Geriatrics

New research supports current guidelines cautioning against long-term use of benzodiazepines.

The study of more than 5000 older adults found that benzodiazepine use was associated with an accelerated reduction in the volume of the hippocampus and amygdala — brain regions involved in memory and mood regulation. However, benzodiazepine use overall was not associated with an increased risk for dementia.

The findings suggest that benzodiazepine use “may have subtle, long-term impact on brain health,” lead investigator Frank Wolters, MD, PhD, with Erasmus University Medical Center, Rotterdam, the Netherlands, and colleagues wrote.

The study was published online in BMC Medicine.
 

Conflicting Evidence 

Benzodiazepines are commonly prescribed in older adults for anxiety and sleep disorders. Though the short-term cognitive side effects are well documented, the long-term impact on neurodegeneration and dementia risk remains unclear. Some studies have linked benzodiazepine use to an increased risk for dementia, whereas others have not.

Dr. Wolters and colleagues assessed the effect of benzodiazepine use on long-term dementia risk and on imaging markers of neurodegeneration in 5443 cognitively healthy adults (mean age, 71 years; 57% women) from the population-based Rotterdam Study. 

Benzodiazepine use between 1991 and 2008 was determined using pharmacy dispensing records, and dementia incidence was determined from medical records. 

Half of the participants had used benzodiazepines at any time in the 15 years before baseline (2005-2008); 47% used anxiolytics, 20% used sedative-hypnotics, 34% used both, and 13% were still using the drugs at the baseline assessment. 

During an average follow-up of 11 years, 13% of participants developed dementia. 

Overall, use of benzodiazepines was not associated with dementia risk, compared with never-use (hazard ratio [HR], 1.06), irrespective of cumulative dose. 

The risk for dementia was somewhat higher with any use of anxiolytics than with sedative-hypnotics (HR, 1.17 vs HR, 0.92), although neither was statistically significant. The highest risk estimates were observed for high cumulative dose of anxiolytics (HR, 1.33). 

Sensitivity analyses of the two most commonly used anxiolytics found no differences in risk between use of short half-life oxazepam and long half-life diazepam (HR, 1.01 and HR, 1.06, respectively, for ever-use, compared with never-use for oxazepam and diazepam).
 

Brain Atrophy

The researchers investigated potential associations between benzodiazepine use and brain volumes using brain MRI imaging from 4836 participants.

They found that current use of a benzodiazepine at baseline was significantly associated with lower total brain volume — as well as lower hippocampus, amygdala, and thalamus volume cross-sectionally — and with accelerated volume loss of the hippocampus and, to a lesser extent, amygdala longitudinally. 

Imaging findings did not differ by type of benzodiazepine used or cumulative dose. 

“Given the availability of effective alternative pharmacological and nonpharmacological treatments for anxiety and sleep problems, it is important to carefully consider the necessity of prolonged benzodiazepine use in light of potential detrimental effects on brain health,” the authors wrote. 
 

Risks Go Beyond the Brain

Commenting on the study, Shaheen Lakhan, MD, PhD, a neurologist and researcher based in Miami, Florida, noted that “chronic benzodiazepine use may reduce neuroplasticity, potentially interfering with the brain’s ability to form new connections and adapt.

“Long-term use can lead to down-regulation of GABA receptors, altering the brain’s natural inhibitory mechanisms and potentially contributing to tolerance and withdrawal symptoms. Prolonged use can also disrupt the balance of various neurotransmitter systems beyond just GABA, potentially affecting mood, cognition, and overall brain function,” said Dr. Lakhan, who was not involved in the study. 

“While the literature is mixed on chronic benzodiazepine use and dementia risk, prolonged use has consistently been associated with accelerated volume loss in certain brain regions, particularly the hippocampus and amygdala,” which are responsible for memory, learning, and emotional regulation, he noted. 

“Beyond cognitive impairments and brain volume loss, chronic benzodiazepine use is associated with tolerance and dependence, potential for abuse, interactions with other drugs, and increased fall risk, especially in older adults,” Dr. Lakhan added.

Current guidelines discourage long-term use of benzodiazepines because of risk for psychological and physical dependence; falls; and cognitive impairment, especially in older adults. Nevertheless, research shows that 30%-40% of older benzodiazepine users stay on the medication beyond the recommended period of several weeks.

Donovan T. Maust, MD, Department of Psychiatry, University of Michigan Medical School, Ann Arbor, said in an interview these new findings are consistent with other recently published observational research that suggest benzodiazepine use is not linked to dementia risk. 

“I realize that such meta-analyses that find a positive relationship between benzodiazepines and dementia are out there, but they include older, less rigorous studies,” said Dr. Maust, who was not part of the new study. “In my opinion, the jury is not still out on this topic. However, there are plenty of other reasons to avoid them — and in particular, starting them — in older adults, most notably the increased risk of fall injury as well as increased overdose risk when taken along with opioids.”

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

New research supports current guidelines cautioning against long-term use of benzodiazepines.

The study of more than 5000 older adults found that benzodiazepine use was associated with an accelerated reduction in the volume of the hippocampus and amygdala — brain regions involved in memory and mood regulation. However, benzodiazepine use overall was not associated with an increased risk for dementia.

The findings suggest that benzodiazepine use “may have subtle, long-term impact on brain health,” lead investigator Frank Wolters, MD, PhD, with Erasmus University Medical Center, Rotterdam, the Netherlands, and colleagues wrote.

The study was published online in BMC Medicine.
 

Conflicting Evidence 

Benzodiazepines are commonly prescribed in older adults for anxiety and sleep disorders. Though the short-term cognitive side effects are well documented, the long-term impact on neurodegeneration and dementia risk remains unclear. Some studies have linked benzodiazepine use to an increased risk for dementia, whereas others have not.

Dr. Wolters and colleagues assessed the effect of benzodiazepine use on long-term dementia risk and on imaging markers of neurodegeneration in 5443 cognitively healthy adults (mean age, 71 years; 57% women) from the population-based Rotterdam Study. 

Benzodiazepine use between 1991 and 2008 was determined using pharmacy dispensing records, and dementia incidence was determined from medical records. 

Half of the participants had used benzodiazepines at any time in the 15 years before baseline (2005-2008); 47% used anxiolytics, 20% used sedative-hypnotics, 34% used both, and 13% were still using the drugs at the baseline assessment. 

During an average follow-up of 11 years, 13% of participants developed dementia. 

Overall, use of benzodiazepines was not associated with dementia risk, compared with never-use (hazard ratio [HR], 1.06), irrespective of cumulative dose. 

The risk for dementia was somewhat higher with any use of anxiolytics than with sedative-hypnotics (HR, 1.17 vs HR, 0.92), although neither was statistically significant. The highest risk estimates were observed for high cumulative dose of anxiolytics (HR, 1.33). 

Sensitivity analyses of the two most commonly used anxiolytics found no differences in risk between use of short half-life oxazepam and long half-life diazepam (HR, 1.01 and HR, 1.06, respectively, for ever-use, compared with never-use for oxazepam and diazepam).
 

Brain Atrophy

The researchers investigated potential associations between benzodiazepine use and brain volumes using brain MRI imaging from 4836 participants.

They found that current use of a benzodiazepine at baseline was significantly associated with lower total brain volume — as well as lower hippocampus, amygdala, and thalamus volume cross-sectionally — and with accelerated volume loss of the hippocampus and, to a lesser extent, amygdala longitudinally. 

Imaging findings did not differ by type of benzodiazepine used or cumulative dose. 

“Given the availability of effective alternative pharmacological and nonpharmacological treatments for anxiety and sleep problems, it is important to carefully consider the necessity of prolonged benzodiazepine use in light of potential detrimental effects on brain health,” the authors wrote. 
 

Risks Go Beyond the Brain

Commenting on the study, Shaheen Lakhan, MD, PhD, a neurologist and researcher based in Miami, Florida, noted that “chronic benzodiazepine use may reduce neuroplasticity, potentially interfering with the brain’s ability to form new connections and adapt.

“Long-term use can lead to down-regulation of GABA receptors, altering the brain’s natural inhibitory mechanisms and potentially contributing to tolerance and withdrawal symptoms. Prolonged use can also disrupt the balance of various neurotransmitter systems beyond just GABA, potentially affecting mood, cognition, and overall brain function,” said Dr. Lakhan, who was not involved in the study. 

“While the literature is mixed on chronic benzodiazepine use and dementia risk, prolonged use has consistently been associated with accelerated volume loss in certain brain regions, particularly the hippocampus and amygdala,” which are responsible for memory, learning, and emotional regulation, he noted. 

“Beyond cognitive impairments and brain volume loss, chronic benzodiazepine use is associated with tolerance and dependence, potential for abuse, interactions with other drugs, and increased fall risk, especially in older adults,” Dr. Lakhan added.

Current guidelines discourage long-term use of benzodiazepines because of risk for psychological and physical dependence; falls; and cognitive impairment, especially in older adults. Nevertheless, research shows that 30%-40% of older benzodiazepine users stay on the medication beyond the recommended period of several weeks.

Donovan T. Maust, MD, Department of Psychiatry, University of Michigan Medical School, Ann Arbor, said in an interview these new findings are consistent with other recently published observational research that suggest benzodiazepine use is not linked to dementia risk. 

“I realize that such meta-analyses that find a positive relationship between benzodiazepines and dementia are out there, but they include older, less rigorous studies,” said Dr. Maust, who was not part of the new study. “In my opinion, the jury is not still out on this topic. However, there are plenty of other reasons to avoid them — and in particular, starting them — in older adults, most notably the increased risk of fall injury as well as increased overdose risk when taken along with opioids.”

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

New research supports current guidelines cautioning against long-term use of benzodiazepines.

The study of more than 5000 older adults found that benzodiazepine use was associated with an accelerated reduction in the volume of the hippocampus and amygdala — brain regions involved in memory and mood regulation. However, benzodiazepine use overall was not associated with an increased risk for dementia.

The findings suggest that benzodiazepine use “may have subtle, long-term impact on brain health,” lead investigator Frank Wolters, MD, PhD, with Erasmus University Medical Center, Rotterdam, the Netherlands, and colleagues wrote.

The study was published online in BMC Medicine.
 

Conflicting Evidence 

Benzodiazepines are commonly prescribed in older adults for anxiety and sleep disorders. Though the short-term cognitive side effects are well documented, the long-term impact on neurodegeneration and dementia risk remains unclear. Some studies have linked benzodiazepine use to an increased risk for dementia, whereas others have not.

Dr. Wolters and colleagues assessed the effect of benzodiazepine use on long-term dementia risk and on imaging markers of neurodegeneration in 5443 cognitively healthy adults (mean age, 71 years; 57% women) from the population-based Rotterdam Study. 

Benzodiazepine use between 1991 and 2008 was determined using pharmacy dispensing records, and dementia incidence was determined from medical records. 

Half of the participants had used benzodiazepines at any time in the 15 years before baseline (2005-2008); 47% used anxiolytics, 20% used sedative-hypnotics, 34% used both, and 13% were still using the drugs at the baseline assessment. 

During an average follow-up of 11 years, 13% of participants developed dementia. 

Overall, use of benzodiazepines was not associated with dementia risk, compared with never-use (hazard ratio [HR], 1.06), irrespective of cumulative dose. 

The risk for dementia was somewhat higher with any use of anxiolytics than with sedative-hypnotics (HR, 1.17 vs HR, 0.92), although neither was statistically significant. The highest risk estimates were observed for high cumulative dose of anxiolytics (HR, 1.33). 

Sensitivity analyses of the two most commonly used anxiolytics found no differences in risk between use of short half-life oxazepam and long half-life diazepam (HR, 1.01 and HR, 1.06, respectively, for ever-use, compared with never-use for oxazepam and diazepam).
 

Brain Atrophy

The researchers investigated potential associations between benzodiazepine use and brain volumes using brain MRI imaging from 4836 participants.

They found that current use of a benzodiazepine at baseline was significantly associated with lower total brain volume — as well as lower hippocampus, amygdala, and thalamus volume cross-sectionally — and with accelerated volume loss of the hippocampus and, to a lesser extent, amygdala longitudinally. 

Imaging findings did not differ by type of benzodiazepine used or cumulative dose. 

“Given the availability of effective alternative pharmacological and nonpharmacological treatments for anxiety and sleep problems, it is important to carefully consider the necessity of prolonged benzodiazepine use in light of potential detrimental effects on brain health,” the authors wrote. 
 

Risks Go Beyond the Brain

Commenting on the study, Shaheen Lakhan, MD, PhD, a neurologist and researcher based in Miami, Florida, noted that “chronic benzodiazepine use may reduce neuroplasticity, potentially interfering with the brain’s ability to form new connections and adapt.

“Long-term use can lead to down-regulation of GABA receptors, altering the brain’s natural inhibitory mechanisms and potentially contributing to tolerance and withdrawal symptoms. Prolonged use can also disrupt the balance of various neurotransmitter systems beyond just GABA, potentially affecting mood, cognition, and overall brain function,” said Dr. Lakhan, who was not involved in the study. 

“While the literature is mixed on chronic benzodiazepine use and dementia risk, prolonged use has consistently been associated with accelerated volume loss in certain brain regions, particularly the hippocampus and amygdala,” which are responsible for memory, learning, and emotional regulation, he noted. 

“Beyond cognitive impairments and brain volume loss, chronic benzodiazepine use is associated with tolerance and dependence, potential for abuse, interactions with other drugs, and increased fall risk, especially in older adults,” Dr. Lakhan added.

Current guidelines discourage long-term use of benzodiazepines because of risk for psychological and physical dependence; falls; and cognitive impairment, especially in older adults. Nevertheless, research shows that 30%-40% of older benzodiazepine users stay on the medication beyond the recommended period of several weeks.

Donovan T. Maust, MD, Department of Psychiatry, University of Michigan Medical School, Ann Arbor, said in an interview these new findings are consistent with other recently published observational research that suggest benzodiazepine use is not linked to dementia risk. 

“I realize that such meta-analyses that find a positive relationship between benzodiazepines and dementia are out there, but they include older, less rigorous studies,” said Dr. Maust, who was not part of the new study. “In my opinion, the jury is not still out on this topic. However, there are plenty of other reasons to avoid them — and in particular, starting them — in older adults, most notably the increased risk of fall injury as well as increased overdose risk when taken along with opioids.”

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

This transcript has been edited for clarity.

There’s a growing scandal in mental health care. Recent studies are showing that certain medications that basically are used to, if you will, quiet patients — antipsychotic drugs — are being overused, particularly in facilities that serve poorer people and people who are minorities. This situation is utterly, ethically unacceptable and it’s something that we are starting to get really pressed to solve. 

Part of this is due to the fact that numbers of caregivers are in short supply. We need to get more people trained. We need to get more mental health providers at all levels into facilities in order to provide care, and not substitute that inability to have a provider present and minimize risk to patients by having drug-induced sleepiness, soporific behavior, or, if you will, snowing them just because we don’t have enough people to keep an eye on them. Furthermore, we can’t let them engage in some activities, even things like walking around, because we’re worried about falls. The nursing homes or mental health facilities don’t want anybody to get injured, much less killed, because that’s going to really bring government agencies down on them.

What do we do, aside from trying to get more numbers in there? California came up with a law not too long ago that basically put the burden of using these drugs on consent. They passed a law that said the patient, before going under and being administered any type of psychoactive drug, has to consent; or if they’re really unable to do that, their relative or next of kin should have to consent.

California law now puts the burden on getting consent from the patient in order to use these drugs. It’s not a good solution. It still permits the use of the drugs to substitute for the inability to provide adequate numbers of people to provide care in safe environments. It’s almost like saying, “We know you’re going into a dangerous place. We can’t really reduce the danger, so we’re going to make sure that you stay in your seat. You better consent to that because otherwise things could not go well for you in this mental institution.” 

That’s not a sound argument for the use of informed consent. Moreover, I’m very skeptical that many of these people in mental institutions do have the capacity to either say, “Fine, give me psychoactive drugs if I have to stay here,” or “No, I don’t want that. I’ll take my chances.”

They’re vulnerable people. Many of them may not be fully incompetent, but they often have compromised competency. Relatives may be thinking, Well, the right thing to do is just to make sure they don’t get hurt or injure themselves. Yes, give them the drugs. 

Consent, while I support it, is not the solution to what is fundamentally an infrastructure problem, a personnel problem, and one of the shames of American healthcare, which is lousy long-term mental health care. For too many people, their care is in the street. For too many people, their care is taking place in institutions that have dangerous designs where people either get injured, can’t provide enough spacing, or just don’t have the people to do it. 

Let’s move to fix the mental health care system and not be in a situation where we say to people, “The system stinks and you’re at risk. Is it okay with you if we drug you because we can’t think of any other way to keep you safe, given the rotten nature of the institutions that we’ve got?” 

Dr. Caplan is director, Division of Medical Ethics, New York University Langone Medical Center, New York. He disclosed ties with Johnson & Johnson’s Panel for Compassionate Drug Use (unpaid position) and serves as a contributing author and adviser for Medscape.

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

This transcript has been edited for clarity.

There’s a growing scandal in mental health care. Recent studies are showing that certain medications that basically are used to, if you will, quiet patients — antipsychotic drugs — are being overused, particularly in facilities that serve poorer people and people who are minorities. This situation is utterly, ethically unacceptable and it’s something that we are starting to get really pressed to solve. 

Part of this is due to the fact that numbers of caregivers are in short supply. We need to get more people trained. We need to get more mental health providers at all levels into facilities in order to provide care, and not substitute that inability to have a provider present and minimize risk to patients by having drug-induced sleepiness, soporific behavior, or, if you will, snowing them just because we don’t have enough people to keep an eye on them. Furthermore, we can’t let them engage in some activities, even things like walking around, because we’re worried about falls. The nursing homes or mental health facilities don’t want anybody to get injured, much less killed, because that’s going to really bring government agencies down on them.

What do we do, aside from trying to get more numbers in there? California came up with a law not too long ago that basically put the burden of using these drugs on consent. They passed a law that said the patient, before going under and being administered any type of psychoactive drug, has to consent; or if they’re really unable to do that, their relative or next of kin should have to consent.

California law now puts the burden on getting consent from the patient in order to use these drugs. It’s not a good solution. It still permits the use of the drugs to substitute for the inability to provide adequate numbers of people to provide care in safe environments. It’s almost like saying, “We know you’re going into a dangerous place. We can’t really reduce the danger, so we’re going to make sure that you stay in your seat. You better consent to that because otherwise things could not go well for you in this mental institution.” 

That’s not a sound argument for the use of informed consent. Moreover, I’m very skeptical that many of these people in mental institutions do have the capacity to either say, “Fine, give me psychoactive drugs if I have to stay here,” or “No, I don’t want that. I’ll take my chances.”

They’re vulnerable people. Many of them may not be fully incompetent, but they often have compromised competency. Relatives may be thinking, Well, the right thing to do is just to make sure they don’t get hurt or injure themselves. Yes, give them the drugs. 

Consent, while I support it, is not the solution to what is fundamentally an infrastructure problem, a personnel problem, and one of the shames of American healthcare, which is lousy long-term mental health care. For too many people, their care is in the street. For too many people, their care is taking place in institutions that have dangerous designs where people either get injured, can’t provide enough spacing, or just don’t have the people to do it. 

Let’s move to fix the mental health care system and not be in a situation where we say to people, “The system stinks and you’re at risk. Is it okay with you if we drug you because we can’t think of any other way to keep you safe, given the rotten nature of the institutions that we’ve got?” 

Dr. Caplan is director, Division of Medical Ethics, New York University Langone Medical Center, New York. He disclosed ties with Johnson & Johnson’s Panel for Compassionate Drug Use (unpaid position) and serves as a contributing author and adviser for Medscape.

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

This transcript has been edited for clarity.

There’s a growing scandal in mental health care. Recent studies are showing that certain medications that basically are used to, if you will, quiet patients — antipsychotic drugs — are being overused, particularly in facilities that serve poorer people and people who are minorities. This situation is utterly, ethically unacceptable and it’s something that we are starting to get really pressed to solve. 

Part of this is due to the fact that numbers of caregivers are in short supply. We need to get more people trained. We need to get more mental health providers at all levels into facilities in order to provide care, and not substitute that inability to have a provider present and minimize risk to patients by having drug-induced sleepiness, soporific behavior, or, if you will, snowing them just because we don’t have enough people to keep an eye on them. Furthermore, we can’t let them engage in some activities, even things like walking around, because we’re worried about falls. The nursing homes or mental health facilities don’t want anybody to get injured, much less killed, because that’s going to really bring government agencies down on them.

What do we do, aside from trying to get more numbers in there? California came up with a law not too long ago that basically put the burden of using these drugs on consent. They passed a law that said the patient, before going under and being administered any type of psychoactive drug, has to consent; or if they’re really unable to do that, their relative or next of kin should have to consent.

California law now puts the burden on getting consent from the patient in order to use these drugs. It’s not a good solution. It still permits the use of the drugs to substitute for the inability to provide adequate numbers of people to provide care in safe environments. It’s almost like saying, “We know you’re going into a dangerous place. We can’t really reduce the danger, so we’re going to make sure that you stay in your seat. You better consent to that because otherwise things could not go well for you in this mental institution.” 

That’s not a sound argument for the use of informed consent. Moreover, I’m very skeptical that many of these people in mental institutions do have the capacity to either say, “Fine, give me psychoactive drugs if I have to stay here,” or “No, I don’t want that. I’ll take my chances.”

They’re vulnerable people. Many of them may not be fully incompetent, but they often have compromised competency. Relatives may be thinking, Well, the right thing to do is just to make sure they don’t get hurt or injure themselves. Yes, give them the drugs. 

Consent, while I support it, is not the solution to what is fundamentally an infrastructure problem, a personnel problem, and one of the shames of American healthcare, which is lousy long-term mental health care. For too many people, their care is in the street. For too many people, their care is taking place in institutions that have dangerous designs where people either get injured, can’t provide enough spacing, or just don’t have the people to do it. 

Let’s move to fix the mental health care system and not be in a situation where we say to people, “The system stinks and you’re at risk. Is it okay with you if we drug you because we can’t think of any other way to keep you safe, given the rotten nature of the institutions that we’ve got?” 

Dr. Caplan is director, Division of Medical Ethics, New York University Langone Medical Center, New York. He disclosed ties with Johnson & Johnson’s Panel for Compassionate Drug Use (unpaid position) and serves as a contributing author and adviser for Medscape.

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

An algorithm using two well-known tests has shown strong accuracy (91%) in predicting whether an older driver can pass an on-road driving evaluation according to a new study published in the Journal of the American Medical Directors Association .

The Fit2Drive algorithm combines the Mini-Mental State Exam (MMSE), a 30-point dementia screening tool that has been found in several studies to have an association with driving ability, and the Trails B test, which gauges cognitive flexibility and set-shifting (task switching), considered to be measures of executive functioning.
 

Algorithm Available for Providers

The algorithm is clinically available and providers can fill in patients’ information and results of the two tests at the Fit2Drive website. Results may help physicians with often-difficult conversations with older patients about driving when they present with cognitive concerns.

Families report it is one of the most difficult conversations they have with a loved one and doctors are often asked to be part of the conversation. This is particularly difficult when, often, little objective information is available. In the past, a clinical rule of thumb has been that people diagnosed with Alzheimer’s disease or related dementias (ADRD) will usually be able to drive for 3 years after diagnosis.

“[T]he anger, tears, and frustration on the part of the individual patient and the lack of objective data to guide provider recommendations are the driving forces behind our effort to develop a highly accurate, evidence-based predictor of the ability to pass an on-road driving test,” the authors write. They added that the goal of the study was to identify the smallest number of cognitive test results that could predict likelihood of passing an on-road driver evaluation.

A number of tests were evaluated for the algorithm, but the combination of Trails B in seconds and MMSE using the highest scores of the serial 7s (counting back from 100 by 7s) or WORLD spelled backward accounted for the highest correlation with passing the on-road driving test, according to the authors, led by Ruth Tappen, EdD, FN, with the Christine E. Lynn College of Nursing at Florida Atlantic University, in Boca Raton.

A receiver operator characteristic (ROC) analysis was conducted on the linear combination of the two assessments.

“Because an ROC of 0.70 is considered to be the minimal requirement [for predictive value], 0.80 is considered good, and higher than 0.90 is excellent, these findings [with 91% area under the curve] suggest excellent accuracy using these two cognitive tests in this population,” the authors write.

For this analysis, researchers included 412 older drivers (179 men and 233 women) with an average age of 80. T he study was conducted at the Florida Atlantic University’s Memory Center and Clinical Research Unit. Participants included those who received a driving evaluation at the Memory Center and agreed to have their results included in the Driving Repository, and community-based older drivers who volunteered to participate.
 

Limitations of the Study

There were marginal differences between sexes on the measures, but they were not significant. The sample was composed of relatively well-educated people, primarily of European American ethnic origin, which is a consideration in generalizing the results.

Among other limitations are that physical and sensory factors, in addition to cognitive issues, may affect an individual’s ability to drive safely and are not included in the algorithm. Sensory disabilities, including reduced visual acuity caused by binocular field vision loss, contrast sensitivity, glare sensitivity, and other conditions, may affect driving ability as well as the ability to fully rotate the head and neck. Medical conditions affecting the cardiovascular, neurological, and orthopedic systems can also influence driving ability.

“Future studies should involve more diverse samples and a greater variety of driving challenges, including school zones and multilane highways, which are not included in the study,” the authors write.

The study received grant support from the State of Florida Department of Health and the Ed and Ethel Moore Alzheimer’s Disease Research Program.

An algorithm using two well-known tests has shown strong accuracy (91%) in predicting whether an older driver can pass an on-road driving evaluation according to a new study published in the Journal of the American Medical Directors Association .

The Fit2Drive algorithm combines the Mini-Mental State Exam (MMSE), a 30-point dementia screening tool that has been found in several studies to have an association with driving ability, and the Trails B test, which gauges cognitive flexibility and set-shifting (task switching), considered to be measures of executive functioning.
 

Algorithm Available for Providers

The algorithm is clinically available and providers can fill in patients’ information and results of the two tests at the Fit2Drive website. Results may help physicians with often-difficult conversations with older patients about driving when they present with cognitive concerns.

Families report it is one of the most difficult conversations they have with a loved one and doctors are often asked to be part of the conversation. This is particularly difficult when, often, little objective information is available. In the past, a clinical rule of thumb has been that people diagnosed with Alzheimer’s disease or related dementias (ADRD) will usually be able to drive for 3 years after diagnosis.

“[T]he anger, tears, and frustration on the part of the individual patient and the lack of objective data to guide provider recommendations are the driving forces behind our effort to develop a highly accurate, evidence-based predictor of the ability to pass an on-road driving test,” the authors write. They added that the goal of the study was to identify the smallest number of cognitive test results that could predict likelihood of passing an on-road driver evaluation.

A number of tests were evaluated for the algorithm, but the combination of Trails B in seconds and MMSE using the highest scores of the serial 7s (counting back from 100 by 7s) or WORLD spelled backward accounted for the highest correlation with passing the on-road driving test, according to the authors, led by Ruth Tappen, EdD, FN, with the Christine E. Lynn College of Nursing at Florida Atlantic University, in Boca Raton.

A receiver operator characteristic (ROC) analysis was conducted on the linear combination of the two assessments.

“Because an ROC of 0.70 is considered to be the minimal requirement [for predictive value], 0.80 is considered good, and higher than 0.90 is excellent, these findings [with 91% area under the curve] suggest excellent accuracy using these two cognitive tests in this population,” the authors write.

For this analysis, researchers included 412 older drivers (179 men and 233 women) with an average age of 80. T he study was conducted at the Florida Atlantic University’s Memory Center and Clinical Research Unit. Participants included those who received a driving evaluation at the Memory Center and agreed to have their results included in the Driving Repository, and community-based older drivers who volunteered to participate.
 

Limitations of the Study

There were marginal differences between sexes on the measures, but they were not significant. The sample was composed of relatively well-educated people, primarily of European American ethnic origin, which is a consideration in generalizing the results.

Among other limitations are that physical and sensory factors, in addition to cognitive issues, may affect an individual’s ability to drive safely and are not included in the algorithm. Sensory disabilities, including reduced visual acuity caused by binocular field vision loss, contrast sensitivity, glare sensitivity, and other conditions, may affect driving ability as well as the ability to fully rotate the head and neck. Medical conditions affecting the cardiovascular, neurological, and orthopedic systems can also influence driving ability.

“Future studies should involve more diverse samples and a greater variety of driving challenges, including school zones and multilane highways, which are not included in the study,” the authors write.

The study received grant support from the State of Florida Department of Health and the Ed and Ethel Moore Alzheimer’s Disease Research Program.

An algorithm using two well-known tests has shown strong accuracy (91%) in predicting whether an older driver can pass an on-road driving evaluation according to a new study published in the Journal of the American Medical Directors Association .

The Fit2Drive algorithm combines the Mini-Mental State Exam (MMSE), a 30-point dementia screening tool that has been found in several studies to have an association with driving ability, and the Trails B test, which gauges cognitive flexibility and set-shifting (task switching), considered to be measures of executive functioning.
 

Algorithm Available for Providers

The algorithm is clinically available and providers can fill in patients’ information and results of the two tests at the Fit2Drive website. Results may help physicians with often-difficult conversations with older patients about driving when they present with cognitive concerns.

Families report it is one of the most difficult conversations they have with a loved one and doctors are often asked to be part of the conversation. This is particularly difficult when, often, little objective information is available. In the past, a clinical rule of thumb has been that people diagnosed with Alzheimer’s disease or related dementias (ADRD) will usually be able to drive for 3 years after diagnosis.

“[T]he anger, tears, and frustration on the part of the individual patient and the lack of objective data to guide provider recommendations are the driving forces behind our effort to develop a highly accurate, evidence-based predictor of the ability to pass an on-road driving test,” the authors write. They added that the goal of the study was to identify the smallest number of cognitive test results that could predict likelihood of passing an on-road driver evaluation.

A number of tests were evaluated for the algorithm, but the combination of Trails B in seconds and MMSE using the highest scores of the serial 7s (counting back from 100 by 7s) or WORLD spelled backward accounted for the highest correlation with passing the on-road driving test, according to the authors, led by Ruth Tappen, EdD, FN, with the Christine E. Lynn College of Nursing at Florida Atlantic University, in Boca Raton.

A receiver operator characteristic (ROC) analysis was conducted on the linear combination of the two assessments.

“Because an ROC of 0.70 is considered to be the minimal requirement [for predictive value], 0.80 is considered good, and higher than 0.90 is excellent, these findings [with 91% area under the curve] suggest excellent accuracy using these two cognitive tests in this population,” the authors write.

For this analysis, researchers included 412 older drivers (179 men and 233 women) with an average age of 80. T he study was conducted at the Florida Atlantic University’s Memory Center and Clinical Research Unit. Participants included those who received a driving evaluation at the Memory Center and agreed to have their results included in the Driving Repository, and community-based older drivers who volunteered to participate.
 

Limitations of the Study

There were marginal differences between sexes on the measures, but they were not significant. The sample was composed of relatively well-educated people, primarily of European American ethnic origin, which is a consideration in generalizing the results.

Among other limitations are that physical and sensory factors, in addition to cognitive issues, may affect an individual’s ability to drive safely and are not included in the algorithm. Sensory disabilities, including reduced visual acuity caused by binocular field vision loss, contrast sensitivity, glare sensitivity, and other conditions, may affect driving ability as well as the ability to fully rotate the head and neck. Medical conditions affecting the cardiovascular, neurological, and orthopedic systems can also influence driving ability.

“Future studies should involve more diverse samples and a greater variety of driving challenges, including school zones and multilane highways, which are not included in the study,” the authors write.

The study received grant support from the State of Florida Department of Health and the Ed and Ethel Moore Alzheimer’s Disease Research Program.

WASHINGTON — In 2013, Vishal A. Patel, MD, was completing a fellowship in Mohs surgery and cutaneous oncology at Columbia University Irving Medical Center, New York City, when a study was published showing that most nonmelanoma skin cancers (NMSCs) were treated with surgery, regardless of the patient’s life expectancy. Life expectancy “should enter into treatment decisions,” the authors concluded.

“The article got a lot of pushback from the Mohs surgeons,” and the value of surgery in older adults and particularly those with limited life expectancy “became a hot topic,” Dr. Patel recalled at the ElderDerm conference hosted by the Department of Dermatology at George Washington University, Washington, DC, and described as a first-of-its-kind meeting dedicated to improving dermatologic care for older adults.

Christine Kilgore

Today, however, more than a decade later, guidelines still promote surgical therapy as the gold standard across the board, and questions raised by the study are still unaddressed, Dr. Patel, associate professor of dermatology and medicine/oncology at George Washington University, said at the meeting. These questions are becoming increasingly urgent as the incidence of skin cancer, especially NMSC, rises in the older adult population, especially in patients older than 85 years. “It’s a function of our training and our treatment guidelines that we reach for the most definitive treatment, which happens to be the most aggressive, in these patients,” added Dr. Patel, who is also director of the cutaneous oncology program at the GW Cancer Center.

“Sometimes we lose track of what ... we need to do” to provide care that reflects the best interests of the older patient, he continued. “Surgery may be the gold standard for treating the majority of NMSCs ... but is it the [best option] for what our older patients and patients with limited life expectancy need?”

Learning about what truly matters to the patient is a key element of the “age-friendly, whole-person care” that dermatologists must embrace as older adults become an increasingly large subset of their patient population, Christina Prather, MD, director and associate professor of geriatrics and palliative medicine at George Washington University, said at the meeting.

By 2040, projections are that the number of adults aged 85 years and older in the United States will be nearly quadruple the number in 2000, according to one estimate.

“We know that there are less than 6000 practicing geriatricians in the country ... [so the healthcare system] needs more of you who know how to bring an age-friendly approach to care,” Dr. Prather said. Dermatology is among the specialties that need to be “geriatricized.”
 

NMSC Increasing in the Older Population

The incidence of skin cancer is rising faster than that of any other cancer, Dr. Patel said. One window into the epidemiology, he said, comes from recently published data showing that an average of 6.1 million adults were treated each year for skin cancer during 2016-2018 (5.2 million of them for NMSC) — an increase from an average of 5.8 million annually in the 2012-2015 period. The data come from the Medical Expenditure Panel Survey (MEPS), which is conducted by the US Public Health Service through the Agency for Healthcare Research and Quality and the Centers for Disease Control and Prevention.

As a frame of reference, the average number of adults treated each year for nonskin cancers during these periods rose from 10.8 to 11.9 million, according to the 2023 MEPS data. “Skin cancer is about one-third of all cancers combined,” Dr. Patel said.

Not only is the incidence of NMSC significantly higher than that of melanoma but it also shows a more prominent aging trend. This was documented recently in a long-term observational study from Japan, in which researchers looked at the change in the median age of patients with NMSC and melanoma, compared with cancers of other organs, from 1991 to 2020 and found that NMSC had by far the greatest rise in median age, to a median age of 80 years in 2021.

Even more notable, Dr. Patel said, was a particularly marked increase in the number of patients with skin cancer aged 90 years and older. In 2021, this group of older adults accounted for 17% of patients receiving treatment for skin cancer at the Japanese hospital where the data were collected.

The 2013 study that stirred Dr. Patel as a fellow was of 1536 consecutive patients diagnosed with NMSC at two dermatology clinics (a University of California San Francisco–based private clinic and a Veterans Affairs Medical Center clinic) and followed for 6 years. “What’s interesting and worth thinking about is that, regardless of patients’ life expectancy, NMSCs were treated aggressively and surgically, and the choice of surgery was not influenced by the patient’s poor prognosis in a multivariate model” adjusted for tumor and patient characteristics, he said at the meeting.

The researchers defined limited life expectancy as either 85 years or older or having a Charleston Comorbidity Index ≥ 3. Approximately half of the patients with limited life expectancy died within 5 years, none of NMSC. Most patients with limited life expectancy were not often bothered by their tumors, and approximately one in five reported a treatment complication within 2 years. The 5-year tumor recurrence rate was 3.7%.

A more recent study looked at 1181 patients older than 85 years with NMSC referred for Mohs surgery. Almost all patients in the multicenter, prospective cohort study (91.3%) were treated with Mohs.

Treated patients were more likely to have facial tumors and higher functional status than those not treated with Mohs surgery, and the most common reasons provided by surgeons for proceeding with the surgery were a patient desire for a high cure rate (66%), higher functional status for age (57%), and high-risk tumor type (40%). Almost 42% of the referred patients were 89 years or older.

“Granted, [the reasons] are justified indications for surgery,” Dr. Patel said. Yet the study brings up the question of “whether we need to do Mohs surgery this frequently in elderly patients?” In an email after the meeting, he added, “it’s a question we may need to reconsider as the elderly population continues to increase and median age of NMSC rises.”
 

Underutilized Management Options for NMSC

In his practice, discussions of treatment options are preceded by a thorough discussion of the disease itself. Many lesions are low risk, and helping patients understand risks, as well as understanding what is important to the patient — especially those with limited life expectancy — will guide shared decision-making to choose the best treatment, Dr. Patel said at the meeting.

The dermatologist’s risk assessment — both staging and stratifying risk as it relates to specific outcomes such as recurrence, metastases, or death — takes on added importance in the older patient, he emphasized. “I think we underutilize the risk assessment.”

Also underutilized is the option of shave removal for low-risk squamous cell carcinomas and basal cell carcinomas, Dr. Patel said, noting that, in the National Comprehensive Cancer Network guidelines, “there’s an option for shave removal and nothing more if you have clear margins.”

Alternatively, disc excision with the initial biopsy can often be considered. “Having that intent to treat at the time of biopsy may be all that needs to be done” in older patients with obvious or highly suspicious lesions, he said.

Systemic immunotherapy has joined the treatment armamentarium for advanced basal cell carcinoma and advanced cutaneous squamous cell carcinoma, and if early, ongoing research of intralesional programmed cell death protein 1 inhibitor treatment advances, this could be another option for older adults in the future, Dr. Patel said. Targeting drug delivery directly to the tumor would lower the total dose, decrease systemic exposure, and could be used to avoid surgery for some groups of patients, such as those with limited life expectancy.

A Personal Story, a Word on Melanoma

Dr. Prather recalled when her 97-year-old grandfather had a skin lesion on his forehead removed, and a conversation he had with her mother about whether he really needed to have the procedure because he had cognitive impairment and was on oral anticoagulants.

The clinician “said it absolutely had to go. ... I can’t tell you how much his doctors’ visits and wound care consumed my family’s life for the next few years — for this thing that never quite healed,” she said.

“Was it necessary? The more I’ve learned over time is that it wasn’t,” Dr. Prather added. “We have to take time [with our older patients] and think critically. What is feasible? What makes the most sense? What is the most important thing I need to know about the patient?”

Also important, Dr. Patel noted, is the big-picture consideration of skin cancer treatment costs. The MEPS survey data showing the rising prevalence of skin cancer treatment also documented the economic burden: A nearly 30% increase in the average annual cost of treating NMSC from $5 billion in 2012-2015 to $6.5 billion in 2016-2018. (The average annual costs of treating melanoma decreased slightly.) “Skin cancer is a big drain on our limited resources,” he said.

With melanoma as well, dermatologists must think critically and holistically about the individual patient — and not have “a single view lens of the disease and how we treat the disease,” said Dr. Patel, urging the audience to read a “Sounding Board” article published in The New England Journal of Medicine in 2021. The article argued that there is overdiagnosis of cutaneous melanoma stemming from increased screening, falling clinical thresholds for biopsy, and falling pathological thresholds for labeling morphologic changes as cancer.

“There’s a diagnostic disconnect and a problem of overdiagnosis ... because we’re afraid to miss or make a mistake,” he said. “It leads to the question, do all lesions denoted as skin cancers need aggressive treatment? What does it mean for the patient in front of you?”

Dr. Patel reported receiving honoraria from Regeneron, Almirall, Biofrontera, Sun Pharma, and SkylineDx and serving on the speaker bureau of Regeneron and Almirall. He is chief medical officer for Lazarus AI and is cofounder of the Skin Cancer Outcomes consortium. Dr. Prather disclosed relationships with the National Institutes of Health, AHRQ, The Washington Home Foundation, and the Alzheimer’s Association.

A version of this article appeared on Medscape.com.

WASHINGTON — In 2013, Vishal A. Patel, MD, was completing a fellowship in Mohs surgery and cutaneous oncology at Columbia University Irving Medical Center, New York City, when a study was published showing that most nonmelanoma skin cancers (NMSCs) were treated with surgery, regardless of the patient’s life expectancy. Life expectancy “should enter into treatment decisions,” the authors concluded.

“The article got a lot of pushback from the Mohs surgeons,” and the value of surgery in older adults and particularly those with limited life expectancy “became a hot topic,” Dr. Patel recalled at the ElderDerm conference hosted by the Department of Dermatology at George Washington University, Washington, DC, and described as a first-of-its-kind meeting dedicated to improving dermatologic care for older adults.

Christine Kilgore

Today, however, more than a decade later, guidelines still promote surgical therapy as the gold standard across the board, and questions raised by the study are still unaddressed, Dr. Patel, associate professor of dermatology and medicine/oncology at George Washington University, said at the meeting. These questions are becoming increasingly urgent as the incidence of skin cancer, especially NMSC, rises in the older adult population, especially in patients older than 85 years. “It’s a function of our training and our treatment guidelines that we reach for the most definitive treatment, which happens to be the most aggressive, in these patients,” added Dr. Patel, who is also director of the cutaneous oncology program at the GW Cancer Center.

“Sometimes we lose track of what ... we need to do” to provide care that reflects the best interests of the older patient, he continued. “Surgery may be the gold standard for treating the majority of NMSCs ... but is it the [best option] for what our older patients and patients with limited life expectancy need?”

Learning about what truly matters to the patient is a key element of the “age-friendly, whole-person care” that dermatologists must embrace as older adults become an increasingly large subset of their patient population, Christina Prather, MD, director and associate professor of geriatrics and palliative medicine at George Washington University, said at the meeting.

By 2040, projections are that the number of adults aged 85 years and older in the United States will be nearly quadruple the number in 2000, according to one estimate.

“We know that there are less than 6000 practicing geriatricians in the country ... [so the healthcare system] needs more of you who know how to bring an age-friendly approach to care,” Dr. Prather said. Dermatology is among the specialties that need to be “geriatricized.”
 

NMSC Increasing in the Older Population

The incidence of skin cancer is rising faster than that of any other cancer, Dr. Patel said. One window into the epidemiology, he said, comes from recently published data showing that an average of 6.1 million adults were treated each year for skin cancer during 2016-2018 (5.2 million of them for NMSC) — an increase from an average of 5.8 million annually in the 2012-2015 period. The data come from the Medical Expenditure Panel Survey (MEPS), which is conducted by the US Public Health Service through the Agency for Healthcare Research and Quality and the Centers for Disease Control and Prevention.

As a frame of reference, the average number of adults treated each year for nonskin cancers during these periods rose from 10.8 to 11.9 million, according to the 2023 MEPS data. “Skin cancer is about one-third of all cancers combined,” Dr. Patel said.

Not only is the incidence of NMSC significantly higher than that of melanoma but it also shows a more prominent aging trend. This was documented recently in a long-term observational study from Japan, in which researchers looked at the change in the median age of patients with NMSC and melanoma, compared with cancers of other organs, from 1991 to 2020 and found that NMSC had by far the greatest rise in median age, to a median age of 80 years in 2021.

Even more notable, Dr. Patel said, was a particularly marked increase in the number of patients with skin cancer aged 90 years and older. In 2021, this group of older adults accounted for 17% of patients receiving treatment for skin cancer at the Japanese hospital where the data were collected.

The 2013 study that stirred Dr. Patel as a fellow was of 1536 consecutive patients diagnosed with NMSC at two dermatology clinics (a University of California San Francisco–based private clinic and a Veterans Affairs Medical Center clinic) and followed for 6 years. “What’s interesting and worth thinking about is that, regardless of patients’ life expectancy, NMSCs were treated aggressively and surgically, and the choice of surgery was not influenced by the patient’s poor prognosis in a multivariate model” adjusted for tumor and patient characteristics, he said at the meeting.

The researchers defined limited life expectancy as either 85 years or older or having a Charleston Comorbidity Index ≥ 3. Approximately half of the patients with limited life expectancy died within 5 years, none of NMSC. Most patients with limited life expectancy were not often bothered by their tumors, and approximately one in five reported a treatment complication within 2 years. The 5-year tumor recurrence rate was 3.7%.

A more recent study looked at 1181 patients older than 85 years with NMSC referred for Mohs surgery. Almost all patients in the multicenter, prospective cohort study (91.3%) were treated with Mohs.

Treated patients were more likely to have facial tumors and higher functional status than those not treated with Mohs surgery, and the most common reasons provided by surgeons for proceeding with the surgery were a patient desire for a high cure rate (66%), higher functional status for age (57%), and high-risk tumor type (40%). Almost 42% of the referred patients were 89 years or older.

“Granted, [the reasons] are justified indications for surgery,” Dr. Patel said. Yet the study brings up the question of “whether we need to do Mohs surgery this frequently in elderly patients?” In an email after the meeting, he added, “it’s a question we may need to reconsider as the elderly population continues to increase and median age of NMSC rises.”
 

Underutilized Management Options for NMSC

In his practice, discussions of treatment options are preceded by a thorough discussion of the disease itself. Many lesions are low risk, and helping patients understand risks, as well as understanding what is important to the patient — especially those with limited life expectancy — will guide shared decision-making to choose the best treatment, Dr. Patel said at the meeting.

The dermatologist’s risk assessment — both staging and stratifying risk as it relates to specific outcomes such as recurrence, metastases, or death — takes on added importance in the older patient, he emphasized. “I think we underutilize the risk assessment.”

Also underutilized is the option of shave removal for low-risk squamous cell carcinomas and basal cell carcinomas, Dr. Patel said, noting that, in the National Comprehensive Cancer Network guidelines, “there’s an option for shave removal and nothing more if you have clear margins.”

Alternatively, disc excision with the initial biopsy can often be considered. “Having that intent to treat at the time of biopsy may be all that needs to be done” in older patients with obvious or highly suspicious lesions, he said.

Systemic immunotherapy has joined the treatment armamentarium for advanced basal cell carcinoma and advanced cutaneous squamous cell carcinoma, and if early, ongoing research of intralesional programmed cell death protein 1 inhibitor treatment advances, this could be another option for older adults in the future, Dr. Patel said. Targeting drug delivery directly to the tumor would lower the total dose, decrease systemic exposure, and could be used to avoid surgery for some groups of patients, such as those with limited life expectancy.

A Personal Story, a Word on Melanoma

Dr. Prather recalled when her 97-year-old grandfather had a skin lesion on his forehead removed, and a conversation he had with her mother about whether he really needed to have the procedure because he had cognitive impairment and was on oral anticoagulants.

The clinician “said it absolutely had to go. ... I can’t tell you how much his doctors’ visits and wound care consumed my family’s life for the next few years — for this thing that never quite healed,” she said.

“Was it necessary? The more I’ve learned over time is that it wasn’t,” Dr. Prather added. “We have to take time [with our older patients] and think critically. What is feasible? What makes the most sense? What is the most important thing I need to know about the patient?”

Also important, Dr. Patel noted, is the big-picture consideration of skin cancer treatment costs. The MEPS survey data showing the rising prevalence of skin cancer treatment also documented the economic burden: A nearly 30% increase in the average annual cost of treating NMSC from $5 billion in 2012-2015 to $6.5 billion in 2016-2018. (The average annual costs of treating melanoma decreased slightly.) “Skin cancer is a big drain on our limited resources,” he said.

With melanoma as well, dermatologists must think critically and holistically about the individual patient — and not have “a single view lens of the disease and how we treat the disease,” said Dr. Patel, urging the audience to read a “Sounding Board” article published in The New England Journal of Medicine in 2021. The article argued that there is overdiagnosis of cutaneous melanoma stemming from increased screening, falling clinical thresholds for biopsy, and falling pathological thresholds for labeling morphologic changes as cancer.

“There’s a diagnostic disconnect and a problem of overdiagnosis ... because we’re afraid to miss or make a mistake,” he said. “It leads to the question, do all lesions denoted as skin cancers need aggressive treatment? What does it mean for the patient in front of you?”

Dr. Patel reported receiving honoraria from Regeneron, Almirall, Biofrontera, Sun Pharma, and SkylineDx and serving on the speaker bureau of Regeneron and Almirall. He is chief medical officer for Lazarus AI and is cofounder of the Skin Cancer Outcomes consortium. Dr. Prather disclosed relationships with the National Institutes of Health, AHRQ, The Washington Home Foundation, and the Alzheimer’s Association.

A version of this article appeared on Medscape.com.

WASHINGTON — In 2013, Vishal A. Patel, MD, was completing a fellowship in Mohs surgery and cutaneous oncology at Columbia University Irving Medical Center, New York City, when a study was published showing that most nonmelanoma skin cancers (NMSCs) were treated with surgery, regardless of the patient’s life expectancy. Life expectancy “should enter into treatment decisions,” the authors concluded.

“The article got a lot of pushback from the Mohs surgeons,” and the value of surgery in older adults and particularly those with limited life expectancy “became a hot topic,” Dr. Patel recalled at the ElderDerm conference hosted by the Department of Dermatology at George Washington University, Washington, DC, and described as a first-of-its-kind meeting dedicated to improving dermatologic care for older adults.

Christine Kilgore

Today, however, more than a decade later, guidelines still promote surgical therapy as the gold standard across the board, and questions raised by the study are still unaddressed, Dr. Patel, associate professor of dermatology and medicine/oncology at George Washington University, said at the meeting. These questions are becoming increasingly urgent as the incidence of skin cancer, especially NMSC, rises in the older adult population, especially in patients older than 85 years. “It’s a function of our training and our treatment guidelines that we reach for the most definitive treatment, which happens to be the most aggressive, in these patients,” added Dr. Patel, who is also director of the cutaneous oncology program at the GW Cancer Center.

“Sometimes we lose track of what ... we need to do” to provide care that reflects the best interests of the older patient, he continued. “Surgery may be the gold standard for treating the majority of NMSCs ... but is it the [best option] for what our older patients and patients with limited life expectancy need?”

Learning about what truly matters to the patient is a key element of the “age-friendly, whole-person care” that dermatologists must embrace as older adults become an increasingly large subset of their patient population, Christina Prather, MD, director and associate professor of geriatrics and palliative medicine at George Washington University, said at the meeting.

By 2040, projections are that the number of adults aged 85 years and older in the United States will be nearly quadruple the number in 2000, according to one estimate.

“We know that there are less than 6000 practicing geriatricians in the country ... [so the healthcare system] needs more of you who know how to bring an age-friendly approach to care,” Dr. Prather said. Dermatology is among the specialties that need to be “geriatricized.”
 

NMSC Increasing in the Older Population

The incidence of skin cancer is rising faster than that of any other cancer, Dr. Patel said. One window into the epidemiology, he said, comes from recently published data showing that an average of 6.1 million adults were treated each year for skin cancer during 2016-2018 (5.2 million of them for NMSC) — an increase from an average of 5.8 million annually in the 2012-2015 period. The data come from the Medical Expenditure Panel Survey (MEPS), which is conducted by the US Public Health Service through the Agency for Healthcare Research and Quality and the Centers for Disease Control and Prevention.

As a frame of reference, the average number of adults treated each year for nonskin cancers during these periods rose from 10.8 to 11.9 million, according to the 2023 MEPS data. “Skin cancer is about one-third of all cancers combined,” Dr. Patel said.

Not only is the incidence of NMSC significantly higher than that of melanoma but it also shows a more prominent aging trend. This was documented recently in a long-term observational study from Japan, in which researchers looked at the change in the median age of patients with NMSC and melanoma, compared with cancers of other organs, from 1991 to 2020 and found that NMSC had by far the greatest rise in median age, to a median age of 80 years in 2021.

Even more notable, Dr. Patel said, was a particularly marked increase in the number of patients with skin cancer aged 90 years and older. In 2021, this group of older adults accounted for 17% of patients receiving treatment for skin cancer at the Japanese hospital where the data were collected.

The 2013 study that stirred Dr. Patel as a fellow was of 1536 consecutive patients diagnosed with NMSC at two dermatology clinics (a University of California San Francisco–based private clinic and a Veterans Affairs Medical Center clinic) and followed for 6 years. “What’s interesting and worth thinking about is that, regardless of patients’ life expectancy, NMSCs were treated aggressively and surgically, and the choice of surgery was not influenced by the patient’s poor prognosis in a multivariate model” adjusted for tumor and patient characteristics, he said at the meeting.

The researchers defined limited life expectancy as either 85 years or older or having a Charleston Comorbidity Index ≥ 3. Approximately half of the patients with limited life expectancy died within 5 years, none of NMSC. Most patients with limited life expectancy were not often bothered by their tumors, and approximately one in five reported a treatment complication within 2 years. The 5-year tumor recurrence rate was 3.7%.

A more recent study looked at 1181 patients older than 85 years with NMSC referred for Mohs surgery. Almost all patients in the multicenter, prospective cohort study (91.3%) were treated with Mohs.

Treated patients were more likely to have facial tumors and higher functional status than those not treated with Mohs surgery, and the most common reasons provided by surgeons for proceeding with the surgery were a patient desire for a high cure rate (66%), higher functional status for age (57%), and high-risk tumor type (40%). Almost 42% of the referred patients were 89 years or older.

“Granted, [the reasons] are justified indications for surgery,” Dr. Patel said. Yet the study brings up the question of “whether we need to do Mohs surgery this frequently in elderly patients?” In an email after the meeting, he added, “it’s a question we may need to reconsider as the elderly population continues to increase and median age of NMSC rises.”
 

Underutilized Management Options for NMSC

In his practice, discussions of treatment options are preceded by a thorough discussion of the disease itself. Many lesions are low risk, and helping patients understand risks, as well as understanding what is important to the patient — especially those with limited life expectancy — will guide shared decision-making to choose the best treatment, Dr. Patel said at the meeting.

The dermatologist’s risk assessment — both staging and stratifying risk as it relates to specific outcomes such as recurrence, metastases, or death — takes on added importance in the older patient, he emphasized. “I think we underutilize the risk assessment.”

Also underutilized is the option of shave removal for low-risk squamous cell carcinomas and basal cell carcinomas, Dr. Patel said, noting that, in the National Comprehensive Cancer Network guidelines, “there’s an option for shave removal and nothing more if you have clear margins.”

Alternatively, disc excision with the initial biopsy can often be considered. “Having that intent to treat at the time of biopsy may be all that needs to be done” in older patients with obvious or highly suspicious lesions, he said.

Systemic immunotherapy has joined the treatment armamentarium for advanced basal cell carcinoma and advanced cutaneous squamous cell carcinoma, and if early, ongoing research of intralesional programmed cell death protein 1 inhibitor treatment advances, this could be another option for older adults in the future, Dr. Patel said. Targeting drug delivery directly to the tumor would lower the total dose, decrease systemic exposure, and could be used to avoid surgery for some groups of patients, such as those with limited life expectancy.

A Personal Story, a Word on Melanoma

Dr. Prather recalled when her 97-year-old grandfather had a skin lesion on his forehead removed, and a conversation he had with her mother about whether he really needed to have the procedure because he had cognitive impairment and was on oral anticoagulants.

The clinician “said it absolutely had to go. ... I can’t tell you how much his doctors’ visits and wound care consumed my family’s life for the next few years — for this thing that never quite healed,” she said.

“Was it necessary? The more I’ve learned over time is that it wasn’t,” Dr. Prather added. “We have to take time [with our older patients] and think critically. What is feasible? What makes the most sense? What is the most important thing I need to know about the patient?”

Also important, Dr. Patel noted, is the big-picture consideration of skin cancer treatment costs. The MEPS survey data showing the rising prevalence of skin cancer treatment also documented the economic burden: A nearly 30% increase in the average annual cost of treating NMSC from $5 billion in 2012-2015 to $6.5 billion in 2016-2018. (The average annual costs of treating melanoma decreased slightly.) “Skin cancer is a big drain on our limited resources,” he said.

With melanoma as well, dermatologists must think critically and holistically about the individual patient — and not have “a single view lens of the disease and how we treat the disease,” said Dr. Patel, urging the audience to read a “Sounding Board” article published in The New England Journal of Medicine in 2021. The article argued that there is overdiagnosis of cutaneous melanoma stemming from increased screening, falling clinical thresholds for biopsy, and falling pathological thresholds for labeling morphologic changes as cancer.

“There’s a diagnostic disconnect and a problem of overdiagnosis ... because we’re afraid to miss or make a mistake,” he said. “It leads to the question, do all lesions denoted as skin cancers need aggressive treatment? What does it mean for the patient in front of you?”

Dr. Patel reported receiving honoraria from Regeneron, Almirall, Biofrontera, Sun Pharma, and SkylineDx and serving on the speaker bureau of Regeneron and Almirall. He is chief medical officer for Lazarus AI and is cofounder of the Skin Cancer Outcomes consortium. Dr. Prather disclosed relationships with the National Institutes of Health, AHRQ, The Washington Home Foundation, and the Alzheimer’s Association.

A version of this article appeared on Medscape.com.

TOPLINE:

Poor vision and contrast sensitivity at baseline increase the likelihood of incident dementia in older adults; a decline in contrast sensitivity over time also correlates with the risk of developing dementia.

METHODOLOGY:

• Researchers conducted a longitudinal study to analyze the association of visual function with the risk for dementia in 2159 men and women (mean age, 77.9 years; 54% women) included from the National Health and Aging Trends Study between 2021 and 2022.
• All participants were free from dementia at baseline and underwent visual assessment while wearing their usual glasses or contact lenses.
• Distance and near visual acuity were measured as the log minimum angle of resolution (logMAR) units where higher values indicated worse visual acuity; contrast sensitivity was measured as the log contrast sensitivity (logCS) units where lower values represented worse outcomes.
• Dementia status was determined by a medical diagnosis, a dementia score of 2 or more, or poor performance on cognitive testing.

TAKEAWAY:

• Over the 1-year follow-up period, 192 adults (6.6%) developed dementia.
• Worsening of distant and near vision by 0.1 logMAR increased the risk for dementia by 8% (P = .01) and 7% (P = .02), respectively.
• Each 0.1 logCS decline in baseline contrast sensitivity increased the risk for dementia by 9% (P = .003).
• A yearly decline in contrast sensitivity by 0.1 logCS increased the likelihood of dementia by 14% (P = .007).
• Changes in distant and near vision over time did not show a significant association with risk for dementia (P = .58 and P = .79, respectively).

IN PRACTICE:

“Visual function, especially contrast sensitivity, might be a risk factor for developing dementia,” the authors wrote. “Early vision screening may help identify adults at higher risk of dementia, allowing for timely interventions.”

SOURCE:

The study was led by Louay Almidani, MD, MSc, of the Wilmer Eye Institute at the Johns Hopkins University School of Medicine, in Baltimore, and was published online in the American Journal of Ophthalmology.

LIMITATIONS:

The study had a limited follow-up period of 1 year and may not have captured the long-term association between visual impairment and the risk for dementia. Moreover, the researchers did not consider other visual function measures such as depth perception and visual field, which might have affected the results.

DISCLOSURES:

The study did not have any funding source. The authors declared no conflicts of interest.
 

A version of this article appeared on Medscape.com.

TOPLINE:

Poor vision and contrast sensitivity at baseline increase the likelihood of incident dementia in older adults; a decline in contrast sensitivity over time also correlates with the risk of developing dementia.

METHODOLOGY:

• Researchers conducted a longitudinal study to analyze the association of visual function with the risk for dementia in 2159 men and women (mean age, 77.9 years; 54% women) included from the National Health and Aging Trends Study between 2021 and 2022.
• All participants were free from dementia at baseline and underwent visual assessment while wearing their usual glasses or contact lenses.
• Distance and near visual acuity were measured as the log minimum angle of resolution (logMAR) units where higher values indicated worse visual acuity; contrast sensitivity was measured as the log contrast sensitivity (logCS) units where lower values represented worse outcomes.
• Dementia status was determined by a medical diagnosis, a dementia score of 2 or more, or poor performance on cognitive testing.

TAKEAWAY:

• Over the 1-year follow-up period, 192 adults (6.6%) developed dementia.
• Worsening of distant and near vision by 0.1 logMAR increased the risk for dementia by 8% (P = .01) and 7% (P = .02), respectively.
• Each 0.1 logCS decline in baseline contrast sensitivity increased the risk for dementia by 9% (P = .003).
• A yearly decline in contrast sensitivity by 0.1 logCS increased the likelihood of dementia by 14% (P = .007).
• Changes in distant and near vision over time did not show a significant association with risk for dementia (P = .58 and P = .79, respectively).

IN PRACTICE:

“Visual function, especially contrast sensitivity, might be a risk factor for developing dementia,” the authors wrote. “Early vision screening may help identify adults at higher risk of dementia, allowing for timely interventions.”

SOURCE:

The study was led by Louay Almidani, MD, MSc, of the Wilmer Eye Institute at the Johns Hopkins University School of Medicine, in Baltimore, and was published online in the American Journal of Ophthalmology.

LIMITATIONS:

The study had a limited follow-up period of 1 year and may not have captured the long-term association between visual impairment and the risk for dementia. Moreover, the researchers did not consider other visual function measures such as depth perception and visual field, which might have affected the results.

DISCLOSURES:

The study did not have any funding source. The authors declared no conflicts of interest.
 

A version of this article appeared on Medscape.com.

TOPLINE:

Poor vision and contrast sensitivity at baseline increase the likelihood of incident dementia in older adults; a decline in contrast sensitivity over time also correlates with the risk of developing dementia.

METHODOLOGY:

• Researchers conducted a longitudinal study to analyze the association of visual function with the risk for dementia in 2159 men and women (mean age, 77.9 years; 54% women) included from the National Health and Aging Trends Study between 2021 and 2022.
• All participants were free from dementia at baseline and underwent visual assessment while wearing their usual glasses or contact lenses.
• Distance and near visual acuity were measured as the log minimum angle of resolution (logMAR) units where higher values indicated worse visual acuity; contrast sensitivity was measured as the log contrast sensitivity (logCS) units where lower values represented worse outcomes.
• Dementia status was determined by a medical diagnosis, a dementia score of 2 or more, or poor performance on cognitive testing.

TAKEAWAY:

• Over the 1-year follow-up period, 192 adults (6.6%) developed dementia.
• Worsening of distant and near vision by 0.1 logMAR increased the risk for dementia by 8% (P = .01) and 7% (P = .02), respectively.
• Each 0.1 logCS decline in baseline contrast sensitivity increased the risk for dementia by 9% (P = .003).
• A yearly decline in contrast sensitivity by 0.1 logCS increased the likelihood of dementia by 14% (P = .007).
• Changes in distant and near vision over time did not show a significant association with risk for dementia (P = .58 and P = .79, respectively).

IN PRACTICE:

“Visual function, especially contrast sensitivity, might be a risk factor for developing dementia,” the authors wrote. “Early vision screening may help identify adults at higher risk of dementia, allowing for timely interventions.”

SOURCE:

The study was led by Louay Almidani, MD, MSc, of the Wilmer Eye Institute at the Johns Hopkins University School of Medicine, in Baltimore, and was published online in the American Journal of Ophthalmology.

LIMITATIONS:

The study had a limited follow-up period of 1 year and may not have captured the long-term association between visual impairment and the risk for dementia. Moreover, the researchers did not consider other visual function measures such as depth perception and visual field, which might have affected the results.

DISCLOSURES:

The study did not have any funding source. The authors declared no conflicts of interest.
 

A version of this article appeared on Medscape.com.

TOPLINE:

Mortality and disability-adjusted life years (DALYs) among people with type 1 diabetes (T1D) aged ≥ 65 years dropped significantly from 1990 to 2019. Both were lower among women and those living in higher sociodemographic areas.

METHODOLOGY:

• A population-based study of adults aged ≥ 65 years from 21 regions and 204 countries and territories, 1990-2019, was conducted.

TAKEAWAY:

• Globally, the prevalence of T1D among people aged ≥ 65 years increased by 180% between 1990 and 2019, from 1.3 million to 3.7 million.
• The proportion of older people with T1D has consistently trended upward, from 12% of all people with T1D in 1990 to 17% in 2019.
• Age-standardized mortality from T1D among this age group significantly decreased by 25%, from 4.7/100,000 population in 1990 to 3.5/100,000 in 2019.
• Age-standardized increases in T1D prevalence have occurred in both men and women worldwide, while the increase was more rapid among men (average annual percent change, 1.00% vs 0.74%).
• Globally, T1D prevalence at least tripled in every age subgroup of those aged ≥ 65 years, and even fivefold to sixfold for those ≥ 90-95 years (0.02-0.11 million for ages 90-94 years; 0.005-0.03 million for ages ≥ 95 years).
• No decreases occurred in T1D prevalence among those aged ≥ 65 years in any of the 21 global regions.
• Three primary risk factors associated with DALYs for T1D among people aged ≥ 65 years were high fasting plasma glucose levels, low temperature, and high temperature, accounting for 103 DALYs per 100,000 people, 3/100,000 people, and 1/100,000 people, respectively, in 2019.

IN PRACTICE:

“The results suggest that T1DM is no longer a contributory factor in decreased life expectancy owing to improvements in medical care over the three decades,” the authors wrote. “Management of high fasting plasma glucose levels remains a major challenge for older people with T1D, and targeted clinical guidelines are needed.”

SOURCE:

The study was conducted by Kaijie Yang, the Department of Endocrinology and Metabolism, the Institute of Endocrinology, NHC Key Laboratory of Diagnosis and Treatment of Thyroid Diseases, First Hospital of China Medical University, Shenyang, China, and colleagues. The study was published online in the BMJ.

LIMITATIONS:

Data were extrapolated from countries that have epidemiologic data. Health information systems and reporting mechanisms vary across countries and regions. Disease burden data include a time lag. Diagnosing T1D in older people can be challenging.

DISCLOSURES:

The study was supported by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. The authors reported no additional financial relationships.

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

TOPLINE:

Mortality and disability-adjusted life years (DALYs) among people with type 1 diabetes (T1D) aged ≥ 65 years dropped significantly from 1990 to 2019. Both were lower among women and those living in higher sociodemographic areas.

METHODOLOGY:

• A population-based study of adults aged ≥ 65 years from 21 regions and 204 countries and territories, 1990-2019, was conducted.

TAKEAWAY:

• Globally, the prevalence of T1D among people aged ≥ 65 years increased by 180% between 1990 and 2019, from 1.3 million to 3.7 million.
• The proportion of older people with T1D has consistently trended upward, from 12% of all people with T1D in 1990 to 17% in 2019.
• Age-standardized mortality from T1D among this age group significantly decreased by 25%, from 4.7/100,000 population in 1990 to 3.5/100,000 in 2019.
• Age-standardized increases in T1D prevalence have occurred in both men and women worldwide, while the increase was more rapid among men (average annual percent change, 1.00% vs 0.74%).
• Globally, T1D prevalence at least tripled in every age subgroup of those aged ≥ 65 years, and even fivefold to sixfold for those ≥ 90-95 years (0.02-0.11 million for ages 90-94 years; 0.005-0.03 million for ages ≥ 95 years).
• No decreases occurred in T1D prevalence among those aged ≥ 65 years in any of the 21 global regions.
• Three primary risk factors associated with DALYs for T1D among people aged ≥ 65 years were high fasting plasma glucose levels, low temperature, and high temperature, accounting for 103 DALYs per 100,000 people, 3/100,000 people, and 1/100,000 people, respectively, in 2019.

IN PRACTICE:

“The results suggest that T1DM is no longer a contributory factor in decreased life expectancy owing to improvements in medical care over the three decades,” the authors wrote. “Management of high fasting plasma glucose levels remains a major challenge for older people with T1D, and targeted clinical guidelines are needed.”

SOURCE:

The study was conducted by Kaijie Yang, the Department of Endocrinology and Metabolism, the Institute of Endocrinology, NHC Key Laboratory of Diagnosis and Treatment of Thyroid Diseases, First Hospital of China Medical University, Shenyang, China, and colleagues. The study was published online in the BMJ.

LIMITATIONS:

Data were extrapolated from countries that have epidemiologic data. Health information systems and reporting mechanisms vary across countries and regions. Disease burden data include a time lag. Diagnosing T1D in older people can be challenging.

DISCLOSURES:

The study was supported by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. The authors reported no additional financial relationships.

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

TOPLINE:

Mortality and disability-adjusted life years (DALYs) among people with type 1 diabetes (T1D) aged ≥ 65 years dropped significantly from 1990 to 2019. Both were lower among women and those living in higher sociodemographic areas.

METHODOLOGY:

• A population-based study of adults aged ≥ 65 years from 21 regions and 204 countries and territories, 1990-2019, was conducted.

TAKEAWAY:

• Globally, the prevalence of T1D among people aged ≥ 65 years increased by 180% between 1990 and 2019, from 1.3 million to 3.7 million.
• The proportion of older people with T1D has consistently trended upward, from 12% of all people with T1D in 1990 to 17% in 2019.
• Age-standardized mortality from T1D among this age group significantly decreased by 25%, from 4.7/100,000 population in 1990 to 3.5/100,000 in 2019.
• Age-standardized increases in T1D prevalence have occurred in both men and women worldwide, while the increase was more rapid among men (average annual percent change, 1.00% vs 0.74%).
• Globally, T1D prevalence at least tripled in every age subgroup of those aged ≥ 65 years, and even fivefold to sixfold for those ≥ 90-95 years (0.02-0.11 million for ages 90-94 years; 0.005-0.03 million for ages ≥ 95 years).
• No decreases occurred in T1D prevalence among those aged ≥ 65 years in any of the 21 global regions.
• Three primary risk factors associated with DALYs for T1D among people aged ≥ 65 years were high fasting plasma glucose levels, low temperature, and high temperature, accounting for 103 DALYs per 100,000 people, 3/100,000 people, and 1/100,000 people, respectively, in 2019.

IN PRACTICE:

“The results suggest that T1DM is no longer a contributory factor in decreased life expectancy owing to improvements in medical care over the three decades,” the authors wrote. “Management of high fasting plasma glucose levels remains a major challenge for older people with T1D, and targeted clinical guidelines are needed.”

SOURCE:

The study was conducted by Kaijie Yang, the Department of Endocrinology and Metabolism, the Institute of Endocrinology, NHC Key Laboratory of Diagnosis and Treatment of Thyroid Diseases, First Hospital of China Medical University, Shenyang, China, and colleagues. The study was published online in the BMJ.

LIMITATIONS:

Data were extrapolated from countries that have epidemiologic data. Health information systems and reporting mechanisms vary across countries and regions. Disease burden data include a time lag. Diagnosing T1D in older people can be challenging.

DISCLOSURES:

The study was supported by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. The authors reported no additional financial relationships.

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

An intensive lifestyle intervention significantly improved cognition and function in many patients with mild cognitive impairment (MCI) or early dementia due to Alzheimer’s disease, in what authors said is the first randomized controlled trial of intensive lifestyle modification for patients diagnosed with Alzheimer’s disease. Results could help physicians address patients at risk of Alzheimer’s disease who reject relevant testing because they believe nothing can forestall development of the disease, the authors added. The study was published online in Alzheimer’s Research & Therapy.

Although technology allows probable Alzheimer’s disease diagnosis years before clinical symptoms appear, wrote investigators led by Dean Ornish, MD, of the Preventive Medicine Research Institute in Sausalito, California, “many people do not want to know if they are likely to get Alzheimer’s disease if they do not believe they can do anything about it. If intensive lifestyle changes may cause improvement in cognition and function in MCI or early dementia due to Alzheimer’s disease, then it is reasonable to think that these lifestyle changes may also help to prevent MCI or early dementia due to Alzheimer’s disease.” As with cardiovascular disease, the authors added, preventing Alzheimer’s disease might require less intensive lifestyle modifications than treating it.
 

Study Methodology

Investigators randomized 26 patients with Montréal Cognitive Assessment scores of 18 or higher to an intensive intervention involving nutrition, exercise, and stress management techniques. To improve adherence, the protocol included participants’ spouses or caregivers.

Two patients, both in the treatment group, withdrew over logistical concerns.

After 20 weeks, treated patients exhibited statistically significant differences in several key measures versus a 25-patient usual-care control group. Scores that improved in the intervention group and worsened among controls included the following:

• Clinical Global Impression of Change (CGIC, P = .001)
• Clinical Dementia Rating-Global (CDR-Global, -0.04, P = .037)
• Clinical Dementia Rating Sum of Boxes (CDR-SB, +0.08, P = .032)
• Alzheimer’s Disease Assessment Scale (ADAS-Cog, -1.01, P = .053)

The validity of these changes in cognition and function, and possible biological mechanisms of improvement, were supported by statistically significant improvements in several clinically relevant biomarkers versus controls, the investigators wrote. These biomarkers included Abeta42/40 ratio, HbA1c, insulin, and glycoprotein acetylation. “This information may also help in predicting which patients are more likely to show improvements in cognition and function by making these intensive lifestyle changes,” the authors added.

In primary analysis, the degree of lifestyle changes required to stop progression of MCI ranged from 71.4% (ADAS-Cog) to 120.6% (CDR-SB). “This helps to explain why other studies of less intensive lifestyle interventions may not have been sufficient to stop deterioration or improve cognition and function,” the authors wrote. Moreover, they added, variable adherence might explain why in the intervention group, 10 patients improved their CGIC scores, while the rest held static or worsened.
 

Caveats

Alzheimer’s Association Vice President of Medical and Scientific Relations Heather M. Snyder, PhD, said, “This is an interesting paper in an important area of research and adds to the growing body of literature on how behavior or lifestyle may be related to cognitive decline. However, because this is a small phase 2 study, it is important for this or similar work to be done in larger, more diverse populations and over a longer duration of the intervention.” She was not involved with the study but was asked to comment.

Investigators chose the 20-week duration, they explained, because control-group patients likely would not refrain from trying the lifestyle intervention beyond that timeframe. Perhaps more importantly, challenges created by the COVID-19 pandemic required researchers to cut planned enrollment in half, eliminate planned MRI and amyloid PET scans, and reduce the number of cognition and function tests.

Such shortcomings limit what neurologists can glean and generalize from the study, said Dr. Snyder. “That said,” she added, “it does demonstrate the potential of an intensive behavior/lifestyle intervention, and the importance of this sort of research in Alzheimer’s and dementia.” Although the complexity of the interventions makes these studies challenging, she added, “it is important that we continue to advance larger, longer studies in more representative study populations to develop specific recommendations.”
 

Further Study

The Alzheimer’s Association’s U.S. POINTER study is the first large-scale study in the United States to explore the impact of comprehensive lifestyle changes on cognitive health. About 2000 older adults at risk for cognitive decline are participating, from diverse locations across the country. More than 25% of participants come from groups typically underrepresented in dementia research, said Dr. Snyder. Initial results are expected in summer 2025.

Future research also should explore reasons (beyond adherence) why some patients respond to lifestyle interventions better than others, and the potential synergy of lifestyle changes with drug therapies, wrote Dr. Ornish and colleagues.

“For now,” said Dr. Snyder, “there is an opportunity for providers to incorporate or expand messaging with their patients and families about the habits that they can incorporate into their daily lives. The Alzheimer’s Association offers 10 Healthy Habits for Your Brain — everyday actions that can make a difference for your brain health.”

Investigators received study funding from more than two dozen charitable foundations and other organizations. Dr. Snyder is a full-time employee of the Alzheimer’s Association and in this role, serves on the leadership team of the U.S. POINTER study. Her partner works for Abbott in an unrelated field. 

An intensive lifestyle intervention significantly improved cognition and function in many patients with mild cognitive impairment (MCI) or early dementia due to Alzheimer’s disease, in what authors said is the first randomized controlled trial of intensive lifestyle modification for patients diagnosed with Alzheimer’s disease. Results could help physicians address patients at risk of Alzheimer’s disease who reject relevant testing because they believe nothing can forestall development of the disease, the authors added. The study was published online in Alzheimer’s Research & Therapy.

Although technology allows probable Alzheimer’s disease diagnosis years before clinical symptoms appear, wrote investigators led by Dean Ornish, MD, of the Preventive Medicine Research Institute in Sausalito, California, “many people do not want to know if they are likely to get Alzheimer’s disease if they do not believe they can do anything about it. If intensive lifestyle changes may cause improvement in cognition and function in MCI or early dementia due to Alzheimer’s disease, then it is reasonable to think that these lifestyle changes may also help to prevent MCI or early dementia due to Alzheimer’s disease.” As with cardiovascular disease, the authors added, preventing Alzheimer’s disease might require less intensive lifestyle modifications than treating it.
 

Study Methodology

Investigators randomized 26 patients with Montréal Cognitive Assessment scores of 18 or higher to an intensive intervention involving nutrition, exercise, and stress management techniques. To improve adherence, the protocol included participants’ spouses or caregivers.

Two patients, both in the treatment group, withdrew over logistical concerns.

After 20 weeks, treated patients exhibited statistically significant differences in several key measures versus a 25-patient usual-care control group. Scores that improved in the intervention group and worsened among controls included the following:

• Clinical Global Impression of Change (CGIC, P = .001)
• Clinical Dementia Rating-Global (CDR-Global, -0.04, P = .037)
• Clinical Dementia Rating Sum of Boxes (CDR-SB, +0.08, P = .032)
• Alzheimer’s Disease Assessment Scale (ADAS-Cog, -1.01, P = .053)

The validity of these changes in cognition and function, and possible biological mechanisms of improvement, were supported by statistically significant improvements in several clinically relevant biomarkers versus controls, the investigators wrote. These biomarkers included Abeta42/40 ratio, HbA1c, insulin, and glycoprotein acetylation. “This information may also help in predicting which patients are more likely to show improvements in cognition and function by making these intensive lifestyle changes,” the authors added.

In primary analysis, the degree of lifestyle changes required to stop progression of MCI ranged from 71.4% (ADAS-Cog) to 120.6% (CDR-SB). “This helps to explain why other studies of less intensive lifestyle interventions may not have been sufficient to stop deterioration or improve cognition and function,” the authors wrote. Moreover, they added, variable adherence might explain why in the intervention group, 10 patients improved their CGIC scores, while the rest held static or worsened.
 

Caveats

Alzheimer’s Association Vice President of Medical and Scientific Relations Heather M. Snyder, PhD, said, “This is an interesting paper in an important area of research and adds to the growing body of literature on how behavior or lifestyle may be related to cognitive decline. However, because this is a small phase 2 study, it is important for this or similar work to be done in larger, more diverse populations and over a longer duration of the intervention.” She was not involved with the study but was asked to comment.

Investigators chose the 20-week duration, they explained, because control-group patients likely would not refrain from trying the lifestyle intervention beyond that timeframe. Perhaps more importantly, challenges created by the COVID-19 pandemic required researchers to cut planned enrollment in half, eliminate planned MRI and amyloid PET scans, and reduce the number of cognition and function tests.

Such shortcomings limit what neurologists can glean and generalize from the study, said Dr. Snyder. “That said,” she added, “it does demonstrate the potential of an intensive behavior/lifestyle intervention, and the importance of this sort of research in Alzheimer’s and dementia.” Although the complexity of the interventions makes these studies challenging, she added, “it is important that we continue to advance larger, longer studies in more representative study populations to develop specific recommendations.”
 

Further Study

The Alzheimer’s Association’s U.S. POINTER study is the first large-scale study in the United States to explore the impact of comprehensive lifestyle changes on cognitive health. About 2000 older adults at risk for cognitive decline are participating, from diverse locations across the country. More than 25% of participants come from groups typically underrepresented in dementia research, said Dr. Snyder. Initial results are expected in summer 2025.

Future research also should explore reasons (beyond adherence) why some patients respond to lifestyle interventions better than others, and the potential synergy of lifestyle changes with drug therapies, wrote Dr. Ornish and colleagues.

“For now,” said Dr. Snyder, “there is an opportunity for providers to incorporate or expand messaging with their patients and families about the habits that they can incorporate into their daily lives. The Alzheimer’s Association offers 10 Healthy Habits for Your Brain — everyday actions that can make a difference for your brain health.”

Investigators received study funding from more than two dozen charitable foundations and other organizations. Dr. Snyder is a full-time employee of the Alzheimer’s Association and in this role, serves on the leadership team of the U.S. POINTER study. Her partner works for Abbott in an unrelated field. 

An intensive lifestyle intervention significantly improved cognition and function in many patients with mild cognitive impairment (MCI) or early dementia due to Alzheimer’s disease, in what authors said is the first randomized controlled trial of intensive lifestyle modification for patients diagnosed with Alzheimer’s disease. Results could help physicians address patients at risk of Alzheimer’s disease who reject relevant testing because they believe nothing can forestall development of the disease, the authors added. The study was published online in Alzheimer’s Research & Therapy.

Although technology allows probable Alzheimer’s disease diagnosis years before clinical symptoms appear, wrote investigators led by Dean Ornish, MD, of the Preventive Medicine Research Institute in Sausalito, California, “many people do not want to know if they are likely to get Alzheimer’s disease if they do not believe they can do anything about it. If intensive lifestyle changes may cause improvement in cognition and function in MCI or early dementia due to Alzheimer’s disease, then it is reasonable to think that these lifestyle changes may also help to prevent MCI or early dementia due to Alzheimer’s disease.” As with cardiovascular disease, the authors added, preventing Alzheimer’s disease might require less intensive lifestyle modifications than treating it.
 

Study Methodology

Investigators randomized 26 patients with Montréal Cognitive Assessment scores of 18 or higher to an intensive intervention involving nutrition, exercise, and stress management techniques. To improve adherence, the protocol included participants’ spouses or caregivers.

Two patients, both in the treatment group, withdrew over logistical concerns.

After 20 weeks, treated patients exhibited statistically significant differences in several key measures versus a 25-patient usual-care control group. Scores that improved in the intervention group and worsened among controls included the following:

• Clinical Global Impression of Change (CGIC, P = .001)
• Clinical Dementia Rating-Global (CDR-Global, -0.04, P = .037)
• Clinical Dementia Rating Sum of Boxes (CDR-SB, +0.08, P = .032)
• Alzheimer’s Disease Assessment Scale (ADAS-Cog, -1.01, P = .053)

The validity of these changes in cognition and function, and possible biological mechanisms of improvement, were supported by statistically significant improvements in several clinically relevant biomarkers versus controls, the investigators wrote. These biomarkers included Abeta42/40 ratio, HbA1c, insulin, and glycoprotein acetylation. “This information may also help in predicting which patients are more likely to show improvements in cognition and function by making these intensive lifestyle changes,” the authors added.

In primary analysis, the degree of lifestyle changes required to stop progression of MCI ranged from 71.4% (ADAS-Cog) to 120.6% (CDR-SB). “This helps to explain why other studies of less intensive lifestyle interventions may not have been sufficient to stop deterioration or improve cognition and function,” the authors wrote. Moreover, they added, variable adherence might explain why in the intervention group, 10 patients improved their CGIC scores, while the rest held static or worsened.
 

Caveats

Alzheimer’s Association Vice President of Medical and Scientific Relations Heather M. Snyder, PhD, said, “This is an interesting paper in an important area of research and adds to the growing body of literature on how behavior or lifestyle may be related to cognitive decline. However, because this is a small phase 2 study, it is important for this or similar work to be done in larger, more diverse populations and over a longer duration of the intervention.” She was not involved with the study but was asked to comment.

Investigators chose the 20-week duration, they explained, because control-group patients likely would not refrain from trying the lifestyle intervention beyond that timeframe. Perhaps more importantly, challenges created by the COVID-19 pandemic required researchers to cut planned enrollment in half, eliminate planned MRI and amyloid PET scans, and reduce the number of cognition and function tests.

Such shortcomings limit what neurologists can glean and generalize from the study, said Dr. Snyder. “That said,” she added, “it does demonstrate the potential of an intensive behavior/lifestyle intervention, and the importance of this sort of research in Alzheimer’s and dementia.” Although the complexity of the interventions makes these studies challenging, she added, “it is important that we continue to advance larger, longer studies in more representative study populations to develop specific recommendations.”
 

Further Study

The Alzheimer’s Association’s U.S. POINTER study is the first large-scale study in the United States to explore the impact of comprehensive lifestyle changes on cognitive health. About 2000 older adults at risk for cognitive decline are participating, from diverse locations across the country. More than 25% of participants come from groups typically underrepresented in dementia research, said Dr. Snyder. Initial results are expected in summer 2025.

Future research also should explore reasons (beyond adherence) why some patients respond to lifestyle interventions better than others, and the potential synergy of lifestyle changes with drug therapies, wrote Dr. Ornish and colleagues.

“For now,” said Dr. Snyder, “there is an opportunity for providers to incorporate or expand messaging with their patients and families about the habits that they can incorporate into their daily lives. The Alzheimer’s Association offers 10 Healthy Habits for Your Brain — everyday actions that can make a difference for your brain health.”

Investigators received study funding from more than two dozen charitable foundations and other organizations. Dr. Snyder is a full-time employee of the Alzheimer’s Association and in this role, serves on the leadership team of the U.S. POINTER study. Her partner works for Abbott in an unrelated field. 

TOPLINE:

Nearly 13% of older adults in the United States were treated for traumatic brain injury (TBI) over an 18-year period, a new study showed.

METHODOLOGY:

• Researchers analyzed data from approximately 9200 Medicare enrollees who were part of the Health and Retirement Study (HRS), aged 65 years and older, from 2000 to 2018.
• The baseline date was the date of the first age eligible HRS core interview in the community in 2000 or later.
• Incident TBI cases came from an updated list of the International Classification of Diseases (ICD), 9th and 10th edition codes, from the Defense and Veterans Brain Injury Center and the Armed Forces Health Surveillance Branch for TBI surveillance.
• Codes corresponded with emergency department, CT, and/or fMRI visits.

TAKEAWAY:

• Almost 13% of older individuals (n = 797) experienced TBI during the study, highlighting its significant prevalence in this population.
• Older adults (mean age at baseline, 75 years) who experienced TBI during the study period were more likely to be women and White individuals as well as individuals having higher levels of education and normal cognition (P < .001), challenging previous assumptions about risk factors.
• The study underscored the need for targeted interventions and research focused on TBI prevention and postdischarge care in older adults.

IN PRACTICE:

“The number of people 65 and older with TBI is shockingly high,” senior author Raquel Gardner, MD, said in a press release. “We need evidence-based guidelines to inform postdischarge care of this very large Medicare population and more research on post-TBI dementia prevention and repeat injury prevention.”

SOURCE:

The study was led by Erica Kornblith, PhD, of the University of California, San Francisco. It was published online in JAMA Network Open.

LIMITATIONS:

The study’s reliance on ICD codes for TBI identification may not capture the full spectrum of TBI severity. Self-reported data on sociodemographic factors may have introduced bias, affecting the accuracy of associations with TBI incidence. In addition, the findings’ generalizability may be limited due to the study’s focus on Medicare enrollees, potentially excluding those from diverse socioeconomic backgrounds.

DISCLOSURES:

The study was funded by the Alzheimer’s Association, the US Department of Veterans Affairs, the National Institute on Aging, and the Department of Defense. Disclosures are noted in the original study.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

A version of this article appeared on Medscape.com.

TOPLINE:

Nearly 13% of older adults in the United States were treated for traumatic brain injury (TBI) over an 18-year period, a new study showed.

METHODOLOGY:

• Researchers analyzed data from approximately 9200 Medicare enrollees who were part of the Health and Retirement Study (HRS), aged 65 years and older, from 2000 to 2018.
• The baseline date was the date of the first age eligible HRS core interview in the community in 2000 or later.
• Incident TBI cases came from an updated list of the International Classification of Diseases (ICD), 9th and 10th edition codes, from the Defense and Veterans Brain Injury Center and the Armed Forces Health Surveillance Branch for TBI surveillance.
• Codes corresponded with emergency department, CT, and/or fMRI visits.

TAKEAWAY:

• Almost 13% of older individuals (n = 797) experienced TBI during the study, highlighting its significant prevalence in this population.
• Older adults (mean age at baseline, 75 years) who experienced TBI during the study period were more likely to be women and White individuals as well as individuals having higher levels of education and normal cognition (P < .001), challenging previous assumptions about risk factors.
• The study underscored the need for targeted interventions and research focused on TBI prevention and postdischarge care in older adults.

IN PRACTICE:

“The number of people 65 and older with TBI is shockingly high,” senior author Raquel Gardner, MD, said in a press release. “We need evidence-based guidelines to inform postdischarge care of this very large Medicare population and more research on post-TBI dementia prevention and repeat injury prevention.”

SOURCE:

The study was led by Erica Kornblith, PhD, of the University of California, San Francisco. It was published online in JAMA Network Open.

LIMITATIONS:

The study’s reliance on ICD codes for TBI identification may not capture the full spectrum of TBI severity. Self-reported data on sociodemographic factors may have introduced bias, affecting the accuracy of associations with TBI incidence. In addition, the findings’ generalizability may be limited due to the study’s focus on Medicare enrollees, potentially excluding those from diverse socioeconomic backgrounds.

DISCLOSURES:

The study was funded by the Alzheimer’s Association, the US Department of Veterans Affairs, the National Institute on Aging, and the Department of Defense. Disclosures are noted in the original study.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

A version of this article appeared on Medscape.com.

TOPLINE:

Nearly 13% of older adults in the United States were treated for traumatic brain injury (TBI) over an 18-year period, a new study showed.

METHODOLOGY:

• Researchers analyzed data from approximately 9200 Medicare enrollees who were part of the Health and Retirement Study (HRS), aged 65 years and older, from 2000 to 2018.
• The baseline date was the date of the first age eligible HRS core interview in the community in 2000 or later.
• Incident TBI cases came from an updated list of the International Classification of Diseases (ICD), 9th and 10th edition codes, from the Defense and Veterans Brain Injury Center and the Armed Forces Health Surveillance Branch for TBI surveillance.
• Codes corresponded with emergency department, CT, and/or fMRI visits.

TAKEAWAY:

• Almost 13% of older individuals (n = 797) experienced TBI during the study, highlighting its significant prevalence in this population.
• Older adults (mean age at baseline, 75 years) who experienced TBI during the study period were more likely to be women and White individuals as well as individuals having higher levels of education and normal cognition (P < .001), challenging previous assumptions about risk factors.
• The study underscored the need for targeted interventions and research focused on TBI prevention and postdischarge care in older adults.

IN PRACTICE:

“The number of people 65 and older with TBI is shockingly high,” senior author Raquel Gardner, MD, said in a press release. “We need evidence-based guidelines to inform postdischarge care of this very large Medicare population and more research on post-TBI dementia prevention and repeat injury prevention.”

SOURCE:

The study was led by Erica Kornblith, PhD, of the University of California, San Francisco. It was published online in JAMA Network Open.

LIMITATIONS:

The study’s reliance on ICD codes for TBI identification may not capture the full spectrum of TBI severity. Self-reported data on sociodemographic factors may have introduced bias, affecting the accuracy of associations with TBI incidence. In addition, the findings’ generalizability may be limited due to the study’s focus on Medicare enrollees, potentially excluding those from diverse socioeconomic backgrounds.

DISCLOSURES:

The study was funded by the Alzheimer’s Association, the US Department of Veterans Affairs, the National Institute on Aging, and the Department of Defense. Disclosures are noted in the original study.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

A version of this article appeared on Medscape.com.

TOPLINE:

Accurately diagnosing recurrent urinary tract infections (rUTIs) in older women is challenging and requires careful weighing of the risks and benefits of various treatments, according to a new clinical insight published in JAMA Internal Medicine.

METHODOLOGY:

• Women aged > 65 years have double the rUTI rates compared with younger women, but detecting the condition is more complicated due to age-related conditions, such as overactive bladder related to menopause.
• Overuse of antibiotics can increase their risk of contracting antibiotic-resistant organisms and can lead to pulmonary or hepatic toxic effects in women with reduced kidney function.
• Up to 20% of older women have bacteria in their urine, which may or may not reflect a rUTI.
• Diagnosing rUTIs is complicated if women have dementia or cognitive decline, which can hinder recollection of symptoms.

TAKEAWAYS:

• Clinicians should consider only testing older female patients for rUTIs when symptoms are present and consider all possibilities before making a diagnosis.
• Vaginal estrogen may be an effective treatment, although the authors of the clinical review note a lack of a uniform formulation to recommend. However, oral estrogen use is not supported by evidence, and clinicians should instead consider vaginal creams or rings.
• The drug methenamine may be as effective as antibiotics but may not be safe for women with comorbidities. Evidence supports daily use at 1 g.
• Cranberry supplements and behavioral changes may be helpful, but evidence is limited, including among women living in long-term care facilities.

IN PRACTICE:

“Shared decision-making is especially important when diagnosis of an rUTI episode in older women is unclear ... in these cases, clinicians should acknowledge limitations in the evidence and invite patients or their caregivers to discuss preferences about presumptive treatment, weighing the possibility of earlier symptom relief or decreased UTI complications against the risk of adverse drug effects or multidrug resistance.”

SOURCE:

The paper was led by Alison J. Huang, MD, MAS, an internal medicine specialist and researcher in the Department of Medicine at the University of California, San Francisco.

LIMITATIONS:

The authors reported no limitations.

DISCLOSURES:

Dr. Huang received grants from the National Institutes of Health. Other authors reported receiving grants from the Agency for Healthcare Research and Quality, the US Department of Veterans Affairs, the Kahn Foundation, and Nanovibronix.

Cranberry supplements and behavioral changes may be helpful, but evidence is limited, including among women living in long-term care facilities.

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

TOPLINE:

Accurately diagnosing recurrent urinary tract infections (rUTIs) in older women is challenging and requires careful weighing of the risks and benefits of various treatments, according to a new clinical insight published in JAMA Internal Medicine.

METHODOLOGY:

• Women aged > 65 years have double the rUTI rates compared with younger women, but detecting the condition is more complicated due to age-related conditions, such as overactive bladder related to menopause.
• Overuse of antibiotics can increase their risk of contracting antibiotic-resistant organisms and can lead to pulmonary or hepatic toxic effects in women with reduced kidney function.
• Up to 20% of older women have bacteria in their urine, which may or may not reflect a rUTI.
• Diagnosing rUTIs is complicated if women have dementia or cognitive decline, which can hinder recollection of symptoms.

TAKEAWAYS:

• Clinicians should consider only testing older female patients for rUTIs when symptoms are present and consider all possibilities before making a diagnosis.
• Vaginal estrogen may be an effective treatment, although the authors of the clinical review note a lack of a uniform formulation to recommend. However, oral estrogen use is not supported by evidence, and clinicians should instead consider vaginal creams or rings.
• The drug methenamine may be as effective as antibiotics but may not be safe for women with comorbidities. Evidence supports daily use at 1 g.
• Cranberry supplements and behavioral changes may be helpful, but evidence is limited, including among women living in long-term care facilities.

IN PRACTICE:

“Shared decision-making is especially important when diagnosis of an rUTI episode in older women is unclear ... in these cases, clinicians should acknowledge limitations in the evidence and invite patients or their caregivers to discuss preferences about presumptive treatment, weighing the possibility of earlier symptom relief or decreased UTI complications against the risk of adverse drug effects or multidrug resistance.”

SOURCE:

The paper was led by Alison J. Huang, MD, MAS, an internal medicine specialist and researcher in the Department of Medicine at the University of California, San Francisco.

LIMITATIONS:

The authors reported no limitations.

DISCLOSURES:

Dr. Huang received grants from the National Institutes of Health. Other authors reported receiving grants from the Agency for Healthcare Research and Quality, the US Department of Veterans Affairs, the Kahn Foundation, and Nanovibronix.

Cranberry supplements and behavioral changes may be helpful, but evidence is limited, including among women living in long-term care facilities.

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

TOPLINE:

Accurately diagnosing recurrent urinary tract infections (rUTIs) in older women is challenging and requires careful weighing of the risks and benefits of various treatments, according to a new clinical insight published in JAMA Internal Medicine.

METHODOLOGY:

• Women aged > 65 years have double the rUTI rates compared with younger women, but detecting the condition is more complicated due to age-related conditions, such as overactive bladder related to menopause.
• Overuse of antibiotics can increase their risk of contracting antibiotic-resistant organisms and can lead to pulmonary or hepatic toxic effects in women with reduced kidney function.
• Up to 20% of older women have bacteria in their urine, which may or may not reflect a rUTI.
• Diagnosing rUTIs is complicated if women have dementia or cognitive decline, which can hinder recollection of symptoms.

TAKEAWAYS:

• Clinicians should consider only testing older female patients for rUTIs when symptoms are present and consider all possibilities before making a diagnosis.
• Vaginal estrogen may be an effective treatment, although the authors of the clinical review note a lack of a uniform formulation to recommend. However, oral estrogen use is not supported by evidence, and clinicians should instead consider vaginal creams or rings.
• The drug methenamine may be as effective as antibiotics but may not be safe for women with comorbidities. Evidence supports daily use at 1 g.
• Cranberry supplements and behavioral changes may be helpful, but evidence is limited, including among women living in long-term care facilities.

IN PRACTICE:

“Shared decision-making is especially important when diagnosis of an rUTI episode in older women is unclear ... in these cases, clinicians should acknowledge limitations in the evidence and invite patients or their caregivers to discuss preferences about presumptive treatment, weighing the possibility of earlier symptom relief or decreased UTI complications against the risk of adverse drug effects or multidrug resistance.”

SOURCE:

The paper was led by Alison J. Huang, MD, MAS, an internal medicine specialist and researcher in the Department of Medicine at the University of California, San Francisco.

LIMITATIONS:

The authors reported no limitations.

DISCLOSURES:

Dr. Huang received grants from the National Institutes of Health. Other authors reported receiving grants from the Agency for Healthcare Research and Quality, the US Department of Veterans Affairs, the Kahn Foundation, and Nanovibronix.

Cranberry supplements and behavioral changes may be helpful, but evidence is limited, including among women living in long-term care facilities.

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

Novel, noninvasive testing is able to predict dementia onset with 80% accuracy up to 9 years before clinical diagnosis.

The results suggest resting-state functional MRI (rs-fMRI) could be used to identify a neural network signature of dementia risk early in the pathological course of the disease, an important advance as disease-modifying drugs such as those targeting amyloid beta are now becoming available.

“The brain has been changing for a long time before people get symptoms of dementia, and if we’re very precise about how we do it, we can actually, in principle, detect those changes, which could be really exciting,” study investigator Charles R. Marshall, PhD, professor of clinical neurology, Centre for Preventive Neurology, Wolfson Institute of Population Health, Queen Mary University of London, London, England, told this news organization.

“This could become a platform for screening people for risk status in the future, and it could one day make all the difference in terms of being able to prevent dementia,” he added.

The findings were published online in Nature Mental Health.

The rs-fMRI measures fluctuations in blood oxygen level–dependent signals across the brain, which reflect functional connectivity.

Brain regions commonly implicated in altered functional connectivity in Alzheimer’s disease (AD) are within the default-mode network (DMN). This is the group of regions “connecting with each other and communicating with each other when someone is just lying in an MRI scanner doing nothing, which is how it came to be called the default-mode network,” explained Dr. Marshall.

The DMN encompasses the medial prefrontal cortex, posterior cingulate cortex or precuneus, and bilateral inferior parietal cortices, as well as supplementary brain regions including the medial temporal lobes and temporal poles.

This network is believed to be selectively vulnerable to AD neuropathology. “Something about that network starts to be disrupted in the very earliest stages of Alzheimer’s disease,” said Dr. Marshall.

While this has been known for some time, “what we’ve not been able to do before is build a precise enough model of how the network is connected to be able to tell whether individual participants were going to get dementia or not,” he added.

The investigators used data from the UK Biobank, a large-scale biomedical database and research resource containing genetic and health information from about a half a million UK volunteer participants.

The analysis included 103 individuals with dementia (22 with prevalent dementia and 81 later diagnosed with dementia over a median of 3.7 years) and 1030 matched participants without dementia. All participants had MRI imaging between 2006 and 2010.

The total sample had a mean age of 70.4 years at the time of MRI data acquisition. For each participant, researchers extracted relevant data from 10 predefined regions of interest in the brain, which together defined their DMN. This included two midline regions and four regions in each hemisphere.
 

Greater Predictive Power

Researchers built a model using an approach related to how brain regions communicate with each other. “The model sort of incorporates what we know about how the changes that you see on a functional MRI scan relate to changes in the firing of brain cells, in a very precise way,” said Dr. Marshall.

The researchers then used a machine learning approach to develop a model for effective connectivity, which describes the causal influence of one brain region over another. “We trained a machine learning tool to recognize what a dementia-like pattern of connectivity looks like,” said Dr. Marshall.

Investigators controlled for potential confounders, including age, sex, handedness, in-scanner head motion, and geographical location of data acquisition.

The model was able to determine the difference in brain connectivity patterns between those who would go on to develop dementia and those who would not, with an accuracy of 82% up to 9 years before an official diagnosis was made.

When the researchers trained a model to use brain connections to predict time to diagnosis, the predicted time to diagnosis and actual time to diagnosis were within about 2 years.

This effective connectivity approach has much more predictive power than memory test scores or brain structural measures, said Dr. Marshall. “We looked at brain volumes and they performed very poorly, only just better than tossing a coin, and the same with cognitive test scores, which were only just better than chance.”

As for markers of amyloid beta and tau in the brain, these are “very useful diagnostically” but only when someone has symptoms, said Dr. Marshall. He noted people live for years with these proteins without developing dementia symptoms.

“We wouldn’t necessarily want to expose somebody who has a brain full of amyloid but was not going to get symptoms for the next 20 years to a treatment, but if we knew that person was highly likely to develop symptoms of dementia in the next 5 years, then we probably would,” he said.

Dr. Marshall believes the predictive power of all these diagnostic tools could be boosted if they were used together.
 

Potential for Early Detection, Treatment

Researchers examined a number of modifiable dementia risk factors, including hearing loss, depression, hypertension, and physical inactivity. They found self-reported social isolation was the only variable that showed a significant association with effective connectivity, meaning those who are socially isolated were more likely to have a “dementia-like” pattern of DMN effective connectivity. This finding suggests social isolation is a cause, rather than a consequence, of dementia.

The study also revealed associations between DMN effective connectivity and AD polygenic risk score, derived from meta-analysis of multiple external genome-wide association study sources.

A predictive tool that uses rs-fMRI could also help select participants at a high risk for dementia to investigate potential treatments. “There’s good reason to think that if we could go in earlier with, for example, anti-amyloid treatments, they’re more likely to be effective,” said Dr. Marshall.

The new test might eventually have value as a population screening tool, something akin to colon cancer screening, he added. “We don’t send everyone for a colonoscopy; you do a kind of pre-screening test at home, and if that’s positive, then you get called in for a colonoscopy.”

The researchers looked at all-cause dementia and not just AD because dementia subtype diagnoses in the UK Biobank “are not at all reliable,” said Dr. Marshall.

Study limitations included the fact that UK Biobank participants are healthier and less socioeconomically deprived than the general population and are predominantly White. Another study limitation was that labeling of cases and controls depended on clinician coding rather than on standardized diagnostic criteria.
 

Kudos, Caveats

In a release from the Science Media Center, a nonprofit organization promoting voices and views of the scientific community, Sebastian Walsh, National Institute for Health and Care Research doctoral fellow in Public Health Medicine, University of Cambridge, Cambridge, England, said the results are “potentially exciting,” and he praised the way the team conducted the study.

However, he noted some caveats, including the small sample size, with only about 100 people with dementia, and the relatively short time between the brain scan and diagnosis (an average of 3.7 years).

Dr. Walsh emphasized the importance of replicating the findings “in bigger samples with a much longer delay between scan and onset of cognitive symptoms.”

He also noted the average age of study participants was 70 years, whereas the average age at which individuals in the United Kingdom develop dementia is mid to late 80s, “so we need to see these results repeated for more diverse and older samples.”

He also noted that MRI scans are expensive, and the approach used in the study needs “a high-quality scan which requires people to keep their head still.”

Also commenting, Andrew Doig, PhD, professor, Division of Neuroscience, the University of Manchester, Manchester, England, said the MRI connectivity method used in the study might form part of a broader diagnostic approach.

“Dementia is a complex condition, and it is unlikely that we will ever find one simple test that can accurately diagnose it,” Dr. Doig noted. “Within a few years, however, there is good reason to believe that we will be routinely testing for dementia in middle-aged people, using a combination of methods, such as a blood test, followed by imaging.”

“The MRI connectivity method described here could form part of this diagnostic platform. We will then have an excellent understanding of which people are likely to benefit most from the new generation of dementia drugs,” he said.

Dr. Marshall and Dr. Walsh reported no relevant disclosures. Dr. Doig reported that he is a founder, shareholder, and consultant for PharmaKure Ltd, which is developing new diagnostics for neurodegenerative diseases using blood biomarkers.

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

Novel, noninvasive testing is able to predict dementia onset with 80% accuracy up to 9 years before clinical diagnosis.

The results suggest resting-state functional MRI (rs-fMRI) could be used to identify a neural network signature of dementia risk early in the pathological course of the disease, an important advance as disease-modifying drugs such as those targeting amyloid beta are now becoming available.

“The brain has been changing for a long time before people get symptoms of dementia, and if we’re very precise about how we do it, we can actually, in principle, detect those changes, which could be really exciting,” study investigator Charles R. Marshall, PhD, professor of clinical neurology, Centre for Preventive Neurology, Wolfson Institute of Population Health, Queen Mary University of London, London, England, told this news organization.

“This could become a platform for screening people for risk status in the future, and it could one day make all the difference in terms of being able to prevent dementia,” he added.

The findings were published online in Nature Mental Health.

The rs-fMRI measures fluctuations in blood oxygen level–dependent signals across the brain, which reflect functional connectivity.

Brain regions commonly implicated in altered functional connectivity in Alzheimer’s disease (AD) are within the default-mode network (DMN). This is the group of regions “connecting with each other and communicating with each other when someone is just lying in an MRI scanner doing nothing, which is how it came to be called the default-mode network,” explained Dr. Marshall.

The DMN encompasses the medial prefrontal cortex, posterior cingulate cortex or precuneus, and bilateral inferior parietal cortices, as well as supplementary brain regions including the medial temporal lobes and temporal poles.

This network is believed to be selectively vulnerable to AD neuropathology. “Something about that network starts to be disrupted in the very earliest stages of Alzheimer’s disease,” said Dr. Marshall.

While this has been known for some time, “what we’ve not been able to do before is build a precise enough model of how the network is connected to be able to tell whether individual participants were going to get dementia or not,” he added.

The investigators used data from the UK Biobank, a large-scale biomedical database and research resource containing genetic and health information from about a half a million UK volunteer participants.

The analysis included 103 individuals with dementia (22 with prevalent dementia and 81 later diagnosed with dementia over a median of 3.7 years) and 1030 matched participants without dementia. All participants had MRI imaging between 2006 and 2010.

The total sample had a mean age of 70.4 years at the time of MRI data acquisition. For each participant, researchers extracted relevant data from 10 predefined regions of interest in the brain, which together defined their DMN. This included two midline regions and four regions in each hemisphere.
 

Greater Predictive Power

Researchers built a model using an approach related to how brain regions communicate with each other. “The model sort of incorporates what we know about how the changes that you see on a functional MRI scan relate to changes in the firing of brain cells, in a very precise way,” said Dr. Marshall.

The researchers then used a machine learning approach to develop a model for effective connectivity, which describes the causal influence of one brain region over another. “We trained a machine learning tool to recognize what a dementia-like pattern of connectivity looks like,” said Dr. Marshall.

Investigators controlled for potential confounders, including age, sex, handedness, in-scanner head motion, and geographical location of data acquisition.

The model was able to determine the difference in brain connectivity patterns between those who would go on to develop dementia and those who would not, with an accuracy of 82% up to 9 years before an official diagnosis was made.

When the researchers trained a model to use brain connections to predict time to diagnosis, the predicted time to diagnosis and actual time to diagnosis were within about 2 years.

This effective connectivity approach has much more predictive power than memory test scores or brain structural measures, said Dr. Marshall. “We looked at brain volumes and they performed very poorly, only just better than tossing a coin, and the same with cognitive test scores, which were only just better than chance.”

As for markers of amyloid beta and tau in the brain, these are “very useful diagnostically” but only when someone has symptoms, said Dr. Marshall. He noted people live for years with these proteins without developing dementia symptoms.

“We wouldn’t necessarily want to expose somebody who has a brain full of amyloid but was not going to get symptoms for the next 20 years to a treatment, but if we knew that person was highly likely to develop symptoms of dementia in the next 5 years, then we probably would,” he said.

Dr. Marshall believes the predictive power of all these diagnostic tools could be boosted if they were used together.
 

Potential for Early Detection, Treatment

Researchers examined a number of modifiable dementia risk factors, including hearing loss, depression, hypertension, and physical inactivity. They found self-reported social isolation was the only variable that showed a significant association with effective connectivity, meaning those who are socially isolated were more likely to have a “dementia-like” pattern of DMN effective connectivity. This finding suggests social isolation is a cause, rather than a consequence, of dementia.

The study also revealed associations between DMN effective connectivity and AD polygenic risk score, derived from meta-analysis of multiple external genome-wide association study sources.

A predictive tool that uses rs-fMRI could also help select participants at a high risk for dementia to investigate potential treatments. “There’s good reason to think that if we could go in earlier with, for example, anti-amyloid treatments, they’re more likely to be effective,” said Dr. Marshall.

The new test might eventually have value as a population screening tool, something akin to colon cancer screening, he added. “We don’t send everyone for a colonoscopy; you do a kind of pre-screening test at home, and if that’s positive, then you get called in for a colonoscopy.”

The researchers looked at all-cause dementia and not just AD because dementia subtype diagnoses in the UK Biobank “are not at all reliable,” said Dr. Marshall.

Study limitations included the fact that UK Biobank participants are healthier and less socioeconomically deprived than the general population and are predominantly White. Another study limitation was that labeling of cases and controls depended on clinician coding rather than on standardized diagnostic criteria.
 

Kudos, Caveats

In a release from the Science Media Center, a nonprofit organization promoting voices and views of the scientific community, Sebastian Walsh, National Institute for Health and Care Research doctoral fellow in Public Health Medicine, University of Cambridge, Cambridge, England, said the results are “potentially exciting,” and he praised the way the team conducted the study.

However, he noted some caveats, including the small sample size, with only about 100 people with dementia, and the relatively short time between the brain scan and diagnosis (an average of 3.7 years).

Dr. Walsh emphasized the importance of replicating the findings “in bigger samples with a much longer delay between scan and onset of cognitive symptoms.”

He also noted the average age of study participants was 70 years, whereas the average age at which individuals in the United Kingdom develop dementia is mid to late 80s, “so we need to see these results repeated for more diverse and older samples.”

He also noted that MRI scans are expensive, and the approach used in the study needs “a high-quality scan which requires people to keep their head still.”

Also commenting, Andrew Doig, PhD, professor, Division of Neuroscience, the University of Manchester, Manchester, England, said the MRI connectivity method used in the study might form part of a broader diagnostic approach.

“Dementia is a complex condition, and it is unlikely that we will ever find one simple test that can accurately diagnose it,” Dr. Doig noted. “Within a few years, however, there is good reason to believe that we will be routinely testing for dementia in middle-aged people, using a combination of methods, such as a blood test, followed by imaging.”

“The MRI connectivity method described here could form part of this diagnostic platform. We will then have an excellent understanding of which people are likely to benefit most from the new generation of dementia drugs,” he said.

Dr. Marshall and Dr. Walsh reported no relevant disclosures. Dr. Doig reported that he is a founder, shareholder, and consultant for PharmaKure Ltd, which is developing new diagnostics for neurodegenerative diseases using blood biomarkers.

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

Novel, noninvasive testing is able to predict dementia onset with 80% accuracy up to 9 years before clinical diagnosis.

The results suggest resting-state functional MRI (rs-fMRI) could be used to identify a neural network signature of dementia risk early in the pathological course of the disease, an important advance as disease-modifying drugs such as those targeting amyloid beta are now becoming available.

“The brain has been changing for a long time before people get symptoms of dementia, and if we’re very precise about how we do it, we can actually, in principle, detect those changes, which could be really exciting,” study investigator Charles R. Marshall, PhD, professor of clinical neurology, Centre for Preventive Neurology, Wolfson Institute of Population Health, Queen Mary University of London, London, England, told this news organization.

“This could become a platform for screening people for risk status in the future, and it could one day make all the difference in terms of being able to prevent dementia,” he added.

The findings were published online in Nature Mental Health.

The rs-fMRI measures fluctuations in blood oxygen level–dependent signals across the brain, which reflect functional connectivity.

Brain regions commonly implicated in altered functional connectivity in Alzheimer’s disease (AD) are within the default-mode network (DMN). This is the group of regions “connecting with each other and communicating with each other when someone is just lying in an MRI scanner doing nothing, which is how it came to be called the default-mode network,” explained Dr. Marshall.

The DMN encompasses the medial prefrontal cortex, posterior cingulate cortex or precuneus, and bilateral inferior parietal cortices, as well as supplementary brain regions including the medial temporal lobes and temporal poles.

This network is believed to be selectively vulnerable to AD neuropathology. “Something about that network starts to be disrupted in the very earliest stages of Alzheimer’s disease,” said Dr. Marshall.

While this has been known for some time, “what we’ve not been able to do before is build a precise enough model of how the network is connected to be able to tell whether individual participants were going to get dementia or not,” he added.

The investigators used data from the UK Biobank, a large-scale biomedical database and research resource containing genetic and health information from about a half a million UK volunteer participants.

The analysis included 103 individuals with dementia (22 with prevalent dementia and 81 later diagnosed with dementia over a median of 3.7 years) and 1030 matched participants without dementia. All participants had MRI imaging between 2006 and 2010.

The total sample had a mean age of 70.4 years at the time of MRI data acquisition. For each participant, researchers extracted relevant data from 10 predefined regions of interest in the brain, which together defined their DMN. This included two midline regions and four regions in each hemisphere.
 

Greater Predictive Power

Researchers built a model using an approach related to how brain regions communicate with each other. “The model sort of incorporates what we know about how the changes that you see on a functional MRI scan relate to changes in the firing of brain cells, in a very precise way,” said Dr. Marshall.

The researchers then used a machine learning approach to develop a model for effective connectivity, which describes the causal influence of one brain region over another. “We trained a machine learning tool to recognize what a dementia-like pattern of connectivity looks like,” said Dr. Marshall.

Investigators controlled for potential confounders, including age, sex, handedness, in-scanner head motion, and geographical location of data acquisition.

The model was able to determine the difference in brain connectivity patterns between those who would go on to develop dementia and those who would not, with an accuracy of 82% up to 9 years before an official diagnosis was made.

When the researchers trained a model to use brain connections to predict time to diagnosis, the predicted time to diagnosis and actual time to diagnosis were within about 2 years.

This effective connectivity approach has much more predictive power than memory test scores or brain structural measures, said Dr. Marshall. “We looked at brain volumes and they performed very poorly, only just better than tossing a coin, and the same with cognitive test scores, which were only just better than chance.”

As for markers of amyloid beta and tau in the brain, these are “very useful diagnostically” but only when someone has symptoms, said Dr. Marshall. He noted people live for years with these proteins without developing dementia symptoms.

“We wouldn’t necessarily want to expose somebody who has a brain full of amyloid but was not going to get symptoms for the next 20 years to a treatment, but if we knew that person was highly likely to develop symptoms of dementia in the next 5 years, then we probably would,” he said.

Dr. Marshall believes the predictive power of all these diagnostic tools could be boosted if they were used together.
 

Potential for Early Detection, Treatment

Researchers examined a number of modifiable dementia risk factors, including hearing loss, depression, hypertension, and physical inactivity. They found self-reported social isolation was the only variable that showed a significant association with effective connectivity, meaning those who are socially isolated were more likely to have a “dementia-like” pattern of DMN effective connectivity. This finding suggests social isolation is a cause, rather than a consequence, of dementia.

The study also revealed associations between DMN effective connectivity and AD polygenic risk score, derived from meta-analysis of multiple external genome-wide association study sources.

A predictive tool that uses rs-fMRI could also help select participants at a high risk for dementia to investigate potential treatments. “There’s good reason to think that if we could go in earlier with, for example, anti-amyloid treatments, they’re more likely to be effective,” said Dr. Marshall.

The new test might eventually have value as a population screening tool, something akin to colon cancer screening, he added. “We don’t send everyone for a colonoscopy; you do a kind of pre-screening test at home, and if that’s positive, then you get called in for a colonoscopy.”

The researchers looked at all-cause dementia and not just AD because dementia subtype diagnoses in the UK Biobank “are not at all reliable,” said Dr. Marshall.

Study limitations included the fact that UK Biobank participants are healthier and less socioeconomically deprived than the general population and are predominantly White. Another study limitation was that labeling of cases and controls depended on clinician coding rather than on standardized diagnostic criteria.
 

Kudos, Caveats

In a release from the Science Media Center, a nonprofit organization promoting voices and views of the scientific community, Sebastian Walsh, National Institute for Health and Care Research doctoral fellow in Public Health Medicine, University of Cambridge, Cambridge, England, said the results are “potentially exciting,” and he praised the way the team conducted the study.

However, he noted some caveats, including the small sample size, with only about 100 people with dementia, and the relatively short time between the brain scan and diagnosis (an average of 3.7 years).

Dr. Walsh emphasized the importance of replicating the findings “in bigger samples with a much longer delay between scan and onset of cognitive symptoms.”

He also noted the average age of study participants was 70 years, whereas the average age at which individuals in the United Kingdom develop dementia is mid to late 80s, “so we need to see these results repeated for more diverse and older samples.”

He also noted that MRI scans are expensive, and the approach used in the study needs “a high-quality scan which requires people to keep their head still.”

Also commenting, Andrew Doig, PhD, professor, Division of Neuroscience, the University of Manchester, Manchester, England, said the MRI connectivity method used in the study might form part of a broader diagnostic approach.

“Dementia is a complex condition, and it is unlikely that we will ever find one simple test that can accurately diagnose it,” Dr. Doig noted. “Within a few years, however, there is good reason to believe that we will be routinely testing for dementia in middle-aged people, using a combination of methods, such as a blood test, followed by imaging.”

“The MRI connectivity method described here could form part of this diagnostic platform. We will then have an excellent understanding of which people are likely to benefit most from the new generation of dementia drugs,” he said.

Dr. Marshall and Dr. Walsh reported no relevant disclosures. Dr. Doig reported that he is a founder, shareholder, and consultant for PharmaKure Ltd, which is developing new diagnostics for neurodegenerative diseases using blood biomarkers.

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