Breast Cancer

Key clinical point: A low expression of human epidermal growth factor receptor 2 (HER2) did not have any impact on survival outcomes in patients with metastatic triple-negative breast cancer (TNBC).

Major finding: Patients with HER2-low and HER2-0 TNBC had similar overall survival rates (hazard ratio 0.95; P  =  .545).

Study details: Findings are from a retrospective, multicenter analysis including 691 patients with metastatic TNBC, of which 221 patients were classified as having HER2-low TNBC.

Disclosures: This study was supported by grants from Daiichi Sankyo, Pfizer, Novartis, AstraZeneca, Eli Lilly, Seagen, Roche,  and from Ministero della Salture d'Italia. Some authors declared serving as speakers or on advisory boards or receiving honoraria, research grants, or travel grants from several sources, including Daiichi Sankyo, Pfizer, Novartis, Astra Zeneca, Eli Lilly, Seagen, Roche, and others.

Source: Gampenrieder SP et al. Influence of HER2 expression on prognosis in metastatic triple-negative breast cancer-results from an international, multicenter analysis coordinated by the AGMT Study Group. ESMO Open. 2022;8(1):100747 (Dec 21). Doi: 10.1016/j.esmoop.2022.100747

Key clinical point: A low expression of human epidermal growth factor receptor 2 (HER2) did not have any impact on survival outcomes in patients with metastatic triple-negative breast cancer (TNBC).

Major finding: Patients with HER2-low and HER2-0 TNBC had similar overall survival rates (hazard ratio 0.95; P  =  .545).

Study details: Findings are from a retrospective, multicenter analysis including 691 patients with metastatic TNBC, of which 221 patients were classified as having HER2-low TNBC.

Disclosures: This study was supported by grants from Daiichi Sankyo, Pfizer, Novartis, AstraZeneca, Eli Lilly, Seagen, Roche,  and from Ministero della Salture d'Italia. Some authors declared serving as speakers or on advisory boards or receiving honoraria, research grants, or travel grants from several sources, including Daiichi Sankyo, Pfizer, Novartis, Astra Zeneca, Eli Lilly, Seagen, Roche, and others.

Source: Gampenrieder SP et al. Influence of HER2 expression on prognosis in metastatic triple-negative breast cancer-results from an international, multicenter analysis coordinated by the AGMT Study Group. ESMO Open. 2022;8(1):100747 (Dec 21). Doi: 10.1016/j.esmoop.2022.100747

Key clinical point: A low expression of human epidermal growth factor receptor 2 (HER2) did not have any impact on survival outcomes in patients with metastatic triple-negative breast cancer (TNBC).

Major finding: Patients with HER2-low and HER2-0 TNBC had similar overall survival rates (hazard ratio 0.95; P  =  .545).

Study details: Findings are from a retrospective, multicenter analysis including 691 patients with metastatic TNBC, of which 221 patients were classified as having HER2-low TNBC.

Disclosures: This study was supported by grants from Daiichi Sankyo, Pfizer, Novartis, AstraZeneca, Eli Lilly, Seagen, Roche,  and from Ministero della Salture d'Italia. Some authors declared serving as speakers or on advisory boards or receiving honoraria, research grants, or travel grants from several sources, including Daiichi Sankyo, Pfizer, Novartis, Astra Zeneca, Eli Lilly, Seagen, Roche, and others.

Source: Gampenrieder SP et al. Influence of HER2 expression on prognosis in metastatic triple-negative breast cancer-results from an international, multicenter analysis coordinated by the AGMT Study Group. ESMO Open. 2022;8(1):100747 (Dec 21). Doi: 10.1016/j.esmoop.2022.100747

Key clinical point: Patients with human epidermal growth factor receptor 2-positive (HER2+) breast cancer (BC) who received pyrotinib along with trastuzumab+docetaxel in the neoadjuvant setting achieved a significant improvement in the total pathological complete response (tpCR) rate without experiencing any unprecedented adverse events (AE).

Major finding: Rate of tpCR was significantly higher in the pyrotinib vs placebo group (41% vs 22%; 1-sided P < .0001). The most common grade 3 or 4 AE in the pyrotinib and placebo treatment arms were diarrhea (44.4% and 5.1%, respectively), neutropenia (18.5% and 20.3%, respectively), and decreased white blood cell count (16.3% and 13.6%, respectively).

Study details: Findings are from the phase 3 PHEDRA study including 355 patients with early/locally advanced HER+ BC who were randomly assigned to receive trastuzumab+docetaxel with either pyrotinib or placebo.

Disclosures: This study was funded by Jiangsu Hengrui Pharmaceuticals Co., Ltd. Four authors declared being former employees of Hengrui. No other conflicts of interest were reported.

Source: Wu J, Jiang Z, Liu Z, Yang B, et al. Neoadjuvant pyrotinib, trastuzumab, and docetaxel for HER2-positive breast cancer (PHEDRA): A double-blind, randomized phase 3 trial. BMC Med. 2022;20(1):498 (Dec 27). Doi: 10.1186/s12916-022-02708-3

Key clinical point: Patients with human epidermal growth factor receptor 2-positive (HER2+) breast cancer (BC) who received pyrotinib along with trastuzumab+docetaxel in the neoadjuvant setting achieved a significant improvement in the total pathological complete response (tpCR) rate without experiencing any unprecedented adverse events (AE).

Major finding: Rate of tpCR was significantly higher in the pyrotinib vs placebo group (41% vs 22%; 1-sided P < .0001). The most common grade 3 or 4 AE in the pyrotinib and placebo treatment arms were diarrhea (44.4% and 5.1%, respectively), neutropenia (18.5% and 20.3%, respectively), and decreased white blood cell count (16.3% and 13.6%, respectively).

Study details: Findings are from the phase 3 PHEDRA study including 355 patients with early/locally advanced HER+ BC who were randomly assigned to receive trastuzumab+docetaxel with either pyrotinib or placebo.

Disclosures: This study was funded by Jiangsu Hengrui Pharmaceuticals Co., Ltd. Four authors declared being former employees of Hengrui. No other conflicts of interest were reported.

Source: Wu J, Jiang Z, Liu Z, Yang B, et al. Neoadjuvant pyrotinib, trastuzumab, and docetaxel for HER2-positive breast cancer (PHEDRA): A double-blind, randomized phase 3 trial. BMC Med. 2022;20(1):498 (Dec 27). Doi: 10.1186/s12916-022-02708-3

Key clinical point: Patients with human epidermal growth factor receptor 2-positive (HER2+) breast cancer (BC) who received pyrotinib along with trastuzumab+docetaxel in the neoadjuvant setting achieved a significant improvement in the total pathological complete response (tpCR) rate without experiencing any unprecedented adverse events (AE).

Major finding: Rate of tpCR was significantly higher in the pyrotinib vs placebo group (41% vs 22%; 1-sided P < .0001). The most common grade 3 or 4 AE in the pyrotinib and placebo treatment arms were diarrhea (44.4% and 5.1%, respectively), neutropenia (18.5% and 20.3%, respectively), and decreased white blood cell count (16.3% and 13.6%, respectively).

Study details: Findings are from the phase 3 PHEDRA study including 355 patients with early/locally advanced HER+ BC who were randomly assigned to receive trastuzumab+docetaxel with either pyrotinib or placebo.

Disclosures: This study was funded by Jiangsu Hengrui Pharmaceuticals Co., Ltd. Four authors declared being former employees of Hengrui. No other conflicts of interest were reported.

Source: Wu J, Jiang Z, Liu Z, Yang B, et al. Neoadjuvant pyrotinib, trastuzumab, and docetaxel for HER2-positive breast cancer (PHEDRA): A double-blind, randomized phase 3 trial. BMC Med. 2022;20(1):498 (Dec 27). Doi: 10.1186/s12916-022-02708-3

Key clinical point: A de-escalated zoledronate schedule (≤6 infusions) did not affect breast cancer (BC)-specific survival outcomes in patients with hormone receptor-positive early BC.

Major finding: After a median follow-up of 96 months, the rates of disease-free survival were similar between patients who received ≤6 and ≥7 infusions (stratified hazard ratio 0.88; log-rank P = .64); however, there was an increase in adverse events, particularly arthralgia (P = .012) and nausea (P = .017), among patients who received ≥7 vs ≤6 infusions.

Study details: Findings are a substudy of the ABCSG-12 trial including 725 premenopausal women with early BC who were randomly assigned to receive hormone therapy (tamoxifen or anastrozole with goserelin) with or without zoledronic acid.

Disclosures: This study did not receive any funding. The authors declared no conflicts of interest.

Source: Beltran-Bless AA et al. Does the number of 6-monthly adjuvant zoledronate infusions received affect treatment efficacy for early breast cancer? A sub-study of ABCSG-12. Eur J Cancer. 2022;180:108-116 (Dec 31). Doi: 10.1016/j.ejca.2022.12.003

Key clinical point: A de-escalated zoledronate schedule (≤6 infusions) did not affect breast cancer (BC)-specific survival outcomes in patients with hormone receptor-positive early BC.

Major finding: After a median follow-up of 96 months, the rates of disease-free survival were similar between patients who received ≤6 and ≥7 infusions (stratified hazard ratio 0.88; log-rank P = .64); however, there was an increase in adverse events, particularly arthralgia (P = .012) and nausea (P = .017), among patients who received ≥7 vs ≤6 infusions.

Study details: Findings are a substudy of the ABCSG-12 trial including 725 premenopausal women with early BC who were randomly assigned to receive hormone therapy (tamoxifen or anastrozole with goserelin) with or without zoledronic acid.

Disclosures: This study did not receive any funding. The authors declared no conflicts of interest.

Source: Beltran-Bless AA et al. Does the number of 6-monthly adjuvant zoledronate infusions received affect treatment efficacy for early breast cancer? A sub-study of ABCSG-12. Eur J Cancer. 2022;180:108-116 (Dec 31). Doi: 10.1016/j.ejca.2022.12.003

Key clinical point: A de-escalated zoledronate schedule (≤6 infusions) did not affect breast cancer (BC)-specific survival outcomes in patients with hormone receptor-positive early BC.

Major finding: After a median follow-up of 96 months, the rates of disease-free survival were similar between patients who received ≤6 and ≥7 infusions (stratified hazard ratio 0.88; log-rank P = .64); however, there was an increase in adverse events, particularly arthralgia (P = .012) and nausea (P = .017), among patients who received ≥7 vs ≤6 infusions.

Study details: Findings are a substudy of the ABCSG-12 trial including 725 premenopausal women with early BC who were randomly assigned to receive hormone therapy (tamoxifen or anastrozole with goserelin) with or without zoledronic acid.

Disclosures: This study did not receive any funding. The authors declared no conflicts of interest.

Source: Beltran-Bless AA et al. Does the number of 6-monthly adjuvant zoledronate infusions received affect treatment efficacy for early breast cancer? A sub-study of ABCSG-12. Eur J Cancer. 2022;180:108-116 (Dec 31). Doi: 10.1016/j.ejca.2022.12.003

Key clinical point: Adding ovarian function suppression (OFS) to adjuvant tamoxifen reduced the risk for recurrence in premenopausal patients with hormone receptor-positive (HR+) breast cancer (BC).

Major finding: Compared with tamoxifen alone, tamoxifen+OFS significantly improved the 12-year disease-free survival (hazard ratio [HR] 0.82; P  =  .03), with the improvement being greater with exemestane+OFS (HR 0.69; 95% CI 0.57-0.83).

Study details: Findings are from the SOFT trial including 3047 premenopausal women with HR+ BC who were randomly assigned to receive 5 years of adjuvant tamoxifen, tamoxifen+OFS, or exemestane+OFS.

Disclosures: This study was supported by Breast Cancer Trials Australia and New Zealand and other sources. The authors declared serving as consultants, advisors, or on speaker’s bureaus or receiving honoraria, research funding, or travel and accommodation expenses from several sources.

Source: Francis PA et al. Adjuvant endocrine therapy in premenopausal breast cancer: 12-year results from SOFT. J Clin Oncol. 2022 (Dec 9). Doi: 10.1200/JCO.22.01065

Key clinical point: Adding ovarian function suppression (OFS) to adjuvant tamoxifen reduced the risk for recurrence in premenopausal patients with hormone receptor-positive (HR+) breast cancer (BC).

Major finding: Compared with tamoxifen alone, tamoxifen+OFS significantly improved the 12-year disease-free survival (hazard ratio [HR] 0.82; P  =  .03), with the improvement being greater with exemestane+OFS (HR 0.69; 95% CI 0.57-0.83).

Study details: Findings are from the SOFT trial including 3047 premenopausal women with HR+ BC who were randomly assigned to receive 5 years of adjuvant tamoxifen, tamoxifen+OFS, or exemestane+OFS.

Disclosures: This study was supported by Breast Cancer Trials Australia and New Zealand and other sources. The authors declared serving as consultants, advisors, or on speaker’s bureaus or receiving honoraria, research funding, or travel and accommodation expenses from several sources.

Source: Francis PA et al. Adjuvant endocrine therapy in premenopausal breast cancer: 12-year results from SOFT. J Clin Oncol. 2022 (Dec 9). Doi: 10.1200/JCO.22.01065

Key clinical point: Adding ovarian function suppression (OFS) to adjuvant tamoxifen reduced the risk for recurrence in premenopausal patients with hormone receptor-positive (HR+) breast cancer (BC).

Major finding: Compared with tamoxifen alone, tamoxifen+OFS significantly improved the 12-year disease-free survival (hazard ratio [HR] 0.82; P  =  .03), with the improvement being greater with exemestane+OFS (HR 0.69; 95% CI 0.57-0.83).

Study details: Findings are from the SOFT trial including 3047 premenopausal women with HR+ BC who were randomly assigned to receive 5 years of adjuvant tamoxifen, tamoxifen+OFS, or exemestane+OFS.

Disclosures: This study was supported by Breast Cancer Trials Australia and New Zealand and other sources. The authors declared serving as consultants, advisors, or on speaker’s bureaus or receiving honoraria, research funding, or travel and accommodation expenses from several sources.

Source: Francis PA et al. Adjuvant endocrine therapy in premenopausal breast cancer: 12-year results from SOFT. J Clin Oncol. 2022 (Dec 9). Doi: 10.1200/JCO.22.01065

Key clinical point: A first-line chemotherapy-free treatment regimen containing endocrine therapy (ET) and human epidermal growth factor receptor 2 (ERBB2)-targeted therapy led to excellent survival outcomes in patients with hormone receptor-positive (HR+) and ERBB2-positive (ERBB2+) metastatic breast cancer (BC).

Major finding: No significant difference was observed in overall survival (hazard ratio [HR] 1.03; P = .80) or progression-free survival (HR 1.00; P > .99) between patients receiving ERBB2-targeted therapy and chemotherapy with or without ET and patients receiving ERBB2-targeted therapy with ET only, regardless of the type of ERBB2-targeted therapy.

Study details: Findings are from a cohort study including 1723 patients with HR+/ERBB2+ metastatic BC who received ERBB2-targeted therapy and chemotherapy with or without ET (n = 1520) or ERBB2-targeted therapy with ET only (n = 203).

Disclosures: This study was supported by Unicancer. The authors declared receiving personal fees, research funding, grants, or travel expenses from several pharmaceutical companies.

Source: Carausu M et al. Association of endocrine therapy for HR+/ERBB2+ metastatic breast cancer with survival outcomes. JAMA Netw Open. 2022;5(12):e2247154 (Dec 15). Doi: 10.1001/jamanetworkopen.2022.47154

Key clinical point: A first-line chemotherapy-free treatment regimen containing endocrine therapy (ET) and human epidermal growth factor receptor 2 (ERBB2)-targeted therapy led to excellent survival outcomes in patients with hormone receptor-positive (HR+) and ERBB2-positive (ERBB2+) metastatic breast cancer (BC).

Major finding: No significant difference was observed in overall survival (hazard ratio [HR] 1.03; P = .80) or progression-free survival (HR 1.00; P > .99) between patients receiving ERBB2-targeted therapy and chemotherapy with or without ET and patients receiving ERBB2-targeted therapy with ET only, regardless of the type of ERBB2-targeted therapy.

Study details: Findings are from a cohort study including 1723 patients with HR+/ERBB2+ metastatic BC who received ERBB2-targeted therapy and chemotherapy with or without ET (n = 1520) or ERBB2-targeted therapy with ET only (n = 203).

Disclosures: This study was supported by Unicancer. The authors declared receiving personal fees, research funding, grants, or travel expenses from several pharmaceutical companies.

Source: Carausu M et al. Association of endocrine therapy for HR+/ERBB2+ metastatic breast cancer with survival outcomes. JAMA Netw Open. 2022;5(12):e2247154 (Dec 15). Doi: 10.1001/jamanetworkopen.2022.47154

Key clinical point: A first-line chemotherapy-free treatment regimen containing endocrine therapy (ET) and human epidermal growth factor receptor 2 (ERBB2)-targeted therapy led to excellent survival outcomes in patients with hormone receptor-positive (HR+) and ERBB2-positive (ERBB2+) metastatic breast cancer (BC).

Major finding: No significant difference was observed in overall survival (hazard ratio [HR] 1.03; P = .80) or progression-free survival (HR 1.00; P > .99) between patients receiving ERBB2-targeted therapy and chemotherapy with or without ET and patients receiving ERBB2-targeted therapy with ET only, regardless of the type of ERBB2-targeted therapy.

Study details: Findings are from a cohort study including 1723 patients with HR+/ERBB2+ metastatic BC who received ERBB2-targeted therapy and chemotherapy with or without ET (n = 1520) or ERBB2-targeted therapy with ET only (n = 203).

Disclosures: This study was supported by Unicancer. The authors declared receiving personal fees, research funding, grants, or travel expenses from several pharmaceutical companies.

Source: Carausu M et al. Association of endocrine therapy for HR+/ERBB2+ metastatic breast cancer with survival outcomes. JAMA Netw Open. 2022;5(12):e2247154 (Dec 15). Doi: 10.1001/jamanetworkopen.2022.47154

The risk of health harms from alcohol is low for people who consume two standard drinks or fewer per week, but it’s higher with greater consumption, according to new guidance from the Canadian Centre on Substance Use and Addiction.

“Drinking less is better,” says the guidance, which replaces Canada’s 2011 Low-Risk Drinking Guidelines (LRDGs).

Developed in consultation with an executive committee from federal, provincial, and territorial governments; national organizations; three scientific expert panels; and an internal evidence review working group, the guidance presents the following findings:

• Consuming no drinks per week has benefits, such as better health and better sleep, and it’s the only safe option during pregnancy.
• Consuming one or two standard drinks weekly will likely not have alcohol-related consequences.
• Three to six drinks raise the risk of developing breast, colon, and other cancers.
• Seven or more increase the risk of heart disease or stroke.
• Each additional drink “radically increases” the risk of these health consequences.

“Alcohol is more harmful than was previously thought and is a key component of the health of your patients,” Adam Sherk, PhD, a scientist at the Canadian Institute for Substance Use Research at the University of Victoria (B.C.), and a member of the scientific expert panel that contributed to the guidance, said in an interview. “Display and discuss the new guidance with your patients with the main message that drinking less is better.”

Peter Butt, MD, a clinical associate professor at the University of Saskatchewan, Saskatoon, and cochair of the guidance project, said in an interview: “The World Health Organization has identified over 200 ICD-coded conditions associated with alcohol use. This creates many opportunities to inquire into quantity and frequency of alcohol use, relate it to the patient’s health and well-being, and provide advice on reduction.”

“Canada’s Guidance on Alcohol and Health: Final Report” and a related infographic were published online Jan. 17.
 

Continuum of risk

The impetus for the new guidance came from the fact that “our 2011 LRDGs were no longer current, and there was emerging evidence that people drinking within those levels were coming to harm,” said Dr. Butt.

That evidence indicates that alcohol causes at least seven types of cancer, mostly of the breast or colon; is a risk factor for most types of heart disease; and is a main cause of liver disease. Evidence also indicates that avoiding drinking to the point of intoxication will reduce people’s risk of perpetrating alcohol-related violence.

Responding to the need to accurately quantify the risk, the guidance defines a “standard” drink as 12 oz of beer, cooler, or cider (5% alcohol); 5 oz of wine (12% alcohol); and 1.5 oz of spirits such as whiskey, vodka, or gin (40% alcohol).

Using different mortality risk thresholds, the project’s experts developed the following continuum of risk:

• Low for individuals who consume two standard drinks or fewer per week
• Moderate for those who consume from three to six standard drinks per week
• Increasingly high for those who consume seven standard drinks or more per week

The guidance makes the following observations:

• Consuming more than two standard drinks per drinking occasion is associated with an increased risk of harms to self and others, including injuries and violence.
• When pregnant or trying to get pregnant, no amount of alcohol is safe.
• When breastfeeding, not drinking is safest.
• Above the upper limit of the moderate risk zone, health risks increase more steeply for females than males.
• Far more injuries, violence, and deaths result from men’s alcohol use, especially for per occasion drinking, than from women’s alcohol use.
• Young people should delay alcohol use for as long as possible.
• Individuals should not start to use alcohol or increase their alcohol use for health benefits.
• Any reduction in alcohol use is beneficial.

Other national guidelines

“Countries that haven’t updated their alcohol use guidelines recently should do so, as the evidence regarding alcohol and health has advanced considerably in the past 10 years,” said Dr. Sherk. He acknowledged that “any time health guidance changes substantially, it’s reasonable to expect a period of readjustment.”

“Some will be resistant,” Dr. Butt agreed. “Some professionals will need more education than others on the health effects of alcohol. Some patients will also be more invested in drinking than others. The harm-reduction, risk-zone approach should assist in the process of engaging patients and helping them reduce over time.

“Just as we benefited from the updates done in the United Kingdom, France, and especially Australia, so also researchers elsewhere will critique our work and our approach and make their own decisions on how best to communicate with their public,” Dr. Butt said. He noted that Canada’s contributions regarding the association between alcohol and violence, as well as their sex/gender approach to the evidence, “may influence the next country’s review.”

Commenting on whether the United States should consider changing its guidance, Timothy Brennan, MD, MPH, chief of clinical services for the Addiction Institute of Mount Sinai Health System in New York, said in an interview, “A lot of people will be surprised at the recommended limits on alcohol. Most think that they can have one or two glasses of alcohol per day and not have any increased risk to their health. I think the Canadians deserve credit for putting themselves out there.”

Dr. Brennan said there will “certainly be pushback by the drinking lobby, which is very strong both in the U.S. and in Canada.” In fact, the national trade group Beer Canada was recently quoted as stating that it still supports the 2011 guidelines and that the updating process lacked full transparency and expert technical peer review.

Nevertheless, Dr. Brennan said, “it’s overwhelmingly clear that alcohol affects a ton of different parts of our body, so limiting the amount of alcohol we take in is always going to be a good thing. The Canadian graphic is great because it color-codes the risk. I recommend that clinicians put it up in their offices and begin quantifying the units of alcohol that are going into a patient’s body each day.”

A version of this article originally appeared on Medscape.com.

The risk of health harms from alcohol is low for people who consume two standard drinks or fewer per week, but it’s higher with greater consumption, according to new guidance from the Canadian Centre on Substance Use and Addiction.

“Drinking less is better,” says the guidance, which replaces Canada’s 2011 Low-Risk Drinking Guidelines (LRDGs).

Developed in consultation with an executive committee from federal, provincial, and territorial governments; national organizations; three scientific expert panels; and an internal evidence review working group, the guidance presents the following findings:

• Consuming no drinks per week has benefits, such as better health and better sleep, and it’s the only safe option during pregnancy.
• Consuming one or two standard drinks weekly will likely not have alcohol-related consequences.
• Three to six drinks raise the risk of developing breast, colon, and other cancers.
• Seven or more increase the risk of heart disease or stroke.
• Each additional drink “radically increases” the risk of these health consequences.

“Alcohol is more harmful than was previously thought and is a key component of the health of your patients,” Adam Sherk, PhD, a scientist at the Canadian Institute for Substance Use Research at the University of Victoria (B.C.), and a member of the scientific expert panel that contributed to the guidance, said in an interview. “Display and discuss the new guidance with your patients with the main message that drinking less is better.”

Peter Butt, MD, a clinical associate professor at the University of Saskatchewan, Saskatoon, and cochair of the guidance project, said in an interview: “The World Health Organization has identified over 200 ICD-coded conditions associated with alcohol use. This creates many opportunities to inquire into quantity and frequency of alcohol use, relate it to the patient’s health and well-being, and provide advice on reduction.”

“Canada’s Guidance on Alcohol and Health: Final Report” and a related infographic were published online Jan. 17.
 

Continuum of risk

The impetus for the new guidance came from the fact that “our 2011 LRDGs were no longer current, and there was emerging evidence that people drinking within those levels were coming to harm,” said Dr. Butt.

That evidence indicates that alcohol causes at least seven types of cancer, mostly of the breast or colon; is a risk factor for most types of heart disease; and is a main cause of liver disease. Evidence also indicates that avoiding drinking to the point of intoxication will reduce people’s risk of perpetrating alcohol-related violence.

Responding to the need to accurately quantify the risk, the guidance defines a “standard” drink as 12 oz of beer, cooler, or cider (5% alcohol); 5 oz of wine (12% alcohol); and 1.5 oz of spirits such as whiskey, vodka, or gin (40% alcohol).

Using different mortality risk thresholds, the project’s experts developed the following continuum of risk:

• Low for individuals who consume two standard drinks or fewer per week
• Moderate for those who consume from three to six standard drinks per week
• Increasingly high for those who consume seven standard drinks or more per week

The guidance makes the following observations:

• Consuming more than two standard drinks per drinking occasion is associated with an increased risk of harms to self and others, including injuries and violence.
• When pregnant or trying to get pregnant, no amount of alcohol is safe.
• When breastfeeding, not drinking is safest.
• Above the upper limit of the moderate risk zone, health risks increase more steeply for females than males.
• Far more injuries, violence, and deaths result from men’s alcohol use, especially for per occasion drinking, than from women’s alcohol use.
• Young people should delay alcohol use for as long as possible.
• Individuals should not start to use alcohol or increase their alcohol use for health benefits.
• Any reduction in alcohol use is beneficial.

Other national guidelines

“Countries that haven’t updated their alcohol use guidelines recently should do so, as the evidence regarding alcohol and health has advanced considerably in the past 10 years,” said Dr. Sherk. He acknowledged that “any time health guidance changes substantially, it’s reasonable to expect a period of readjustment.”

“Some will be resistant,” Dr. Butt agreed. “Some professionals will need more education than others on the health effects of alcohol. Some patients will also be more invested in drinking than others. The harm-reduction, risk-zone approach should assist in the process of engaging patients and helping them reduce over time.

“Just as we benefited from the updates done in the United Kingdom, France, and especially Australia, so also researchers elsewhere will critique our work and our approach and make their own decisions on how best to communicate with their public,” Dr. Butt said. He noted that Canada’s contributions regarding the association between alcohol and violence, as well as their sex/gender approach to the evidence, “may influence the next country’s review.”

Commenting on whether the United States should consider changing its guidance, Timothy Brennan, MD, MPH, chief of clinical services for the Addiction Institute of Mount Sinai Health System in New York, said in an interview, “A lot of people will be surprised at the recommended limits on alcohol. Most think that they can have one or two glasses of alcohol per day and not have any increased risk to their health. I think the Canadians deserve credit for putting themselves out there.”

Dr. Brennan said there will “certainly be pushback by the drinking lobby, which is very strong both in the U.S. and in Canada.” In fact, the national trade group Beer Canada was recently quoted as stating that it still supports the 2011 guidelines and that the updating process lacked full transparency and expert technical peer review.

Nevertheless, Dr. Brennan said, “it’s overwhelmingly clear that alcohol affects a ton of different parts of our body, so limiting the amount of alcohol we take in is always going to be a good thing. The Canadian graphic is great because it color-codes the risk. I recommend that clinicians put it up in their offices and begin quantifying the units of alcohol that are going into a patient’s body each day.”

A version of this article originally appeared on Medscape.com.

The risk of health harms from alcohol is low for people who consume two standard drinks or fewer per week, but it’s higher with greater consumption, according to new guidance from the Canadian Centre on Substance Use and Addiction.

“Drinking less is better,” says the guidance, which replaces Canada’s 2011 Low-Risk Drinking Guidelines (LRDGs).

Developed in consultation with an executive committee from federal, provincial, and territorial governments; national organizations; three scientific expert panels; and an internal evidence review working group, the guidance presents the following findings:

• Consuming no drinks per week has benefits, such as better health and better sleep, and it’s the only safe option during pregnancy.
• Consuming one or two standard drinks weekly will likely not have alcohol-related consequences.
• Three to six drinks raise the risk of developing breast, colon, and other cancers.
• Seven or more increase the risk of heart disease or stroke.
• Each additional drink “radically increases” the risk of these health consequences.

“Alcohol is more harmful than was previously thought and is a key component of the health of your patients,” Adam Sherk, PhD, a scientist at the Canadian Institute for Substance Use Research at the University of Victoria (B.C.), and a member of the scientific expert panel that contributed to the guidance, said in an interview. “Display and discuss the new guidance with your patients with the main message that drinking less is better.”

Peter Butt, MD, a clinical associate professor at the University of Saskatchewan, Saskatoon, and cochair of the guidance project, said in an interview: “The World Health Organization has identified over 200 ICD-coded conditions associated with alcohol use. This creates many opportunities to inquire into quantity and frequency of alcohol use, relate it to the patient’s health and well-being, and provide advice on reduction.”

“Canada’s Guidance on Alcohol and Health: Final Report” and a related infographic were published online Jan. 17.
 

Continuum of risk

The impetus for the new guidance came from the fact that “our 2011 LRDGs were no longer current, and there was emerging evidence that people drinking within those levels were coming to harm,” said Dr. Butt.

That evidence indicates that alcohol causes at least seven types of cancer, mostly of the breast or colon; is a risk factor for most types of heart disease; and is a main cause of liver disease. Evidence also indicates that avoiding drinking to the point of intoxication will reduce people’s risk of perpetrating alcohol-related violence.

Responding to the need to accurately quantify the risk, the guidance defines a “standard” drink as 12 oz of beer, cooler, or cider (5% alcohol); 5 oz of wine (12% alcohol); and 1.5 oz of spirits such as whiskey, vodka, or gin (40% alcohol).

Using different mortality risk thresholds, the project’s experts developed the following continuum of risk:

• Low for individuals who consume two standard drinks or fewer per week
• Moderate for those who consume from three to six standard drinks per week
• Increasingly high for those who consume seven standard drinks or more per week

The guidance makes the following observations:

• Consuming more than two standard drinks per drinking occasion is associated with an increased risk of harms to self and others, including injuries and violence.
• When pregnant or trying to get pregnant, no amount of alcohol is safe.
• When breastfeeding, not drinking is safest.
• Above the upper limit of the moderate risk zone, health risks increase more steeply for females than males.
• Far more injuries, violence, and deaths result from men’s alcohol use, especially for per occasion drinking, than from women’s alcohol use.
• Young people should delay alcohol use for as long as possible.
• Individuals should not start to use alcohol or increase their alcohol use for health benefits.
• Any reduction in alcohol use is beneficial.

Other national guidelines

“Countries that haven’t updated their alcohol use guidelines recently should do so, as the evidence regarding alcohol and health has advanced considerably in the past 10 years,” said Dr. Sherk. He acknowledged that “any time health guidance changes substantially, it’s reasonable to expect a period of readjustment.”

“Some will be resistant,” Dr. Butt agreed. “Some professionals will need more education than others on the health effects of alcohol. Some patients will also be more invested in drinking than others. The harm-reduction, risk-zone approach should assist in the process of engaging patients and helping them reduce over time.

“Just as we benefited from the updates done in the United Kingdom, France, and especially Australia, so also researchers elsewhere will critique our work and our approach and make their own decisions on how best to communicate with their public,” Dr. Butt said. He noted that Canada’s contributions regarding the association between alcohol and violence, as well as their sex/gender approach to the evidence, “may influence the next country’s review.”

Commenting on whether the United States should consider changing its guidance, Timothy Brennan, MD, MPH, chief of clinical services for the Addiction Institute of Mount Sinai Health System in New York, said in an interview, “A lot of people will be surprised at the recommended limits on alcohol. Most think that they can have one or two glasses of alcohol per day and not have any increased risk to their health. I think the Canadians deserve credit for putting themselves out there.”

Dr. Brennan said there will “certainly be pushback by the drinking lobby, which is very strong both in the U.S. and in Canada.” In fact, the national trade group Beer Canada was recently quoted as stating that it still supports the 2011 guidelines and that the updating process lacked full transparency and expert technical peer review.

Nevertheless, Dr. Brennan said, “it’s overwhelmingly clear that alcohol affects a ton of different parts of our body, so limiting the amount of alcohol we take in is always going to be a good thing. The Canadian graphic is great because it color-codes the risk. I recommend that clinicians put it up in their offices and begin quantifying the units of alcohol that are going into a patient’s body each day.”

A version of this article originally appeared on Medscape.com.

Scientists have made big strides in the fight against cancer. A person’s risk of dying of cancer in the U.S. fell by 27% in the past 2 decades, thanks in large part to researchers who continue to uncover the complex details of how cancer works and to make advances in treatment. 

Now the emerging technology of 3D bioprinting – like 3D printing for the human body, using actual human cells – promises to speed up research by enabling scientists to develop 3D tumor models that better represent samples from patients.   

The impact could be “huge,” says Y. Shrike Zhang, PhD, an assistant professor of medicine at Harvard Medical School and associate bioengineer at Brigham and Women’s Hospital, both in Boston, who studies 3D bioprinting. “It is not the only technology that may allow modeling of tumors in vitro, but it certainly is one of the most capable.” 

Why does that matter? Because the 2D cell cultures that scientists often use now may not capture all the complexities of how cancer grows, spreads, and responds to treatment. It’s one reason why so few potential new cancer drugs – 3.4%, according to one estimate – can pass all clinical trials. Results may not carry over from the culture dish to the patient. 

Researchers say these 3D-printed blood vessels may treat certain dangerous health problems that affect your veins, arteries, or capillaries.

A 3D-bioprinted model, on the other hand, may be better at copying a tumor’s “microenvironment” – all the parts (cells, molecules, blood vessels) that surround a tumor. 

“The tumor microenvironment plays an integral role in defining how cancer progresses,” says Madhuri Dey, a PhD candidate and researcher at Penn State University. “In vitro 3D models are an attempt at reconstituting a [cancer] microenvironment, which sheds light on how tumors respond to chemo or immunotherapeutic treatments when they are present in a native-like microenvironment.”

Ms. Dey is the lead author of a study funded by the National Science Foundation in which breast cancer tumors were 3D-bioprinted and successfully treated. Unlike some previous 3D models of cancer cells, this model did a better job of imitating that microenvironment, she explains. 

So far, “3D bioprinting of cancer models has been limited to bioprinting of individual cancer cells laden in hydrogels,” she says. But she and her colleagues developed a technique called aspiration-assisted bioprinting that lets them control where blood vessels are located relative to the tumor. “This model lays the foundation for studying these nuances of cancer,” Ms. Dey says. 

“This is a quite cool work,” Dr. Zhang says of the Penn State study (which he was not involved in). “Vascularization is always a key component in [a] majority of the tumor types.” A model that incorporates blood vessels provides a “critical niche” to help tumor models reach their full potential in cancer research. 
 

A 3D printer for your body

Chances are you’ve heard of 3D printing and may even own (or know someone who owns) a 3D printer. The concept is like regular printing, but instead of spewing ink onto paper, a 3D printer releases layers of plastic or other materials, hundreds or thousands of times, to build an object from the ground up. 

Three-dimensional bioprinting works much the same way, except those layers are made of living cells to create biological structures like skin, vessels, organs, or bone. 

Bioprinting has been around since 1988. So far, it’s mainly used in research settings, such as in the field of regenerative medicine. Research is underway for ear reconstruction, nerve regeneration, and skin regeneration. The technology was also recently used to create eye tissue to help researchers study eye diseases. 

The technology’s potential for use in cancer research has yet to be fully realized, Ms. Dey says. But that may be changing. 

“The use of 3D-bioprinted tumor models is getting close to translations in cancer research,” says Dr. Zhang. “They are being increasingly adopted by the research field, and [the technology] has started to be explored by the pharma industry for use towards cancer drug development.” 

Because bioprinting can be automated, it could allow researchers to create high-quality, complex tumor models at scale, Dr. Zhang says.

Such 3D models also have the potential to replace or reduce the use of animals in tumor drug testing, Ms. Dey notes. They “are expected to provide a more accurate drug response, compared [with] animal models, as animal physiology does not match humans’.” 

The FDA Modernization Act 2.0, a new U.S. law eliminating the requirement that drugs be tested in animals before humans, has “further paved the way for such technologies in the drug development pipeline,” Dr. Zhang says.
 

What if we could build a custom tumor model for each patient? 

Possible uses for bioprinting go beyond the lab, Ms. Dey says. Imagine if we could customize 3D tumor models based on biopsies from individual patients. Doctors could test many treatments on these patient-specific models, letting them more accurately predict how each patient would respond to different therapies. This would help doctors decide which course of treatment is best. 

In Ms. Dey’s study, the 3D model was treated with chemotherapy and with immunotherapy, and it responded to both. This highlights the potential for such 3D models to reveal the body’s immune response and be used to screen therapies, she says. “We hope is that in the future, this technique can be adapted in the hospital, which would speed up the course of cancer treatment.”

To that end, she and her colleagues are now working with real breast cancer tumors removed from patients, re-creating them in the lab in 3D to use for chemo and immunotherapy screening.

A version of this article first appeared on WebMD.com.

Scientists have made big strides in the fight against cancer. A person’s risk of dying of cancer in the U.S. fell by 27% in the past 2 decades, thanks in large part to researchers who continue to uncover the complex details of how cancer works and to make advances in treatment. 

Now the emerging technology of 3D bioprinting – like 3D printing for the human body, using actual human cells – promises to speed up research by enabling scientists to develop 3D tumor models that better represent samples from patients.   

The impact could be “huge,” says Y. Shrike Zhang, PhD, an assistant professor of medicine at Harvard Medical School and associate bioengineer at Brigham and Women’s Hospital, both in Boston, who studies 3D bioprinting. “It is not the only technology that may allow modeling of tumors in vitro, but it certainly is one of the most capable.” 

Why does that matter? Because the 2D cell cultures that scientists often use now may not capture all the complexities of how cancer grows, spreads, and responds to treatment. It’s one reason why so few potential new cancer drugs – 3.4%, according to one estimate – can pass all clinical trials. Results may not carry over from the culture dish to the patient. 

Researchers say these 3D-printed blood vessels may treat certain dangerous health problems that affect your veins, arteries, or capillaries.

A 3D-bioprinted model, on the other hand, may be better at copying a tumor’s “microenvironment” – all the parts (cells, molecules, blood vessels) that surround a tumor. 

“The tumor microenvironment plays an integral role in defining how cancer progresses,” says Madhuri Dey, a PhD candidate and researcher at Penn State University. “In vitro 3D models are an attempt at reconstituting a [cancer] microenvironment, which sheds light on how tumors respond to chemo or immunotherapeutic treatments when they are present in a native-like microenvironment.”

Ms. Dey is the lead author of a study funded by the National Science Foundation in which breast cancer tumors were 3D-bioprinted and successfully treated. Unlike some previous 3D models of cancer cells, this model did a better job of imitating that microenvironment, she explains. 

So far, “3D bioprinting of cancer models has been limited to bioprinting of individual cancer cells laden in hydrogels,” she says. But she and her colleagues developed a technique called aspiration-assisted bioprinting that lets them control where blood vessels are located relative to the tumor. “This model lays the foundation for studying these nuances of cancer,” Ms. Dey says. 

“This is a quite cool work,” Dr. Zhang says of the Penn State study (which he was not involved in). “Vascularization is always a key component in [a] majority of the tumor types.” A model that incorporates blood vessels provides a “critical niche” to help tumor models reach their full potential in cancer research. 
 

A 3D printer for your body

Chances are you’ve heard of 3D printing and may even own (or know someone who owns) a 3D printer. The concept is like regular printing, but instead of spewing ink onto paper, a 3D printer releases layers of plastic or other materials, hundreds or thousands of times, to build an object from the ground up. 

Three-dimensional bioprinting works much the same way, except those layers are made of living cells to create biological structures like skin, vessels, organs, or bone. 

Bioprinting has been around since 1988. So far, it’s mainly used in research settings, such as in the field of regenerative medicine. Research is underway for ear reconstruction, nerve regeneration, and skin regeneration. The technology was also recently used to create eye tissue to help researchers study eye diseases. 

The technology’s potential for use in cancer research has yet to be fully realized, Ms. Dey says. But that may be changing. 

“The use of 3D-bioprinted tumor models is getting close to translations in cancer research,” says Dr. Zhang. “They are being increasingly adopted by the research field, and [the technology] has started to be explored by the pharma industry for use towards cancer drug development.” 

Because bioprinting can be automated, it could allow researchers to create high-quality, complex tumor models at scale, Dr. Zhang says.

Such 3D models also have the potential to replace or reduce the use of animals in tumor drug testing, Ms. Dey notes. They “are expected to provide a more accurate drug response, compared [with] animal models, as animal physiology does not match humans’.” 

The FDA Modernization Act 2.0, a new U.S. law eliminating the requirement that drugs be tested in animals before humans, has “further paved the way for such technologies in the drug development pipeline,” Dr. Zhang says.
 

What if we could build a custom tumor model for each patient? 

Possible uses for bioprinting go beyond the lab, Ms. Dey says. Imagine if we could customize 3D tumor models based on biopsies from individual patients. Doctors could test many treatments on these patient-specific models, letting them more accurately predict how each patient would respond to different therapies. This would help doctors decide which course of treatment is best. 

In Ms. Dey’s study, the 3D model was treated with chemotherapy and with immunotherapy, and it responded to both. This highlights the potential for such 3D models to reveal the body’s immune response and be used to screen therapies, she says. “We hope is that in the future, this technique can be adapted in the hospital, which would speed up the course of cancer treatment.”

To that end, she and her colleagues are now working with real breast cancer tumors removed from patients, re-creating them in the lab in 3D to use for chemo and immunotherapy screening.

A version of this article first appeared on WebMD.com.

Scientists have made big strides in the fight against cancer. A person’s risk of dying of cancer in the U.S. fell by 27% in the past 2 decades, thanks in large part to researchers who continue to uncover the complex details of how cancer works and to make advances in treatment. 

Now the emerging technology of 3D bioprinting – like 3D printing for the human body, using actual human cells – promises to speed up research by enabling scientists to develop 3D tumor models that better represent samples from patients.   

The impact could be “huge,” says Y. Shrike Zhang, PhD, an assistant professor of medicine at Harvard Medical School and associate bioengineer at Brigham and Women’s Hospital, both in Boston, who studies 3D bioprinting. “It is not the only technology that may allow modeling of tumors in vitro, but it certainly is one of the most capable.” 

Why does that matter? Because the 2D cell cultures that scientists often use now may not capture all the complexities of how cancer grows, spreads, and responds to treatment. It’s one reason why so few potential new cancer drugs – 3.4%, according to one estimate – can pass all clinical trials. Results may not carry over from the culture dish to the patient. 

Researchers say these 3D-printed blood vessels may treat certain dangerous health problems that affect your veins, arteries, or capillaries.

A 3D-bioprinted model, on the other hand, may be better at copying a tumor’s “microenvironment” – all the parts (cells, molecules, blood vessels) that surround a tumor. 

“The tumor microenvironment plays an integral role in defining how cancer progresses,” says Madhuri Dey, a PhD candidate and researcher at Penn State University. “In vitro 3D models are an attempt at reconstituting a [cancer] microenvironment, which sheds light on how tumors respond to chemo or immunotherapeutic treatments when they are present in a native-like microenvironment.”

Ms. Dey is the lead author of a study funded by the National Science Foundation in which breast cancer tumors were 3D-bioprinted and successfully treated. Unlike some previous 3D models of cancer cells, this model did a better job of imitating that microenvironment, she explains. 

So far, “3D bioprinting of cancer models has been limited to bioprinting of individual cancer cells laden in hydrogels,” she says. But she and her colleagues developed a technique called aspiration-assisted bioprinting that lets them control where blood vessels are located relative to the tumor. “This model lays the foundation for studying these nuances of cancer,” Ms. Dey says. 

“This is a quite cool work,” Dr. Zhang says of the Penn State study (which he was not involved in). “Vascularization is always a key component in [a] majority of the tumor types.” A model that incorporates blood vessels provides a “critical niche” to help tumor models reach their full potential in cancer research. 
 

A 3D printer for your body

Chances are you’ve heard of 3D printing and may even own (or know someone who owns) a 3D printer. The concept is like regular printing, but instead of spewing ink onto paper, a 3D printer releases layers of plastic or other materials, hundreds or thousands of times, to build an object from the ground up. 

Three-dimensional bioprinting works much the same way, except those layers are made of living cells to create biological structures like skin, vessels, organs, or bone. 

Bioprinting has been around since 1988. So far, it’s mainly used in research settings, such as in the field of regenerative medicine. Research is underway for ear reconstruction, nerve regeneration, and skin regeneration. The technology was also recently used to create eye tissue to help researchers study eye diseases. 

The technology’s potential for use in cancer research has yet to be fully realized, Ms. Dey says. But that may be changing. 

“The use of 3D-bioprinted tumor models is getting close to translations in cancer research,” says Dr. Zhang. “They are being increasingly adopted by the research field, and [the technology] has started to be explored by the pharma industry for use towards cancer drug development.” 

Because bioprinting can be automated, it could allow researchers to create high-quality, complex tumor models at scale, Dr. Zhang says.

Such 3D models also have the potential to replace or reduce the use of animals in tumor drug testing, Ms. Dey notes. They “are expected to provide a more accurate drug response, compared [with] animal models, as animal physiology does not match humans’.” 

The FDA Modernization Act 2.0, a new U.S. law eliminating the requirement that drugs be tested in animals before humans, has “further paved the way for such technologies in the drug development pipeline,” Dr. Zhang says.
 

What if we could build a custom tumor model for each patient? 

Possible uses for bioprinting go beyond the lab, Ms. Dey says. Imagine if we could customize 3D tumor models based on biopsies from individual patients. Doctors could test many treatments on these patient-specific models, letting them more accurately predict how each patient would respond to different therapies. This would help doctors decide which course of treatment is best. 

In Ms. Dey’s study, the 3D model was treated with chemotherapy and with immunotherapy, and it responded to both. This highlights the potential for such 3D models to reveal the body’s immune response and be used to screen therapies, she says. “We hope is that in the future, this technique can be adapted in the hospital, which would speed up the course of cancer treatment.”

To that end, she and her colleagues are now working with real breast cancer tumors removed from patients, re-creating them in the lab in 3D to use for chemo and immunotherapy screening.

A version of this article first appeared on WebMD.com.

Cancer dietitian Lisa Cianciotta often finds herself sitting across from a patient who suddenly fishes a bottle of antioxidant supplements from their bag and says, “My friend told me this works really well,” or “I read on the Internet that this is supposed to be really good for cancer.” 

Although taking an antioxidant pill sounds harmless, Ms. Cianciotta, a clinical dietitian who works with cancer patients at New York–Presbyterian Hospital, knows well that this popular dietary supplement can interfere with a patient’s radiation or chemotherapy.

But many patients with cancer believe these over-the-counter vitamins, minerals, or herbal remedies will help them, and most use at least one dietary supplement alongside their cancer treatment.

And that leaves Ms. Cianciotta with a delicate conversation ahead of her. 

Drug-supplement interactions are complex, often varying by supplement, cancer, and treatment type, and can do more harm than good. Popular dietary supplements may, for instance, cancel the effects of a cancer treatment, making it less effective, or increase serious side effects, such as liver toxicity. But in other cases, supplementation, such as vitamin D for patients who lack the vitamin, may be beneficial, Ms. Cianciotta said. 

These drug-supplement interactions can be hard to pinpoint, given that more than two-thirds of doctors don’t know their patients are using supplements.

Here’s what patients need to know about the potential risks of supplement use during treatment, and how oncologists can address this thorny, often poorly understood topic with patients.
 

The complex drug-supplement landscape

The list of dietary supplements and how they can interact with different treatments and cancer types is long and nuanced. 

But certain supplements appear to affect cancer treatments regardless of other things and should be avoided. Any supplement that strongly alters the body’s levels of the protein cytochromes P450 is one example. This group of enzymes plays a key role in metabolizing drugs, including chemotherapy and immunotherapy agents. 

Certain supplements – most notably St. John’s wort extract – may decrease or increase the activity of cytochrome P450, which can then  affect the concentrations of anticancer drugs in the blood, said William Figg, PharmD, an associate director of the Center for Cancer Research at the National Cancer Institute in Bethesda, Md. Studies show, for instance, that this common herbal supplement can increase the activity of cytochrome P450, resulting in lower levels of cancer drugs.

Outside of drug metabolism, patients with hormone-related cancers, such as breast and prostate cancers, should steer clear of dietary supplements that can alter levels of testosterone or estrogen, Dr. Figg said. The evergreen shrub ashwagandha, for example, is marketed to reduce stress and fatigue, but can also increase testosterone levels – a potential problem for those with prostate cancer receiving androgen deprivation therapy, which lowers testosterone levels. 

Many oncologists counsel patients against using antioxidant-based dietary supplements – particularly turmeric and green tea extract – while they have radiation therapy and certain chemotherapies. These therapies work by creating an abundance of highly reactive molecules called free radicals in tumor cells, which increase stress within these cells, ultimately killing them off. Antioxidants, in theory, can neutralize this effect, said Skyler Johnson, MD, a radiation oncologist at Huntsman Cancer Institute at the University of Utah, Salt Lake City.  Some studies suggest that antioxidant supplements may lessen the effects of radiation and chemotherapy, although the evidence is mixed.

Some dietary supplements, including high-dose green tea extract and vitamin A, can cause kidney or liver toxicity, and “many cancer patients already have compromised kidney or liver function,” said Jun J. Mao, MD, chief of integrative medicine at Memorial Sloan Kettering Cancer Center in New York. Even herbs that don’t interfere with how well a cancer drug works, such as stevia, can increase treatment-related side effects, such as nausea and vomiting. 

Another potential problem with dietary supplements: It’s nearly impossible to know exactly what’s in them. For instance, just last year, the Food and Drug Administration sent nearly 50 warning letters to companies marketing dietary supplements. The issue is that federal regulations governing production are less strict for supplements than for medications. As a result, some supplements contain ingredients not listed on the label. 

One historical example was the supplement PC-SPES, a mix of eight herbs, marketed to men with prostate cancer. The supplement was recalled in 2002 after certain batches were found to contain traces of prescription drugs, including diethylstilbestrol, ethinyl estradiol, warfarin, and alprazolam.

To further complicate matters, some dietary supplements can be helpful. Most patients with cancer “are malnourished and missing out on nutrients they could be getting from food,” said Ms. Cianciotta.

Patients are tested routinely for vitamin deficiencies and receive supplements as needed, she said. Vitamin D and folic acid are two of the most common deficiencies in this patient population. Vitamin D supplementation can improve outcomes in patients who have received a stem cell transplant by aiding engraftment and rebuilding the immune system, while folic acid supplementation can help to raise low red blood cell counts and hemoglobin levels. 

Although she rarely sees vitamin toxicity, Ms. Cianciotta stressed that more is not always better and supplement use, even when it seems safe or warranted due to a deficiency, should be taken under supervision, and monitored carefully by the patient’s care team. 
 

Bringing supplement use into the light

Too often, providers are unaware of a patient’s supplement use. 

A core reason: Dietary supplements are often touted as natural, which many patients equate with safety, said Samantha Heller, a senior clinical nutritionist at New York (N.Y.) University Langone Health. 

That means patients may not know a supplement can act like a drug and interfere with their cancer treatment, and thus may not see the importance of telling their doctors.

Still, the promise of herbs, vitamins, and minerals can be alluring, and there are many reasons patients decide to partake. One major appeal: Dietary supplements can help some patients feel empowered.

“Cancer is a disease that takes away a lot of control from the individual. Taking supplements or herbs is a way to regain some sense of control,” said Dr. Mao. 

The phenomenon can also be cultural, he said. Some people grow up taking herbs and supplements to stay healthy or combat health woes.

Pressure or advice from family or friends who may think they are helping a loved one with their dietary recommendations may play a role as well. Friends and family “cannot prescribe chemo, but they can buy herbs and supplements,” Dr. Mao said. 

Patients seeking greater control over their health or who feel high levels of anxiety may be more likely to take suggestions from friends and family or more likely to believe false or misleading claims about the efficacy or safety of supplements, explained  medical oncologist William Dahut, MD, chief scientific officer for the American Cancer Society. 

Plus, social media often amplifies and normalizes this misinformation, noted Dr. Johnson. In a 2021 study published in the Journal of the National Cancer Institute, he and colleagues found that one-third of the most popular articles on cancer treatment posted to social media in 2018 and 2019 contained false, inaccurate, or misleading information that was often harmful. 

Some of the false claims centered on unproven, potentially unsafe herbal remedies, according to Dr. Johnson. These included “lung cancer can be cured with cannabis oil” and “golden berries cure and prevent cancer.” 

Given exaggerated claims of “cures,” some patients may keep their supplement use under the radar out of fear they will be judged or criticized. 

“Clinicians should avoid making patients feel judged or telling people not to go online to do their own research,” Dr. Johnson said.

Guiding patients, instead, to accurate sources of online information may be one way to help patients feel empowered, he said. Cancer.gov and the Memorial Sloan Kettering Cancer Center’s About Herbs database provide accessible and accurate information on dietary supplements and cancer treatment for both health care professionals and patients, he noted. 

If a particular supplement is not safe during treatment, providers should be able to explain why, said  Ms. Cianciotta. In a recent study, 80% of health care providers surveyed believed that interactions between herbals and medications could be problematic, but only 15% could explain why. 

“Being able to explain why we are discouraging a particular supplement right now tends to be much better received than just telling a patient not to take something, because it is bad,” she said. 

Another key is listening closely to patients to understand why they may be taking a particular supplement. Does the patient feel out of control? Is nausea a problem? 

“Allowing patients to tell you why they are using a particular supplement will often reveal unmet needs or psychosocial challenges,” Dr. Mao said. This information can allow providers to suggest an evidence-based alternative, such as mindfulness meditation or acupuncture, to manage stress.

And if a patient has received a dietary supplement from well-meaning family and friends?

“Simply telling a patient that a given supplement is useless or harmful could create family tension,” said  Dr. Mao. 

Instead, he recommends reframing the issue. 

“We want to have a better understanding of how patients are tolerating chemo or immunotherapy before throwing other things on top of it. Let them know that now may just not be the right time to add a supplement to the mix,” Dr. Mao said. 

The bottom line: “Patients want to play an active role in their own care, and we want to help them do that in a safe way,” he said. 

A version of this article first appeared on WebMD.com.

Cancer dietitian Lisa Cianciotta often finds herself sitting across from a patient who suddenly fishes a bottle of antioxidant supplements from their bag and says, “My friend told me this works really well,” or “I read on the Internet that this is supposed to be really good for cancer.” 

Although taking an antioxidant pill sounds harmless, Ms. Cianciotta, a clinical dietitian who works with cancer patients at New York–Presbyterian Hospital, knows well that this popular dietary supplement can interfere with a patient’s radiation or chemotherapy.

But many patients with cancer believe these over-the-counter vitamins, minerals, or herbal remedies will help them, and most use at least one dietary supplement alongside their cancer treatment.

And that leaves Ms. Cianciotta with a delicate conversation ahead of her. 

Drug-supplement interactions are complex, often varying by supplement, cancer, and treatment type, and can do more harm than good. Popular dietary supplements may, for instance, cancel the effects of a cancer treatment, making it less effective, or increase serious side effects, such as liver toxicity. But in other cases, supplementation, such as vitamin D for patients who lack the vitamin, may be beneficial, Ms. Cianciotta said. 

These drug-supplement interactions can be hard to pinpoint, given that more than two-thirds of doctors don’t know their patients are using supplements.

Here’s what patients need to know about the potential risks of supplement use during treatment, and how oncologists can address this thorny, often poorly understood topic with patients.
 

The complex drug-supplement landscape

The list of dietary supplements and how they can interact with different treatments and cancer types is long and nuanced. 

But certain supplements appear to affect cancer treatments regardless of other things and should be avoided. Any supplement that strongly alters the body’s levels of the protein cytochromes P450 is one example. This group of enzymes plays a key role in metabolizing drugs, including chemotherapy and immunotherapy agents. 

Certain supplements – most notably St. John’s wort extract – may decrease or increase the activity of cytochrome P450, which can then  affect the concentrations of anticancer drugs in the blood, said William Figg, PharmD, an associate director of the Center for Cancer Research at the National Cancer Institute in Bethesda, Md. Studies show, for instance, that this common herbal supplement can increase the activity of cytochrome P450, resulting in lower levels of cancer drugs.

Outside of drug metabolism, patients with hormone-related cancers, such as breast and prostate cancers, should steer clear of dietary supplements that can alter levels of testosterone or estrogen, Dr. Figg said. The evergreen shrub ashwagandha, for example, is marketed to reduce stress and fatigue, but can also increase testosterone levels – a potential problem for those with prostate cancer receiving androgen deprivation therapy, which lowers testosterone levels. 

Many oncologists counsel patients against using antioxidant-based dietary supplements – particularly turmeric and green tea extract – while they have radiation therapy and certain chemotherapies. These therapies work by creating an abundance of highly reactive molecules called free radicals in tumor cells, which increase stress within these cells, ultimately killing them off. Antioxidants, in theory, can neutralize this effect, said Skyler Johnson, MD, a radiation oncologist at Huntsman Cancer Institute at the University of Utah, Salt Lake City.  Some studies suggest that antioxidant supplements may lessen the effects of radiation and chemotherapy, although the evidence is mixed.

Some dietary supplements, including high-dose green tea extract and vitamin A, can cause kidney or liver toxicity, and “many cancer patients already have compromised kidney or liver function,” said Jun J. Mao, MD, chief of integrative medicine at Memorial Sloan Kettering Cancer Center in New York. Even herbs that don’t interfere with how well a cancer drug works, such as stevia, can increase treatment-related side effects, such as nausea and vomiting. 

Another potential problem with dietary supplements: It’s nearly impossible to know exactly what’s in them. For instance, just last year, the Food and Drug Administration sent nearly 50 warning letters to companies marketing dietary supplements. The issue is that federal regulations governing production are less strict for supplements than for medications. As a result, some supplements contain ingredients not listed on the label. 

One historical example was the supplement PC-SPES, a mix of eight herbs, marketed to men with prostate cancer. The supplement was recalled in 2002 after certain batches were found to contain traces of prescription drugs, including diethylstilbestrol, ethinyl estradiol, warfarin, and alprazolam.

To further complicate matters, some dietary supplements can be helpful. Most patients with cancer “are malnourished and missing out on nutrients they could be getting from food,” said Ms. Cianciotta.

Patients are tested routinely for vitamin deficiencies and receive supplements as needed, she said. Vitamin D and folic acid are two of the most common deficiencies in this patient population. Vitamin D supplementation can improve outcomes in patients who have received a stem cell transplant by aiding engraftment and rebuilding the immune system, while folic acid supplementation can help to raise low red blood cell counts and hemoglobin levels. 

Although she rarely sees vitamin toxicity, Ms. Cianciotta stressed that more is not always better and supplement use, even when it seems safe or warranted due to a deficiency, should be taken under supervision, and monitored carefully by the patient’s care team. 
 

Bringing supplement use into the light

Too often, providers are unaware of a patient’s supplement use. 

A core reason: Dietary supplements are often touted as natural, which many patients equate with safety, said Samantha Heller, a senior clinical nutritionist at New York (N.Y.) University Langone Health. 

That means patients may not know a supplement can act like a drug and interfere with their cancer treatment, and thus may not see the importance of telling their doctors.

Still, the promise of herbs, vitamins, and minerals can be alluring, and there are many reasons patients decide to partake. One major appeal: Dietary supplements can help some patients feel empowered.

“Cancer is a disease that takes away a lot of control from the individual. Taking supplements or herbs is a way to regain some sense of control,” said Dr. Mao. 

The phenomenon can also be cultural, he said. Some people grow up taking herbs and supplements to stay healthy or combat health woes.

Pressure or advice from family or friends who may think they are helping a loved one with their dietary recommendations may play a role as well. Friends and family “cannot prescribe chemo, but they can buy herbs and supplements,” Dr. Mao said. 

Patients seeking greater control over their health or who feel high levels of anxiety may be more likely to take suggestions from friends and family or more likely to believe false or misleading claims about the efficacy or safety of supplements, explained  medical oncologist William Dahut, MD, chief scientific officer for the American Cancer Society. 

Plus, social media often amplifies and normalizes this misinformation, noted Dr. Johnson. In a 2021 study published in the Journal of the National Cancer Institute, he and colleagues found that one-third of the most popular articles on cancer treatment posted to social media in 2018 and 2019 contained false, inaccurate, or misleading information that was often harmful. 

Some of the false claims centered on unproven, potentially unsafe herbal remedies, according to Dr. Johnson. These included “lung cancer can be cured with cannabis oil” and “golden berries cure and prevent cancer.” 

Given exaggerated claims of “cures,” some patients may keep their supplement use under the radar out of fear they will be judged or criticized. 

“Clinicians should avoid making patients feel judged or telling people not to go online to do their own research,” Dr. Johnson said.

Guiding patients, instead, to accurate sources of online information may be one way to help patients feel empowered, he said. Cancer.gov and the Memorial Sloan Kettering Cancer Center’s About Herbs database provide accessible and accurate information on dietary supplements and cancer treatment for both health care professionals and patients, he noted. 

If a particular supplement is not safe during treatment, providers should be able to explain why, said  Ms. Cianciotta. In a recent study, 80% of health care providers surveyed believed that interactions between herbals and medications could be problematic, but only 15% could explain why. 

“Being able to explain why we are discouraging a particular supplement right now tends to be much better received than just telling a patient not to take something, because it is bad,” she said. 

Another key is listening closely to patients to understand why they may be taking a particular supplement. Does the patient feel out of control? Is nausea a problem? 

“Allowing patients to tell you why they are using a particular supplement will often reveal unmet needs or psychosocial challenges,” Dr. Mao said. This information can allow providers to suggest an evidence-based alternative, such as mindfulness meditation or acupuncture, to manage stress.

And if a patient has received a dietary supplement from well-meaning family and friends?

“Simply telling a patient that a given supplement is useless or harmful could create family tension,” said  Dr. Mao. 

Instead, he recommends reframing the issue. 

“We want to have a better understanding of how patients are tolerating chemo or immunotherapy before throwing other things on top of it. Let them know that now may just not be the right time to add a supplement to the mix,” Dr. Mao said. 

The bottom line: “Patients want to play an active role in their own care, and we want to help them do that in a safe way,” he said. 

A version of this article first appeared on WebMD.com.

Cancer dietitian Lisa Cianciotta often finds herself sitting across from a patient who suddenly fishes a bottle of antioxidant supplements from their bag and says, “My friend told me this works really well,” or “I read on the Internet that this is supposed to be really good for cancer.” 

Although taking an antioxidant pill sounds harmless, Ms. Cianciotta, a clinical dietitian who works with cancer patients at New York–Presbyterian Hospital, knows well that this popular dietary supplement can interfere with a patient’s radiation or chemotherapy.

But many patients with cancer believe these over-the-counter vitamins, minerals, or herbal remedies will help them, and most use at least one dietary supplement alongside their cancer treatment.

And that leaves Ms. Cianciotta with a delicate conversation ahead of her. 

Drug-supplement interactions are complex, often varying by supplement, cancer, and treatment type, and can do more harm than good. Popular dietary supplements may, for instance, cancel the effects of a cancer treatment, making it less effective, or increase serious side effects, such as liver toxicity. But in other cases, supplementation, such as vitamin D for patients who lack the vitamin, may be beneficial, Ms. Cianciotta said. 

These drug-supplement interactions can be hard to pinpoint, given that more than two-thirds of doctors don’t know their patients are using supplements.

Here’s what patients need to know about the potential risks of supplement use during treatment, and how oncologists can address this thorny, often poorly understood topic with patients.
 

The complex drug-supplement landscape

The list of dietary supplements and how they can interact with different treatments and cancer types is long and nuanced. 

But certain supplements appear to affect cancer treatments regardless of other things and should be avoided. Any supplement that strongly alters the body’s levels of the protein cytochromes P450 is one example. This group of enzymes plays a key role in metabolizing drugs, including chemotherapy and immunotherapy agents. 

Certain supplements – most notably St. John’s wort extract – may decrease or increase the activity of cytochrome P450, which can then  affect the concentrations of anticancer drugs in the blood, said William Figg, PharmD, an associate director of the Center for Cancer Research at the National Cancer Institute in Bethesda, Md. Studies show, for instance, that this common herbal supplement can increase the activity of cytochrome P450, resulting in lower levels of cancer drugs.

Outside of drug metabolism, patients with hormone-related cancers, such as breast and prostate cancers, should steer clear of dietary supplements that can alter levels of testosterone or estrogen, Dr. Figg said. The evergreen shrub ashwagandha, for example, is marketed to reduce stress and fatigue, but can also increase testosterone levels – a potential problem for those with prostate cancer receiving androgen deprivation therapy, which lowers testosterone levels. 

Many oncologists counsel patients against using antioxidant-based dietary supplements – particularly turmeric and green tea extract – while they have radiation therapy and certain chemotherapies. These therapies work by creating an abundance of highly reactive molecules called free radicals in tumor cells, which increase stress within these cells, ultimately killing them off. Antioxidants, in theory, can neutralize this effect, said Skyler Johnson, MD, a radiation oncologist at Huntsman Cancer Institute at the University of Utah, Salt Lake City.  Some studies suggest that antioxidant supplements may lessen the effects of radiation and chemotherapy, although the evidence is mixed.

Some dietary supplements, including high-dose green tea extract and vitamin A, can cause kidney or liver toxicity, and “many cancer patients already have compromised kidney or liver function,” said Jun J. Mao, MD, chief of integrative medicine at Memorial Sloan Kettering Cancer Center in New York. Even herbs that don’t interfere with how well a cancer drug works, such as stevia, can increase treatment-related side effects, such as nausea and vomiting. 

Another potential problem with dietary supplements: It’s nearly impossible to know exactly what’s in them. For instance, just last year, the Food and Drug Administration sent nearly 50 warning letters to companies marketing dietary supplements. The issue is that federal regulations governing production are less strict for supplements than for medications. As a result, some supplements contain ingredients not listed on the label. 

One historical example was the supplement PC-SPES, a mix of eight herbs, marketed to men with prostate cancer. The supplement was recalled in 2002 after certain batches were found to contain traces of prescription drugs, including diethylstilbestrol, ethinyl estradiol, warfarin, and alprazolam.

To further complicate matters, some dietary supplements can be helpful. Most patients with cancer “are malnourished and missing out on nutrients they could be getting from food,” said Ms. Cianciotta.

Patients are tested routinely for vitamin deficiencies and receive supplements as needed, she said. Vitamin D and folic acid are two of the most common deficiencies in this patient population. Vitamin D supplementation can improve outcomes in patients who have received a stem cell transplant by aiding engraftment and rebuilding the immune system, while folic acid supplementation can help to raise low red blood cell counts and hemoglobin levels. 

Although she rarely sees vitamin toxicity, Ms. Cianciotta stressed that more is not always better and supplement use, even when it seems safe or warranted due to a deficiency, should be taken under supervision, and monitored carefully by the patient’s care team. 
 

Bringing supplement use into the light

Too often, providers are unaware of a patient’s supplement use. 

A core reason: Dietary supplements are often touted as natural, which many patients equate with safety, said Samantha Heller, a senior clinical nutritionist at New York (N.Y.) University Langone Health. 

That means patients may not know a supplement can act like a drug and interfere with their cancer treatment, and thus may not see the importance of telling their doctors.

Still, the promise of herbs, vitamins, and minerals can be alluring, and there are many reasons patients decide to partake. One major appeal: Dietary supplements can help some patients feel empowered.

“Cancer is a disease that takes away a lot of control from the individual. Taking supplements or herbs is a way to regain some sense of control,” said Dr. Mao. 

The phenomenon can also be cultural, he said. Some people grow up taking herbs and supplements to stay healthy or combat health woes.

Pressure or advice from family or friends who may think they are helping a loved one with their dietary recommendations may play a role as well. Friends and family “cannot prescribe chemo, but they can buy herbs and supplements,” Dr. Mao said. 

Patients seeking greater control over their health or who feel high levels of anxiety may be more likely to take suggestions from friends and family or more likely to believe false or misleading claims about the efficacy or safety of supplements, explained  medical oncologist William Dahut, MD, chief scientific officer for the American Cancer Society. 

Plus, social media often amplifies and normalizes this misinformation, noted Dr. Johnson. In a 2021 study published in the Journal of the National Cancer Institute, he and colleagues found that one-third of the most popular articles on cancer treatment posted to social media in 2018 and 2019 contained false, inaccurate, or misleading information that was often harmful. 

Some of the false claims centered on unproven, potentially unsafe herbal remedies, according to Dr. Johnson. These included “lung cancer can be cured with cannabis oil” and “golden berries cure and prevent cancer.” 

Given exaggerated claims of “cures,” some patients may keep their supplement use under the radar out of fear they will be judged or criticized. 

“Clinicians should avoid making patients feel judged or telling people not to go online to do their own research,” Dr. Johnson said.

Guiding patients, instead, to accurate sources of online information may be one way to help patients feel empowered, he said. Cancer.gov and the Memorial Sloan Kettering Cancer Center’s About Herbs database provide accessible and accurate information on dietary supplements and cancer treatment for both health care professionals and patients, he noted. 

If a particular supplement is not safe during treatment, providers should be able to explain why, said  Ms. Cianciotta. In a recent study, 80% of health care providers surveyed believed that interactions between herbals and medications could be problematic, but only 15% could explain why. 

“Being able to explain why we are discouraging a particular supplement right now tends to be much better received than just telling a patient not to take something, because it is bad,” she said. 

Another key is listening closely to patients to understand why they may be taking a particular supplement. Does the patient feel out of control? Is nausea a problem? 

“Allowing patients to tell you why they are using a particular supplement will often reveal unmet needs or psychosocial challenges,” Dr. Mao said. This information can allow providers to suggest an evidence-based alternative, such as mindfulness meditation or acupuncture, to manage stress.

And if a patient has received a dietary supplement from well-meaning family and friends?

“Simply telling a patient that a given supplement is useless or harmful could create family tension,” said  Dr. Mao. 

Instead, he recommends reframing the issue. 

“We want to have a better understanding of how patients are tolerating chemo or immunotherapy before throwing other things on top of it. Let them know that now may just not be the right time to add a supplement to the mix,” Dr. Mao said. 

The bottom line: “Patients want to play an active role in their own care, and we want to help them do that in a safe way,” he said. 

A version of this article first appeared on WebMD.com.

Doug Flora, MD, knows the value of early cancer detection because it helped him survive kidney cancer 5 years ago. But as a medical oncologist and hematologist, and the executive medical director of oncology services at St. Elizabeth Healthcare in Edgewood, Ky., he also knows that a new era of early cancer detection testing poses big challenges for his network of six hospitals and 169 specialty and primary care offices throughout Kentucky, Ohio, and Indiana.

Multicancer early detection (MCED) tests are finally a reality and could be a potential game changer because they can screen for the possibility of up to 50 different cancers in asymptomatic individuals with one blood draw. They represent one of the fastest growing segments in medical diagnostics with a projected value of $2.77 billion by 2030, according to the market research firm Grand View Research.

These tests are different from traditional liquid biopsies, which are designed to identify actionable gene mutations to help inform treatment decisions of patients already diagnosed with cancer. Instead, MCED tests work to detect fragments of circulating free DNA that have been shed by tumors and released into the bloodstream. Detecting these cancer signals could indicate that an individual has cancer well before they ever develop symptoms.

For some cancer types, particularly those commonly diagnosed at advanced stages or those without general population screening tests, MCED testing could have a significant impact.

In its new report, Grand View Research highlights nine “prominent players” active in the MCED market; of these, two have been granted breakthrough device designation by the Food and Drug Administration: OverC MCDBT by Burning Rock on Jan. 3, 2023, and Galleri by Grail in 2019. Galleri was launched in June 2021 and can be obtained with a prescription at a cost of $949.

Yet, while patients are asking for these tests and primary care physicians are prescribing them, oncologists are grappling with how to manage the first patients whose tests tell them they may have cancer.

Ordering the tests may seem straightforward, but in reality, it is not. In fact, they are so new that most health systems have no internal guidelines for physicians. Guidelines would address when the tests should be prescribed, and whether a patient should undergo more testing or be referred to an oncologist.
 

Clinical trials underway

There are currently at least 17 clinical trials underway to investigate the performance and clinical utility of MCED tests. Six of these involve Grail, including NHS-Galleri, the largest study to date of 140,000 participants in the United Kingdom where participants will be followed for 3 years with annual visits at 12 and 24 months. And, the National Cancer Institute is spearheading a clinical trial of its own, according to a search of ClinicalTrials.gov.

In September 2022, Grail presented findings from its pivotal PATHFINDER study at the annual meeting of the European Society of Medical Oncology. Researchers reported that cancer signals were detected in 1.4% (92) of 6,621 participants enrolled in the study. Of the 92, 35 people were diagnosed with 36 cancers: 19 were solid tumors (2 oropharyngeal, 5 breast, l liver, 1 intrahepatic bile duct, 2 colon/rectum, 2 prostate, 1 lung, 1 pancreas, 1 small intestine, 1 uterus, 1 ovary and 1 bone) and 17 hematologic cancers (1 plasma cell myeloma/disorders, 2 lymphoid leukemia, 2 Waldenström’s macroglobulinemia, and 12 lymphoma).

Almost half of newly diagnosed cases were cancers in stage 1 or 2. Of stage 1 cancers, three were solid tumors and four were hematologic cancers. Of stage 2 cancers, three were solid tumors and four were hematologic cancers. All other cancers were in stage 3 and 4 or were listed as recurrent or no stage. Deb Schrag, MD, MPH, chair of the department of medicine at Memorial Sloan Kettering Cancer Center in New York, who presented the results from PATHFINDER at ESMO, reported that, of all diagnosed cancers, only breast, colon/rectum, prostate, and lung have established screening protocols.

The findings were so striking that the meeting scientific co-chair, Fabrice André, MD, PhD, told ESMO the oncology field must prepare for an onslaught of new patients.

“Within the next 5 years, we will need more doctors, surgeons and nurses with more diagnostic and treatment infrastructures to care for the rising number of people who will be identified by multicancer early detection tests,” said Dr. André, who is director of research at Gustave Roussy Cancer Center, Villejuif, France, and future president of ESMO (2025-2026). “We need to involve all stakeholders in deciding new pathways of care. We need to agree who will be tested and when and where tests will be carried out, and to anticipate the changes that will happen as a result of these tests.”

But first, he urged, the need for comparative trials “across all types of cancer to find out if having an early detection test affects morbidity and mortality. We also need to know how the tests benefit patients, and how to discuss the results with them,” Dr. André said.
 

Demand may burden health systems

Dr. Flora suggested that companies like Grail are rushing their product to market without conducting long-term sizable clinical trials.

“These diagnostic companies are a billion dollar publicly traded or venture capital-funded companies that are losing millions of dollars a quarter as they’re scaling up these tests. So, there is some pressure on the sales forces ... to start moving product long before the science has met our lowest areas for entry,” Dr. Flora said. “They are aggressively marketing to a primary care audience that knows nothing about MCEDs. It’s a sales-driven development solving a problem we all believe is real, but we don’t know if it actually solves the problem.”

There are many unanswered questions, he said. Among these include whether the tests do indeed extend survival. “What they’re suggesting – that is if the blood test detects it – that we’re going to save your life. That’s not yet been proven. This is where the providers are pushing back against these industry types to say: ‘This is the wild west right now.’ It’s very irresponsible to go out there and try to sell hundreds of millions of dollars of product to doctors who have never studied genetics,” Dr. Flora said.

Grail’s chief medical officer Jeff Venstrom, MD, however, said physicians don’t need a background in genetic testing to order or interpret Galleri because it’s not a genetic test. Genetic tests look for genetic variants associated with cancer risk, which Galleri does not. MCED tests rely on genomic profiling to identify alterations in tumors.

“Maybe there’s still confusion in the market, which is common for new technologies when they’re initially launched. This is not a 23andMe test. We do not report germline mutations that have implications for cancer risk. We’re using this blood sample to test for the presence or absence of a cancer signal. The test result is very clear and simple: One area of the report says ‘yes’ or ‘no.’ It is a binary result that says if a signal is detected or not. The second provides additional information around where that signal could be coming from,” he said.

Galleri could fill a huge unmet need in cancer prevention, Dr. Venstrom said. Not only could it detect cancer at an earlier stage, but it could serve as a screening tool for cancers like pancreatic cancer in which screening is not available.

The test is not intended to replace standard of care screening, he said. The ordering provider should have a conversation with the patient about overall cancer risk. “Are you smoking? What’s your risk of obesity-associated cancers? Do you have a family history of cancer? I think this should all be in the context of a good conversation around preventative care,” he said.
 

Planning and prep in Boston

In Boston, Aparna Parikh, MD, an oncologist who specializes in gastrointestinal cancers, agreed that MCED testing has forced her team at the Mass General Cancer Center global cancer care program to think outside of the box.

“We’re a major academic center and it’s not easy [because] this is all uncharted territory,” she said. “We all recognize there are more tests coming, and they are here to stay. As a health system, we have to be ready to manage not only the tests, but patient anxieties, and all the complexities that come with it. We just don’t know yet how to best navigate.”

Although Dr. Parikh’s center has set up a working group tasked with organizing an outpatient clinic for patients with positive MCED tests, the current system is haphazard.

“Right now, it gets bounced around between people,” she explained. “Sometimes, patients are getting referred to the oncology team rather than the primary care team to try to sort out where the cancer signal is coming from, that is, if it’s not immediately obvious. No one really knows who should be the right person to own it,” Dr. Parikh said. While the test is supposed to give tissue-specific results, “it’s not perfect” and sometimes imaging and other work-ups are needed to locate the source of the signa.

“A group of four or five oncologists get looped in and then we’re trying to sort it out on a case-by-case basis, but understanding that with more and more tests coming, that kind of ad hoc approach isn’t going to be sufficient. We need a happy medium between the primary care and the disease specific oncologist, someone who can kind of help think through the diagnostic workup until they have a cancer diagnosis to get them to the right place,” Dr. Parikh said.

Dr. Venstrom said Grail is committed to providing support to clinicians in these situations. “We’re doing everything we can with our medical education forums. We have this pretty intense and extensive postpositive suite of resources,” he explained. “Some of our doctors on staff call the ordering provider within 24 hours just to clarify if there are any questions or confusion from the report. For example, if it suggests the signal is coming from the lung, we provide additional support around additional workups.”
 

Out-of-pocket test may widen disparities in care

With the exception of a few health insurance companies that have committed to covering some of the cost for the test, Galleri is an out-of-pocket expense.

Dr. Venstrom acknowledged that broad insurance coverage for the Galleri test remains a hurdle, although “we’ve secured coverage for a handful of companies of self-insured employers and forward-thinking insurers.” This includes partnerships with Point32Health, and Alignment Health, among others, he said.

There is also growing support among more than 400 cancer organizations for the Multi-Cancer Early Detection Screening Coverage Act to accelerate coverage for Medicare beneficiaries. “We are constantly trying to understand the evidence that’s needed for payors to make sure that we get the broadest access possible for this test,” he said.
 

The first positive test result

Back at St. Elizabeth Healthcare where they’ve only seen one positive MCED test result thus far, Dr. Flora is more concerned about patients giving informed consent before they even get the test. “When the reps started hammering our primary care doctors, we sent communiques throughout the system saying that we would very much like to regulate this to make sure that before our patients receive accidental harm, that they at least have a conversation with somebody who understands the test,” he explained.

All 15 patients who requested the test at the hospital were first required to discuss the implications with a genetic counselor who is part of the system. “We are really pro–cancer screening,” he said, but added his hospital is “not pumped” about the Galleri test. “We’re being very cautious about overstatements made by sales guys to our primary care doctors, so we’re letting our own precision medicine people handle it.”

There’s a similar system in place at Community Health Network, a nonprofit health system with nine hospitals and 1,300 employee providers throughout Central Indiana. Patrick McGill, MD, a primary care physician and chief analytics officer for the network says they have streamlined patients with positive tests through their high-risk oncology clinic. “They don’t go straight to a medical oncologist which I know some systems are struggling with,” he said. “They get additional testing, whether it’s imaging they might need or other lab testing. We’ve had a few lung positives, and a few leukemia positives which might go straight to medical oncology. I think we had one breast that was positive so she got additional breast imaging.”

Through its foundation, CHN will offer 2,000 tests free of charge. “We decided to take cost off the table with this funding,” Dr. McGill said. “A lot of health systems I talk to are always concerned that insurance doesn’t cover it and it’s cost prohibitive. Is it creating additional disparities because only people who can afford it can get the test?”

Dr. Schrag serves as an uncompensated advisor for Grail. Previously, while with the Dana-Farber Cancer Institute, she received research funding from Grail.

Doug Flora, MD, knows the value of early cancer detection because it helped him survive kidney cancer 5 years ago. But as a medical oncologist and hematologist, and the executive medical director of oncology services at St. Elizabeth Healthcare in Edgewood, Ky., he also knows that a new era of early cancer detection testing poses big challenges for his network of six hospitals and 169 specialty and primary care offices throughout Kentucky, Ohio, and Indiana.

Multicancer early detection (MCED) tests are finally a reality and could be a potential game changer because they can screen for the possibility of up to 50 different cancers in asymptomatic individuals with one blood draw. They represent one of the fastest growing segments in medical diagnostics with a projected value of $2.77 billion by 2030, according to the market research firm Grand View Research.

These tests are different from traditional liquid biopsies, which are designed to identify actionable gene mutations to help inform treatment decisions of patients already diagnosed with cancer. Instead, MCED tests work to detect fragments of circulating free DNA that have been shed by tumors and released into the bloodstream. Detecting these cancer signals could indicate that an individual has cancer well before they ever develop symptoms.

For some cancer types, particularly those commonly diagnosed at advanced stages or those without general population screening tests, MCED testing could have a significant impact.

In its new report, Grand View Research highlights nine “prominent players” active in the MCED market; of these, two have been granted breakthrough device designation by the Food and Drug Administration: OverC MCDBT by Burning Rock on Jan. 3, 2023, and Galleri by Grail in 2019. Galleri was launched in June 2021 and can be obtained with a prescription at a cost of $949.

Yet, while patients are asking for these tests and primary care physicians are prescribing them, oncologists are grappling with how to manage the first patients whose tests tell them they may have cancer.

Ordering the tests may seem straightforward, but in reality, it is not. In fact, they are so new that most health systems have no internal guidelines for physicians. Guidelines would address when the tests should be prescribed, and whether a patient should undergo more testing or be referred to an oncologist.
 

Clinical trials underway

There are currently at least 17 clinical trials underway to investigate the performance and clinical utility of MCED tests. Six of these involve Grail, including NHS-Galleri, the largest study to date of 140,000 participants in the United Kingdom where participants will be followed for 3 years with annual visits at 12 and 24 months. And, the National Cancer Institute is spearheading a clinical trial of its own, according to a search of ClinicalTrials.gov.

In September 2022, Grail presented findings from its pivotal PATHFINDER study at the annual meeting of the European Society of Medical Oncology. Researchers reported that cancer signals were detected in 1.4% (92) of 6,621 participants enrolled in the study. Of the 92, 35 people were diagnosed with 36 cancers: 19 were solid tumors (2 oropharyngeal, 5 breast, l liver, 1 intrahepatic bile duct, 2 colon/rectum, 2 prostate, 1 lung, 1 pancreas, 1 small intestine, 1 uterus, 1 ovary and 1 bone) and 17 hematologic cancers (1 plasma cell myeloma/disorders, 2 lymphoid leukemia, 2 Waldenström’s macroglobulinemia, and 12 lymphoma).

Almost half of newly diagnosed cases were cancers in stage 1 or 2. Of stage 1 cancers, three were solid tumors and four were hematologic cancers. Of stage 2 cancers, three were solid tumors and four were hematologic cancers. All other cancers were in stage 3 and 4 or were listed as recurrent or no stage. Deb Schrag, MD, MPH, chair of the department of medicine at Memorial Sloan Kettering Cancer Center in New York, who presented the results from PATHFINDER at ESMO, reported that, of all diagnosed cancers, only breast, colon/rectum, prostate, and lung have established screening protocols.

The findings were so striking that the meeting scientific co-chair, Fabrice André, MD, PhD, told ESMO the oncology field must prepare for an onslaught of new patients.

“Within the next 5 years, we will need more doctors, surgeons and nurses with more diagnostic and treatment infrastructures to care for the rising number of people who will be identified by multicancer early detection tests,” said Dr. André, who is director of research at Gustave Roussy Cancer Center, Villejuif, France, and future president of ESMO (2025-2026). “We need to involve all stakeholders in deciding new pathways of care. We need to agree who will be tested and when and where tests will be carried out, and to anticipate the changes that will happen as a result of these tests.”

But first, he urged, the need for comparative trials “across all types of cancer to find out if having an early detection test affects morbidity and mortality. We also need to know how the tests benefit patients, and how to discuss the results with them,” Dr. André said.
 

Demand may burden health systems

Dr. Flora suggested that companies like Grail are rushing their product to market without conducting long-term sizable clinical trials.

“These diagnostic companies are a billion dollar publicly traded or venture capital-funded companies that are losing millions of dollars a quarter as they’re scaling up these tests. So, there is some pressure on the sales forces ... to start moving product long before the science has met our lowest areas for entry,” Dr. Flora said. “They are aggressively marketing to a primary care audience that knows nothing about MCEDs. It’s a sales-driven development solving a problem we all believe is real, but we don’t know if it actually solves the problem.”

There are many unanswered questions, he said. Among these include whether the tests do indeed extend survival. “What they’re suggesting – that is if the blood test detects it – that we’re going to save your life. That’s not yet been proven. This is where the providers are pushing back against these industry types to say: ‘This is the wild west right now.’ It’s very irresponsible to go out there and try to sell hundreds of millions of dollars of product to doctors who have never studied genetics,” Dr. Flora said.

Grail’s chief medical officer Jeff Venstrom, MD, however, said physicians don’t need a background in genetic testing to order or interpret Galleri because it’s not a genetic test. Genetic tests look for genetic variants associated with cancer risk, which Galleri does not. MCED tests rely on genomic profiling to identify alterations in tumors.

“Maybe there’s still confusion in the market, which is common for new technologies when they’re initially launched. This is not a 23andMe test. We do not report germline mutations that have implications for cancer risk. We’re using this blood sample to test for the presence or absence of a cancer signal. The test result is very clear and simple: One area of the report says ‘yes’ or ‘no.’ It is a binary result that says if a signal is detected or not. The second provides additional information around where that signal could be coming from,” he said.

Galleri could fill a huge unmet need in cancer prevention, Dr. Venstrom said. Not only could it detect cancer at an earlier stage, but it could serve as a screening tool for cancers like pancreatic cancer in which screening is not available.

The test is not intended to replace standard of care screening, he said. The ordering provider should have a conversation with the patient about overall cancer risk. “Are you smoking? What’s your risk of obesity-associated cancers? Do you have a family history of cancer? I think this should all be in the context of a good conversation around preventative care,” he said.
 

Planning and prep in Boston

In Boston, Aparna Parikh, MD, an oncologist who specializes in gastrointestinal cancers, agreed that MCED testing has forced her team at the Mass General Cancer Center global cancer care program to think outside of the box.

“We’re a major academic center and it’s not easy [because] this is all uncharted territory,” she said. “We all recognize there are more tests coming, and they are here to stay. As a health system, we have to be ready to manage not only the tests, but patient anxieties, and all the complexities that come with it. We just don’t know yet how to best navigate.”

Although Dr. Parikh’s center has set up a working group tasked with organizing an outpatient clinic for patients with positive MCED tests, the current system is haphazard.

“Right now, it gets bounced around between people,” she explained. “Sometimes, patients are getting referred to the oncology team rather than the primary care team to try to sort out where the cancer signal is coming from, that is, if it’s not immediately obvious. No one really knows who should be the right person to own it,” Dr. Parikh said. While the test is supposed to give tissue-specific results, “it’s not perfect” and sometimes imaging and other work-ups are needed to locate the source of the signa.

“A group of four or five oncologists get looped in and then we’re trying to sort it out on a case-by-case basis, but understanding that with more and more tests coming, that kind of ad hoc approach isn’t going to be sufficient. We need a happy medium between the primary care and the disease specific oncologist, someone who can kind of help think through the diagnostic workup until they have a cancer diagnosis to get them to the right place,” Dr. Parikh said.

Dr. Venstrom said Grail is committed to providing support to clinicians in these situations. “We’re doing everything we can with our medical education forums. We have this pretty intense and extensive postpositive suite of resources,” he explained. “Some of our doctors on staff call the ordering provider within 24 hours just to clarify if there are any questions or confusion from the report. For example, if it suggests the signal is coming from the lung, we provide additional support around additional workups.”
 

Out-of-pocket test may widen disparities in care

With the exception of a few health insurance companies that have committed to covering some of the cost for the test, Galleri is an out-of-pocket expense.

Dr. Venstrom acknowledged that broad insurance coverage for the Galleri test remains a hurdle, although “we’ve secured coverage for a handful of companies of self-insured employers and forward-thinking insurers.” This includes partnerships with Point32Health, and Alignment Health, among others, he said.

There is also growing support among more than 400 cancer organizations for the Multi-Cancer Early Detection Screening Coverage Act to accelerate coverage for Medicare beneficiaries. “We are constantly trying to understand the evidence that’s needed for payors to make sure that we get the broadest access possible for this test,” he said.
 

The first positive test result

Back at St. Elizabeth Healthcare where they’ve only seen one positive MCED test result thus far, Dr. Flora is more concerned about patients giving informed consent before they even get the test. “When the reps started hammering our primary care doctors, we sent communiques throughout the system saying that we would very much like to regulate this to make sure that before our patients receive accidental harm, that they at least have a conversation with somebody who understands the test,” he explained.

All 15 patients who requested the test at the hospital were first required to discuss the implications with a genetic counselor who is part of the system. “We are really pro–cancer screening,” he said, but added his hospital is “not pumped” about the Galleri test. “We’re being very cautious about overstatements made by sales guys to our primary care doctors, so we’re letting our own precision medicine people handle it.”

There’s a similar system in place at Community Health Network, a nonprofit health system with nine hospitals and 1,300 employee providers throughout Central Indiana. Patrick McGill, MD, a primary care physician and chief analytics officer for the network says they have streamlined patients with positive tests through their high-risk oncology clinic. “They don’t go straight to a medical oncologist which I know some systems are struggling with,” he said. “They get additional testing, whether it’s imaging they might need or other lab testing. We’ve had a few lung positives, and a few leukemia positives which might go straight to medical oncology. I think we had one breast that was positive so she got additional breast imaging.”

Through its foundation, CHN will offer 2,000 tests free of charge. “We decided to take cost off the table with this funding,” Dr. McGill said. “A lot of health systems I talk to are always concerned that insurance doesn’t cover it and it’s cost prohibitive. Is it creating additional disparities because only people who can afford it can get the test?”

Dr. Schrag serves as an uncompensated advisor for Grail. Previously, while with the Dana-Farber Cancer Institute, she received research funding from Grail.

Doug Flora, MD, knows the value of early cancer detection because it helped him survive kidney cancer 5 years ago. But as a medical oncologist and hematologist, and the executive medical director of oncology services at St. Elizabeth Healthcare in Edgewood, Ky., he also knows that a new era of early cancer detection testing poses big challenges for his network of six hospitals and 169 specialty and primary care offices throughout Kentucky, Ohio, and Indiana.

Multicancer early detection (MCED) tests are finally a reality and could be a potential game changer because they can screen for the possibility of up to 50 different cancers in asymptomatic individuals with one blood draw. They represent one of the fastest growing segments in medical diagnostics with a projected value of $2.77 billion by 2030, according to the market research firm Grand View Research.

These tests are different from traditional liquid biopsies, which are designed to identify actionable gene mutations to help inform treatment decisions of patients already diagnosed with cancer. Instead, MCED tests work to detect fragments of circulating free DNA that have been shed by tumors and released into the bloodstream. Detecting these cancer signals could indicate that an individual has cancer well before they ever develop symptoms.

For some cancer types, particularly those commonly diagnosed at advanced stages or those without general population screening tests, MCED testing could have a significant impact.

In its new report, Grand View Research highlights nine “prominent players” active in the MCED market; of these, two have been granted breakthrough device designation by the Food and Drug Administration: OverC MCDBT by Burning Rock on Jan. 3, 2023, and Galleri by Grail in 2019. Galleri was launched in June 2021 and can be obtained with a prescription at a cost of $949.

Yet, while patients are asking for these tests and primary care physicians are prescribing them, oncologists are grappling with how to manage the first patients whose tests tell them they may have cancer.

Ordering the tests may seem straightforward, but in reality, it is not. In fact, they are so new that most health systems have no internal guidelines for physicians. Guidelines would address when the tests should be prescribed, and whether a patient should undergo more testing or be referred to an oncologist.
 

Clinical trials underway

There are currently at least 17 clinical trials underway to investigate the performance and clinical utility of MCED tests. Six of these involve Grail, including NHS-Galleri, the largest study to date of 140,000 participants in the United Kingdom where participants will be followed for 3 years with annual visits at 12 and 24 months. And, the National Cancer Institute is spearheading a clinical trial of its own, according to a search of ClinicalTrials.gov.

In September 2022, Grail presented findings from its pivotal PATHFINDER study at the annual meeting of the European Society of Medical Oncology. Researchers reported that cancer signals were detected in 1.4% (92) of 6,621 participants enrolled in the study. Of the 92, 35 people were diagnosed with 36 cancers: 19 were solid tumors (2 oropharyngeal, 5 breast, l liver, 1 intrahepatic bile duct, 2 colon/rectum, 2 prostate, 1 lung, 1 pancreas, 1 small intestine, 1 uterus, 1 ovary and 1 bone) and 17 hematologic cancers (1 plasma cell myeloma/disorders, 2 lymphoid leukemia, 2 Waldenström’s macroglobulinemia, and 12 lymphoma).

Almost half of newly diagnosed cases were cancers in stage 1 or 2. Of stage 1 cancers, three were solid tumors and four were hematologic cancers. Of stage 2 cancers, three were solid tumors and four were hematologic cancers. All other cancers were in stage 3 and 4 or were listed as recurrent or no stage. Deb Schrag, MD, MPH, chair of the department of medicine at Memorial Sloan Kettering Cancer Center in New York, who presented the results from PATHFINDER at ESMO, reported that, of all diagnosed cancers, only breast, colon/rectum, prostate, and lung have established screening protocols.

The findings were so striking that the meeting scientific co-chair, Fabrice André, MD, PhD, told ESMO the oncology field must prepare for an onslaught of new patients.

“Within the next 5 years, we will need more doctors, surgeons and nurses with more diagnostic and treatment infrastructures to care for the rising number of people who will be identified by multicancer early detection tests,” said Dr. André, who is director of research at Gustave Roussy Cancer Center, Villejuif, France, and future president of ESMO (2025-2026). “We need to involve all stakeholders in deciding new pathways of care. We need to agree who will be tested and when and where tests will be carried out, and to anticipate the changes that will happen as a result of these tests.”

But first, he urged, the need for comparative trials “across all types of cancer to find out if having an early detection test affects morbidity and mortality. We also need to know how the tests benefit patients, and how to discuss the results with them,” Dr. André said.
 

Demand may burden health systems

Dr. Flora suggested that companies like Grail are rushing their product to market without conducting long-term sizable clinical trials.

“These diagnostic companies are a billion dollar publicly traded or venture capital-funded companies that are losing millions of dollars a quarter as they’re scaling up these tests. So, there is some pressure on the sales forces ... to start moving product long before the science has met our lowest areas for entry,” Dr. Flora said. “They are aggressively marketing to a primary care audience that knows nothing about MCEDs. It’s a sales-driven development solving a problem we all believe is real, but we don’t know if it actually solves the problem.”

There are many unanswered questions, he said. Among these include whether the tests do indeed extend survival. “What they’re suggesting – that is if the blood test detects it – that we’re going to save your life. That’s not yet been proven. This is where the providers are pushing back against these industry types to say: ‘This is the wild west right now.’ It’s very irresponsible to go out there and try to sell hundreds of millions of dollars of product to doctors who have never studied genetics,” Dr. Flora said.

Grail’s chief medical officer Jeff Venstrom, MD, however, said physicians don’t need a background in genetic testing to order or interpret Galleri because it’s not a genetic test. Genetic tests look for genetic variants associated with cancer risk, which Galleri does not. MCED tests rely on genomic profiling to identify alterations in tumors.

“Maybe there’s still confusion in the market, which is common for new technologies when they’re initially launched. This is not a 23andMe test. We do not report germline mutations that have implications for cancer risk. We’re using this blood sample to test for the presence or absence of a cancer signal. The test result is very clear and simple: One area of the report says ‘yes’ or ‘no.’ It is a binary result that says if a signal is detected or not. The second provides additional information around where that signal could be coming from,” he said.

Galleri could fill a huge unmet need in cancer prevention, Dr. Venstrom said. Not only could it detect cancer at an earlier stage, but it could serve as a screening tool for cancers like pancreatic cancer in which screening is not available.

The test is not intended to replace standard of care screening, he said. The ordering provider should have a conversation with the patient about overall cancer risk. “Are you smoking? What’s your risk of obesity-associated cancers? Do you have a family history of cancer? I think this should all be in the context of a good conversation around preventative care,” he said.
 

Planning and prep in Boston

In Boston, Aparna Parikh, MD, an oncologist who specializes in gastrointestinal cancers, agreed that MCED testing has forced her team at the Mass General Cancer Center global cancer care program to think outside of the box.

“We’re a major academic center and it’s not easy [because] this is all uncharted territory,” she said. “We all recognize there are more tests coming, and they are here to stay. As a health system, we have to be ready to manage not only the tests, but patient anxieties, and all the complexities that come with it. We just don’t know yet how to best navigate.”

Although Dr. Parikh’s center has set up a working group tasked with organizing an outpatient clinic for patients with positive MCED tests, the current system is haphazard.

“Right now, it gets bounced around between people,” she explained. “Sometimes, patients are getting referred to the oncology team rather than the primary care team to try to sort out where the cancer signal is coming from, that is, if it’s not immediately obvious. No one really knows who should be the right person to own it,” Dr. Parikh said. While the test is supposed to give tissue-specific results, “it’s not perfect” and sometimes imaging and other work-ups are needed to locate the source of the signa.

“A group of four or five oncologists get looped in and then we’re trying to sort it out on a case-by-case basis, but understanding that with more and more tests coming, that kind of ad hoc approach isn’t going to be sufficient. We need a happy medium between the primary care and the disease specific oncologist, someone who can kind of help think through the diagnostic workup until they have a cancer diagnosis to get them to the right place,” Dr. Parikh said.

Dr. Venstrom said Grail is committed to providing support to clinicians in these situations. “We’re doing everything we can with our medical education forums. We have this pretty intense and extensive postpositive suite of resources,” he explained. “Some of our doctors on staff call the ordering provider within 24 hours just to clarify if there are any questions or confusion from the report. For example, if it suggests the signal is coming from the lung, we provide additional support around additional workups.”
 

Out-of-pocket test may widen disparities in care

With the exception of a few health insurance companies that have committed to covering some of the cost for the test, Galleri is an out-of-pocket expense.

Dr. Venstrom acknowledged that broad insurance coverage for the Galleri test remains a hurdle, although “we’ve secured coverage for a handful of companies of self-insured employers and forward-thinking insurers.” This includes partnerships with Point32Health, and Alignment Health, among others, he said.

There is also growing support among more than 400 cancer organizations for the Multi-Cancer Early Detection Screening Coverage Act to accelerate coverage for Medicare beneficiaries. “We are constantly trying to understand the evidence that’s needed for payors to make sure that we get the broadest access possible for this test,” he said.
 

The first positive test result

Back at St. Elizabeth Healthcare where they’ve only seen one positive MCED test result thus far, Dr. Flora is more concerned about patients giving informed consent before they even get the test. “When the reps started hammering our primary care doctors, we sent communiques throughout the system saying that we would very much like to regulate this to make sure that before our patients receive accidental harm, that they at least have a conversation with somebody who understands the test,” he explained.

All 15 patients who requested the test at the hospital were first required to discuss the implications with a genetic counselor who is part of the system. “We are really pro–cancer screening,” he said, but added his hospital is “not pumped” about the Galleri test. “We’re being very cautious about overstatements made by sales guys to our primary care doctors, so we’re letting our own precision medicine people handle it.”

There’s a similar system in place at Community Health Network, a nonprofit health system with nine hospitals and 1,300 employee providers throughout Central Indiana. Patrick McGill, MD, a primary care physician and chief analytics officer for the network says they have streamlined patients with positive tests through their high-risk oncology clinic. “They don’t go straight to a medical oncologist which I know some systems are struggling with,” he said. “They get additional testing, whether it’s imaging they might need or other lab testing. We’ve had a few lung positives, and a few leukemia positives which might go straight to medical oncology. I think we had one breast that was positive so she got additional breast imaging.”

Through its foundation, CHN will offer 2,000 tests free of charge. “We decided to take cost off the table with this funding,” Dr. McGill said. “A lot of health systems I talk to are always concerned that insurance doesn’t cover it and it’s cost prohibitive. Is it creating additional disparities because only people who can afford it can get the test?”

Dr. Schrag serves as an uncompensated advisor for Grail. Previously, while with the Dana-Farber Cancer Institute, she received research funding from Grail.

This is the longest reported median PFS in HER2+ metastatic BC, highlighting the potential of trastuzumab deruxtecan in treating this disease and confirming this drug as the standard of care in the second-line setting.

A cohort study evaluated 315 postmenopausal BC survivors to estimate the association of physical activity with risk for all-cause mortality. Participants were queried about leisure-time physical activity using the Godin-Shephard Leisure-Time Physical Activity Questionnaire (GSLTPAQ), which provided a composite score that categorized exercise patterns as active, moderately active, or insufficiently active at baseline.

Results showed that participants who were active or moderately active had a 60% decreased risk for death compared with insufficiently active participants (active: HR 0.42 [95% CI 0.21-0.85]; moderately active: HR 0.40 [95% CI 0.17-0.95]). A similar mortality risk was reported among participants who were active and those with moderate physical activity levels.

Prior studies¹ have reported similar results, reaffirming the value of exercise in BC survivors and highlighting the need to incorporate physical activity as part of survivorship care plans.

The phase 3 SOPHIA study randomized 536 patients with HER2+ advanced BC who had received two or more prior anti-HER2 regimens to margetuximab plus chemotherapy vs trastuzumab plus chemotherapy. Final OS results after a median follow-up of 20.2 months showed no benefit in OS observed with margetuximab vs trastuzumab (median OS 21.6 months vs 21.9 months; HR 0.95; P = .620). The safety profile of margetuximab was acceptable and comparable to that of trastuzumab. Exploratory analysis of CD16A genotyping suggested a possible improvement in OS for margetuximab in CD16A-158FF patients vs trastuzumab (median OS 23.6 vs 19.2 months; HR 0.72; 95% CI 0.52-1.00) and a possible improvement in OS for trastuzumab in CD16A-158VV patients vs margetuximab (median OS 31.1 vs 22.0 months; HR 1.77; 95% CI 1.01–3.12). The safety profile of margetuximab was acceptable and comparable to that of trastuzumab. Further studies to evaluate the role of margetuximab in patients with HER2+ BC with different CD16A allelic variants are warranted.

Additional References

Cannioto RA, Hutson A, Dighe S, et al. Physical activity before, during, and after chemotherapy for high-risk breast cancer: Relationships with survival.  J Natl Cancer Inst. 2021;113:54-63. Doi:10.1093/jnci/djaa046

This is the longest reported median PFS in HER2+ metastatic BC, highlighting the potential of trastuzumab deruxtecan in treating this disease and confirming this drug as the standard of care in the second-line setting.

A cohort study evaluated 315 postmenopausal BC survivors to estimate the association of physical activity with risk for all-cause mortality. Participants were queried about leisure-time physical activity using the Godin-Shephard Leisure-Time Physical Activity Questionnaire (GSLTPAQ), which provided a composite score that categorized exercise patterns as active, moderately active, or insufficiently active at baseline.

Results showed that participants who were active or moderately active had a 60% decreased risk for death compared with insufficiently active participants (active: HR 0.42 [95% CI 0.21-0.85]; moderately active: HR 0.40 [95% CI 0.17-0.95]). A similar mortality risk was reported among participants who were active and those with moderate physical activity levels.

Prior studies¹ have reported similar results, reaffirming the value of exercise in BC survivors and highlighting the need to incorporate physical activity as part of survivorship care plans.

The phase 3 SOPHIA study randomized 536 patients with HER2+ advanced BC who had received two or more prior anti-HER2 regimens to margetuximab plus chemotherapy vs trastuzumab plus chemotherapy. Final OS results after a median follow-up of 20.2 months showed no benefit in OS observed with margetuximab vs trastuzumab (median OS 21.6 months vs 21.9 months; HR 0.95; P = .620). The safety profile of margetuximab was acceptable and comparable to that of trastuzumab. Exploratory analysis of CD16A genotyping suggested a possible improvement in OS for margetuximab in CD16A-158FF patients vs trastuzumab (median OS 23.6 vs 19.2 months; HR 0.72; 95% CI 0.52-1.00) and a possible improvement in OS for trastuzumab in CD16A-158VV patients vs margetuximab (median OS 31.1 vs 22.0 months; HR 1.77; 95% CI 1.01–3.12). The safety profile of margetuximab was acceptable and comparable to that of trastuzumab. Further studies to evaluate the role of margetuximab in patients with HER2+ BC with different CD16A allelic variants are warranted.

Additional References

Cannioto RA, Hutson A, Dighe S, et al. Physical activity before, during, and after chemotherapy for high-risk breast cancer: Relationships with survival.  J Natl Cancer Inst. 2021;113:54-63. Doi:10.1093/jnci/djaa046

This is the longest reported median PFS in HER2+ metastatic BC, highlighting the potential of trastuzumab deruxtecan in treating this disease and confirming this drug as the standard of care in the second-line setting.

A cohort study evaluated 315 postmenopausal BC survivors to estimate the association of physical activity with risk for all-cause mortality. Participants were queried about leisure-time physical activity using the Godin-Shephard Leisure-Time Physical Activity Questionnaire (GSLTPAQ), which provided a composite score that categorized exercise patterns as active, moderately active, or insufficiently active at baseline.

Results showed that participants who were active or moderately active had a 60% decreased risk for death compared with insufficiently active participants (active: HR 0.42 [95% CI 0.21-0.85]; moderately active: HR 0.40 [95% CI 0.17-0.95]). A similar mortality risk was reported among participants who were active and those with moderate physical activity levels.

Prior studies¹ have reported similar results, reaffirming the value of exercise in BC survivors and highlighting the need to incorporate physical activity as part of survivorship care plans.

The phase 3 SOPHIA study randomized 536 patients with HER2+ advanced BC who had received two or more prior anti-HER2 regimens to margetuximab plus chemotherapy vs trastuzumab plus chemotherapy. Final OS results after a median follow-up of 20.2 months showed no benefit in OS observed with margetuximab vs trastuzumab (median OS 21.6 months vs 21.9 months; HR 0.95; P = .620). The safety profile of margetuximab was acceptable and comparable to that of trastuzumab. Exploratory analysis of CD16A genotyping suggested a possible improvement in OS for margetuximab in CD16A-158FF patients vs trastuzumab (median OS 23.6 vs 19.2 months; HR 0.72; 95% CI 0.52-1.00) and a possible improvement in OS for trastuzumab in CD16A-158VV patients vs margetuximab (median OS 31.1 vs 22.0 months; HR 1.77; 95% CI 1.01–3.12). The safety profile of margetuximab was acceptable and comparable to that of trastuzumab. Further studies to evaluate the role of margetuximab in patients with HER2+ BC with different CD16A allelic variants are warranted.

Additional References

Cannioto RA, Hutson A, Dighe S, et al. Physical activity before, during, and after chemotherapy for high-risk breast cancer: Relationships with survival.  J Natl Cancer Inst. 2021;113:54-63. Doi:10.1093/jnci/djaa046