisms?
Dr. Guo noted that the mechanism believed to explain the improvements despite such low doses is that “IL-10-expressing CAR-T exhibits enhanced proliferation, cytotoxicity, and stem-like antitumor memory due to enhanced metabolic activities of oxidative phosphorylation.”
The authors noted that a key major factor limiting accessibility to CAR-T therapies is the lengthy production cycle and high costs; however, the “extremely low doses of 1% to 5% can significantly reduce the production cycle and cost of CAR T-cell therapies, increasing accessibility,” they wrote in a press statement.
Currently, more than 20 patients have achieved a CR overall, and studies with a larger cohort and longer follow-up are ongoing, Dr. Guo reported.
The research team plans to launch further clinical investigation this year into patients with solid tumors.
Commenting on the study, Hongbo Chi, PhD, the Robert G. Webster Endowed Chair in Immunology at St. Jude Children’s Research Hospital in Memphis, Tennessee, noted that, based on the abstract, “the effects are quite remarkable, considering the therapeutic efficacy observed even at the low dose.
“Results from more patients are needed to fully validate these findings, but the results to date are very encouraging,” he said.
The study was sponsored by Leman Biotech. Dr. Chi had no disclosures to report.
FROM AACR 2024
Most Targeted Cancer Drugs Lack Substantial Clinical Benefit
TOPLINE:
METHODOLOGY:
- The strength and quality of evidence supporting genome-targeted cancer drug approvals vary. A big reason is the growing number of cancer drug approvals based on surrogate endpoints, such as disease-free and progression-free survival, instead of clinical endpoints, such as overall survival or quality of life. The US Food and Drug Administration (FDA) has also approved genome-targeted cancer drugs based on phase 1 or single-arm trials.
- Given these less rigorous considerations for approval, “the validity and value of the targets and surrogate measures underlying FDA genome-targeted cancer drug approvals are uncertain,” the researchers explained.
- In the current analysis, researchers assessed the validity of the molecular targets as well as the clinical benefits of genome-targeted cancer drugs approved in the United States from 2015 to 2022 based on results from pivotal trials.
- The researchers evaluated the strength of evidence supporting molecular targetability using the European Society for Medical Oncology (ESMO) Scale for Clinical Actionability of Molecular Targets (ESCAT) and the clinical benefit using the ESMO–Magnitude of Clinical Benefit Scale (ESMO-MCBS).
- The authors defined a substantial clinical benefit as an A or B grade for curative intent and a 4 or 5 for noncurative intent. High-benefit genomic-based cancer treatments were defined as those associated with a substantial clinical benefit (ESMO-MCBS) and that qualified as ESCAT category level I-A (a clinical benefit based on prospective randomized data) or I-B (prospective nonrandomized data).
TAKEAWAY:
- The analyses focused on 50 molecular-targeted cancer drugs covering 84 indications. Of which, 45 indications (54%) were approved based on phase 1 or 2 pivotal trials, 45 (54%) were supported by single-arm pivotal trials and the remaining 39 (46%) by randomized trial, and 48 (57%) were approved based on subgroup analyses.
- Among the 84 indications, more than half (55%) of the pivotal trials supporting approval used overall response rate as a primary endpoint, 31% used progression-free survival, and 6% used disease-free survival. Only seven indications (8%) were supported by pivotal trials demonstrating an improvement in overall survival.
- Among the 84 trials, 24 (29%) met the ESMO-MCBS threshold for substantial clinical benefit.
- Overall, when combining all ratings, only 24 of the 84 indications (29%) were considered high-benefit genomic-based cancer treatments.
IN PRACTICE:
“We applied the ESMO-MCBS and ESCAT value frameworks to identify therapies and molecular targets providing high clinical value that should be widely available to patients” and “found that drug indications supported by these characteristics represent a minority of cancer drug approvals in recent years,” the authors said. Using these value frameworks could help payers, governments, and individual patients “prioritize the availability of high-value molecular-targeted therapies.”
SOURCE:
The study, with first author Ariadna Tibau, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in JAMA Oncology.
LIMITATIONS:
The study evaluated only trials that supported regulatory approval and did not include outcomes of postapproval clinical studies, which could lead to changes in ESMO-MCBS grades and ESCAT levels of evidence over time.
DISCLOSURES:
The study was funded by the Kaiser Permanente Institute for Health Policy, Arnold Ventures, and the Commonwealth Fund. The authors had no relevant disclosures.
A version of this article appeared on Medscape.com.
TOPLINE:
METHODOLOGY:
- The strength and quality of evidence supporting genome-targeted cancer drug approvals vary. A big reason is the growing number of cancer drug approvals based on surrogate endpoints, such as disease-free and progression-free survival, instead of clinical endpoints, such as overall survival or quality of life. The US Food and Drug Administration (FDA) has also approved genome-targeted cancer drugs based on phase 1 or single-arm trials.
- Given these less rigorous considerations for approval, “the validity and value of the targets and surrogate measures underlying FDA genome-targeted cancer drug approvals are uncertain,” the researchers explained.
- In the current analysis, researchers assessed the validity of the molecular targets as well as the clinical benefits of genome-targeted cancer drugs approved in the United States from 2015 to 2022 based on results from pivotal trials.
- The researchers evaluated the strength of evidence supporting molecular targetability using the European Society for Medical Oncology (ESMO) Scale for Clinical Actionability of Molecular Targets (ESCAT) and the clinical benefit using the ESMO–Magnitude of Clinical Benefit Scale (ESMO-MCBS).
- The authors defined a substantial clinical benefit as an A or B grade for curative intent and a 4 or 5 for noncurative intent. High-benefit genomic-based cancer treatments were defined as those associated with a substantial clinical benefit (ESMO-MCBS) and that qualified as ESCAT category level I-A (a clinical benefit based on prospective randomized data) or I-B (prospective nonrandomized data).
TAKEAWAY:
- The analyses focused on 50 molecular-targeted cancer drugs covering 84 indications. Of which, 45 indications (54%) were approved based on phase 1 or 2 pivotal trials, 45 (54%) were supported by single-arm pivotal trials and the remaining 39 (46%) by randomized trial, and 48 (57%) were approved based on subgroup analyses.
- Among the 84 indications, more than half (55%) of the pivotal trials supporting approval used overall response rate as a primary endpoint, 31% used progression-free survival, and 6% used disease-free survival. Only seven indications (8%) were supported by pivotal trials demonstrating an improvement in overall survival.
- Among the 84 trials, 24 (29%) met the ESMO-MCBS threshold for substantial clinical benefit.
- Overall, when combining all ratings, only 24 of the 84 indications (29%) were considered high-benefit genomic-based cancer treatments.
IN PRACTICE:
“We applied the ESMO-MCBS and ESCAT value frameworks to identify therapies and molecular targets providing high clinical value that should be widely available to patients” and “found that drug indications supported by these characteristics represent a minority of cancer drug approvals in recent years,” the authors said. Using these value frameworks could help payers, governments, and individual patients “prioritize the availability of high-value molecular-targeted therapies.”
SOURCE:
The study, with first author Ariadna Tibau, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in JAMA Oncology.
LIMITATIONS:
The study evaluated only trials that supported regulatory approval and did not include outcomes of postapproval clinical studies, which could lead to changes in ESMO-MCBS grades and ESCAT levels of evidence over time.
DISCLOSURES:
The study was funded by the Kaiser Permanente Institute for Health Policy, Arnold Ventures, and the Commonwealth Fund. The authors had no relevant disclosures.
A version of this article appeared on Medscape.com.
TOPLINE:
METHODOLOGY:
- The strength and quality of evidence supporting genome-targeted cancer drug approvals vary. A big reason is the growing number of cancer drug approvals based on surrogate endpoints, such as disease-free and progression-free survival, instead of clinical endpoints, such as overall survival or quality of life. The US Food and Drug Administration (FDA) has also approved genome-targeted cancer drugs based on phase 1 or single-arm trials.
- Given these less rigorous considerations for approval, “the validity and value of the targets and surrogate measures underlying FDA genome-targeted cancer drug approvals are uncertain,” the researchers explained.
- In the current analysis, researchers assessed the validity of the molecular targets as well as the clinical benefits of genome-targeted cancer drugs approved in the United States from 2015 to 2022 based on results from pivotal trials.
- The researchers evaluated the strength of evidence supporting molecular targetability using the European Society for Medical Oncology (ESMO) Scale for Clinical Actionability of Molecular Targets (ESCAT) and the clinical benefit using the ESMO–Magnitude of Clinical Benefit Scale (ESMO-MCBS).
- The authors defined a substantial clinical benefit as an A or B grade for curative intent and a 4 or 5 for noncurative intent. High-benefit genomic-based cancer treatments were defined as those associated with a substantial clinical benefit (ESMO-MCBS) and that qualified as ESCAT category level I-A (a clinical benefit based on prospective randomized data) or I-B (prospective nonrandomized data).
TAKEAWAY:
- The analyses focused on 50 molecular-targeted cancer drugs covering 84 indications. Of which, 45 indications (54%) were approved based on phase 1 or 2 pivotal trials, 45 (54%) were supported by single-arm pivotal trials and the remaining 39 (46%) by randomized trial, and 48 (57%) were approved based on subgroup analyses.
- Among the 84 indications, more than half (55%) of the pivotal trials supporting approval used overall response rate as a primary endpoint, 31% used progression-free survival, and 6% used disease-free survival. Only seven indications (8%) were supported by pivotal trials demonstrating an improvement in overall survival.
- Among the 84 trials, 24 (29%) met the ESMO-MCBS threshold for substantial clinical benefit.
- Overall, when combining all ratings, only 24 of the 84 indications (29%) were considered high-benefit genomic-based cancer treatments.
IN PRACTICE:
“We applied the ESMO-MCBS and ESCAT value frameworks to identify therapies and molecular targets providing high clinical value that should be widely available to patients” and “found that drug indications supported by these characteristics represent a minority of cancer drug approvals in recent years,” the authors said. Using these value frameworks could help payers, governments, and individual patients “prioritize the availability of high-value molecular-targeted therapies.”
SOURCE:
The study, with first author Ariadna Tibau, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, was published online in JAMA Oncology.
LIMITATIONS:
The study evaluated only trials that supported regulatory approval and did not include outcomes of postapproval clinical studies, which could lead to changes in ESMO-MCBS grades and ESCAT levels of evidence over time.
DISCLOSURES:
The study was funded by the Kaiser Permanente Institute for Health Policy, Arnold Ventures, and the Commonwealth Fund. The authors had no relevant disclosures.
A version of this article appeared on Medscape.com.
No Routine Cancer Screening Option? New MCED Tests May Help
Analyses presented during a session at the American Association for Cancer Research annual meeting, revealed that three new MCED tests — CanScan, MERCURY, and OncoSeek — could detect a range of cancers and recognize the tissue of origin with high accuracy. One — OncoSeek — could also provide an affordable cancer screening option for individuals living in lower-income countries.
The need for these noninvasive liquid biopsy tests that can accurately identify multiple cancer types with a single blood draw, especially cancers without routine screening strategies, is pressing. “We know that the current cancer standard of care screening will identify less than 50% of all cancers, while more than 50% of all cancer deaths occur in types of cancer with no recommended screening,” said co-moderator Marie E. Wood, MD, of the University of Colorado Anschutz Medical Campus, in Aurora, Colorado.
That being said, “the clinical utility of multicancer detection tests has not been established and we’re concerned about issues of overdiagnosis and overtreatment,” she noted.
The Early Data
One new MCED test called CanScan, developed by Geneseeq Technology, uses plasma cell-free DNA fragment patterns to detect cancer signals as well as identify the tissue of origin across 13 cancer types.
Overall, the CanScan test covers cancer types that contribute to two thirds of new cancer cases and 74% of morality globally, said presenter Shanshan Yang, of Geneseeq Research Institute, in Nanjing, China.
However, only five of these cancer types have screening recommendations issued by the US Preventive Services Task Force (USPSTF), Dr. Yang added.
The interim data comes from an ongoing large-scale prospective study evaluating the MCED test in a cohort of asymptomatic individuals between ages 45 and 75 years with an average risk for cancer and no cancer-related symptoms on enrollment.
Patients at baseline had their blood collected for the CanScan test and subsequently received annual routine physical exams once a year for 3 consecutive years, with an additional 2 years of follow-up.
The analysis included 3724 participants with analyzable samples at the data cutoff in September 2023. Among the 3724 participants, 29 had confirmed cancer diagnoses. Among these cases, 14 patients had their cancer confirmed through USPSTF recommended screening and 15 were detected through outside of standard USPSTF screening, such as a thyroid ultrasound, Dr. Yang explained.
Almost 90% of the cancers (26 of 29) were detected in the stage I or II, and eight (27.5%) were not one of the test’s 13 targeted cancer types.
The CanScan test had a sensitivity of 55.2%, identifying 16 of 29 of the patients with cancer, including 10 of 21 individuals with stage I (47.6%), and two of three with stage II (66.7%).
The test had a high specificity of 97.9%, meaning out of 100 people screened, only two had false negative findings.
Among the 15 patients who had their cancer detected outside of USPSTF screening recommendations, eight (53.3%) were found using a CanScan test, including patients with liver and endometrial cancers.
Compared with a positive predictive value of (PPV) of 1.6% with screening or physical exam methods alone, the CanScan test had a PPV of 17.4%, Dr. Yang reported.
“The MCED test holds significant potential for early cancer screening in asymptomatic populations,” Dr. Yang and colleagues concluded.
Another new MCED test called MERCURY, also developed by Geneseeq Technology and presented during the session, used a similar method to detect cancer signals and predict the tissue of origin across 13 cancer types.
The researchers initially validated the test using 3076 patients with cancer and 3477 healthy controls with a target specificity of 99%. In this group, researchers reported a sensitivity of 0.865 and a specificity of 0.989.
The team then performed an independent validation analysis with 1465 participants, 732 with cancer and 733 with no cancer, and confirmed a high sensitivity and specificity of 0.874 and 0.978, respectively. The sensitivity increased incrementally by cancer stage — 0.768 for stage I, 0.840 for stage II, 0.923 for stage III, and 0.971 for stage IV.
The test identified the tissue of origin with high accuracy, the researchers noted, but cautioned that the test needs “to be further validated in a prospective cohort study.”
MCED in Low-Income Settings
The session also featured findings on a new affordable MCED test called OncoSeek, which could provide greater access to cancer testing in low- and middle-income countries.
The OncoSeek algorithm identifies the presence of cancer using seven protein tumor markers alongside clinical information, such as gender and age. Like other tests, the test also predicts the possible tissue of origin.
The test can be run on clinical protein assay instruments that are already widely available, such as Roche cobas analyzer, Mao Mao, MD, PhD, the founder and CEO of SeekIn, of Shenzhen, China, told this news organization.
This “feature makes the test accessible worldwide, even in low- and middle-income countries,” he said. “These instruments are fully-automated and part of today’s clinical practice. Therefore, the test does not require additional infrastructure building and lab personal training.”
Another notable advantage: the OncoSeek test only costs about $20, compared with other MCED tests, which can cost anywhere from $200 to $1000.
To validate the technology in a large, diverse cohort, Dr. Mao and colleagues enrolled approximately 10,000 participants, including 2003 cancer cases and 7888 non-cancer cases.
Peripheral blood was collected from each participant and analyzed using a panel of the seven protein tumor markers — AFP, CA125, CA15-3, CA19-9, CA72-4, CEA, and CYFRA 21-1.
To reduce the risk for false positive findings, the team designed the OncoSeek algorithm to achieve a specificity of 93%. Dr. Mao and colleagues found a sensitivity of 51.7%, resulting in an overall accuracy of 84.6%.
The performance was consistent in additional validation cohorts in Brazil, China, and the United States, with sensitivities ranging from 39.0% to 77.6% for detecting nine common cancer types, including breast, colorectal, liver, lung, lymphoma, esophagus, ovary, pancreas, and stomach. The sensitivity for pancreatic cancer was at the high end of 77.6%.
The test could predict the tissue of origin in about two thirds of cases.
Given its low cost, OncoSeek represents an affordable and accessible option for cancer screening, the authors concluded.
Overall, “I think MCEDs have the potential to enhance cancer screening,” Dr. Wood told this news organization.
Still, questions remain about the optimal use of these tests, such as whether they are best for average-risk or higher risk populations, and how to integrate them into standard screening, she said.
Dr. Wood also cautioned that the studies presented in the session represent early data, and it is likely that the numbers, such as sensitivity and specificity, will change with further prospective analyses.
And ultimately, these tests should complement, not replace, standard screening. “A negative testing should not be taken as a sign to avoid standard screening,” Dr. Wood said.
Dr. Yang is an employee of Geneseeq Technology, Inc., and Dr. Mao is an employee of SeekIn. Dr. Wood had no disclosures to report.
A version of this article appeared on Medscape.com.
Analyses presented during a session at the American Association for Cancer Research annual meeting, revealed that three new MCED tests — CanScan, MERCURY, and OncoSeek — could detect a range of cancers and recognize the tissue of origin with high accuracy. One — OncoSeek — could also provide an affordable cancer screening option for individuals living in lower-income countries.
The need for these noninvasive liquid biopsy tests that can accurately identify multiple cancer types with a single blood draw, especially cancers without routine screening strategies, is pressing. “We know that the current cancer standard of care screening will identify less than 50% of all cancers, while more than 50% of all cancer deaths occur in types of cancer with no recommended screening,” said co-moderator Marie E. Wood, MD, of the University of Colorado Anschutz Medical Campus, in Aurora, Colorado.
That being said, “the clinical utility of multicancer detection tests has not been established and we’re concerned about issues of overdiagnosis and overtreatment,” she noted.
The Early Data
One new MCED test called CanScan, developed by Geneseeq Technology, uses plasma cell-free DNA fragment patterns to detect cancer signals as well as identify the tissue of origin across 13 cancer types.
Overall, the CanScan test covers cancer types that contribute to two thirds of new cancer cases and 74% of morality globally, said presenter Shanshan Yang, of Geneseeq Research Institute, in Nanjing, China.
However, only five of these cancer types have screening recommendations issued by the US Preventive Services Task Force (USPSTF), Dr. Yang added.
The interim data comes from an ongoing large-scale prospective study evaluating the MCED test in a cohort of asymptomatic individuals between ages 45 and 75 years with an average risk for cancer and no cancer-related symptoms on enrollment.
Patients at baseline had their blood collected for the CanScan test and subsequently received annual routine physical exams once a year for 3 consecutive years, with an additional 2 years of follow-up.
The analysis included 3724 participants with analyzable samples at the data cutoff in September 2023. Among the 3724 participants, 29 had confirmed cancer diagnoses. Among these cases, 14 patients had their cancer confirmed through USPSTF recommended screening and 15 were detected through outside of standard USPSTF screening, such as a thyroid ultrasound, Dr. Yang explained.
Almost 90% of the cancers (26 of 29) were detected in the stage I or II, and eight (27.5%) were not one of the test’s 13 targeted cancer types.
The CanScan test had a sensitivity of 55.2%, identifying 16 of 29 of the patients with cancer, including 10 of 21 individuals with stage I (47.6%), and two of three with stage II (66.7%).
The test had a high specificity of 97.9%, meaning out of 100 people screened, only two had false negative findings.
Among the 15 patients who had their cancer detected outside of USPSTF screening recommendations, eight (53.3%) were found using a CanScan test, including patients with liver and endometrial cancers.
Compared with a positive predictive value of (PPV) of 1.6% with screening or physical exam methods alone, the CanScan test had a PPV of 17.4%, Dr. Yang reported.
“The MCED test holds significant potential for early cancer screening in asymptomatic populations,” Dr. Yang and colleagues concluded.
Another new MCED test called MERCURY, also developed by Geneseeq Technology and presented during the session, used a similar method to detect cancer signals and predict the tissue of origin across 13 cancer types.
The researchers initially validated the test using 3076 patients with cancer and 3477 healthy controls with a target specificity of 99%. In this group, researchers reported a sensitivity of 0.865 and a specificity of 0.989.
The team then performed an independent validation analysis with 1465 participants, 732 with cancer and 733 with no cancer, and confirmed a high sensitivity and specificity of 0.874 and 0.978, respectively. The sensitivity increased incrementally by cancer stage — 0.768 for stage I, 0.840 for stage II, 0.923 for stage III, and 0.971 for stage IV.
The test identified the tissue of origin with high accuracy, the researchers noted, but cautioned that the test needs “to be further validated in a prospective cohort study.”
MCED in Low-Income Settings
The session also featured findings on a new affordable MCED test called OncoSeek, which could provide greater access to cancer testing in low- and middle-income countries.
The OncoSeek algorithm identifies the presence of cancer using seven protein tumor markers alongside clinical information, such as gender and age. Like other tests, the test also predicts the possible tissue of origin.
The test can be run on clinical protein assay instruments that are already widely available, such as Roche cobas analyzer, Mao Mao, MD, PhD, the founder and CEO of SeekIn, of Shenzhen, China, told this news organization.
This “feature makes the test accessible worldwide, even in low- and middle-income countries,” he said. “These instruments are fully-automated and part of today’s clinical practice. Therefore, the test does not require additional infrastructure building and lab personal training.”
Another notable advantage: the OncoSeek test only costs about $20, compared with other MCED tests, which can cost anywhere from $200 to $1000.
To validate the technology in a large, diverse cohort, Dr. Mao and colleagues enrolled approximately 10,000 participants, including 2003 cancer cases and 7888 non-cancer cases.
Peripheral blood was collected from each participant and analyzed using a panel of the seven protein tumor markers — AFP, CA125, CA15-3, CA19-9, CA72-4, CEA, and CYFRA 21-1.
To reduce the risk for false positive findings, the team designed the OncoSeek algorithm to achieve a specificity of 93%. Dr. Mao and colleagues found a sensitivity of 51.7%, resulting in an overall accuracy of 84.6%.
The performance was consistent in additional validation cohorts in Brazil, China, and the United States, with sensitivities ranging from 39.0% to 77.6% for detecting nine common cancer types, including breast, colorectal, liver, lung, lymphoma, esophagus, ovary, pancreas, and stomach. The sensitivity for pancreatic cancer was at the high end of 77.6%.
The test could predict the tissue of origin in about two thirds of cases.
Given its low cost, OncoSeek represents an affordable and accessible option for cancer screening, the authors concluded.
Overall, “I think MCEDs have the potential to enhance cancer screening,” Dr. Wood told this news organization.
Still, questions remain about the optimal use of these tests, such as whether they are best for average-risk or higher risk populations, and how to integrate them into standard screening, she said.
Dr. Wood also cautioned that the studies presented in the session represent early data, and it is likely that the numbers, such as sensitivity and specificity, will change with further prospective analyses.
And ultimately, these tests should complement, not replace, standard screening. “A negative testing should not be taken as a sign to avoid standard screening,” Dr. Wood said.
Dr. Yang is an employee of Geneseeq Technology, Inc., and Dr. Mao is an employee of SeekIn. Dr. Wood had no disclosures to report.
A version of this article appeared on Medscape.com.
Analyses presented during a session at the American Association for Cancer Research annual meeting, revealed that three new MCED tests — CanScan, MERCURY, and OncoSeek — could detect a range of cancers and recognize the tissue of origin with high accuracy. One — OncoSeek — could also provide an affordable cancer screening option for individuals living in lower-income countries.
The need for these noninvasive liquid biopsy tests that can accurately identify multiple cancer types with a single blood draw, especially cancers without routine screening strategies, is pressing. “We know that the current cancer standard of care screening will identify less than 50% of all cancers, while more than 50% of all cancer deaths occur in types of cancer with no recommended screening,” said co-moderator Marie E. Wood, MD, of the University of Colorado Anschutz Medical Campus, in Aurora, Colorado.
That being said, “the clinical utility of multicancer detection tests has not been established and we’re concerned about issues of overdiagnosis and overtreatment,” she noted.
The Early Data
One new MCED test called CanScan, developed by Geneseeq Technology, uses plasma cell-free DNA fragment patterns to detect cancer signals as well as identify the tissue of origin across 13 cancer types.
Overall, the CanScan test covers cancer types that contribute to two thirds of new cancer cases and 74% of morality globally, said presenter Shanshan Yang, of Geneseeq Research Institute, in Nanjing, China.
However, only five of these cancer types have screening recommendations issued by the US Preventive Services Task Force (USPSTF), Dr. Yang added.
The interim data comes from an ongoing large-scale prospective study evaluating the MCED test in a cohort of asymptomatic individuals between ages 45 and 75 years with an average risk for cancer and no cancer-related symptoms on enrollment.
Patients at baseline had their blood collected for the CanScan test and subsequently received annual routine physical exams once a year for 3 consecutive years, with an additional 2 years of follow-up.
The analysis included 3724 participants with analyzable samples at the data cutoff in September 2023. Among the 3724 participants, 29 had confirmed cancer diagnoses. Among these cases, 14 patients had their cancer confirmed through USPSTF recommended screening and 15 were detected through outside of standard USPSTF screening, such as a thyroid ultrasound, Dr. Yang explained.
Almost 90% of the cancers (26 of 29) were detected in the stage I or II, and eight (27.5%) were not one of the test’s 13 targeted cancer types.
The CanScan test had a sensitivity of 55.2%, identifying 16 of 29 of the patients with cancer, including 10 of 21 individuals with stage I (47.6%), and two of three with stage II (66.7%).
The test had a high specificity of 97.9%, meaning out of 100 people screened, only two had false negative findings.
Among the 15 patients who had their cancer detected outside of USPSTF screening recommendations, eight (53.3%) were found using a CanScan test, including patients with liver and endometrial cancers.
Compared with a positive predictive value of (PPV) of 1.6% with screening or physical exam methods alone, the CanScan test had a PPV of 17.4%, Dr. Yang reported.
“The MCED test holds significant potential for early cancer screening in asymptomatic populations,” Dr. Yang and colleagues concluded.
Another new MCED test called MERCURY, also developed by Geneseeq Technology and presented during the session, used a similar method to detect cancer signals and predict the tissue of origin across 13 cancer types.
The researchers initially validated the test using 3076 patients with cancer and 3477 healthy controls with a target specificity of 99%. In this group, researchers reported a sensitivity of 0.865 and a specificity of 0.989.
The team then performed an independent validation analysis with 1465 participants, 732 with cancer and 733 with no cancer, and confirmed a high sensitivity and specificity of 0.874 and 0.978, respectively. The sensitivity increased incrementally by cancer stage — 0.768 for stage I, 0.840 for stage II, 0.923 for stage III, and 0.971 for stage IV.
The test identified the tissue of origin with high accuracy, the researchers noted, but cautioned that the test needs “to be further validated in a prospective cohort study.”
MCED in Low-Income Settings
The session also featured findings on a new affordable MCED test called OncoSeek, which could provide greater access to cancer testing in low- and middle-income countries.
The OncoSeek algorithm identifies the presence of cancer using seven protein tumor markers alongside clinical information, such as gender and age. Like other tests, the test also predicts the possible tissue of origin.
The test can be run on clinical protein assay instruments that are already widely available, such as Roche cobas analyzer, Mao Mao, MD, PhD, the founder and CEO of SeekIn, of Shenzhen, China, told this news organization.
This “feature makes the test accessible worldwide, even in low- and middle-income countries,” he said. “These instruments are fully-automated and part of today’s clinical practice. Therefore, the test does not require additional infrastructure building and lab personal training.”
Another notable advantage: the OncoSeek test only costs about $20, compared with other MCED tests, which can cost anywhere from $200 to $1000.
To validate the technology in a large, diverse cohort, Dr. Mao and colleagues enrolled approximately 10,000 participants, including 2003 cancer cases and 7888 non-cancer cases.
Peripheral blood was collected from each participant and analyzed using a panel of the seven protein tumor markers — AFP, CA125, CA15-3, CA19-9, CA72-4, CEA, and CYFRA 21-1.
To reduce the risk for false positive findings, the team designed the OncoSeek algorithm to achieve a specificity of 93%. Dr. Mao and colleagues found a sensitivity of 51.7%, resulting in an overall accuracy of 84.6%.
The performance was consistent in additional validation cohorts in Brazil, China, and the United States, with sensitivities ranging from 39.0% to 77.6% for detecting nine common cancer types, including breast, colorectal, liver, lung, lymphoma, esophagus, ovary, pancreas, and stomach. The sensitivity for pancreatic cancer was at the high end of 77.6%.
The test could predict the tissue of origin in about two thirds of cases.
Given its low cost, OncoSeek represents an affordable and accessible option for cancer screening, the authors concluded.
Overall, “I think MCEDs have the potential to enhance cancer screening,” Dr. Wood told this news organization.
Still, questions remain about the optimal use of these tests, such as whether they are best for average-risk or higher risk populations, and how to integrate them into standard screening, she said.
Dr. Wood also cautioned that the studies presented in the session represent early data, and it is likely that the numbers, such as sensitivity and specificity, will change with further prospective analyses.
And ultimately, these tests should complement, not replace, standard screening. “A negative testing should not be taken as a sign to avoid standard screening,” Dr. Wood said.
Dr. Yang is an employee of Geneseeq Technology, Inc., and Dr. Mao is an employee of SeekIn. Dr. Wood had no disclosures to report.
A version of this article appeared on Medscape.com.
Oncologists Voice Ethical Concerns Over AI in Cancer Care
TOPLINE:
Most respondents, for instance, said patients should not be expected to understand how AI tools work, but many also felt patients could make treatment decisions based on AI-generated recommendations. Most oncologists also felt responsible for protecting patients from biased AI, but few were confident that they could do so.
METHODOLOGY:
- The US Food and Drug Administration (FDA) has for use in various medical specialties over the past few decades, and increasingly, AI tools are being integrated into cancer care.
- However, the uptake of these tools in oncology has raised ethical questions and concerns, including challenges with AI bias, error, or misuse, as well as issues explaining how an AI model reached a result.
- In the current study, researchers asked 204 oncologists from 37 states for their views on the ethical implications of using AI for cancer care.
- Among the survey respondents, 64% were men and 63% were non-Hispanic White; 29% were from academic practices, 47% had received some education on AI use in healthcare, and 45% were familiar with clinical decision models.
- The researchers assessed respondents’ answers to various questions, including whether to provide informed consent for AI use and how oncologists would approach a scenario where the AI model and the oncologist recommended a different treatment regimen.
TAKEAWAY:
- Overall, 81% of oncologists supported having patient consent to use an AI model during treatment decisions, and 85% felt that oncologists needed to be able to explain an AI-based clinical decision model to use it in the clinic; however, only 23% felt that patients also needed to be able to explain an AI model.
- When an AI decision model recommended a different treatment regimen than the treating oncologist, the most common response (36.8%) was to present both options to the patient and let the patient decide. Oncologists from academic settings were about 2.5 times more likely than those from other settings to let the patient decide. About 34% of respondents said they would present both options but recommend the oncologist’s regimen, whereas about 22% said they would present both but recommend the AI’s regimen. A small percentage would only present the oncologist’s regimen (5%) or the AI’s regimen (about 2.5%).
- About three of four respondents (76.5%) agreed that oncologists should protect patients from biased AI tools; however, only about one of four (27.9%) felt confident they could identify biased AI models.
- Most oncologists (91%) felt that AI developers were responsible for the medico-legal problems associated with AI use; less than half (47%) said oncologists or hospitals (43%) shared this responsibility.
IN PRACTICE:
“Together, these data characterize barriers that may impede the ethical adoption of AI into cancer care. The findings suggest that the implementation of AI in oncology must include rigorous assessments of its effect on care decisions, as well as decisional responsibility when problems related to AI use arise,” the authors concluded.
SOURCE:
The study, with first author Andrew Hantel, MD, from Dana-Farber Cancer Institute, Boston, was published last month in JAMA Network Open.
LIMITATIONS:
The study had a moderate sample size and response rate, although demographics of participating oncologists appear to be nationally representative. The cross-sectional study design limited the generalizability of the findings over time as AI is integrated into cancer care.
DISCLOSURES:
The study was funded by the National Cancer Institute, the Dana-Farber McGraw/Patterson Research Fund, and the Mark Foundation Emerging Leader Award. Dr. Hantel reported receiving personal fees from AbbVie, AstraZeneca, the American Journal of Managed Care, Genentech, and GSK.
A version of this article appeared on Medscape.com.
TOPLINE:
Most respondents, for instance, said patients should not be expected to understand how AI tools work, but many also felt patients could make treatment decisions based on AI-generated recommendations. Most oncologists also felt responsible for protecting patients from biased AI, but few were confident that they could do so.
METHODOLOGY:
- The US Food and Drug Administration (FDA) has for use in various medical specialties over the past few decades, and increasingly, AI tools are being integrated into cancer care.
- However, the uptake of these tools in oncology has raised ethical questions and concerns, including challenges with AI bias, error, or misuse, as well as issues explaining how an AI model reached a result.
- In the current study, researchers asked 204 oncologists from 37 states for their views on the ethical implications of using AI for cancer care.
- Among the survey respondents, 64% were men and 63% were non-Hispanic White; 29% were from academic practices, 47% had received some education on AI use in healthcare, and 45% were familiar with clinical decision models.
- The researchers assessed respondents’ answers to various questions, including whether to provide informed consent for AI use and how oncologists would approach a scenario where the AI model and the oncologist recommended a different treatment regimen.
TAKEAWAY:
- Overall, 81% of oncologists supported having patient consent to use an AI model during treatment decisions, and 85% felt that oncologists needed to be able to explain an AI-based clinical decision model to use it in the clinic; however, only 23% felt that patients also needed to be able to explain an AI model.
- When an AI decision model recommended a different treatment regimen than the treating oncologist, the most common response (36.8%) was to present both options to the patient and let the patient decide. Oncologists from academic settings were about 2.5 times more likely than those from other settings to let the patient decide. About 34% of respondents said they would present both options but recommend the oncologist’s regimen, whereas about 22% said they would present both but recommend the AI’s regimen. A small percentage would only present the oncologist’s regimen (5%) or the AI’s regimen (about 2.5%).
- About three of four respondents (76.5%) agreed that oncologists should protect patients from biased AI tools; however, only about one of four (27.9%) felt confident they could identify biased AI models.
- Most oncologists (91%) felt that AI developers were responsible for the medico-legal problems associated with AI use; less than half (47%) said oncologists or hospitals (43%) shared this responsibility.
IN PRACTICE:
“Together, these data characterize barriers that may impede the ethical adoption of AI into cancer care. The findings suggest that the implementation of AI in oncology must include rigorous assessments of its effect on care decisions, as well as decisional responsibility when problems related to AI use arise,” the authors concluded.
SOURCE:
The study, with first author Andrew Hantel, MD, from Dana-Farber Cancer Institute, Boston, was published last month in JAMA Network Open.
LIMITATIONS:
The study had a moderate sample size and response rate, although demographics of participating oncologists appear to be nationally representative. The cross-sectional study design limited the generalizability of the findings over time as AI is integrated into cancer care.
DISCLOSURES:
The study was funded by the National Cancer Institute, the Dana-Farber McGraw/Patterson Research Fund, and the Mark Foundation Emerging Leader Award. Dr. Hantel reported receiving personal fees from AbbVie, AstraZeneca, the American Journal of Managed Care, Genentech, and GSK.
A version of this article appeared on Medscape.com.
TOPLINE:
Most respondents, for instance, said patients should not be expected to understand how AI tools work, but many also felt patients could make treatment decisions based on AI-generated recommendations. Most oncologists also felt responsible for protecting patients from biased AI, but few were confident that they could do so.
METHODOLOGY:
- The US Food and Drug Administration (FDA) has for use in various medical specialties over the past few decades, and increasingly, AI tools are being integrated into cancer care.
- However, the uptake of these tools in oncology has raised ethical questions and concerns, including challenges with AI bias, error, or misuse, as well as issues explaining how an AI model reached a result.
- In the current study, researchers asked 204 oncologists from 37 states for their views on the ethical implications of using AI for cancer care.
- Among the survey respondents, 64% were men and 63% were non-Hispanic White; 29% were from academic practices, 47% had received some education on AI use in healthcare, and 45% were familiar with clinical decision models.
- The researchers assessed respondents’ answers to various questions, including whether to provide informed consent for AI use and how oncologists would approach a scenario where the AI model and the oncologist recommended a different treatment regimen.
TAKEAWAY:
- Overall, 81% of oncologists supported having patient consent to use an AI model during treatment decisions, and 85% felt that oncologists needed to be able to explain an AI-based clinical decision model to use it in the clinic; however, only 23% felt that patients also needed to be able to explain an AI model.
- When an AI decision model recommended a different treatment regimen than the treating oncologist, the most common response (36.8%) was to present both options to the patient and let the patient decide. Oncologists from academic settings were about 2.5 times more likely than those from other settings to let the patient decide. About 34% of respondents said they would present both options but recommend the oncologist’s regimen, whereas about 22% said they would present both but recommend the AI’s regimen. A small percentage would only present the oncologist’s regimen (5%) or the AI’s regimen (about 2.5%).
- About three of four respondents (76.5%) agreed that oncologists should protect patients from biased AI tools; however, only about one of four (27.9%) felt confident they could identify biased AI models.
- Most oncologists (91%) felt that AI developers were responsible for the medico-legal problems associated with AI use; less than half (47%) said oncologists or hospitals (43%) shared this responsibility.
IN PRACTICE:
“Together, these data characterize barriers that may impede the ethical adoption of AI into cancer care. The findings suggest that the implementation of AI in oncology must include rigorous assessments of its effect on care decisions, as well as decisional responsibility when problems related to AI use arise,” the authors concluded.
SOURCE:
The study, with first author Andrew Hantel, MD, from Dana-Farber Cancer Institute, Boston, was published last month in JAMA Network Open.
LIMITATIONS:
The study had a moderate sample size and response rate, although demographics of participating oncologists appear to be nationally representative. The cross-sectional study design limited the generalizability of the findings over time as AI is integrated into cancer care.
DISCLOSURES:
The study was funded by the National Cancer Institute, the Dana-Farber McGraw/Patterson Research Fund, and the Mark Foundation Emerging Leader Award. Dr. Hantel reported receiving personal fees from AbbVie, AstraZeneca, the American Journal of Managed Care, Genentech, and GSK.
A version of this article appeared on Medscape.com.
ALL: Which Life-Saving Tx Is Best?
The comparative benefits and limitations of these two treatments for r/r ALL were a topic for discussion at the Great Debates & Updates Hematological Malignancies conference, held April 5-6 in New York City.
“Every single patient with ALL should benefit from bispecific antibodies before getting CAR-T cells, and I want to make the case that everybody should get CAR T as well. But they should get blinatumomab before they get CAR T,” said Elias Jabbour, MD, of the MD Anderson Cancer Center at The University of Texas in Houston, whose presentation focused on the merits of bispecific antibodies.
His argument was based on data indicating that patients have better chances of long-term remission with the use of bispecific antibodies when they are administered in an earlier round of salvage treatment — and the fact that patients who are not cured with these drugs can still achieve a lower disease burden and perform better on CAR T-cell therapy than those who don’t receive the drugs.
“When blinatumomab is used as a consolidation during the first salvage treatment and spaces out transplantation, 3-year overall survival increases in the relapse setting, deepening responses and reducing the rate of VOD (veno-occlusive disease). The safety and efficacy of CAR T depends on a disease burden. If you have a minimal residual disease (MRD), you have a safer outcome and a better outcome in the long run,” Dr. Jabbour explained.
This point of view is supported by data from the treatment of patients r/r ALL with low intensity chemotherapy + inotuzumab ozogamicin (Besponsa; Pfizer) +/- blinatumomab (Blincyto; Amgen), knows as Mini-HCVD + Ino +/-Blina. Trial members achieved a median overall survival (OS) rate of 17 months, a 3-year survival rate of 42%, and an overall MRD negativity rate of 85%.
Dr. Jabbour noted that blinatumomab has its limitations. Generally, this treatment is administered intravenously every few weeks and can be cumbersome for patients who must travel to an infusion center. However, data from a phase 1b trial of single agent subcutaneous blinatumomab for advanced ALL has demonstrated that this formulation can be effective and can lead to MRD negativity, possibly paving the way for easier administration of the drug.
Aditi Shastri, MD, a leukemia specialist at New York’s Montefiore Medical Center who attended the debate, agreed that the data presented did support Dr. Jabbour’s contention that subcutaneous blinatumomab could make treatment available to even more people with r/r ALL. “It’s easier to administer than the blina pump and could act as a bridge to curative therapies like AlloHSCT,” she said.
Jae Park, MD, a leukemia and cellular therapy specialist at Memorial Sloan Kettering Cancer Center in New York City, argued that CAR T is the most potent therapy for r/r ALL. Dr. Park agreed that inotuzumab and blinatumomab have yielded tremendous progress in the treatment of patients with r/r ALL, but he noted that bispecific antibodies lack some of the advantages of CAR T.
Dr. Park said that the biggest difference between the two therapies is that CAR T requires but a single infusion of a living drug. Patients do need to stay close to treatment centers to receive treatment for toxicities, but after about 28 days, they can go home and be monitored from a distance. Furthermore, patients may start by receiving 1 million T-cells, but those cells exponentially expand 100,000- to 1,000,000-fold, meaning that the T-cells to treat cancer have the potential to persist for months and sometimes years.
Furthermore, results from ZUMA-3 Trial of the CD19-targeting CAR T-Cell therapy brexucabtagene autoleucel (Tecartus; Kite Pharma) suggest that CAR T outperforms Mini-HCVD + Ino +/-Blina in patients with r/r ALL. Participants in the trial showed an overall response rate around 80%, a 71% complete response rate, and a median OS of 25.4 months. Patients who achieved a complete response had an even better median OS of 47 months. Although this was not a head-to-head trial with Mini-HCVD + Ino +/-Blina, if the plateau of long-term survivors continues, “this drug could be set apart from treatment with monoclonal antibodies,” Dr. Park said.
However, brexucabtagene autoleucel is not a cure or even an option for all patients. Some patients are too frail to get the drug, and they risk experiencing cytokine release syndrome (CRS). Data from the FELIX study suggest that the CAR T-cell treatment Obe-cel could offer a safety profile that reduces the risk of serious side effects while remaining effective at treating r/r ALL. Obe-cel showed efficacy very similar to that of brexucabtagene autoleucel, with a 70%-80% response rate, and only 2% of patients experienced CRS.
Dr. Park noted that the next frontier in CAR T-cell therapy is figuring out which patients will respond well to CAR T and which are going to need more treatment after CAR T. However, he noted that evidence suggests patients with low MRD are likely to do best on CAR T and that bispecific antibodies can help patients get to what might be the best chance at a cure for r/r ALL, namely CAR-T.
The moderator of the debate, Jessica Altman, MD, professor of medicine, hematology oncology division, Feinberg School of Medicine at Northwestern University in Chicago, noted: “My take home is that antibody therapy and CAR-T will be sequenced and used together.” She noted that blinatumomab is moving into the front line of therapy, as in the E1910 trials, and how this treatment allows for study and use of CAR T earlier in the care of patients “when there may be less toxicity and higher response.”
Jabbour concluded on a similar note, adding that the “cure for this disease will happen in our lifetime. We will shorten therapy by doing immunotherapy upfront followed by CAR T consolidation and no more transplantation. I don’t think antibodies immunotherapies or CAR T need be competitive, they can be used in a complimentary fashion.”
Jabbour reported no financial disclosures. Park disclosed ties with Allogene, Artiva Biotherapeutics, Amgen, Affyimmune, BeBiopharma, Beigene, Bright Pharmaceuticals, Autolus, Caribou Biosciences, Galapagos, Kite, Medpace, Minerva Biotechnologies, Pfizer, Servier, Sobi, and Takeda. Neither Altman nor Shastri reported any disclosures.
The comparative benefits and limitations of these two treatments for r/r ALL were a topic for discussion at the Great Debates & Updates Hematological Malignancies conference, held April 5-6 in New York City.
“Every single patient with ALL should benefit from bispecific antibodies before getting CAR-T cells, and I want to make the case that everybody should get CAR T as well. But they should get blinatumomab before they get CAR T,” said Elias Jabbour, MD, of the MD Anderson Cancer Center at The University of Texas in Houston, whose presentation focused on the merits of bispecific antibodies.
His argument was based on data indicating that patients have better chances of long-term remission with the use of bispecific antibodies when they are administered in an earlier round of salvage treatment — and the fact that patients who are not cured with these drugs can still achieve a lower disease burden and perform better on CAR T-cell therapy than those who don’t receive the drugs.
“When blinatumomab is used as a consolidation during the first salvage treatment and spaces out transplantation, 3-year overall survival increases in the relapse setting, deepening responses and reducing the rate of VOD (veno-occlusive disease). The safety and efficacy of CAR T depends on a disease burden. If you have a minimal residual disease (MRD), you have a safer outcome and a better outcome in the long run,” Dr. Jabbour explained.
This point of view is supported by data from the treatment of patients r/r ALL with low intensity chemotherapy + inotuzumab ozogamicin (Besponsa; Pfizer) +/- blinatumomab (Blincyto; Amgen), knows as Mini-HCVD + Ino +/-Blina. Trial members achieved a median overall survival (OS) rate of 17 months, a 3-year survival rate of 42%, and an overall MRD negativity rate of 85%.
Dr. Jabbour noted that blinatumomab has its limitations. Generally, this treatment is administered intravenously every few weeks and can be cumbersome for patients who must travel to an infusion center. However, data from a phase 1b trial of single agent subcutaneous blinatumomab for advanced ALL has demonstrated that this formulation can be effective and can lead to MRD negativity, possibly paving the way for easier administration of the drug.
Aditi Shastri, MD, a leukemia specialist at New York’s Montefiore Medical Center who attended the debate, agreed that the data presented did support Dr. Jabbour’s contention that subcutaneous blinatumomab could make treatment available to even more people with r/r ALL. “It’s easier to administer than the blina pump and could act as a bridge to curative therapies like AlloHSCT,” she said.
Jae Park, MD, a leukemia and cellular therapy specialist at Memorial Sloan Kettering Cancer Center in New York City, argued that CAR T is the most potent therapy for r/r ALL. Dr. Park agreed that inotuzumab and blinatumomab have yielded tremendous progress in the treatment of patients with r/r ALL, but he noted that bispecific antibodies lack some of the advantages of CAR T.
Dr. Park said that the biggest difference between the two therapies is that CAR T requires but a single infusion of a living drug. Patients do need to stay close to treatment centers to receive treatment for toxicities, but after about 28 days, they can go home and be monitored from a distance. Furthermore, patients may start by receiving 1 million T-cells, but those cells exponentially expand 100,000- to 1,000,000-fold, meaning that the T-cells to treat cancer have the potential to persist for months and sometimes years.
Furthermore, results from ZUMA-3 Trial of the CD19-targeting CAR T-Cell therapy brexucabtagene autoleucel (Tecartus; Kite Pharma) suggest that CAR T outperforms Mini-HCVD + Ino +/-Blina in patients with r/r ALL. Participants in the trial showed an overall response rate around 80%, a 71% complete response rate, and a median OS of 25.4 months. Patients who achieved a complete response had an even better median OS of 47 months. Although this was not a head-to-head trial with Mini-HCVD + Ino +/-Blina, if the plateau of long-term survivors continues, “this drug could be set apart from treatment with monoclonal antibodies,” Dr. Park said.
However, brexucabtagene autoleucel is not a cure or even an option for all patients. Some patients are too frail to get the drug, and they risk experiencing cytokine release syndrome (CRS). Data from the FELIX study suggest that the CAR T-cell treatment Obe-cel could offer a safety profile that reduces the risk of serious side effects while remaining effective at treating r/r ALL. Obe-cel showed efficacy very similar to that of brexucabtagene autoleucel, with a 70%-80% response rate, and only 2% of patients experienced CRS.
Dr. Park noted that the next frontier in CAR T-cell therapy is figuring out which patients will respond well to CAR T and which are going to need more treatment after CAR T. However, he noted that evidence suggests patients with low MRD are likely to do best on CAR T and that bispecific antibodies can help patients get to what might be the best chance at a cure for r/r ALL, namely CAR-T.
The moderator of the debate, Jessica Altman, MD, professor of medicine, hematology oncology division, Feinberg School of Medicine at Northwestern University in Chicago, noted: “My take home is that antibody therapy and CAR-T will be sequenced and used together.” She noted that blinatumomab is moving into the front line of therapy, as in the E1910 trials, and how this treatment allows for study and use of CAR T earlier in the care of patients “when there may be less toxicity and higher response.”
Jabbour concluded on a similar note, adding that the “cure for this disease will happen in our lifetime. We will shorten therapy by doing immunotherapy upfront followed by CAR T consolidation and no more transplantation. I don’t think antibodies immunotherapies or CAR T need be competitive, they can be used in a complimentary fashion.”
Jabbour reported no financial disclosures. Park disclosed ties with Allogene, Artiva Biotherapeutics, Amgen, Affyimmune, BeBiopharma, Beigene, Bright Pharmaceuticals, Autolus, Caribou Biosciences, Galapagos, Kite, Medpace, Minerva Biotechnologies, Pfizer, Servier, Sobi, and Takeda. Neither Altman nor Shastri reported any disclosures.
The comparative benefits and limitations of these two treatments for r/r ALL were a topic for discussion at the Great Debates & Updates Hematological Malignancies conference, held April 5-6 in New York City.
“Every single patient with ALL should benefit from bispecific antibodies before getting CAR-T cells, and I want to make the case that everybody should get CAR T as well. But they should get blinatumomab before they get CAR T,” said Elias Jabbour, MD, of the MD Anderson Cancer Center at The University of Texas in Houston, whose presentation focused on the merits of bispecific antibodies.
His argument was based on data indicating that patients have better chances of long-term remission with the use of bispecific antibodies when they are administered in an earlier round of salvage treatment — and the fact that patients who are not cured with these drugs can still achieve a lower disease burden and perform better on CAR T-cell therapy than those who don’t receive the drugs.
“When blinatumomab is used as a consolidation during the first salvage treatment and spaces out transplantation, 3-year overall survival increases in the relapse setting, deepening responses and reducing the rate of VOD (veno-occlusive disease). The safety and efficacy of CAR T depends on a disease burden. If you have a minimal residual disease (MRD), you have a safer outcome and a better outcome in the long run,” Dr. Jabbour explained.
This point of view is supported by data from the treatment of patients r/r ALL with low intensity chemotherapy + inotuzumab ozogamicin (Besponsa; Pfizer) +/- blinatumomab (Blincyto; Amgen), knows as Mini-HCVD + Ino +/-Blina. Trial members achieved a median overall survival (OS) rate of 17 months, a 3-year survival rate of 42%, and an overall MRD negativity rate of 85%.
Dr. Jabbour noted that blinatumomab has its limitations. Generally, this treatment is administered intravenously every few weeks and can be cumbersome for patients who must travel to an infusion center. However, data from a phase 1b trial of single agent subcutaneous blinatumomab for advanced ALL has demonstrated that this formulation can be effective and can lead to MRD negativity, possibly paving the way for easier administration of the drug.
Aditi Shastri, MD, a leukemia specialist at New York’s Montefiore Medical Center who attended the debate, agreed that the data presented did support Dr. Jabbour’s contention that subcutaneous blinatumomab could make treatment available to even more people with r/r ALL. “It’s easier to administer than the blina pump and could act as a bridge to curative therapies like AlloHSCT,” she said.
Jae Park, MD, a leukemia and cellular therapy specialist at Memorial Sloan Kettering Cancer Center in New York City, argued that CAR T is the most potent therapy for r/r ALL. Dr. Park agreed that inotuzumab and blinatumomab have yielded tremendous progress in the treatment of patients with r/r ALL, but he noted that bispecific antibodies lack some of the advantages of CAR T.
Dr. Park said that the biggest difference between the two therapies is that CAR T requires but a single infusion of a living drug. Patients do need to stay close to treatment centers to receive treatment for toxicities, but after about 28 days, they can go home and be monitored from a distance. Furthermore, patients may start by receiving 1 million T-cells, but those cells exponentially expand 100,000- to 1,000,000-fold, meaning that the T-cells to treat cancer have the potential to persist for months and sometimes years.
Furthermore, results from ZUMA-3 Trial of the CD19-targeting CAR T-Cell therapy brexucabtagene autoleucel (Tecartus; Kite Pharma) suggest that CAR T outperforms Mini-HCVD + Ino +/-Blina in patients with r/r ALL. Participants in the trial showed an overall response rate around 80%, a 71% complete response rate, and a median OS of 25.4 months. Patients who achieved a complete response had an even better median OS of 47 months. Although this was not a head-to-head trial with Mini-HCVD + Ino +/-Blina, if the plateau of long-term survivors continues, “this drug could be set apart from treatment with monoclonal antibodies,” Dr. Park said.
However, brexucabtagene autoleucel is not a cure or even an option for all patients. Some patients are too frail to get the drug, and they risk experiencing cytokine release syndrome (CRS). Data from the FELIX study suggest that the CAR T-cell treatment Obe-cel could offer a safety profile that reduces the risk of serious side effects while remaining effective at treating r/r ALL. Obe-cel showed efficacy very similar to that of brexucabtagene autoleucel, with a 70%-80% response rate, and only 2% of patients experienced CRS.
Dr. Park noted that the next frontier in CAR T-cell therapy is figuring out which patients will respond well to CAR T and which are going to need more treatment after CAR T. However, he noted that evidence suggests patients with low MRD are likely to do best on CAR T and that bispecific antibodies can help patients get to what might be the best chance at a cure for r/r ALL, namely CAR-T.
The moderator of the debate, Jessica Altman, MD, professor of medicine, hematology oncology division, Feinberg School of Medicine at Northwestern University in Chicago, noted: “My take home is that antibody therapy and CAR-T will be sequenced and used together.” She noted that blinatumomab is moving into the front line of therapy, as in the E1910 trials, and how this treatment allows for study and use of CAR T earlier in the care of patients “when there may be less toxicity and higher response.”
Jabbour concluded on a similar note, adding that the “cure for this disease will happen in our lifetime. We will shorten therapy by doing immunotherapy upfront followed by CAR T consolidation and no more transplantation. I don’t think antibodies immunotherapies or CAR T need be competitive, they can be used in a complimentary fashion.”
Jabbour reported no financial disclosures. Park disclosed ties with Allogene, Artiva Biotherapeutics, Amgen, Affyimmune, BeBiopharma, Beigene, Bright Pharmaceuticals, Autolus, Caribou Biosciences, Galapagos, Kite, Medpace, Minerva Biotechnologies, Pfizer, Servier, Sobi, and Takeda. Neither Altman nor Shastri reported any disclosures.
FROM GREAT DEBATES & UPDATES HEMATOLOGIC MALIGNANCIES
Less Than 50% of Accelerated Approvals Show Clinical Benefit
despite being on the US market for more than 5 years, according to a new study.
Under the program, drugs are approved for marketing if they show benefit in surrogate markers thought to indicate efficacy. Progression-free survival, tumor response, and duration of response are the most used surrogate markers for accelerated approvals of cancer drugs. These are based largely on imaging studies that show either a stop in growth in the case of progression-free survival or tumor shrinkage in the case of tumor response.
Following accelerated approvals, companies are then supposed to show actual clinical benefit in confirmatory trials.
The problem with relying on surrogate markers for drug approvals is that they don’t always correlate with longer survival or improved quality of life, said Edward Cliff, MBBS, who presented the findings at the American Association for Cancer Research 2024 annual meeting (abstract 918). The study was also published in JAMA to coincide with the meeting presentation.
In some cancers, these markers work well, but in others they don’t, said Dr. Cliff, a hematology trainee at Brigham and Women’s Hospital, Boston, when the work was conducted, and now a hematology fellow at the Peter MacCallum Cancer Centre in Melbourne, Australia.
To determine whether cancer drugs granted accelerated approval ultimately show an overall survival or quality of life benefit, researchers reviewed 46 cancer drugs granted accelerated approvals between 2013 and 2017. Twenty (43%) were granted full approval after demonstrating survival or quality-of-life benefits.
Nine, however, were converted to full approvals on the basis of surrogate markers. These include a full approval for pembrolizumab in previously treated recurrent or refractory head and neck squamous cell carcinoma and a full approval for nivolumab for refractory locally advanced or metastatic urothelial carcinoma, both based on tumor response rate and duration of response.
Of the remaining 17 drugs evaluated in the trial, 10 have been withdrawn and seven do not yet have confirmatory trial results.
The reliance on surrogate markers means that these drugs are used for treatment, covered by insurance, and added to guidelines — all without solid evidence of real-world clinical benefit, said Dr. Cliff.
However, the goal should not be to do away with the accelerated approval process, because it sometimes does deliver powerful agents to patients quickly. Instead, Dr. Cliff told this news organization, the system needs to be improved so that “we keep the speed while getting certainty around clinical benefits” with robust and timely confirmatory trials.
In the meantime, “clinicians should communicate with patients about any residual uncertainty of clinical benefit when they offer novel therapies,” Dr. Cliff explained. “It’s important for them to have the information.”
There has been some progress on the issue. In December 2022, the US Congress passed the Food and Drug Administration Omnibus Reform Act. Among other things, the Act requires companies to have confirmation trials underway as a condition for accelerated approval, and to provide regular reports on their progress. The Act also expedites the withdrawal process for drugs that don’t show a benefit.
The Act has been put to the test twice recently. In February, FDA used the expedited process to remove the multiple myeloma drug melphalan flufenamide from the market. Melphalan flufenamide hadn’t been sold in the US for quite some time, so the process wasn’t contentious.
In March, Regeneron announced that accelerated approval for the follicular and diffuse B cell lymphoma drug odronextamab has been delayed pending enrollment in a confirmatory trial.
“There have been some promising steps,” Dr. Cliff said, but much work needs to be done.
Study moderator Shivaani Kummar, MD, agreed, noting that “the data is showing that the confirmatory trials aren’t happening at the pace which they should.”
But the solution is not to curtail approvals; it’s to make sure that accelerated approval commitments are met, said Dr. Kummar.
Still, “as a practicing oncologist, I welcome the accelerated pathway,” Dr. Kummar, a medical oncologist/hematologist at Oregon Health & Science University, Portland, told this news organization. “I want the availability to my patients.”
Having drugs approved on the basis of surrogate markers doesn’t necessarily mean patients are getting ineffective therapies, Dr. Kummar noted. For instance, if an agent just shrinks the tumor, it can sometimes still be “a huge clinical benefit because it can take the symptoms away.”
As for prescribing drugs based on accelerated approvals, she said she tells her patients that trials have been promising, but we don’t know what the long-term effects are. She and her patient then make a decision together.
The study was funded by Arnold Ventures. Dr. Kummar reported support from several companies, including Bayer, Gilead, and others. Dr. Cliff had no disclosures.
A version of this article appeared on Medscape.com.
despite being on the US market for more than 5 years, according to a new study.
Under the program, drugs are approved for marketing if they show benefit in surrogate markers thought to indicate efficacy. Progression-free survival, tumor response, and duration of response are the most used surrogate markers for accelerated approvals of cancer drugs. These are based largely on imaging studies that show either a stop in growth in the case of progression-free survival or tumor shrinkage in the case of tumor response.
Following accelerated approvals, companies are then supposed to show actual clinical benefit in confirmatory trials.
The problem with relying on surrogate markers for drug approvals is that they don’t always correlate with longer survival or improved quality of life, said Edward Cliff, MBBS, who presented the findings at the American Association for Cancer Research 2024 annual meeting (abstract 918). The study was also published in JAMA to coincide with the meeting presentation.
In some cancers, these markers work well, but in others they don’t, said Dr. Cliff, a hematology trainee at Brigham and Women’s Hospital, Boston, when the work was conducted, and now a hematology fellow at the Peter MacCallum Cancer Centre in Melbourne, Australia.
To determine whether cancer drugs granted accelerated approval ultimately show an overall survival or quality of life benefit, researchers reviewed 46 cancer drugs granted accelerated approvals between 2013 and 2017. Twenty (43%) were granted full approval after demonstrating survival or quality-of-life benefits.
Nine, however, were converted to full approvals on the basis of surrogate markers. These include a full approval for pembrolizumab in previously treated recurrent or refractory head and neck squamous cell carcinoma and a full approval for nivolumab for refractory locally advanced or metastatic urothelial carcinoma, both based on tumor response rate and duration of response.
Of the remaining 17 drugs evaluated in the trial, 10 have been withdrawn and seven do not yet have confirmatory trial results.
The reliance on surrogate markers means that these drugs are used for treatment, covered by insurance, and added to guidelines — all without solid evidence of real-world clinical benefit, said Dr. Cliff.
However, the goal should not be to do away with the accelerated approval process, because it sometimes does deliver powerful agents to patients quickly. Instead, Dr. Cliff told this news organization, the system needs to be improved so that “we keep the speed while getting certainty around clinical benefits” with robust and timely confirmatory trials.
In the meantime, “clinicians should communicate with patients about any residual uncertainty of clinical benefit when they offer novel therapies,” Dr. Cliff explained. “It’s important for them to have the information.”
There has been some progress on the issue. In December 2022, the US Congress passed the Food and Drug Administration Omnibus Reform Act. Among other things, the Act requires companies to have confirmation trials underway as a condition for accelerated approval, and to provide regular reports on their progress. The Act also expedites the withdrawal process for drugs that don’t show a benefit.
The Act has been put to the test twice recently. In February, FDA used the expedited process to remove the multiple myeloma drug melphalan flufenamide from the market. Melphalan flufenamide hadn’t been sold in the US for quite some time, so the process wasn’t contentious.
In March, Regeneron announced that accelerated approval for the follicular and diffuse B cell lymphoma drug odronextamab has been delayed pending enrollment in a confirmatory trial.
“There have been some promising steps,” Dr. Cliff said, but much work needs to be done.
Study moderator Shivaani Kummar, MD, agreed, noting that “the data is showing that the confirmatory trials aren’t happening at the pace which they should.”
But the solution is not to curtail approvals; it’s to make sure that accelerated approval commitments are met, said Dr. Kummar.
Still, “as a practicing oncologist, I welcome the accelerated pathway,” Dr. Kummar, a medical oncologist/hematologist at Oregon Health & Science University, Portland, told this news organization. “I want the availability to my patients.”
Having drugs approved on the basis of surrogate markers doesn’t necessarily mean patients are getting ineffective therapies, Dr. Kummar noted. For instance, if an agent just shrinks the tumor, it can sometimes still be “a huge clinical benefit because it can take the symptoms away.”
As for prescribing drugs based on accelerated approvals, she said she tells her patients that trials have been promising, but we don’t know what the long-term effects are. She and her patient then make a decision together.
The study was funded by Arnold Ventures. Dr. Kummar reported support from several companies, including Bayer, Gilead, and others. Dr. Cliff had no disclosures.
A version of this article appeared on Medscape.com.
despite being on the US market for more than 5 years, according to a new study.
Under the program, drugs are approved for marketing if they show benefit in surrogate markers thought to indicate efficacy. Progression-free survival, tumor response, and duration of response are the most used surrogate markers for accelerated approvals of cancer drugs. These are based largely on imaging studies that show either a stop in growth in the case of progression-free survival or tumor shrinkage in the case of tumor response.
Following accelerated approvals, companies are then supposed to show actual clinical benefit in confirmatory trials.
The problem with relying on surrogate markers for drug approvals is that they don’t always correlate with longer survival or improved quality of life, said Edward Cliff, MBBS, who presented the findings at the American Association for Cancer Research 2024 annual meeting (abstract 918). The study was also published in JAMA to coincide with the meeting presentation.
In some cancers, these markers work well, but in others they don’t, said Dr. Cliff, a hematology trainee at Brigham and Women’s Hospital, Boston, when the work was conducted, and now a hematology fellow at the Peter MacCallum Cancer Centre in Melbourne, Australia.
To determine whether cancer drugs granted accelerated approval ultimately show an overall survival or quality of life benefit, researchers reviewed 46 cancer drugs granted accelerated approvals between 2013 and 2017. Twenty (43%) were granted full approval after demonstrating survival or quality-of-life benefits.
Nine, however, were converted to full approvals on the basis of surrogate markers. These include a full approval for pembrolizumab in previously treated recurrent or refractory head and neck squamous cell carcinoma and a full approval for nivolumab for refractory locally advanced or metastatic urothelial carcinoma, both based on tumor response rate and duration of response.
Of the remaining 17 drugs evaluated in the trial, 10 have been withdrawn and seven do not yet have confirmatory trial results.
The reliance on surrogate markers means that these drugs are used for treatment, covered by insurance, and added to guidelines — all without solid evidence of real-world clinical benefit, said Dr. Cliff.
However, the goal should not be to do away with the accelerated approval process, because it sometimes does deliver powerful agents to patients quickly. Instead, Dr. Cliff told this news organization, the system needs to be improved so that “we keep the speed while getting certainty around clinical benefits” with robust and timely confirmatory trials.
In the meantime, “clinicians should communicate with patients about any residual uncertainty of clinical benefit when they offer novel therapies,” Dr. Cliff explained. “It’s important for them to have the information.”
There has been some progress on the issue. In December 2022, the US Congress passed the Food and Drug Administration Omnibus Reform Act. Among other things, the Act requires companies to have confirmation trials underway as a condition for accelerated approval, and to provide regular reports on their progress. The Act also expedites the withdrawal process for drugs that don’t show a benefit.
The Act has been put to the test twice recently. In February, FDA used the expedited process to remove the multiple myeloma drug melphalan flufenamide from the market. Melphalan flufenamide hadn’t been sold in the US for quite some time, so the process wasn’t contentious.
In March, Regeneron announced that accelerated approval for the follicular and diffuse B cell lymphoma drug odronextamab has been delayed pending enrollment in a confirmatory trial.
“There have been some promising steps,” Dr. Cliff said, but much work needs to be done.
Study moderator Shivaani Kummar, MD, agreed, noting that “the data is showing that the confirmatory trials aren’t happening at the pace which they should.”
But the solution is not to curtail approvals; it’s to make sure that accelerated approval commitments are met, said Dr. Kummar.
Still, “as a practicing oncologist, I welcome the accelerated pathway,” Dr. Kummar, a medical oncologist/hematologist at Oregon Health & Science University, Portland, told this news organization. “I want the availability to my patients.”
Having drugs approved on the basis of surrogate markers doesn’t necessarily mean patients are getting ineffective therapies, Dr. Kummar noted. For instance, if an agent just shrinks the tumor, it can sometimes still be “a huge clinical benefit because it can take the symptoms away.”
As for prescribing drugs based on accelerated approvals, she said she tells her patients that trials have been promising, but we don’t know what the long-term effects are. She and her patient then make a decision together.
The study was funded by Arnold Ventures. Dr. Kummar reported support from several companies, including Bayer, Gilead, and others. Dr. Cliff had no disclosures.
A version of this article appeared on Medscape.com.
Virtual Reality Brings Relief to Hospitalized Patients With Cancer
suggests a new randomized controlled trial.
While both interventions brought some pain relief, VR therapy yielded greater, longer-lasting comfort, reported lead author Hunter Groninger, MD, of MedStar Health Research Institute, Hyattsville, Maryland, and colleagues.
“Investigators have explored immersive VR interventions in cancer populations for a variety of indications including anxiety, depression, fatigue, and procedure‐associated pain, particularly among patients with pediatric cancer and adult breast cancer,” the investigators wrote in Cancer. “Nevertheless, despite growing evidence supporting the efficacy of VR‐delivered interventions for analgesia, few data address its role to mitigate cancer‐related pain specifically.”
To address this knowledge gap, Dr. Groninger and colleagues enrolled 128 adult hospitalized patients with cancer of any kind, all of whom had moderate to severe pain (self-reported score at least 4 out of 10) within the past 24 hours.
Study Methods and Results
Patients were randomized to receive either 10 minutes of immersive VR distraction therapy or 10 minutes of two-dimensional guided imagery distraction therapy.
“[The VR therapy] provides noncompetitive experiences in which the user can move around and explore natural environments (e.g., beachscape, forest) from standing, seated, or fixed positions, including within a hospital bed or chair,” the investigators wrote. “We provided over‐the‐ear headphones to assure high sound quality for the experience in the virtual natural environment.”
The two-dimensional intervention, delivered via electronic tablet, featured a meditation with images of natural landscapes and instrumental background music.
“We chose this active control because it is readily available and reflects content similar to relaxation‐focused television channels that are increasingly common in hospital settings,” the investigators noted.
Compared with this more common approach, patients who received VR therapy had significantly greater immediate reduction in pain (mean change in pain score, –1.4 vs –0.7; P = .03). Twenty-four hours later, improvements in the VR group generally persisted, while pain level in the two-dimensional group returned almost to baseline (P = .004). In addition, patients in the VR group reported significantly greater improvements in general distress and pain bothersomeness.
“VR therapies may modulate the pain experience by reducing the level of attention paid to noxious stimuli, thereby suppressing transmission of painful sensations via pain processing pathways to the cerebral cortex, particularly with more active VR experiences compared to passive experiences,” the investigators wrote.
Downsides to Using VR
Although VR brought more benefit, participants in the VR group more often reported difficulty using the intervention compared with those who interacted with an electronic tablet.
Plus, one VR user described mild dizziness that resolved with pharmacologic intervention. Still, approximately 9 out of 10 participants in each group reported willingness to try the intervention again.
Future VR Research
“Virtual reality is a rapidly evolving technology with a wealth of potential patient‐facing applications,” the investigators wrote. “Future studies should explore repeated use, optimal dosing, and impact on VR therapy on opioid analgesic requirements as well as usability testing, VR content preferences and facilitators of analgesia, and barriers and facilitators to use in acute care settings.”
This study was supported by the American Cancer Society. The investigators disclosed no conflicts of interest.
suggests a new randomized controlled trial.
While both interventions brought some pain relief, VR therapy yielded greater, longer-lasting comfort, reported lead author Hunter Groninger, MD, of MedStar Health Research Institute, Hyattsville, Maryland, and colleagues.
“Investigators have explored immersive VR interventions in cancer populations for a variety of indications including anxiety, depression, fatigue, and procedure‐associated pain, particularly among patients with pediatric cancer and adult breast cancer,” the investigators wrote in Cancer. “Nevertheless, despite growing evidence supporting the efficacy of VR‐delivered interventions for analgesia, few data address its role to mitigate cancer‐related pain specifically.”
To address this knowledge gap, Dr. Groninger and colleagues enrolled 128 adult hospitalized patients with cancer of any kind, all of whom had moderate to severe pain (self-reported score at least 4 out of 10) within the past 24 hours.
Study Methods and Results
Patients were randomized to receive either 10 minutes of immersive VR distraction therapy or 10 minutes of two-dimensional guided imagery distraction therapy.
“[The VR therapy] provides noncompetitive experiences in which the user can move around and explore natural environments (e.g., beachscape, forest) from standing, seated, or fixed positions, including within a hospital bed or chair,” the investigators wrote. “We provided over‐the‐ear headphones to assure high sound quality for the experience in the virtual natural environment.”
The two-dimensional intervention, delivered via electronic tablet, featured a meditation with images of natural landscapes and instrumental background music.
“We chose this active control because it is readily available and reflects content similar to relaxation‐focused television channels that are increasingly common in hospital settings,” the investigators noted.
Compared with this more common approach, patients who received VR therapy had significantly greater immediate reduction in pain (mean change in pain score, –1.4 vs –0.7; P = .03). Twenty-four hours later, improvements in the VR group generally persisted, while pain level in the two-dimensional group returned almost to baseline (P = .004). In addition, patients in the VR group reported significantly greater improvements in general distress and pain bothersomeness.
“VR therapies may modulate the pain experience by reducing the level of attention paid to noxious stimuli, thereby suppressing transmission of painful sensations via pain processing pathways to the cerebral cortex, particularly with more active VR experiences compared to passive experiences,” the investigators wrote.
Downsides to Using VR
Although VR brought more benefit, participants in the VR group more often reported difficulty using the intervention compared with those who interacted with an electronic tablet.
Plus, one VR user described mild dizziness that resolved with pharmacologic intervention. Still, approximately 9 out of 10 participants in each group reported willingness to try the intervention again.
Future VR Research
“Virtual reality is a rapidly evolving technology with a wealth of potential patient‐facing applications,” the investigators wrote. “Future studies should explore repeated use, optimal dosing, and impact on VR therapy on opioid analgesic requirements as well as usability testing, VR content preferences and facilitators of analgesia, and barriers and facilitators to use in acute care settings.”
This study was supported by the American Cancer Society. The investigators disclosed no conflicts of interest.
suggests a new randomized controlled trial.
While both interventions brought some pain relief, VR therapy yielded greater, longer-lasting comfort, reported lead author Hunter Groninger, MD, of MedStar Health Research Institute, Hyattsville, Maryland, and colleagues.
“Investigators have explored immersive VR interventions in cancer populations for a variety of indications including anxiety, depression, fatigue, and procedure‐associated pain, particularly among patients with pediatric cancer and adult breast cancer,” the investigators wrote in Cancer. “Nevertheless, despite growing evidence supporting the efficacy of VR‐delivered interventions for analgesia, few data address its role to mitigate cancer‐related pain specifically.”
To address this knowledge gap, Dr. Groninger and colleagues enrolled 128 adult hospitalized patients with cancer of any kind, all of whom had moderate to severe pain (self-reported score at least 4 out of 10) within the past 24 hours.
Study Methods and Results
Patients were randomized to receive either 10 minutes of immersive VR distraction therapy or 10 minutes of two-dimensional guided imagery distraction therapy.
“[The VR therapy] provides noncompetitive experiences in which the user can move around and explore natural environments (e.g., beachscape, forest) from standing, seated, or fixed positions, including within a hospital bed or chair,” the investigators wrote. “We provided over‐the‐ear headphones to assure high sound quality for the experience in the virtual natural environment.”
The two-dimensional intervention, delivered via electronic tablet, featured a meditation with images of natural landscapes and instrumental background music.
“We chose this active control because it is readily available and reflects content similar to relaxation‐focused television channels that are increasingly common in hospital settings,” the investigators noted.
Compared with this more common approach, patients who received VR therapy had significantly greater immediate reduction in pain (mean change in pain score, –1.4 vs –0.7; P = .03). Twenty-four hours later, improvements in the VR group generally persisted, while pain level in the two-dimensional group returned almost to baseline (P = .004). In addition, patients in the VR group reported significantly greater improvements in general distress and pain bothersomeness.
“VR therapies may modulate the pain experience by reducing the level of attention paid to noxious stimuli, thereby suppressing transmission of painful sensations via pain processing pathways to the cerebral cortex, particularly with more active VR experiences compared to passive experiences,” the investigators wrote.
Downsides to Using VR
Although VR brought more benefit, participants in the VR group more often reported difficulty using the intervention compared with those who interacted with an electronic tablet.
Plus, one VR user described mild dizziness that resolved with pharmacologic intervention. Still, approximately 9 out of 10 participants in each group reported willingness to try the intervention again.
Future VR Research
“Virtual reality is a rapidly evolving technology with a wealth of potential patient‐facing applications,” the investigators wrote. “Future studies should explore repeated use, optimal dosing, and impact on VR therapy on opioid analgesic requirements as well as usability testing, VR content preferences and facilitators of analgesia, and barriers and facilitators to use in acute care settings.”
This study was supported by the American Cancer Society. The investigators disclosed no conflicts of interest.
FROM CANCER
Should Opioids Be Used for Chronic Cancer Pain?
These findings suggest that evidence-based, systematic guidance is needed to steer opioid usage in cancer survivorship, wrote lead author Hailey W. Bulls, PhD, of the University of Pittsburgh, and colleagues.
“Prescription opioids are considered the standard of care to treat moderate to severe cancer pain during active treatment, yet guidance in the posttreatment survivorship phase is much less clear,” the investigators wrote. “Existing clinical resources recognize that opioid prescribing in survivorship is complex and nuanced and that the relative benefits and risks in this population are not fully understood.”
Who Should Manage Chronic Cancer Pain?
Despite the knowledge gap, survivors are typically excluded from long-term opioid use studies, leaving providers in a largely data-free zone. Simultaneously, patients who had been receiving focused care during their cancer treatment find themselves with an ill-defined health care team.
“Without a clear transition of care, survivors may seek pain management services from a variety of specialties, including oncologists, palliative care clinicians, primary care clinicians, and pain management specialists,” the investigators wrote. “However, many clinicians may view pain management to be outside of their skill set and may not be well equipped to handle opioid continuation or deprescribing [or] to manage the potential consequences of long‐term opioid use like side effects, misuse, and/or opioid use disorder.”
What Factors Guide Opioid Prescribing Practices for Chronic Cancer Pain?
To learn more about prescribing practices in this setting, Dr. Bulls and colleagues conducted qualitative interviews with 20 providers representing four specialties: oncology (n = 5), palliative care (n = 8), primary care (n = 5), and pain management (n = 2). Eighteen of these participants were physicians and two were advanced practice providers. Average time in clinical practice was about 16 years.
These interviews yielded three themes.
First, no “medical home” exists for chronic pain management in cancer survivors.
“Although clinicians generally agreed that minimizing the role of opioids in chronic pain management in cancer survivors was desirable, they described a lack of common treatment protocols to guide pain management in survivorship,” the investigators wrote.
Second, the interviews revealed that prescribing strategies are partly driven by peer pressure, sometimes leading to tension between providers and feelings of self-doubt.
“I feel like there’s been this weird judgment thing that’s happened [to] the prescribers,” one primary care provider said during the interview. “Because, when I trained … pain was a vital sign, and we were supposed to treat pain, and now I feel like we’re all being judged for that.”
The third theme revolved around fear of consequences resulting from prescribing practices, including fears of violent repercussions.
“You may not know, but pain specialists have been shot in this country for [refusing to prescribe opioids],” one pain management specialist said during the interview. “There’s been a number of shootings of pain specialists who would not prescribe opioids. So, I mean, there’s real issues of violence.”
Meanwhile, a palliative care provider described legal pressure from the opposite direction:
“I think there’s a lot of fear of litigiousness … and loss of licenses. That sort of makes them pressure us into not prescribing opioids or sticking with a certain number per day that might not be therapeutic for a patient.”
Reflecting on these themes, the investigators identified “a fundamental uncertainty in survivorship pain management.”
What Strategies Might Improve Opioid Prescribing Practices for Chronic Cancer Pain?
After sharing their attitudes about prescribing opioids for chronic cancer pain, the clinicians were asked for suggestions to improve the situation.
They offered four main suggestions: create relevant guidelines, increase education and access to pain management options for clinicians, increase interdisciplinary communication across medical subspecialties, and promote multidisciplinary care in the survivorship setting.
Dr. Bulls and colleagues supported these strategies in their concluding remarks and called for more research.
This study was supported by the National Institute of Drug Abuse, the National Institutes of Health, the National Center for Advancing Translational Sciences, and the National Cancer Institute. The investigators disclosed relationships with Arcadia Health Solutions and Biomotivate.
These findings suggest that evidence-based, systematic guidance is needed to steer opioid usage in cancer survivorship, wrote lead author Hailey W. Bulls, PhD, of the University of Pittsburgh, and colleagues.
“Prescription opioids are considered the standard of care to treat moderate to severe cancer pain during active treatment, yet guidance in the posttreatment survivorship phase is much less clear,” the investigators wrote. “Existing clinical resources recognize that opioid prescribing in survivorship is complex and nuanced and that the relative benefits and risks in this population are not fully understood.”
Who Should Manage Chronic Cancer Pain?
Despite the knowledge gap, survivors are typically excluded from long-term opioid use studies, leaving providers in a largely data-free zone. Simultaneously, patients who had been receiving focused care during their cancer treatment find themselves with an ill-defined health care team.
“Without a clear transition of care, survivors may seek pain management services from a variety of specialties, including oncologists, palliative care clinicians, primary care clinicians, and pain management specialists,” the investigators wrote. “However, many clinicians may view pain management to be outside of their skill set and may not be well equipped to handle opioid continuation or deprescribing [or] to manage the potential consequences of long‐term opioid use like side effects, misuse, and/or opioid use disorder.”
What Factors Guide Opioid Prescribing Practices for Chronic Cancer Pain?
To learn more about prescribing practices in this setting, Dr. Bulls and colleagues conducted qualitative interviews with 20 providers representing four specialties: oncology (n = 5), palliative care (n = 8), primary care (n = 5), and pain management (n = 2). Eighteen of these participants were physicians and two were advanced practice providers. Average time in clinical practice was about 16 years.
These interviews yielded three themes.
First, no “medical home” exists for chronic pain management in cancer survivors.
“Although clinicians generally agreed that minimizing the role of opioids in chronic pain management in cancer survivors was desirable, they described a lack of common treatment protocols to guide pain management in survivorship,” the investigators wrote.
Second, the interviews revealed that prescribing strategies are partly driven by peer pressure, sometimes leading to tension between providers and feelings of self-doubt.
“I feel like there’s been this weird judgment thing that’s happened [to] the prescribers,” one primary care provider said during the interview. “Because, when I trained … pain was a vital sign, and we were supposed to treat pain, and now I feel like we’re all being judged for that.”
The third theme revolved around fear of consequences resulting from prescribing practices, including fears of violent repercussions.
“You may not know, but pain specialists have been shot in this country for [refusing to prescribe opioids],” one pain management specialist said during the interview. “There’s been a number of shootings of pain specialists who would not prescribe opioids. So, I mean, there’s real issues of violence.”
Meanwhile, a palliative care provider described legal pressure from the opposite direction:
“I think there’s a lot of fear of litigiousness … and loss of licenses. That sort of makes them pressure us into not prescribing opioids or sticking with a certain number per day that might not be therapeutic for a patient.”
Reflecting on these themes, the investigators identified “a fundamental uncertainty in survivorship pain management.”
What Strategies Might Improve Opioid Prescribing Practices for Chronic Cancer Pain?
After sharing their attitudes about prescribing opioids for chronic cancer pain, the clinicians were asked for suggestions to improve the situation.
They offered four main suggestions: create relevant guidelines, increase education and access to pain management options for clinicians, increase interdisciplinary communication across medical subspecialties, and promote multidisciplinary care in the survivorship setting.
Dr. Bulls and colleagues supported these strategies in their concluding remarks and called for more research.
This study was supported by the National Institute of Drug Abuse, the National Institutes of Health, the National Center for Advancing Translational Sciences, and the National Cancer Institute. The investigators disclosed relationships with Arcadia Health Solutions and Biomotivate.
These findings suggest that evidence-based, systematic guidance is needed to steer opioid usage in cancer survivorship, wrote lead author Hailey W. Bulls, PhD, of the University of Pittsburgh, and colleagues.
“Prescription opioids are considered the standard of care to treat moderate to severe cancer pain during active treatment, yet guidance in the posttreatment survivorship phase is much less clear,” the investigators wrote. “Existing clinical resources recognize that opioid prescribing in survivorship is complex and nuanced and that the relative benefits and risks in this population are not fully understood.”
Who Should Manage Chronic Cancer Pain?
Despite the knowledge gap, survivors are typically excluded from long-term opioid use studies, leaving providers in a largely data-free zone. Simultaneously, patients who had been receiving focused care during their cancer treatment find themselves with an ill-defined health care team.
“Without a clear transition of care, survivors may seek pain management services from a variety of specialties, including oncologists, palliative care clinicians, primary care clinicians, and pain management specialists,” the investigators wrote. “However, many clinicians may view pain management to be outside of their skill set and may not be well equipped to handle opioid continuation or deprescribing [or] to manage the potential consequences of long‐term opioid use like side effects, misuse, and/or opioid use disorder.”
What Factors Guide Opioid Prescribing Practices for Chronic Cancer Pain?
To learn more about prescribing practices in this setting, Dr. Bulls and colleagues conducted qualitative interviews with 20 providers representing four specialties: oncology (n = 5), palliative care (n = 8), primary care (n = 5), and pain management (n = 2). Eighteen of these participants were physicians and two were advanced practice providers. Average time in clinical practice was about 16 years.
These interviews yielded three themes.
First, no “medical home” exists for chronic pain management in cancer survivors.
“Although clinicians generally agreed that minimizing the role of opioids in chronic pain management in cancer survivors was desirable, they described a lack of common treatment protocols to guide pain management in survivorship,” the investigators wrote.
Second, the interviews revealed that prescribing strategies are partly driven by peer pressure, sometimes leading to tension between providers and feelings of self-doubt.
“I feel like there’s been this weird judgment thing that’s happened [to] the prescribers,” one primary care provider said during the interview. “Because, when I trained … pain was a vital sign, and we were supposed to treat pain, and now I feel like we’re all being judged for that.”
The third theme revolved around fear of consequences resulting from prescribing practices, including fears of violent repercussions.
“You may not know, but pain specialists have been shot in this country for [refusing to prescribe opioids],” one pain management specialist said during the interview. “There’s been a number of shootings of pain specialists who would not prescribe opioids. So, I mean, there’s real issues of violence.”
Meanwhile, a palliative care provider described legal pressure from the opposite direction:
“I think there’s a lot of fear of litigiousness … and loss of licenses. That sort of makes them pressure us into not prescribing opioids or sticking with a certain number per day that might not be therapeutic for a patient.”
Reflecting on these themes, the investigators identified “a fundamental uncertainty in survivorship pain management.”
What Strategies Might Improve Opioid Prescribing Practices for Chronic Cancer Pain?
After sharing their attitudes about prescribing opioids for chronic cancer pain, the clinicians were asked for suggestions to improve the situation.
They offered four main suggestions: create relevant guidelines, increase education and access to pain management options for clinicians, increase interdisciplinary communication across medical subspecialties, and promote multidisciplinary care in the survivorship setting.
Dr. Bulls and colleagues supported these strategies in their concluding remarks and called for more research.
This study was supported by the National Institute of Drug Abuse, the National Institutes of Health, the National Center for Advancing Translational Sciences, and the National Cancer Institute. The investigators disclosed relationships with Arcadia Health Solutions and Biomotivate.
FROM CANCER