Federal Practitioner

A team at Lyon’s Cancer Research Center (CRCL) has revealed the role of an enzyme, PRMT5, in the response to tamoxifen, a drug used to prevent relapse in premenopausal women with breast cancer. The protein could become the first predictive marker of response to tamoxifen.

Muriel Le Romancer, MD, director of research at France’s Institute of Health and Medical Research, explained the issues involved in this discovery in an interview. She jointly led this research along with Olivier Trédan, MD, PhD, oncologist at Lyon’s Léon Bérard Clinic. The research concluded with the publication of a study in EMBO Molecular Medicine. The researchers both head up the CRCL’s hormone resistance, methylation, and breast cancer team.

Although the enzyme’s involvement in the mode of action of tamoxifen has been observed in close to 900 patients with breast cancer, these results need to be validated in other at-risk patient cohorts before the biomarker can be considered for routine use, said Dr. Le Romancer. She estimated that 2 more years of research are needed.

Can you tell us which cases involve the use of tamoxifen and what its mode of action is?

Dr. Le Romancer: Tamoxifen is a hormone therapy used to reduce the risk of breast cancer relapse. It is prescribed to premenopausal women with hormone-sensitive cancer, which equates to roughly 25% of women with breast cancer: 15,000 women each year. The drug, which is taken every day via oral administration, is an estrogen antagonist. By binding to these receptors, it blocks estrogen from mediating its biological effect in the breasts. Aromatase inhibitors are the preferred choice in postmenopausal women, as they have been shown to be more effective. These also have an antiestrogenic effect, but by inhibiting estrogen production.

Tamoxifen therapy is prescribed for a minimum period of 5 years. Despite this, 25% of women treated with tamoxifen relapse. Tamoxifen resistance is unique in that it occurs very late on, generally 10-15 years after starting treatment. This means that it’s really important for us to identify predictive markers of the response to hormone therapy to adapt treatment as best we can. For the moment, the only criteria used to prescribe tamoxifen are patient age and the presence of estrogen receptors within the tumor.

Exactly how would treatment be improved if a decisive predictive marker of response to tamoxifen could be identified?

Dr. Le Romancer: Currently, when a patient’s breast cancer relapses after several years of treatment with tamoxifen, we don’t know if the relapse is linked to tamoxifen resistance or not. This makes it difficult to choose the right treatment to manage such relapses, which remain complicated to treat. Lots of patients die because of metastases.

By predicting the response to tamoxifen using a marker, we will be able to either use another hormone therapy to prevent the relapse or prescribe tamoxifen alongside a molecule that stops resistance from developing. We hope that this will significantly reduce the rate of relapse.

You put forward PRMT5 as a potential predictive marker of response to tamoxifen. What makes you think it could be used in this way?

Dr. Le Romancer: Our research has allowed us to demonstrate that PRMT5, when present in the nuclei of tumor cells, is involved in the mechanisms of action of tamoxifen. Remember that estrogen receptors are located in cell nuclei. For tamoxifen to exert its antitumoral action, PRMT5, an enzyme, needs to enter the nucleus to modify the estrogen receptor. It’s this modification that allows tamoxifen to inhibit tumor growth. The proliferative effect induced by the estrogens is also blocked.

The results of our study showed that high nuclear expression of PRMT5, specifically in the nuclei of breast cancer cells, is associated with a prolonged survival of tamoxifen-treated patients. Until now, we thought this enzyme had an oncogenic role when present in the cytoplasm. It turns out that it also has the opposite effect when acting within the nucleus, at least in this patient cohort: women with hormone-sensitive breast cancer treated with tamoxifen.

What are the next steps in your research before we can begin to think about its use in clinical practice?

Dr. Le Romancer: Our next research will focus on understanding the circumstances surrounding PRMT5 entering and leaving the nucleus. We have also shown that in some patients, tamoxifen causes PRMT5 to enter the cell nucleus. This translocation is only seen in women who respond to tamoxifen, not in those who are resistant to treatment with the drug. All that remains is for us to work out how tamoxifen facilitates this translocation.

Once the elements promoting this translocation have been identified, we will be able to propose a treatment aimed at forcing the enzyme to enter the nucleus and stay there. Eventually, the idea is to combine treatment with antiestrogens with a medicinal product that promotes localization of PRMT5 in the nucleus to guarantee response to tamoxifen. It will be a few years of research before we can apply our findings to clinical practice.

Could we use this biomarker as is just to identify tamoxifen resistance?

Dr. Le Romancer: In the short term, yes, we could use this biomarker to better guide treatment choices at time of diagnosis. We have demonstrated the role of PRMT5 in response to tamoxifen by studying two cohorts of 900 patients with breast cancer receiving treatment at the Léon Bérard Center, Lyon. Before moving on to routine testing, we need to replicate these results in other cohorts, especially in high-risk patients with, for example, greater cell proliferation or those who experience relapse.

The use of this biomarker is based on histological examination of cancer tissue. Single antibody tissue staining targeting PRMT5 reveals the localization of the enzyme in the cells and provides a score evaluating its presence in the nucleus. Using this score, it would be possible to determine the level of response to tamoxifen and decide whether the treatment should be used. This biomarker is the first of its kind undergoing validation as part of the examination of resistance to hormone therapy. We should be able to confirm the findings within the next 2 years.

If clinical tests using this biomarker predict tamoxifen resistance, what alternative treatments are available to these patients?

Dr. Le Romancer: We could give them an aromatase inhibitor or one of the new estrogen antagonists that are currently in development. In a phase 3 study, fulvestrant (Faslodex), for example, demonstrated a significant benefit in treating women with hormone-sensitive advanced breast cancer when administered via injection. The same goes for oral treatment, elacestrant (Orserdu), which has recently been approved by the Food and Drug Administration. These treatments are usually deemed second line after tamoxifen, but they could certainly be used as first-line therapy in resistant patients.

The results obtained from research into novel estrogen antagonists are certainly encouraging. Can tamoxifen retain its prominent position while still ensuring its efficacy?

Dr. Le Romancer: Keeping in mind the current trend for personalized medicine, we should keep as many treatment options open as possible. When a patient relapses, there need to be other treatments available to them. Tamoxifen has been ousted in favor of aromatase inhibitors for postmenopausal women, but it’s still the gold standard for premenopausal women and has been for over 20 years. Despite having been replaced by a novel estrogen antagonist, it will still have a prominent place in the therapeutic arsenal of premenopausal women with breast cancer.

With the development of PRMT5 as a predictive biomarker, we could even see tamoxifen being proposed as first-line therapy for postmenopausal women in whom high levels of PRMT5 are found in the nuclei of their cancer cells. By predicting their response, we could achieve greater efficacy of tamoxifen, compared with aromatase inhibitors. For now, this remains a hypothesis and must be verified in further clinical studies.

This article was translated from the Medscape French Edition. A version appeared on Medscape.com.

A team at Lyon’s Cancer Research Center (CRCL) has revealed the role of an enzyme, PRMT5, in the response to tamoxifen, a drug used to prevent relapse in premenopausal women with breast cancer. The protein could become the first predictive marker of response to tamoxifen.

Muriel Le Romancer, MD, director of research at France’s Institute of Health and Medical Research, explained the issues involved in this discovery in an interview. She jointly led this research along with Olivier Trédan, MD, PhD, oncologist at Lyon’s Léon Bérard Clinic. The research concluded with the publication of a study in EMBO Molecular Medicine. The researchers both head up the CRCL’s hormone resistance, methylation, and breast cancer team.

Although the enzyme’s involvement in the mode of action of tamoxifen has been observed in close to 900 patients with breast cancer, these results need to be validated in other at-risk patient cohorts before the biomarker can be considered for routine use, said Dr. Le Romancer. She estimated that 2 more years of research are needed.

Can you tell us which cases involve the use of tamoxifen and what its mode of action is?

Dr. Le Romancer: Tamoxifen is a hormone therapy used to reduce the risk of breast cancer relapse. It is prescribed to premenopausal women with hormone-sensitive cancer, which equates to roughly 25% of women with breast cancer: 15,000 women each year. The drug, which is taken every day via oral administration, is an estrogen antagonist. By binding to these receptors, it blocks estrogen from mediating its biological effect in the breasts. Aromatase inhibitors are the preferred choice in postmenopausal women, as they have been shown to be more effective. These also have an antiestrogenic effect, but by inhibiting estrogen production.

Tamoxifen therapy is prescribed for a minimum period of 5 years. Despite this, 25% of women treated with tamoxifen relapse. Tamoxifen resistance is unique in that it occurs very late on, generally 10-15 years after starting treatment. This means that it’s really important for us to identify predictive markers of the response to hormone therapy to adapt treatment as best we can. For the moment, the only criteria used to prescribe tamoxifen are patient age and the presence of estrogen receptors within the tumor.

Exactly how would treatment be improved if a decisive predictive marker of response to tamoxifen could be identified?

Dr. Le Romancer: Currently, when a patient’s breast cancer relapses after several years of treatment with tamoxifen, we don’t know if the relapse is linked to tamoxifen resistance or not. This makes it difficult to choose the right treatment to manage such relapses, which remain complicated to treat. Lots of patients die because of metastases.

By predicting the response to tamoxifen using a marker, we will be able to either use another hormone therapy to prevent the relapse or prescribe tamoxifen alongside a molecule that stops resistance from developing. We hope that this will significantly reduce the rate of relapse.

You put forward PRMT5 as a potential predictive marker of response to tamoxifen. What makes you think it could be used in this way?

Dr. Le Romancer: Our research has allowed us to demonstrate that PRMT5, when present in the nuclei of tumor cells, is involved in the mechanisms of action of tamoxifen. Remember that estrogen receptors are located in cell nuclei. For tamoxifen to exert its antitumoral action, PRMT5, an enzyme, needs to enter the nucleus to modify the estrogen receptor. It’s this modification that allows tamoxifen to inhibit tumor growth. The proliferative effect induced by the estrogens is also blocked.

The results of our study showed that high nuclear expression of PRMT5, specifically in the nuclei of breast cancer cells, is associated with a prolonged survival of tamoxifen-treated patients. Until now, we thought this enzyme had an oncogenic role when present in the cytoplasm. It turns out that it also has the opposite effect when acting within the nucleus, at least in this patient cohort: women with hormone-sensitive breast cancer treated with tamoxifen.

What are the next steps in your research before we can begin to think about its use in clinical practice?

Dr. Le Romancer: Our next research will focus on understanding the circumstances surrounding PRMT5 entering and leaving the nucleus. We have also shown that in some patients, tamoxifen causes PRMT5 to enter the cell nucleus. This translocation is only seen in women who respond to tamoxifen, not in those who are resistant to treatment with the drug. All that remains is for us to work out how tamoxifen facilitates this translocation.

Once the elements promoting this translocation have been identified, we will be able to propose a treatment aimed at forcing the enzyme to enter the nucleus and stay there. Eventually, the idea is to combine treatment with antiestrogens with a medicinal product that promotes localization of PRMT5 in the nucleus to guarantee response to tamoxifen. It will be a few years of research before we can apply our findings to clinical practice.

Could we use this biomarker as is just to identify tamoxifen resistance?

Dr. Le Romancer: In the short term, yes, we could use this biomarker to better guide treatment choices at time of diagnosis. We have demonstrated the role of PRMT5 in response to tamoxifen by studying two cohorts of 900 patients with breast cancer receiving treatment at the Léon Bérard Center, Lyon. Before moving on to routine testing, we need to replicate these results in other cohorts, especially in high-risk patients with, for example, greater cell proliferation or those who experience relapse.

The use of this biomarker is based on histological examination of cancer tissue. Single antibody tissue staining targeting PRMT5 reveals the localization of the enzyme in the cells and provides a score evaluating its presence in the nucleus. Using this score, it would be possible to determine the level of response to tamoxifen and decide whether the treatment should be used. This biomarker is the first of its kind undergoing validation as part of the examination of resistance to hormone therapy. We should be able to confirm the findings within the next 2 years.

If clinical tests using this biomarker predict tamoxifen resistance, what alternative treatments are available to these patients?

Dr. Le Romancer: We could give them an aromatase inhibitor or one of the new estrogen antagonists that are currently in development. In a phase 3 study, fulvestrant (Faslodex), for example, demonstrated a significant benefit in treating women with hormone-sensitive advanced breast cancer when administered via injection. The same goes for oral treatment, elacestrant (Orserdu), which has recently been approved by the Food and Drug Administration. These treatments are usually deemed second line after tamoxifen, but they could certainly be used as first-line therapy in resistant patients.

The results obtained from research into novel estrogen antagonists are certainly encouraging. Can tamoxifen retain its prominent position while still ensuring its efficacy?

Dr. Le Romancer: Keeping in mind the current trend for personalized medicine, we should keep as many treatment options open as possible. When a patient relapses, there need to be other treatments available to them. Tamoxifen has been ousted in favor of aromatase inhibitors for postmenopausal women, but it’s still the gold standard for premenopausal women and has been for over 20 years. Despite having been replaced by a novel estrogen antagonist, it will still have a prominent place in the therapeutic arsenal of premenopausal women with breast cancer.

With the development of PRMT5 as a predictive biomarker, we could even see tamoxifen being proposed as first-line therapy for postmenopausal women in whom high levels of PRMT5 are found in the nuclei of their cancer cells. By predicting their response, we could achieve greater efficacy of tamoxifen, compared with aromatase inhibitors. For now, this remains a hypothesis and must be verified in further clinical studies.

This article was translated from the Medscape French Edition. A version appeared on Medscape.com.

A team at Lyon’s Cancer Research Center (CRCL) has revealed the role of an enzyme, PRMT5, in the response to tamoxifen, a drug used to prevent relapse in premenopausal women with breast cancer. The protein could become the first predictive marker of response to tamoxifen.

Muriel Le Romancer, MD, director of research at France’s Institute of Health and Medical Research, explained the issues involved in this discovery in an interview. She jointly led this research along with Olivier Trédan, MD, PhD, oncologist at Lyon’s Léon Bérard Clinic. The research concluded with the publication of a study in EMBO Molecular Medicine. The researchers both head up the CRCL’s hormone resistance, methylation, and breast cancer team.

Although the enzyme’s involvement in the mode of action of tamoxifen has been observed in close to 900 patients with breast cancer, these results need to be validated in other at-risk patient cohorts before the biomarker can be considered for routine use, said Dr. Le Romancer. She estimated that 2 more years of research are needed.

Can you tell us which cases involve the use of tamoxifen and what its mode of action is?

Dr. Le Romancer: Tamoxifen is a hormone therapy used to reduce the risk of breast cancer relapse. It is prescribed to premenopausal women with hormone-sensitive cancer, which equates to roughly 25% of women with breast cancer: 15,000 women each year. The drug, which is taken every day via oral administration, is an estrogen antagonist. By binding to these receptors, it blocks estrogen from mediating its biological effect in the breasts. Aromatase inhibitors are the preferred choice in postmenopausal women, as they have been shown to be more effective. These also have an antiestrogenic effect, but by inhibiting estrogen production.

Tamoxifen therapy is prescribed for a minimum period of 5 years. Despite this, 25% of women treated with tamoxifen relapse. Tamoxifen resistance is unique in that it occurs very late on, generally 10-15 years after starting treatment. This means that it’s really important for us to identify predictive markers of the response to hormone therapy to adapt treatment as best we can. For the moment, the only criteria used to prescribe tamoxifen are patient age and the presence of estrogen receptors within the tumor.

Exactly how would treatment be improved if a decisive predictive marker of response to tamoxifen could be identified?

Dr. Le Romancer: Currently, when a patient’s breast cancer relapses after several years of treatment with tamoxifen, we don’t know if the relapse is linked to tamoxifen resistance or not. This makes it difficult to choose the right treatment to manage such relapses, which remain complicated to treat. Lots of patients die because of metastases.

By predicting the response to tamoxifen using a marker, we will be able to either use another hormone therapy to prevent the relapse or prescribe tamoxifen alongside a molecule that stops resistance from developing. We hope that this will significantly reduce the rate of relapse.

You put forward PRMT5 as a potential predictive marker of response to tamoxifen. What makes you think it could be used in this way?

Dr. Le Romancer: Our research has allowed us to demonstrate that PRMT5, when present in the nuclei of tumor cells, is involved in the mechanisms of action of tamoxifen. Remember that estrogen receptors are located in cell nuclei. For tamoxifen to exert its antitumoral action, PRMT5, an enzyme, needs to enter the nucleus to modify the estrogen receptor. It’s this modification that allows tamoxifen to inhibit tumor growth. The proliferative effect induced by the estrogens is also blocked.

The results of our study showed that high nuclear expression of PRMT5, specifically in the nuclei of breast cancer cells, is associated with a prolonged survival of tamoxifen-treated patients. Until now, we thought this enzyme had an oncogenic role when present in the cytoplasm. It turns out that it also has the opposite effect when acting within the nucleus, at least in this patient cohort: women with hormone-sensitive breast cancer treated with tamoxifen.

What are the next steps in your research before we can begin to think about its use in clinical practice?

Dr. Le Romancer: Our next research will focus on understanding the circumstances surrounding PRMT5 entering and leaving the nucleus. We have also shown that in some patients, tamoxifen causes PRMT5 to enter the cell nucleus. This translocation is only seen in women who respond to tamoxifen, not in those who are resistant to treatment with the drug. All that remains is for us to work out how tamoxifen facilitates this translocation.

Once the elements promoting this translocation have been identified, we will be able to propose a treatment aimed at forcing the enzyme to enter the nucleus and stay there. Eventually, the idea is to combine treatment with antiestrogens with a medicinal product that promotes localization of PRMT5 in the nucleus to guarantee response to tamoxifen. It will be a few years of research before we can apply our findings to clinical practice.

Could we use this biomarker as is just to identify tamoxifen resistance?

Dr. Le Romancer: In the short term, yes, we could use this biomarker to better guide treatment choices at time of diagnosis. We have demonstrated the role of PRMT5 in response to tamoxifen by studying two cohorts of 900 patients with breast cancer receiving treatment at the Léon Bérard Center, Lyon. Before moving on to routine testing, we need to replicate these results in other cohorts, especially in high-risk patients with, for example, greater cell proliferation or those who experience relapse.

The use of this biomarker is based on histological examination of cancer tissue. Single antibody tissue staining targeting PRMT5 reveals the localization of the enzyme in the cells and provides a score evaluating its presence in the nucleus. Using this score, it would be possible to determine the level of response to tamoxifen and decide whether the treatment should be used. This biomarker is the first of its kind undergoing validation as part of the examination of resistance to hormone therapy. We should be able to confirm the findings within the next 2 years.

If clinical tests using this biomarker predict tamoxifen resistance, what alternative treatments are available to these patients?

Dr. Le Romancer: We could give them an aromatase inhibitor or one of the new estrogen antagonists that are currently in development. In a phase 3 study, fulvestrant (Faslodex), for example, demonstrated a significant benefit in treating women with hormone-sensitive advanced breast cancer when administered via injection. The same goes for oral treatment, elacestrant (Orserdu), which has recently been approved by the Food and Drug Administration. These treatments are usually deemed second line after tamoxifen, but they could certainly be used as first-line therapy in resistant patients.

The results obtained from research into novel estrogen antagonists are certainly encouraging. Can tamoxifen retain its prominent position while still ensuring its efficacy?

Dr. Le Romancer: Keeping in mind the current trend for personalized medicine, we should keep as many treatment options open as possible. When a patient relapses, there need to be other treatments available to them. Tamoxifen has been ousted in favor of aromatase inhibitors for postmenopausal women, but it’s still the gold standard for premenopausal women and has been for over 20 years. Despite having been replaced by a novel estrogen antagonist, it will still have a prominent place in the therapeutic arsenal of premenopausal women with breast cancer.

With the development of PRMT5 as a predictive biomarker, we could even see tamoxifen being proposed as first-line therapy for postmenopausal women in whom high levels of PRMT5 are found in the nuclei of their cancer cells. By predicting their response, we could achieve greater efficacy of tamoxifen, compared with aromatase inhibitors. For now, this remains a hypothesis and must be verified in further clinical studies.

This article was translated from the Medscape French Edition. A version appeared on Medscape.com.

Early in his career as a pain researcher, Daniel Whibley, PhD, was struck by an article that drew parallels between methods of torture and the experiences of patients with insomnia and chronic pain.

The author of that article, Nicole Tang, DPhil, observed that two methods used by torturers – pain infliction and sleep deprivation – harm people in ways that also are experienced by many patients with pain and sleep conditions.

Patients are “essentially living in this perpetually undesirable, at best, situation where both of these features are playing out in their lives,” said Dr. Whibley, a research assistant professor of physical medicine and rehabilitation at the University of Michigan, Ann Arbor.

The problems create a “kind of vicious circle,” he said. Pain disrupts sleep. Insufficient sleep worsens pain.

Studies have established important relationships between the conditions, but investigators are still trying to clarify the mechanisms that connect them and the best ways to intervene to improve patient outcomes.

To that end, Dr. Whibley has developed an intervention known as Move & Snooze to benefit patients with pain associated with osteoarthritis.

The program includes remote exercise coaching and an automated 6-week course of digital cognitive-behavioral therapy for insomnia (CBT-I). Dr. Whibley’s hypothesis is that addressing sleep disturbances will help patients stay engaged with the physical activity component of the program and help with pain management.

He and his colleagues have tested the intervention in a feasibility study and are in the process of securing grant funding to test it in a large, nationwide trial.
 

Losing sleep for science

Michael Smith, PhD, is examining the sleep-pain connection from a different angle.

Dr. Smith, the director of the Behavioral Medicine Research Laboratory at Johns Hopkins University, Baltimore, is recruiting healthy adults to endure restless nights and painful stimuli.

His team is conducting a study known as Sleep-MOR that aims to reveal how different types of sleep disturbances influence pain and a person’s response to opioids.

Nearly three dozen participants have completed the study so far, Dr. Smith said, out of what he hopes will be 200 in all.

Participants are randomly assigned to sleep normally or to undergo an experimental condition that is designed to mimic the sleep disturbances of insomnia or obstructive sleep apnea (OSA).

In a “forced awakening” group, participants are awakened for 20-minute intervals every hour and for a full hour-long window during the night. In this condition, they could sleep for about four hours in all. Forced awakening is intended to represent insomnia

A “sleep fragmentation” group is meant to represent patients with OSA. About 30 times per hour, tones and tactile buzzers rouse sleeping participants without fully waking them up. Although the experiment involves brief arousals such as those experienced by patients with OSA, it does not capture another important feature of sleep apnea – the cessation of breathing, Dr. Smith noted.

The next day, researchers perform pain testing and brain imaging and see how opioid receptors respond to pain medication.

“Some of the forms of sleep loss that we are studying may actually alter the efficacy of the binding of those receptors, and that might then require you to have higher doses of an opioid to get the same effect,” Dr. Smith said. “That’s our hypothesis.”

If that bears out, disturbed sleep may play a role in the development of opioid use disorder and have implications for patients who receive opioids after surgery, he said.

In the lab, researchers examine pain thresholds using techniques such as thermal pain testing, in which a thermode attached to a participant’s arm heats up. The temperature “slowly goes up and the patient just says: ‘Ouch,’ when it first hurts. Then we have their pain threshold,” Dr. Smith said.
 

A bidirectional relationship

Epidemiologic studies have found that, if you follow women who do not have pain, those with complaints about sleep are more than twice as likely to develop fibromyalgia.

Dr. Smith’s group and others have shown that if you deprive a healthy person of sleep, they become more sensitive to pain.

Inflammation could be one possible reason for this effect. In one study, participants who experienced forced awakening experienced less slow-wave sleep, which was tied to more inflammation in the morning. Increased inflammation was linked to greater pain sensitivity.

“We are starting to piece together some of the pathways. That’s just one,” Dr. Smith said.

A recent study by researchers at Harvard University and elsewhere investigated how sleep disturbances affected three pain pathways. In that study, the results varied by sex. The data indicate that optimal treatment approaches might differ for men and women, the researchers said.
 

Waking up to the problem

Sleep problems can be neglected in medical school and in the clinic. “People just have other things to focus on that they clearly know what they can do about it,” Dr. Smith said.

But clinicians should not hesitate to screen for conditions such as insomnia or OSA and refer patients to a specialist. If a patient has had pain for 6 months and treatments are not working, the chance that they have a treatable sleep disorder “is very high, above 50%,” Dr. Smith said. Many could have more than one sleep disorder, he added.

Continuous positive airway pressure for OSA and CBT for insomnia can improve sleep. Dr. Smith said he expects these measures will improve overall pain management as well.

If treating a sleep disorder fails to help with pain, however, it may still help prevent other sleep-related problems, such as depression, poor glucose control, and heart disease. It also could improve patients’ ability to function day to day, he said.

Evidence on whether treating sleep problems reduces pain has so far been mixed.

“We’ve done some studies showing that if you have CBT-I and you have knee arthritis, improvements in the amount of time you spend awake at night translate into improvements in pain at 6 months. There is a signal there, but it’s not as strong as we would like,” he said. “It may be that it takes longer than anyone would like” to have an effect.

A structured intervention such as CBT-I is likely more beneficial than education about sleep hygiene alone in resolving sleep disturbances, Dr. Whibley said. CBT-I includes active components such as sleep restriction therapy and stimulus control therapy and is recommended by the American Academy of Sleep Medicine as the first-line treatment for chronic insomnia (J Clin Sleep Med. 2008 Oct 15;4[5]:487-504).

Patients should consider the role that sleep may play in their chronic pain condition, he said.

“An increasing number of researchers and clinicians are becoming more interested in this as a foundational pillar of health, alongside activity and diet,” Dr. Whibley said. “Sleep is recognized as just as important but doesn’t seem to get the airtime.”

Clinicians, he added, should regularly assess their patients’ sleep and know where to refer those whom they feel would benefit from more advanced management: “They [should] know that they have at least got it on their radar to check as one of the important pillars of health that you should be able to control.”
 

Sleep trials seeking pain patients

Researchers around the United States are conducting dozens of studies related to sleep and pain. The following trials are recruiting participants, according to ClinicalTrials.gov.

Sleep and Pain Interventions in Women With Fibromyalgia (SPIN-II). Investigators at the University of Missouri–Columbia are examining two cognitive-behavioral treatments for women with fibromyalgia and insomnia. “This trial will yield important information about the roles of sleep, arousal, and brain structure and function in the development and maintenance of chronic pain in women with fibromyalgia,” the researchers say.

Prospective Randomized Trial of CPAP for SDB in Patients Who Use Opioids (PRESTO). At the University of California, San Diego, researchers are investigating whether patients with chronic pain who use opioids and have sleep-disordered breathing may benefit from treatment with continuous positive airway pressure. They plan to assess the intervention’s effects on sleep quality, pain, and quality of life. They also will see which patients are least likely to benefit from this treatment approach.

Latent Aging Mechanisms in Pain and Sleep (LAMPS). Researchers at the University of Florida are studying the effects of oral gamma-aminobutyric acid in older adults with chronic pain and sleep difficulties.

Sleep and Pain in Sickle Cell Disease. At Johns Hopkins University, investigators are evaluating how behavioral sleep interventions influence pain and brain function in patients with sickle cell disease.

Pain in Long COVID-19: The Role of Sleep. Researchers at Beth Israel Deaconess Medical Center are conducting an observational study of patients with long COVID who have pain and sleep disturbances. The study aims “to understand the role of sleep in the development and persistence of pain symptoms in long COVID.”

Intervention for Sleep and Pain in Youth: A Randomized Controlled Trial (I-SPY-RCT). Adolescents with migraine are being recruited by a team at Seattle Children’s Hospital for a randomized controlled trial. The study will examine the effects of CBT-I as well as the combined effect of CBT-I and pain interventions on reducing insomnia symptoms and headache-related disability in this population.

A version of this article appeared on Medscape.com.

Early in his career as a pain researcher, Daniel Whibley, PhD, was struck by an article that drew parallels between methods of torture and the experiences of patients with insomnia and chronic pain.

The author of that article, Nicole Tang, DPhil, observed that two methods used by torturers – pain infliction and sleep deprivation – harm people in ways that also are experienced by many patients with pain and sleep conditions.

Patients are “essentially living in this perpetually undesirable, at best, situation where both of these features are playing out in their lives,” said Dr. Whibley, a research assistant professor of physical medicine and rehabilitation at the University of Michigan, Ann Arbor.

The problems create a “kind of vicious circle,” he said. Pain disrupts sleep. Insufficient sleep worsens pain.

Studies have established important relationships between the conditions, but investigators are still trying to clarify the mechanisms that connect them and the best ways to intervene to improve patient outcomes.

To that end, Dr. Whibley has developed an intervention known as Move & Snooze to benefit patients with pain associated with osteoarthritis.

The program includes remote exercise coaching and an automated 6-week course of digital cognitive-behavioral therapy for insomnia (CBT-I). Dr. Whibley’s hypothesis is that addressing sleep disturbances will help patients stay engaged with the physical activity component of the program and help with pain management.

He and his colleagues have tested the intervention in a feasibility study and are in the process of securing grant funding to test it in a large, nationwide trial.
 

Losing sleep for science

Michael Smith, PhD, is examining the sleep-pain connection from a different angle.

Dr. Smith, the director of the Behavioral Medicine Research Laboratory at Johns Hopkins University, Baltimore, is recruiting healthy adults to endure restless nights and painful stimuli.

His team is conducting a study known as Sleep-MOR that aims to reveal how different types of sleep disturbances influence pain and a person’s response to opioids.

Nearly three dozen participants have completed the study so far, Dr. Smith said, out of what he hopes will be 200 in all.

Participants are randomly assigned to sleep normally or to undergo an experimental condition that is designed to mimic the sleep disturbances of insomnia or obstructive sleep apnea (OSA).

In a “forced awakening” group, participants are awakened for 20-minute intervals every hour and for a full hour-long window during the night. In this condition, they could sleep for about four hours in all. Forced awakening is intended to represent insomnia

A “sleep fragmentation” group is meant to represent patients with OSA. About 30 times per hour, tones and tactile buzzers rouse sleeping participants without fully waking them up. Although the experiment involves brief arousals such as those experienced by patients with OSA, it does not capture another important feature of sleep apnea – the cessation of breathing, Dr. Smith noted.

The next day, researchers perform pain testing and brain imaging and see how opioid receptors respond to pain medication.

“Some of the forms of sleep loss that we are studying may actually alter the efficacy of the binding of those receptors, and that might then require you to have higher doses of an opioid to get the same effect,” Dr. Smith said. “That’s our hypothesis.”

If that bears out, disturbed sleep may play a role in the development of opioid use disorder and have implications for patients who receive opioids after surgery, he said.

In the lab, researchers examine pain thresholds using techniques such as thermal pain testing, in which a thermode attached to a participant’s arm heats up. The temperature “slowly goes up and the patient just says: ‘Ouch,’ when it first hurts. Then we have their pain threshold,” Dr. Smith said.
 

A bidirectional relationship

Epidemiologic studies have found that, if you follow women who do not have pain, those with complaints about sleep are more than twice as likely to develop fibromyalgia.

Dr. Smith’s group and others have shown that if you deprive a healthy person of sleep, they become more sensitive to pain.

Inflammation could be one possible reason for this effect. In one study, participants who experienced forced awakening experienced less slow-wave sleep, which was tied to more inflammation in the morning. Increased inflammation was linked to greater pain sensitivity.

“We are starting to piece together some of the pathways. That’s just one,” Dr. Smith said.

A recent study by researchers at Harvard University and elsewhere investigated how sleep disturbances affected three pain pathways. In that study, the results varied by sex. The data indicate that optimal treatment approaches might differ for men and women, the researchers said.
 

Waking up to the problem

Sleep problems can be neglected in medical school and in the clinic. “People just have other things to focus on that they clearly know what they can do about it,” Dr. Smith said.

But clinicians should not hesitate to screen for conditions such as insomnia or OSA and refer patients to a specialist. If a patient has had pain for 6 months and treatments are not working, the chance that they have a treatable sleep disorder “is very high, above 50%,” Dr. Smith said. Many could have more than one sleep disorder, he added.

Continuous positive airway pressure for OSA and CBT for insomnia can improve sleep. Dr. Smith said he expects these measures will improve overall pain management as well.

If treating a sleep disorder fails to help with pain, however, it may still help prevent other sleep-related problems, such as depression, poor glucose control, and heart disease. It also could improve patients’ ability to function day to day, he said.

Evidence on whether treating sleep problems reduces pain has so far been mixed.

“We’ve done some studies showing that if you have CBT-I and you have knee arthritis, improvements in the amount of time you spend awake at night translate into improvements in pain at 6 months. There is a signal there, but it’s not as strong as we would like,” he said. “It may be that it takes longer than anyone would like” to have an effect.

A structured intervention such as CBT-I is likely more beneficial than education about sleep hygiene alone in resolving sleep disturbances, Dr. Whibley said. CBT-I includes active components such as sleep restriction therapy and stimulus control therapy and is recommended by the American Academy of Sleep Medicine as the first-line treatment for chronic insomnia (J Clin Sleep Med. 2008 Oct 15;4[5]:487-504).

Patients should consider the role that sleep may play in their chronic pain condition, he said.

“An increasing number of researchers and clinicians are becoming more interested in this as a foundational pillar of health, alongside activity and diet,” Dr. Whibley said. “Sleep is recognized as just as important but doesn’t seem to get the airtime.”

Clinicians, he added, should regularly assess their patients’ sleep and know where to refer those whom they feel would benefit from more advanced management: “They [should] know that they have at least got it on their radar to check as one of the important pillars of health that you should be able to control.”
 

Sleep trials seeking pain patients

Researchers around the United States are conducting dozens of studies related to sleep and pain. The following trials are recruiting participants, according to ClinicalTrials.gov.

Sleep and Pain Interventions in Women With Fibromyalgia (SPIN-II). Investigators at the University of Missouri–Columbia are examining two cognitive-behavioral treatments for women with fibromyalgia and insomnia. “This trial will yield important information about the roles of sleep, arousal, and brain structure and function in the development and maintenance of chronic pain in women with fibromyalgia,” the researchers say.

Prospective Randomized Trial of CPAP for SDB in Patients Who Use Opioids (PRESTO). At the University of California, San Diego, researchers are investigating whether patients with chronic pain who use opioids and have sleep-disordered breathing may benefit from treatment with continuous positive airway pressure. They plan to assess the intervention’s effects on sleep quality, pain, and quality of life. They also will see which patients are least likely to benefit from this treatment approach.

Latent Aging Mechanisms in Pain and Sleep (LAMPS). Researchers at the University of Florida are studying the effects of oral gamma-aminobutyric acid in older adults with chronic pain and sleep difficulties.

Sleep and Pain in Sickle Cell Disease. At Johns Hopkins University, investigators are evaluating how behavioral sleep interventions influence pain and brain function in patients with sickle cell disease.

Pain in Long COVID-19: The Role of Sleep. Researchers at Beth Israel Deaconess Medical Center are conducting an observational study of patients with long COVID who have pain and sleep disturbances. The study aims “to understand the role of sleep in the development and persistence of pain symptoms in long COVID.”

Intervention for Sleep and Pain in Youth: A Randomized Controlled Trial (I-SPY-RCT). Adolescents with migraine are being recruited by a team at Seattle Children’s Hospital for a randomized controlled trial. The study will examine the effects of CBT-I as well as the combined effect of CBT-I and pain interventions on reducing insomnia symptoms and headache-related disability in this population.

A version of this article appeared on Medscape.com.

Early in his career as a pain researcher, Daniel Whibley, PhD, was struck by an article that drew parallels between methods of torture and the experiences of patients with insomnia and chronic pain.

The author of that article, Nicole Tang, DPhil, observed that two methods used by torturers – pain infliction and sleep deprivation – harm people in ways that also are experienced by many patients with pain and sleep conditions.

Patients are “essentially living in this perpetually undesirable, at best, situation where both of these features are playing out in their lives,” said Dr. Whibley, a research assistant professor of physical medicine and rehabilitation at the University of Michigan, Ann Arbor.

The problems create a “kind of vicious circle,” he said. Pain disrupts sleep. Insufficient sleep worsens pain.

Studies have established important relationships between the conditions, but investigators are still trying to clarify the mechanisms that connect them and the best ways to intervene to improve patient outcomes.

To that end, Dr. Whibley has developed an intervention known as Move & Snooze to benefit patients with pain associated with osteoarthritis.

The program includes remote exercise coaching and an automated 6-week course of digital cognitive-behavioral therapy for insomnia (CBT-I). Dr. Whibley’s hypothesis is that addressing sleep disturbances will help patients stay engaged with the physical activity component of the program and help with pain management.

He and his colleagues have tested the intervention in a feasibility study and are in the process of securing grant funding to test it in a large, nationwide trial.
 

Losing sleep for science

Michael Smith, PhD, is examining the sleep-pain connection from a different angle.

Dr. Smith, the director of the Behavioral Medicine Research Laboratory at Johns Hopkins University, Baltimore, is recruiting healthy adults to endure restless nights and painful stimuli.

His team is conducting a study known as Sleep-MOR that aims to reveal how different types of sleep disturbances influence pain and a person’s response to opioids.

Nearly three dozen participants have completed the study so far, Dr. Smith said, out of what he hopes will be 200 in all.

Participants are randomly assigned to sleep normally or to undergo an experimental condition that is designed to mimic the sleep disturbances of insomnia or obstructive sleep apnea (OSA).

In a “forced awakening” group, participants are awakened for 20-minute intervals every hour and for a full hour-long window during the night. In this condition, they could sleep for about four hours in all. Forced awakening is intended to represent insomnia

A “sleep fragmentation” group is meant to represent patients with OSA. About 30 times per hour, tones and tactile buzzers rouse sleeping participants without fully waking them up. Although the experiment involves brief arousals such as those experienced by patients with OSA, it does not capture another important feature of sleep apnea – the cessation of breathing, Dr. Smith noted.

The next day, researchers perform pain testing and brain imaging and see how opioid receptors respond to pain medication.

“Some of the forms of sleep loss that we are studying may actually alter the efficacy of the binding of those receptors, and that might then require you to have higher doses of an opioid to get the same effect,” Dr. Smith said. “That’s our hypothesis.”

If that bears out, disturbed sleep may play a role in the development of opioid use disorder and have implications for patients who receive opioids after surgery, he said.

In the lab, researchers examine pain thresholds using techniques such as thermal pain testing, in which a thermode attached to a participant’s arm heats up. The temperature “slowly goes up and the patient just says: ‘Ouch,’ when it first hurts. Then we have their pain threshold,” Dr. Smith said.
 

A bidirectional relationship

Epidemiologic studies have found that, if you follow women who do not have pain, those with complaints about sleep are more than twice as likely to develop fibromyalgia.

Dr. Smith’s group and others have shown that if you deprive a healthy person of sleep, they become more sensitive to pain.

Inflammation could be one possible reason for this effect. In one study, participants who experienced forced awakening experienced less slow-wave sleep, which was tied to more inflammation in the morning. Increased inflammation was linked to greater pain sensitivity.

“We are starting to piece together some of the pathways. That’s just one,” Dr. Smith said.

A recent study by researchers at Harvard University and elsewhere investigated how sleep disturbances affected three pain pathways. In that study, the results varied by sex. The data indicate that optimal treatment approaches might differ for men and women, the researchers said.
 

Waking up to the problem

Sleep problems can be neglected in medical school and in the clinic. “People just have other things to focus on that they clearly know what they can do about it,” Dr. Smith said.

But clinicians should not hesitate to screen for conditions such as insomnia or OSA and refer patients to a specialist. If a patient has had pain for 6 months and treatments are not working, the chance that they have a treatable sleep disorder “is very high, above 50%,” Dr. Smith said. Many could have more than one sleep disorder, he added.

Continuous positive airway pressure for OSA and CBT for insomnia can improve sleep. Dr. Smith said he expects these measures will improve overall pain management as well.

If treating a sleep disorder fails to help with pain, however, it may still help prevent other sleep-related problems, such as depression, poor glucose control, and heart disease. It also could improve patients’ ability to function day to day, he said.

Evidence on whether treating sleep problems reduces pain has so far been mixed.

“We’ve done some studies showing that if you have CBT-I and you have knee arthritis, improvements in the amount of time you spend awake at night translate into improvements in pain at 6 months. There is a signal there, but it’s not as strong as we would like,” he said. “It may be that it takes longer than anyone would like” to have an effect.

A structured intervention such as CBT-I is likely more beneficial than education about sleep hygiene alone in resolving sleep disturbances, Dr. Whibley said. CBT-I includes active components such as sleep restriction therapy and stimulus control therapy and is recommended by the American Academy of Sleep Medicine as the first-line treatment for chronic insomnia (J Clin Sleep Med. 2008 Oct 15;4[5]:487-504).

Patients should consider the role that sleep may play in their chronic pain condition, he said.

“An increasing number of researchers and clinicians are becoming more interested in this as a foundational pillar of health, alongside activity and diet,” Dr. Whibley said. “Sleep is recognized as just as important but doesn’t seem to get the airtime.”

Clinicians, he added, should regularly assess their patients’ sleep and know where to refer those whom they feel would benefit from more advanced management: “They [should] know that they have at least got it on their radar to check as one of the important pillars of health that you should be able to control.”
 

Sleep trials seeking pain patients

Researchers around the United States are conducting dozens of studies related to sleep and pain. The following trials are recruiting participants, according to ClinicalTrials.gov.

Sleep and Pain Interventions in Women With Fibromyalgia (SPIN-II). Investigators at the University of Missouri–Columbia are examining two cognitive-behavioral treatments for women with fibromyalgia and insomnia. “This trial will yield important information about the roles of sleep, arousal, and brain structure and function in the development and maintenance of chronic pain in women with fibromyalgia,” the researchers say.

Prospective Randomized Trial of CPAP for SDB in Patients Who Use Opioids (PRESTO). At the University of California, San Diego, researchers are investigating whether patients with chronic pain who use opioids and have sleep-disordered breathing may benefit from treatment with continuous positive airway pressure. They plan to assess the intervention’s effects on sleep quality, pain, and quality of life. They also will see which patients are least likely to benefit from this treatment approach.

Latent Aging Mechanisms in Pain and Sleep (LAMPS). Researchers at the University of Florida are studying the effects of oral gamma-aminobutyric acid in older adults with chronic pain and sleep difficulties.

Sleep and Pain in Sickle Cell Disease. At Johns Hopkins University, investigators are evaluating how behavioral sleep interventions influence pain and brain function in patients with sickle cell disease.

Pain in Long COVID-19: The Role of Sleep. Researchers at Beth Israel Deaconess Medical Center are conducting an observational study of patients with long COVID who have pain and sleep disturbances. The study aims “to understand the role of sleep in the development and persistence of pain symptoms in long COVID.”

Intervention for Sleep and Pain in Youth: A Randomized Controlled Trial (I-SPY-RCT). Adolescents with migraine are being recruited by a team at Seattle Children’s Hospital for a randomized controlled trial. The study will examine the effects of CBT-I as well as the combined effect of CBT-I and pain interventions on reducing insomnia symptoms and headache-related disability in this population.

A version of this article appeared on Medscape.com.

Pediatric patients receiving donor stem cell transplantion with healthier pretransplant gut microbiota diversity show improved rates of survival and a lower risk of developing acute graft versus host disease (GvHD), similar to the patterns reported in adults.

“To the best of our knowledge, we present the first evidence of an association between pretransplantation lower gut microbiota diversity and poorer outcome in children undergoing allo-HSCT,” the authors report, in research published in the journal Blood. “Our findings underscore the importance of pre-transplant gut microbiota diversity and compositional structure in influencing allo-HSCT-related clinical outcomes in the pediatric setting.”

While allogeneic hematopoietic stem cell transplantation (allo-HSCT) can be potentially curative of hematologic malignancies, the stem cell transplantation process can wreak havoc on gut microbiota, because of factors including the conditioning regimen, antibiotic exposure, and dietary changes.

Specifically, the process can cause a substantial decrease in necessary alpha diversity and a potential expansion of possibly pathogenic bacteria.

While poor gut microbiota diversity has been linked to higher mortality in adult patients receiving allo-HSCT, research on the effects in pediatric patients is lacking.

“The gut microbiota of children differs from adults’ one, and this accounts for the need for specific pediatric studies on the gut microbiota-to–allo-HSCT relationship,” the authors write.

For the multicenter study, first author Riccardo Masetti, MD, PhD, of the department of pediatric oncology and hematology at the University of Bologna, Italy, and colleagues analyzed the gut microbiota diversity of 90 pediatric allo-HSCT recipients at four centers in Italy and one in Poland, stratifying the patients into groups of higher and lower diversity pretransplantation and again at the time of neutrophil engraftment.

Overall, gut microbiota diversity significantly declined from before allo-HSCT to afterward, at the time of neutrophil engraftment (P < .0001), with lower diversity observed in patients 3 years of age or younger.

With a median follow-up of 52 months, compared with the lower diversity group, those with higher diversity prior to transplantation had a significantly higher probability of overall survival (hazard ratio, 0.26; P = .011), after adjustment for age, graft source, donor type, intensity of conditioning regimen, center, and type of disease, with estimated overall survival at 52 months after allo-HSCT of 88.9% for the higher diversity group and 62.7% for the lower diversity group.

The cumulative incidence of grade II-IV acute GvHD was significantly lower for the higher diversity group versus lower diversity (20.0 versus 44.4, respectively; P = .017), as were the incidence rates of grade III-IV acute GvHD (2.2 versus 20.0; P = .007).

There were, however, no significant differences between the low and high diversity gut microbiota groups in relapse-free survival (P = .091).

The higher diversity group notably had higher relative abundances of potentially health-related bacterial families, including Ruminococcaceae and Oscillospiraceae, while the lower diversity group showed an overabundance of Enterococcaceae and Enterobacteriaceae.

Of note, the results differ from those observed in adults, among whom gut microbiota diversity before as well as after transplantation has been significantly associated with transplant outcomes, whereas with children, the association was limited to diversity prior to transplant.

In general, children have significantly lower diversity of gut microbiota than adults, with varying functional properties, and microbiota that is more easily modified by environmental factors, with larger changes occurring upon exposure to external stressors, the authors explain.

“Considering these different ecological properties compared to adults, we hypothesize that allo-HSCT–induced dysbiosis in the pediatric setting may imply loss of age-related gut microbiota signatures, including alpha diversity, with high interpatient variability,” they say.

Characteristics that were associated with higher or lower gut microbiota diversity prior to allo-HSCT included the treating center, suggesting that the geographical region may affect the diversity and the type of antibiotic exposure prior to the transplant.

Limitations included that “we didn’t assess other pretransplant characteristics such as the type of chemotherapy received, or the lifestyle, and this should be addressed in future studies on larger cohorts,” Dr. Masetti said in an interview.

While lengthy delays in screening of samples are barriers in the use of the gut microbiome as a tool in clinical practice, he noted that clinicians can take key measures to improve the microbiota.

“[Preventive measures] include the avoidance of unnecessary antibiotic treatment, which has a detrimental effect on the microbiota,” he said. “Moreover, some dietary changes may promote microbiota health.”

In addition, key measures can be taken during the allo-HSCT to preserve the microbiota, he added.

“In our center, we use enteral nutrition with a nasogastric tube rather than parenteral nutrition, which helps the microbiota to recover faster,” Dr. Masetti explained. “Moreover, other interventional measures such as fecal microbiota transplantation or the use of probiotics are under testing.”

“In particular, our data emphasize the importance of an overall healthy network, rather than the abundance of specific families or genera, in preventing complications and unfavorable outcomes.”

Commenting on the study, Robert Jenq, MD, an assistant professor in the departments of genomic medicine and stem cell transplantation and cellular therapy at the University of Texas M.D. Anderson Cancer Center, Houston, noted that with the growing evidence of the effects of poor gut microbiota diversity on clinical outcomes, multiple early-phase clinical trials are being conducted to test various strategies to prevent or treat gut injury.

“I’m not aware of any one approach that has shown enough promise to warrant being tested in multicenter studies yet, but it’s still a bit early,” Dr. Jenq said.“In the meantime, discontinuing or de-escalating antibiotics when medically safe, and encouraging patients to eat as much as they’re able to is a reasonable recommendation.”

Dr. Jenq added that, with most of the data on the issue being retrospective, a causative role has not been established, and “the finding of an association between the gut microbiota composition and survival, while interesting and provocative, does not provide evidence that intervening on the gut microbiota will lead to a clinical benefit.”

“I’m hopeful that randomized clinical trials will eventually demonstrate that we can protect or restore the gut microbiota, and this will lead to substantial clinical benefits, but this remains to be seen,” he said.

The authors had no disclosures to report. Dr. Jenq is an advisor for Seres Therapeutics, Prolacta Biosciences, and MaaT Pharma.

Pediatric patients receiving donor stem cell transplantion with healthier pretransplant gut microbiota diversity show improved rates of survival and a lower risk of developing acute graft versus host disease (GvHD), similar to the patterns reported in adults.

“To the best of our knowledge, we present the first evidence of an association between pretransplantation lower gut microbiota diversity and poorer outcome in children undergoing allo-HSCT,” the authors report, in research published in the journal Blood. “Our findings underscore the importance of pre-transplant gut microbiota diversity and compositional structure in influencing allo-HSCT-related clinical outcomes in the pediatric setting.”

While allogeneic hematopoietic stem cell transplantation (allo-HSCT) can be potentially curative of hematologic malignancies, the stem cell transplantation process can wreak havoc on gut microbiota, because of factors including the conditioning regimen, antibiotic exposure, and dietary changes.

Specifically, the process can cause a substantial decrease in necessary alpha diversity and a potential expansion of possibly pathogenic bacteria.

While poor gut microbiota diversity has been linked to higher mortality in adult patients receiving allo-HSCT, research on the effects in pediatric patients is lacking.

“The gut microbiota of children differs from adults’ one, and this accounts for the need for specific pediatric studies on the gut microbiota-to–allo-HSCT relationship,” the authors write.

For the multicenter study, first author Riccardo Masetti, MD, PhD, of the department of pediatric oncology and hematology at the University of Bologna, Italy, and colleagues analyzed the gut microbiota diversity of 90 pediatric allo-HSCT recipients at four centers in Italy and one in Poland, stratifying the patients into groups of higher and lower diversity pretransplantation and again at the time of neutrophil engraftment.

Overall, gut microbiota diversity significantly declined from before allo-HSCT to afterward, at the time of neutrophil engraftment (P < .0001), with lower diversity observed in patients 3 years of age or younger.

With a median follow-up of 52 months, compared with the lower diversity group, those with higher diversity prior to transplantation had a significantly higher probability of overall survival (hazard ratio, 0.26; P = .011), after adjustment for age, graft source, donor type, intensity of conditioning regimen, center, and type of disease, with estimated overall survival at 52 months after allo-HSCT of 88.9% for the higher diversity group and 62.7% for the lower diversity group.

The cumulative incidence of grade II-IV acute GvHD was significantly lower for the higher diversity group versus lower diversity (20.0 versus 44.4, respectively; P = .017), as were the incidence rates of grade III-IV acute GvHD (2.2 versus 20.0; P = .007).

There were, however, no significant differences between the low and high diversity gut microbiota groups in relapse-free survival (P = .091).

The higher diversity group notably had higher relative abundances of potentially health-related bacterial families, including Ruminococcaceae and Oscillospiraceae, while the lower diversity group showed an overabundance of Enterococcaceae and Enterobacteriaceae.

Of note, the results differ from those observed in adults, among whom gut microbiota diversity before as well as after transplantation has been significantly associated with transplant outcomes, whereas with children, the association was limited to diversity prior to transplant.

In general, children have significantly lower diversity of gut microbiota than adults, with varying functional properties, and microbiota that is more easily modified by environmental factors, with larger changes occurring upon exposure to external stressors, the authors explain.

“Considering these different ecological properties compared to adults, we hypothesize that allo-HSCT–induced dysbiosis in the pediatric setting may imply loss of age-related gut microbiota signatures, including alpha diversity, with high interpatient variability,” they say.

Characteristics that were associated with higher or lower gut microbiota diversity prior to allo-HSCT included the treating center, suggesting that the geographical region may affect the diversity and the type of antibiotic exposure prior to the transplant.

Limitations included that “we didn’t assess other pretransplant characteristics such as the type of chemotherapy received, or the lifestyle, and this should be addressed in future studies on larger cohorts,” Dr. Masetti said in an interview.

While lengthy delays in screening of samples are barriers in the use of the gut microbiome as a tool in clinical practice, he noted that clinicians can take key measures to improve the microbiota.

“[Preventive measures] include the avoidance of unnecessary antibiotic treatment, which has a detrimental effect on the microbiota,” he said. “Moreover, some dietary changes may promote microbiota health.”

In addition, key measures can be taken during the allo-HSCT to preserve the microbiota, he added.

“In our center, we use enteral nutrition with a nasogastric tube rather than parenteral nutrition, which helps the microbiota to recover faster,” Dr. Masetti explained. “Moreover, other interventional measures such as fecal microbiota transplantation or the use of probiotics are under testing.”

“In particular, our data emphasize the importance of an overall healthy network, rather than the abundance of specific families or genera, in preventing complications and unfavorable outcomes.”

Commenting on the study, Robert Jenq, MD, an assistant professor in the departments of genomic medicine and stem cell transplantation and cellular therapy at the University of Texas M.D. Anderson Cancer Center, Houston, noted that with the growing evidence of the effects of poor gut microbiota diversity on clinical outcomes, multiple early-phase clinical trials are being conducted to test various strategies to prevent or treat gut injury.

“I’m not aware of any one approach that has shown enough promise to warrant being tested in multicenter studies yet, but it’s still a bit early,” Dr. Jenq said.“In the meantime, discontinuing or de-escalating antibiotics when medically safe, and encouraging patients to eat as much as they’re able to is a reasonable recommendation.”

Dr. Jenq added that, with most of the data on the issue being retrospective, a causative role has not been established, and “the finding of an association between the gut microbiota composition and survival, while interesting and provocative, does not provide evidence that intervening on the gut microbiota will lead to a clinical benefit.”

“I’m hopeful that randomized clinical trials will eventually demonstrate that we can protect or restore the gut microbiota, and this will lead to substantial clinical benefits, but this remains to be seen,” he said.

The authors had no disclosures to report. Dr. Jenq is an advisor for Seres Therapeutics, Prolacta Biosciences, and MaaT Pharma.

Pediatric patients receiving donor stem cell transplantion with healthier pretransplant gut microbiota diversity show improved rates of survival and a lower risk of developing acute graft versus host disease (GvHD), similar to the patterns reported in adults.

“To the best of our knowledge, we present the first evidence of an association between pretransplantation lower gut microbiota diversity and poorer outcome in children undergoing allo-HSCT,” the authors report, in research published in the journal Blood. “Our findings underscore the importance of pre-transplant gut microbiota diversity and compositional structure in influencing allo-HSCT-related clinical outcomes in the pediatric setting.”

While allogeneic hematopoietic stem cell transplantation (allo-HSCT) can be potentially curative of hematologic malignancies, the stem cell transplantation process can wreak havoc on gut microbiota, because of factors including the conditioning regimen, antibiotic exposure, and dietary changes.

Specifically, the process can cause a substantial decrease in necessary alpha diversity and a potential expansion of possibly pathogenic bacteria.

While poor gut microbiota diversity has been linked to higher mortality in adult patients receiving allo-HSCT, research on the effects in pediatric patients is lacking.

“The gut microbiota of children differs from adults’ one, and this accounts for the need for specific pediatric studies on the gut microbiota-to–allo-HSCT relationship,” the authors write.

For the multicenter study, first author Riccardo Masetti, MD, PhD, of the department of pediatric oncology and hematology at the University of Bologna, Italy, and colleagues analyzed the gut microbiota diversity of 90 pediatric allo-HSCT recipients at four centers in Italy and one in Poland, stratifying the patients into groups of higher and lower diversity pretransplantation and again at the time of neutrophil engraftment.

Overall, gut microbiota diversity significantly declined from before allo-HSCT to afterward, at the time of neutrophil engraftment (P < .0001), with lower diversity observed in patients 3 years of age or younger.

With a median follow-up of 52 months, compared with the lower diversity group, those with higher diversity prior to transplantation had a significantly higher probability of overall survival (hazard ratio, 0.26; P = .011), after adjustment for age, graft source, donor type, intensity of conditioning regimen, center, and type of disease, with estimated overall survival at 52 months after allo-HSCT of 88.9% for the higher diversity group and 62.7% for the lower diversity group.

The cumulative incidence of grade II-IV acute GvHD was significantly lower for the higher diversity group versus lower diversity (20.0 versus 44.4, respectively; P = .017), as were the incidence rates of grade III-IV acute GvHD (2.2 versus 20.0; P = .007).

There were, however, no significant differences between the low and high diversity gut microbiota groups in relapse-free survival (P = .091).

The higher diversity group notably had higher relative abundances of potentially health-related bacterial families, including Ruminococcaceae and Oscillospiraceae, while the lower diversity group showed an overabundance of Enterococcaceae and Enterobacteriaceae.

Of note, the results differ from those observed in adults, among whom gut microbiota diversity before as well as after transplantation has been significantly associated with transplant outcomes, whereas with children, the association was limited to diversity prior to transplant.

In general, children have significantly lower diversity of gut microbiota than adults, with varying functional properties, and microbiota that is more easily modified by environmental factors, with larger changes occurring upon exposure to external stressors, the authors explain.

“Considering these different ecological properties compared to adults, we hypothesize that allo-HSCT–induced dysbiosis in the pediatric setting may imply loss of age-related gut microbiota signatures, including alpha diversity, with high interpatient variability,” they say.

Characteristics that were associated with higher or lower gut microbiota diversity prior to allo-HSCT included the treating center, suggesting that the geographical region may affect the diversity and the type of antibiotic exposure prior to the transplant.

Limitations included that “we didn’t assess other pretransplant characteristics such as the type of chemotherapy received, or the lifestyle, and this should be addressed in future studies on larger cohorts,” Dr. Masetti said in an interview.

While lengthy delays in screening of samples are barriers in the use of the gut microbiome as a tool in clinical practice, he noted that clinicians can take key measures to improve the microbiota.

“[Preventive measures] include the avoidance of unnecessary antibiotic treatment, which has a detrimental effect on the microbiota,” he said. “Moreover, some dietary changes may promote microbiota health.”

In addition, key measures can be taken during the allo-HSCT to preserve the microbiota, he added.

“In our center, we use enteral nutrition with a nasogastric tube rather than parenteral nutrition, which helps the microbiota to recover faster,” Dr. Masetti explained. “Moreover, other interventional measures such as fecal microbiota transplantation or the use of probiotics are under testing.”

“In particular, our data emphasize the importance of an overall healthy network, rather than the abundance of specific families or genera, in preventing complications and unfavorable outcomes.”

Commenting on the study, Robert Jenq, MD, an assistant professor in the departments of genomic medicine and stem cell transplantation and cellular therapy at the University of Texas M.D. Anderson Cancer Center, Houston, noted that with the growing evidence of the effects of poor gut microbiota diversity on clinical outcomes, multiple early-phase clinical trials are being conducted to test various strategies to prevent or treat gut injury.

“I’m not aware of any one approach that has shown enough promise to warrant being tested in multicenter studies yet, but it’s still a bit early,” Dr. Jenq said.“In the meantime, discontinuing or de-escalating antibiotics when medically safe, and encouraging patients to eat as much as they’re able to is a reasonable recommendation.”

Dr. Jenq added that, with most of the data on the issue being retrospective, a causative role has not been established, and “the finding of an association between the gut microbiota composition and survival, while interesting and provocative, does not provide evidence that intervening on the gut microbiota will lead to a clinical benefit.”

“I’m hopeful that randomized clinical trials will eventually demonstrate that we can protect or restore the gut microbiota, and this will lead to substantial clinical benefits, but this remains to be seen,” he said.

The authors had no disclosures to report. Dr. Jenq is an advisor for Seres Therapeutics, Prolacta Biosciences, and MaaT Pharma.

The U.S. Preventive Services Task Force is expanding its recommendation for antiretrovirals in HIV now that more options are available on the market.

“With these new options we could potentially extend pre-exposure prophylaxis (PrEP) to a wider population,” says James Stevermer, MD, a member of the task force and a professor of family and community medicine at the University of Missouri–Columbia.

The guidance, published in JAMA, updates the group’s previous recommendation from 2019 to take into account the new options that have become available since the U.S. Food and Drug Administration approvals that included a long-acting injectable form.

In the original report, daily oral tenofovir disoproxil fumarate with emtricitabine was the only approved medication available and the task force recommended it. Since then, two new regimens have been approved: daily oral tenofovir alafenamide with emtricitabine and the long-acting injectable cabotegravir.

The task force is backing all three options and is recommending that clinicians use whichever formulation is most appropriate for their patients at risk for HIV infection.
 

Task force in primary and preventive care

The USPSTF is a volunteer group of experts in primary and preventive care who make recommendations on the best preventative interventions clinicians should take on everything from cancer screening, to preventive aspirin use, to behavioral counseling. The group is convened and supported by the Agency for Healthcare Research and Quality.

Recommendations from this group are particularly helpful for clinicians who may not see HIV as their area of expertise, says Carolyn Chu, MD, chief medical officer of the American Academy of HIV Medicine. “Hopefully, this will catch the eye of people who are not tracking all of the HIV updates,” she says.

A person’s risk for infection is mostly based on their behavior, Dr. Stevermer says. Those who use injectable drugs, particularly if they share needles, those who use condoms inconsistently and do not know their partner’s HIV status, and those who have recently had bacterial sexually transmitted infections like gonorrhea and syphilis are all at higher risk.

The efficacy of each of the three options is close enough to equal that it doesn’t usually matter which is prescribed, according to the task force. However, daily oral tenofovir alafenamide with emtricitabine is not approved for use by people engaging in receptive vaginal sex. For most people, the best medication option is the one they are most likely able to integrate into their routine. Cabotegravir, for example, which requires injections every 2 months, is an easier method for some people, particularly those who don’t think they could successfully take a daily pill.
 

Reducing risk

“The evidence is very clear that being able to adhere to taking the medication daily was very closely associated with the effectiveness of PrEP,” Dr. Stevermer says. “So, everything that we can do to make sure that the person who wants to prevent HIV is getting their PrEP as it is supposed to be taken makes it that much more effective.”

Expanding access to antiretrovirals among at-risk groups is an important part of the Ending the HIV Epidemic in the United States initiative that aims to reduce new HIV cases by 90% by 2030.

But an editorial published alongside the recommendation in JAMA notes that uptake of PrEP has been disproportionately low among populations most heavily affected by HIV.

In 2021, 78% of White people expected to benefit from PrEP received it, compared with just 11% of Black people and 21% of Hispanic people, despite both of those populations having a higher incidence of HIV than Whites. PrEP use is also substantially lower among cisgender and transgender women, youth, and people who inject drugs.

“We have an intervention that can markedly reduce people’s risk of getting HIV and so we want to make sure we get this out to all those populations at increased risk,” Dr. Stevermer says.

Having multiple options when it comes to PrEP is a big part of expanding access to the treatment for underserved groups, Dr. Chu says. “Even though oral tenofovir disoproxil fumarate with emtricitabine has been out for a while, we know it’s not getting to everyone, and there may be clinical circumstances that means it’s not the right option,” she says. “Making sure we are supporting choices so people can make the decision for themselves is important.”

But doctors also need to be willing to have an open conversation with their patients and bring up the topic of PrEP in a way that doesn’t feel judgmental or stigmatizing, Dr. Chu says.

It is also important not to make assumptions about who would want to talk about medication, she adds. “How can we change the narrative around PrEP?” she asks. “The evidence is there, these medications are effective and safe; weave PrEP into your preventive care portfolio to at least start the conversation.”

A version of this article appeared on Medscape.com.

The U.S. Preventive Services Task Force is expanding its recommendation for antiretrovirals in HIV now that more options are available on the market.

“With these new options we could potentially extend pre-exposure prophylaxis (PrEP) to a wider population,” says James Stevermer, MD, a member of the task force and a professor of family and community medicine at the University of Missouri–Columbia.

The guidance, published in JAMA, updates the group’s previous recommendation from 2019 to take into account the new options that have become available since the U.S. Food and Drug Administration approvals that included a long-acting injectable form.

In the original report, daily oral tenofovir disoproxil fumarate with emtricitabine was the only approved medication available and the task force recommended it. Since then, two new regimens have been approved: daily oral tenofovir alafenamide with emtricitabine and the long-acting injectable cabotegravir.

The task force is backing all three options and is recommending that clinicians use whichever formulation is most appropriate for their patients at risk for HIV infection.
 

Task force in primary and preventive care

The USPSTF is a volunteer group of experts in primary and preventive care who make recommendations on the best preventative interventions clinicians should take on everything from cancer screening, to preventive aspirin use, to behavioral counseling. The group is convened and supported by the Agency for Healthcare Research and Quality.

Recommendations from this group are particularly helpful for clinicians who may not see HIV as their area of expertise, says Carolyn Chu, MD, chief medical officer of the American Academy of HIV Medicine. “Hopefully, this will catch the eye of people who are not tracking all of the HIV updates,” she says.

A person’s risk for infection is mostly based on their behavior, Dr. Stevermer says. Those who use injectable drugs, particularly if they share needles, those who use condoms inconsistently and do not know their partner’s HIV status, and those who have recently had bacterial sexually transmitted infections like gonorrhea and syphilis are all at higher risk.

The efficacy of each of the three options is close enough to equal that it doesn’t usually matter which is prescribed, according to the task force. However, daily oral tenofovir alafenamide with emtricitabine is not approved for use by people engaging in receptive vaginal sex. For most people, the best medication option is the one they are most likely able to integrate into their routine. Cabotegravir, for example, which requires injections every 2 months, is an easier method for some people, particularly those who don’t think they could successfully take a daily pill.
 

Reducing risk

“The evidence is very clear that being able to adhere to taking the medication daily was very closely associated with the effectiveness of PrEP,” Dr. Stevermer says. “So, everything that we can do to make sure that the person who wants to prevent HIV is getting their PrEP as it is supposed to be taken makes it that much more effective.”

Expanding access to antiretrovirals among at-risk groups is an important part of the Ending the HIV Epidemic in the United States initiative that aims to reduce new HIV cases by 90% by 2030.

But an editorial published alongside the recommendation in JAMA notes that uptake of PrEP has been disproportionately low among populations most heavily affected by HIV.

In 2021, 78% of White people expected to benefit from PrEP received it, compared with just 11% of Black people and 21% of Hispanic people, despite both of those populations having a higher incidence of HIV than Whites. PrEP use is also substantially lower among cisgender and transgender women, youth, and people who inject drugs.

“We have an intervention that can markedly reduce people’s risk of getting HIV and so we want to make sure we get this out to all those populations at increased risk,” Dr. Stevermer says.

Having multiple options when it comes to PrEP is a big part of expanding access to the treatment for underserved groups, Dr. Chu says. “Even though oral tenofovir disoproxil fumarate with emtricitabine has been out for a while, we know it’s not getting to everyone, and there may be clinical circumstances that means it’s not the right option,” she says. “Making sure we are supporting choices so people can make the decision for themselves is important.”

But doctors also need to be willing to have an open conversation with their patients and bring up the topic of PrEP in a way that doesn’t feel judgmental or stigmatizing, Dr. Chu says.

It is also important not to make assumptions about who would want to talk about medication, she adds. “How can we change the narrative around PrEP?” she asks. “The evidence is there, these medications are effective and safe; weave PrEP into your preventive care portfolio to at least start the conversation.”

A version of this article appeared on Medscape.com.

The U.S. Preventive Services Task Force is expanding its recommendation for antiretrovirals in HIV now that more options are available on the market.

“With these new options we could potentially extend pre-exposure prophylaxis (PrEP) to a wider population,” says James Stevermer, MD, a member of the task force and a professor of family and community medicine at the University of Missouri–Columbia.

The guidance, published in JAMA, updates the group’s previous recommendation from 2019 to take into account the new options that have become available since the U.S. Food and Drug Administration approvals that included a long-acting injectable form.

In the original report, daily oral tenofovir disoproxil fumarate with emtricitabine was the only approved medication available and the task force recommended it. Since then, two new regimens have been approved: daily oral tenofovir alafenamide with emtricitabine and the long-acting injectable cabotegravir.

The task force is backing all three options and is recommending that clinicians use whichever formulation is most appropriate for their patients at risk for HIV infection.
 

Task force in primary and preventive care

The USPSTF is a volunteer group of experts in primary and preventive care who make recommendations on the best preventative interventions clinicians should take on everything from cancer screening, to preventive aspirin use, to behavioral counseling. The group is convened and supported by the Agency for Healthcare Research and Quality.

Recommendations from this group are particularly helpful for clinicians who may not see HIV as their area of expertise, says Carolyn Chu, MD, chief medical officer of the American Academy of HIV Medicine. “Hopefully, this will catch the eye of people who are not tracking all of the HIV updates,” she says.

A person’s risk for infection is mostly based on their behavior, Dr. Stevermer says. Those who use injectable drugs, particularly if they share needles, those who use condoms inconsistently and do not know their partner’s HIV status, and those who have recently had bacterial sexually transmitted infections like gonorrhea and syphilis are all at higher risk.

The efficacy of each of the three options is close enough to equal that it doesn’t usually matter which is prescribed, according to the task force. However, daily oral tenofovir alafenamide with emtricitabine is not approved for use by people engaging in receptive vaginal sex. For most people, the best medication option is the one they are most likely able to integrate into their routine. Cabotegravir, for example, which requires injections every 2 months, is an easier method for some people, particularly those who don’t think they could successfully take a daily pill.
 

Reducing risk

“The evidence is very clear that being able to adhere to taking the medication daily was very closely associated with the effectiveness of PrEP,” Dr. Stevermer says. “So, everything that we can do to make sure that the person who wants to prevent HIV is getting their PrEP as it is supposed to be taken makes it that much more effective.”

Expanding access to antiretrovirals among at-risk groups is an important part of the Ending the HIV Epidemic in the United States initiative that aims to reduce new HIV cases by 90% by 2030.

But an editorial published alongside the recommendation in JAMA notes that uptake of PrEP has been disproportionately low among populations most heavily affected by HIV.

In 2021, 78% of White people expected to benefit from PrEP received it, compared with just 11% of Black people and 21% of Hispanic people, despite both of those populations having a higher incidence of HIV than Whites. PrEP use is also substantially lower among cisgender and transgender women, youth, and people who inject drugs.

“We have an intervention that can markedly reduce people’s risk of getting HIV and so we want to make sure we get this out to all those populations at increased risk,” Dr. Stevermer says.

Having multiple options when it comes to PrEP is a big part of expanding access to the treatment for underserved groups, Dr. Chu says. “Even though oral tenofovir disoproxil fumarate with emtricitabine has been out for a while, we know it’s not getting to everyone, and there may be clinical circumstances that means it’s not the right option,” she says. “Making sure we are supporting choices so people can make the decision for themselves is important.”

But doctors also need to be willing to have an open conversation with their patients and bring up the topic of PrEP in a way that doesn’t feel judgmental or stigmatizing, Dr. Chu says.

It is also important not to make assumptions about who would want to talk about medication, she adds. “How can we change the narrative around PrEP?” she asks. “The evidence is there, these medications are effective and safe; weave PrEP into your preventive care portfolio to at least start the conversation.”

A version of this article appeared on Medscape.com.

Doctor, if you are caring for patients with diabetes, I sure hope you know more about it than I do. The longer I live, it seems, the less I understand.

In a free society, people can do what they want, and that’s great except when it isn’t. That’s why societies develop ethics and even public laws if ethics are not strong enough to protect us from ourselves and others.
 

Sugar, sugar

When I was growing up in small-town Alabama during the Depression and World War II, we called it sugar diabetes. Eat too much sugar, you got fat; your blood sugar went up, and you spilled sugar into your urine. Diabetes was fairly rare, and so was obesity. Doctors treated it by limiting the intake of sugar (and various sweet foods), along with attempting weight loss. If that didn’t do the trick, insulin injections.

From then until now, note these trends.

• 1920: 0.2% of the population
• 1930: 0.3% of the population
• 1940: 0.4% of the population

In 2020, although 11.3% of the population was diagnosed with type 2 diabetes, the unknown undiagnosed proportion could be much higher.

Notice a correlation between sugar consumption and prevalence of diabetes? Of course, correlation is not causation, but at the same time, it sure as hell is not negation. Such concordance can be considered hypothesis generating. It may not be true causation, but it’s a good bet when 89% of people with diabetes have overweight or obesity.

What did the entire medical, public health, government, agriculture, nursing, food manufacturing, marketing, advertising, restaurant, and education constituencies do about this as it was happening? They observed, documented, gave lip service, and wrung their hands in public a bit. I do not believe that this is an organized active conspiracy; it would take too many players cooperating over too long a period of time. But it certainly may be a passive conspiracy, and primary care physicians and their patients are trapped.

The proper daily practice of medicine consists of one patient, one physician, one moment, and one decision. Let it be a shared decision, informed by the best evidence and taking cost into consideration. That encounter represents an opportunity, a responsibility, and a conundrum.

Individual health is subsumed under the collective health of the public. As such, a patient’s health is out of the control of both physician and patient; instead, patients are the beneficiaries or victims of the “marketplace.” Humans are frail and easily taken advantage of by the brilliant and highly motivated strategic planning and execution of Big Agriculture, Big Food, Big Pharma, Big Marketing, and Big Money-Driven Medicine and generally failed by Big Government, Big Public Health, Big Education, Big Psychology, and Big Religion.
 

Rethinking diabetes

Consider diabetes as one of many examples. What a terrific deal for capitalism. First, the system spends decades fattening us up; then, it makes massive amounts of money off of the myriad complications of the fattened populace; then it discovers (invents) long-term, very expensive, compelling treatments to slim us down, with no end in sight, and still without ever understanding the true nature of diabetes.

Gary Taubes’s great new book, “Rethinking Diabetes: What Science Reveals About Diet, Insulin, and Successful Treatments,” is being published by Alfred A. Knopf in early 2024.

It is 404 pages of (dense) text, with 401 numbered references and footnotes, a bibliography of 790 references, alphabetically arranged for easy cross-checking, and a 25-page index.

Remember Mr. Taubes’s earlier definitive historical treatises: “Good Calories, Bad Calories” (2007), “Why We Get Fat” (2010), “The Case Against Sugar” (2016), and “The Case for Keto” (2020)?

This new book is more like “Good Calories, Bad Calories”: long, dense, detailed, definitive, and of great historical reference value, including original research information from other countries in other languages. The author told me that the many early research reference sources were available only in German and that his use of generative artificial intelligence as an assistant researcher was of great value.

Nonphysician author Mr. Taubes uses his deep understanding of science and history to inform his long-honed talents of impartial investigative journalism as he attempts to understand and then explain why after all these years, the medical scientific community still does not have a sound consensus about the essence of diabetes, diet, insulin, and proper prevention and treatment at a level that is actually effective – amazing and so sad.

To signal these evolved and evolving conflicts, the book includes the following chapters:

• “Rise of the Carbohydrate-Rich and Very-Low-Carbohydrate Diets”
• “The Fear of Fat and High-Fat Diets”
• “Insulin and The End of Carbohydrate Restriction and Low Blood Sugar”

Yes, it is difficult. Imagine the bookend segments: “The Nature of Medical Knowledge” and “The Conflicts of Evidence-Based Medicine.” There is also a detailed discussion of good versus bad science spanning three long chapters.

If all that reads like a greatly confused mess to you then you’re beginning to understand. If you are a fan of an unbiased explication of the evolution of understanding the ins and outs of scientific history in richly documented detail, this is a book for you. It’s not a quick nor easy read. And don’t expect to discover whether the newest wonder drugs for weight loss and control of diabetes will be the long-term solution for people with obesity and diabetes worldwide.

Obesity and overweight are major risk factors for type 2 diabetes. About 90% of patients with diabetes have either overweight or obesity. Thus, the complications of these two conditions, which largely overlap, include atherosclerotic cardiovascular disease; myocardial infarction; stroke; hypertension; metabolic syndrome; lower-extremity gangrene; chronic kidney disease; retinopathy; glaucoma; cataracts; disabling osteoarthritis; breast, endometrial, colon, and other cancers; fatty liver; sleep apnea; and peripheral neuropathy. These diseases create a major lucrative business for a wide swathe of medical and surgical specialties, plus hospital, clinic, device, pharmaceutical, and food industries.

In summary, we’ve just been through 40 years of failure to recognize the sugar-elephant in the room and intervene with serious preventive efforts. Forty years of fleshing out both the populace and the American medical-industrial complex (AMIC). Talk about a sweet spot. The only successful long-term treatment of obesity (and with it, diabetes) is prevention. Don’t emphasize losing weight. Focus on preventing excessive weight gain, right now, for the population, beginning with yourselves. Otherwise, we continue openly to perpetuate a terrific deal for the AMIC, a travesty for everyone else. Time for some industrial grade penance and a course correction.

Meanwhile, here we are living out Big Pharma’s dream of a big populace, produced by the agriculture and food industries, enjoyed by capitalism after failures of education, medicine, and public health: a seemingly endless supply of people living with big complications who are ready for big (expensive, new) medications to fix the world’s big health problems.

Dr. Lundberg is editor in chief, Cancer Commons. He has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Doctor, if you are caring for patients with diabetes, I sure hope you know more about it than I do. The longer I live, it seems, the less I understand.

In a free society, people can do what they want, and that’s great except when it isn’t. That’s why societies develop ethics and even public laws if ethics are not strong enough to protect us from ourselves and others.
 

Sugar, sugar

When I was growing up in small-town Alabama during the Depression and World War II, we called it sugar diabetes. Eat too much sugar, you got fat; your blood sugar went up, and you spilled sugar into your urine. Diabetes was fairly rare, and so was obesity. Doctors treated it by limiting the intake of sugar (and various sweet foods), along with attempting weight loss. If that didn’t do the trick, insulin injections.

From then until now, note these trends.

• 1920: 0.2% of the population
• 1930: 0.3% of the population
• 1940: 0.4% of the population

In 2020, although 11.3% of the population was diagnosed with type 2 diabetes, the unknown undiagnosed proportion could be much higher.

Notice a correlation between sugar consumption and prevalence of diabetes? Of course, correlation is not causation, but at the same time, it sure as hell is not negation. Such concordance can be considered hypothesis generating. It may not be true causation, but it’s a good bet when 89% of people with diabetes have overweight or obesity.

What did the entire medical, public health, government, agriculture, nursing, food manufacturing, marketing, advertising, restaurant, and education constituencies do about this as it was happening? They observed, documented, gave lip service, and wrung their hands in public a bit. I do not believe that this is an organized active conspiracy; it would take too many players cooperating over too long a period of time. But it certainly may be a passive conspiracy, and primary care physicians and their patients are trapped.

The proper daily practice of medicine consists of one patient, one physician, one moment, and one decision. Let it be a shared decision, informed by the best evidence and taking cost into consideration. That encounter represents an opportunity, a responsibility, and a conundrum.

Individual health is subsumed under the collective health of the public. As such, a patient’s health is out of the control of both physician and patient; instead, patients are the beneficiaries or victims of the “marketplace.” Humans are frail and easily taken advantage of by the brilliant and highly motivated strategic planning and execution of Big Agriculture, Big Food, Big Pharma, Big Marketing, and Big Money-Driven Medicine and generally failed by Big Government, Big Public Health, Big Education, Big Psychology, and Big Religion.
 

Rethinking diabetes

Consider diabetes as one of many examples. What a terrific deal for capitalism. First, the system spends decades fattening us up; then, it makes massive amounts of money off of the myriad complications of the fattened populace; then it discovers (invents) long-term, very expensive, compelling treatments to slim us down, with no end in sight, and still without ever understanding the true nature of diabetes.

Gary Taubes’s great new book, “Rethinking Diabetes: What Science Reveals About Diet, Insulin, and Successful Treatments,” is being published by Alfred A. Knopf in early 2024.

It is 404 pages of (dense) text, with 401 numbered references and footnotes, a bibliography of 790 references, alphabetically arranged for easy cross-checking, and a 25-page index.

Remember Mr. Taubes’s earlier definitive historical treatises: “Good Calories, Bad Calories” (2007), “Why We Get Fat” (2010), “The Case Against Sugar” (2016), and “The Case for Keto” (2020)?

This new book is more like “Good Calories, Bad Calories”: long, dense, detailed, definitive, and of great historical reference value, including original research information from other countries in other languages. The author told me that the many early research reference sources were available only in German and that his use of generative artificial intelligence as an assistant researcher was of great value.

Nonphysician author Mr. Taubes uses his deep understanding of science and history to inform his long-honed talents of impartial investigative journalism as he attempts to understand and then explain why after all these years, the medical scientific community still does not have a sound consensus about the essence of diabetes, diet, insulin, and proper prevention and treatment at a level that is actually effective – amazing and so sad.

To signal these evolved and evolving conflicts, the book includes the following chapters:

• “Rise of the Carbohydrate-Rich and Very-Low-Carbohydrate Diets”
• “The Fear of Fat and High-Fat Diets”
• “Insulin and The End of Carbohydrate Restriction and Low Blood Sugar”

Yes, it is difficult. Imagine the bookend segments: “The Nature of Medical Knowledge” and “The Conflicts of Evidence-Based Medicine.” There is also a detailed discussion of good versus bad science spanning three long chapters.

If all that reads like a greatly confused mess to you then you’re beginning to understand. If you are a fan of an unbiased explication of the evolution of understanding the ins and outs of scientific history in richly documented detail, this is a book for you. It’s not a quick nor easy read. And don’t expect to discover whether the newest wonder drugs for weight loss and control of diabetes will be the long-term solution for people with obesity and diabetes worldwide.

Obesity and overweight are major risk factors for type 2 diabetes. About 90% of patients with diabetes have either overweight or obesity. Thus, the complications of these two conditions, which largely overlap, include atherosclerotic cardiovascular disease; myocardial infarction; stroke; hypertension; metabolic syndrome; lower-extremity gangrene; chronic kidney disease; retinopathy; glaucoma; cataracts; disabling osteoarthritis; breast, endometrial, colon, and other cancers; fatty liver; sleep apnea; and peripheral neuropathy. These diseases create a major lucrative business for a wide swathe of medical and surgical specialties, plus hospital, clinic, device, pharmaceutical, and food industries.

In summary, we’ve just been through 40 years of failure to recognize the sugar-elephant in the room and intervene with serious preventive efforts. Forty years of fleshing out both the populace and the American medical-industrial complex (AMIC). Talk about a sweet spot. The only successful long-term treatment of obesity (and with it, diabetes) is prevention. Don’t emphasize losing weight. Focus on preventing excessive weight gain, right now, for the population, beginning with yourselves. Otherwise, we continue openly to perpetuate a terrific deal for the AMIC, a travesty for everyone else. Time for some industrial grade penance and a course correction.

Meanwhile, here we are living out Big Pharma’s dream of a big populace, produced by the agriculture and food industries, enjoyed by capitalism after failures of education, medicine, and public health: a seemingly endless supply of people living with big complications who are ready for big (expensive, new) medications to fix the world’s big health problems.

Dr. Lundberg is editor in chief, Cancer Commons. He has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Doctor, if you are caring for patients with diabetes, I sure hope you know more about it than I do. The longer I live, it seems, the less I understand.

In a free society, people can do what they want, and that’s great except when it isn’t. That’s why societies develop ethics and even public laws if ethics are not strong enough to protect us from ourselves and others.
 

Sugar, sugar

When I was growing up in small-town Alabama during the Depression and World War II, we called it sugar diabetes. Eat too much sugar, you got fat; your blood sugar went up, and you spilled sugar into your urine. Diabetes was fairly rare, and so was obesity. Doctors treated it by limiting the intake of sugar (and various sweet foods), along with attempting weight loss. If that didn’t do the trick, insulin injections.

From then until now, note these trends.

• 1920: 0.2% of the population
• 1930: 0.3% of the population
• 1940: 0.4% of the population

In 2020, although 11.3% of the population was diagnosed with type 2 diabetes, the unknown undiagnosed proportion could be much higher.

Notice a correlation between sugar consumption and prevalence of diabetes? Of course, correlation is not causation, but at the same time, it sure as hell is not negation. Such concordance can be considered hypothesis generating. It may not be true causation, but it’s a good bet when 89% of people with diabetes have overweight or obesity.

What did the entire medical, public health, government, agriculture, nursing, food manufacturing, marketing, advertising, restaurant, and education constituencies do about this as it was happening? They observed, documented, gave lip service, and wrung their hands in public a bit. I do not believe that this is an organized active conspiracy; it would take too many players cooperating over too long a period of time. But it certainly may be a passive conspiracy, and primary care physicians and their patients are trapped.

The proper daily practice of medicine consists of one patient, one physician, one moment, and one decision. Let it be a shared decision, informed by the best evidence and taking cost into consideration. That encounter represents an opportunity, a responsibility, and a conundrum.

Individual health is subsumed under the collective health of the public. As such, a patient’s health is out of the control of both physician and patient; instead, patients are the beneficiaries or victims of the “marketplace.” Humans are frail and easily taken advantage of by the brilliant and highly motivated strategic planning and execution of Big Agriculture, Big Food, Big Pharma, Big Marketing, and Big Money-Driven Medicine and generally failed by Big Government, Big Public Health, Big Education, Big Psychology, and Big Religion.
 

Rethinking diabetes

Consider diabetes as one of many examples. What a terrific deal for capitalism. First, the system spends decades fattening us up; then, it makes massive amounts of money off of the myriad complications of the fattened populace; then it discovers (invents) long-term, very expensive, compelling treatments to slim us down, with no end in sight, and still without ever understanding the true nature of diabetes.

Gary Taubes’s great new book, “Rethinking Diabetes: What Science Reveals About Diet, Insulin, and Successful Treatments,” is being published by Alfred A. Knopf in early 2024.

It is 404 pages of (dense) text, with 401 numbered references and footnotes, a bibliography of 790 references, alphabetically arranged for easy cross-checking, and a 25-page index.

Remember Mr. Taubes’s earlier definitive historical treatises: “Good Calories, Bad Calories” (2007), “Why We Get Fat” (2010), “The Case Against Sugar” (2016), and “The Case for Keto” (2020)?

This new book is more like “Good Calories, Bad Calories”: long, dense, detailed, definitive, and of great historical reference value, including original research information from other countries in other languages. The author told me that the many early research reference sources were available only in German and that his use of generative artificial intelligence as an assistant researcher was of great value.

Nonphysician author Mr. Taubes uses his deep understanding of science and history to inform his long-honed talents of impartial investigative journalism as he attempts to understand and then explain why after all these years, the medical scientific community still does not have a sound consensus about the essence of diabetes, diet, insulin, and proper prevention and treatment at a level that is actually effective – amazing and so sad.

To signal these evolved and evolving conflicts, the book includes the following chapters:

• “Rise of the Carbohydrate-Rich and Very-Low-Carbohydrate Diets”
• “The Fear of Fat and High-Fat Diets”
• “Insulin and The End of Carbohydrate Restriction and Low Blood Sugar”

Yes, it is difficult. Imagine the bookend segments: “The Nature of Medical Knowledge” and “The Conflicts of Evidence-Based Medicine.” There is also a detailed discussion of good versus bad science spanning three long chapters.

If all that reads like a greatly confused mess to you then you’re beginning to understand. If you are a fan of an unbiased explication of the evolution of understanding the ins and outs of scientific history in richly documented detail, this is a book for you. It’s not a quick nor easy read. And don’t expect to discover whether the newest wonder drugs for weight loss and control of diabetes will be the long-term solution for people with obesity and diabetes worldwide.

Obesity and overweight are major risk factors for type 2 diabetes. About 90% of patients with diabetes have either overweight or obesity. Thus, the complications of these two conditions, which largely overlap, include atherosclerotic cardiovascular disease; myocardial infarction; stroke; hypertension; metabolic syndrome; lower-extremity gangrene; chronic kidney disease; retinopathy; glaucoma; cataracts; disabling osteoarthritis; breast, endometrial, colon, and other cancers; fatty liver; sleep apnea; and peripheral neuropathy. These diseases create a major lucrative business for a wide swathe of medical and surgical specialties, plus hospital, clinic, device, pharmaceutical, and food industries.

In summary, we’ve just been through 40 years of failure to recognize the sugar-elephant in the room and intervene with serious preventive efforts. Forty years of fleshing out both the populace and the American medical-industrial complex (AMIC). Talk about a sweet spot. The only successful long-term treatment of obesity (and with it, diabetes) is prevention. Don’t emphasize losing weight. Focus on preventing excessive weight gain, right now, for the population, beginning with yourselves. Otherwise, we continue openly to perpetuate a terrific deal for the AMIC, a travesty for everyone else. Time for some industrial grade penance and a course correction.

Meanwhile, here we are living out Big Pharma’s dream of a big populace, produced by the agriculture and food industries, enjoyed by capitalism after failures of education, medicine, and public health: a seemingly endless supply of people living with big complications who are ready for big (expensive, new) medications to fix the world’s big health problems.

Dr. Lundberg is editor in chief, Cancer Commons. He has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

Alcohol consumption, including risky drinking behaviors, is common among adult cancer survivors, even people currently receiving cancer treatment, new research shows.

An analysis of more than 15,000 adults with a cancer diagnosis revealed that nearly 80% were current drinkers. Among current drinkers, 13% consumed a moderate amount of alcohol in a typical day, while close to 40% engaged in hazardous drinking.

The numbers are “staggering,” Yin Cao, ScD, MPH, of Washington University in St. Louis, said in an interview. “Most concerning is that those on cancer treatment are engaged in a similar level of risky drinking.”

The study was published online in JAMA Network Open.

Drinking alcohol can increase a person’s risk for a variety of cancers, including oral and pharyngeal cancer as well as esophageal, colorectal, liver, and female breast cancers.

Consuming alcohol is also associated with numerous risks among people diagnosed with cancer. In the short term, alcohol consumption can worsen postsurgical outcomes as well as impair cognition and amplify cardiotoxicity in patients undergoing chemotherapy. In the long term, drinking alcohol can elevate a person’s risk of recurrence, secondary tumors, and mortality.

The American Society of Clinical Oncology recently issued a statement reinforcing the need to prioritize alcohol consumption as a key modifiable behavioral factor in the cancer control research agenda.

The current American Cancer Society guidelines indicate that it’s best to avoid or, at least, minimize alcohol consumption. Men should limit their intake to no more than two drinks per day and women should have no more than one drink per day.

Despite this data and guidelines, alcohol drinking patterns among cancer survivors in the United States remain poorly understood.

To explore further, the researchers identified 15,199 adult cancer survivors enrolled in the National Institutes of Health’s All of Us Research Program.

Overall, 78% of the cohort – more than 11,800 individuals – were current drinkers. In a typical day, 24% engaged in binge drinking – consuming six or more drinks on a single occasion – and 38% engaged in hazardous drinking. Using the Alcohol Use Disorders Identification Test–Consumption, the researchers classified hazardous drinking as scores of 4 or higher in men and 3 or higher in women.

Drinking patterns looked similar in the subset of 1,839 patients undergoing cancer treatment. In this group, 76% were current drinkers. Among current drinkers, 12% exceeded moderate drinking levels, 23% reported binge drinking, and 38% engaged in hazardous drinking. In this group, men, Hispanics, people diagnosed with cancer before age 18, and smokers were more likely to engage in risky drinking behaviors.

“We know that many people who are diagnosed with cancer continue to drink alcohol, but this study provides much more detailed information about that,” said Farhad Islami, MD, PhD, senior scientific director for cancer disparity research at the American Cancer Society, Atlanta, who was not involved in the study.

Given the degree of drinking identified in this population, Dr. Cao highlighted the importance of talking to patients about alcohol.

“Our findings highlight an opportunity for enhanced support and intervention concerning risky drinking behaviors” in oncology, Dr. Cao said. “Given the societal norms surrounding alcohol and the general lack of awareness of alcohol’s short- and long-term impact on cancer outcomes, gently educating patients/survivors about potential risks while understanding the cultural and societal contexts of drinking can make a difference.”

Dr. Islami agreed that oncologists should talk to their patients about alcohol, “especially those going through active treatment because alcohol may affect the treatment or may be associated with more complications of the treatment.”

“Many people now know that smoking causes cancer, but unfortunately, many people do not know about the association of alcohol with cancer,” he said.

Outside of an awareness gap, there are numerous risk factors for substance abuse among cancer survivors, Marleen Meyers, MD, director of the cancer survivorship program at NYU Langone Perlmutter Cancer Center, New York, explained.

Alcohol can help some cancer survivors dull feelings of isolation, fear, stress, and poor pain management that may accompany their diagnosis and treatment, said Dr. Meyers, who was not involved in the research. That is why “it is important for patients to be honest with their providers and for providers to ask about substance use in a nonjudgmental way.”

In these conversations, oncologists should educate patients about the safety risks associated with alcohol intake during or after treatment and that there is no established “safe” amount of alcohol. Incorporating a mental health screening and questions about a family history of substance abuse can also help identify patients “most at risk so providers can be proactive,” she said.

The study was supported by a grant from the NIH. Dr. Cao, Dr. Islami, and Dr. Meyers report no relevant financial relationships.

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

Alcohol consumption, including risky drinking behaviors, is common among adult cancer survivors, even people currently receiving cancer treatment, new research shows.

An analysis of more than 15,000 adults with a cancer diagnosis revealed that nearly 80% were current drinkers. Among current drinkers, 13% consumed a moderate amount of alcohol in a typical day, while close to 40% engaged in hazardous drinking.

The numbers are “staggering,” Yin Cao, ScD, MPH, of Washington University in St. Louis, said in an interview. “Most concerning is that those on cancer treatment are engaged in a similar level of risky drinking.”

The study was published online in JAMA Network Open.

Drinking alcohol can increase a person’s risk for a variety of cancers, including oral and pharyngeal cancer as well as esophageal, colorectal, liver, and female breast cancers.

Consuming alcohol is also associated with numerous risks among people diagnosed with cancer. In the short term, alcohol consumption can worsen postsurgical outcomes as well as impair cognition and amplify cardiotoxicity in patients undergoing chemotherapy. In the long term, drinking alcohol can elevate a person’s risk of recurrence, secondary tumors, and mortality.

The American Society of Clinical Oncology recently issued a statement reinforcing the need to prioritize alcohol consumption as a key modifiable behavioral factor in the cancer control research agenda.

The current American Cancer Society guidelines indicate that it’s best to avoid or, at least, minimize alcohol consumption. Men should limit their intake to no more than two drinks per day and women should have no more than one drink per day.

Despite this data and guidelines, alcohol drinking patterns among cancer survivors in the United States remain poorly understood.

To explore further, the researchers identified 15,199 adult cancer survivors enrolled in the National Institutes of Health’s All of Us Research Program.

Overall, 78% of the cohort – more than 11,800 individuals – were current drinkers. In a typical day, 24% engaged in binge drinking – consuming six or more drinks on a single occasion – and 38% engaged in hazardous drinking. Using the Alcohol Use Disorders Identification Test–Consumption, the researchers classified hazardous drinking as scores of 4 or higher in men and 3 or higher in women.

Drinking patterns looked similar in the subset of 1,839 patients undergoing cancer treatment. In this group, 76% were current drinkers. Among current drinkers, 12% exceeded moderate drinking levels, 23% reported binge drinking, and 38% engaged in hazardous drinking. In this group, men, Hispanics, people diagnosed with cancer before age 18, and smokers were more likely to engage in risky drinking behaviors.

“We know that many people who are diagnosed with cancer continue to drink alcohol, but this study provides much more detailed information about that,” said Farhad Islami, MD, PhD, senior scientific director for cancer disparity research at the American Cancer Society, Atlanta, who was not involved in the study.

Given the degree of drinking identified in this population, Dr. Cao highlighted the importance of talking to patients about alcohol.

“Our findings highlight an opportunity for enhanced support and intervention concerning risky drinking behaviors” in oncology, Dr. Cao said. “Given the societal norms surrounding alcohol and the general lack of awareness of alcohol’s short- and long-term impact on cancer outcomes, gently educating patients/survivors about potential risks while understanding the cultural and societal contexts of drinking can make a difference.”

Dr. Islami agreed that oncologists should talk to their patients about alcohol, “especially those going through active treatment because alcohol may affect the treatment or may be associated with more complications of the treatment.”

“Many people now know that smoking causes cancer, but unfortunately, many people do not know about the association of alcohol with cancer,” he said.

Outside of an awareness gap, there are numerous risk factors for substance abuse among cancer survivors, Marleen Meyers, MD, director of the cancer survivorship program at NYU Langone Perlmutter Cancer Center, New York, explained.

Alcohol can help some cancer survivors dull feelings of isolation, fear, stress, and poor pain management that may accompany their diagnosis and treatment, said Dr. Meyers, who was not involved in the research. That is why “it is important for patients to be honest with their providers and for providers to ask about substance use in a nonjudgmental way.”

In these conversations, oncologists should educate patients about the safety risks associated with alcohol intake during or after treatment and that there is no established “safe” amount of alcohol. Incorporating a mental health screening and questions about a family history of substance abuse can also help identify patients “most at risk so providers can be proactive,” she said.

The study was supported by a grant from the NIH. Dr. Cao, Dr. Islami, and Dr. Meyers report no relevant financial relationships.

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

Alcohol consumption, including risky drinking behaviors, is common among adult cancer survivors, even people currently receiving cancer treatment, new research shows.

An analysis of more than 15,000 adults with a cancer diagnosis revealed that nearly 80% were current drinkers. Among current drinkers, 13% consumed a moderate amount of alcohol in a typical day, while close to 40% engaged in hazardous drinking.

The numbers are “staggering,” Yin Cao, ScD, MPH, of Washington University in St. Louis, said in an interview. “Most concerning is that those on cancer treatment are engaged in a similar level of risky drinking.”

The study was published online in JAMA Network Open.

Drinking alcohol can increase a person’s risk for a variety of cancers, including oral and pharyngeal cancer as well as esophageal, colorectal, liver, and female breast cancers.

Consuming alcohol is also associated with numerous risks among people diagnosed with cancer. In the short term, alcohol consumption can worsen postsurgical outcomes as well as impair cognition and amplify cardiotoxicity in patients undergoing chemotherapy. In the long term, drinking alcohol can elevate a person’s risk of recurrence, secondary tumors, and mortality.

The American Society of Clinical Oncology recently issued a statement reinforcing the need to prioritize alcohol consumption as a key modifiable behavioral factor in the cancer control research agenda.

The current American Cancer Society guidelines indicate that it’s best to avoid or, at least, minimize alcohol consumption. Men should limit their intake to no more than two drinks per day and women should have no more than one drink per day.

Despite this data and guidelines, alcohol drinking patterns among cancer survivors in the United States remain poorly understood.

To explore further, the researchers identified 15,199 adult cancer survivors enrolled in the National Institutes of Health’s All of Us Research Program.

Overall, 78% of the cohort – more than 11,800 individuals – were current drinkers. In a typical day, 24% engaged in binge drinking – consuming six or more drinks on a single occasion – and 38% engaged in hazardous drinking. Using the Alcohol Use Disorders Identification Test–Consumption, the researchers classified hazardous drinking as scores of 4 or higher in men and 3 or higher in women.

Drinking patterns looked similar in the subset of 1,839 patients undergoing cancer treatment. In this group, 76% were current drinkers. Among current drinkers, 12% exceeded moderate drinking levels, 23% reported binge drinking, and 38% engaged in hazardous drinking. In this group, men, Hispanics, people diagnosed with cancer before age 18, and smokers were more likely to engage in risky drinking behaviors.

“We know that many people who are diagnosed with cancer continue to drink alcohol, but this study provides much more detailed information about that,” said Farhad Islami, MD, PhD, senior scientific director for cancer disparity research at the American Cancer Society, Atlanta, who was not involved in the study.

Given the degree of drinking identified in this population, Dr. Cao highlighted the importance of talking to patients about alcohol.

“Our findings highlight an opportunity for enhanced support and intervention concerning risky drinking behaviors” in oncology, Dr. Cao said. “Given the societal norms surrounding alcohol and the general lack of awareness of alcohol’s short- and long-term impact on cancer outcomes, gently educating patients/survivors about potential risks while understanding the cultural and societal contexts of drinking can make a difference.”

Dr. Islami agreed that oncologists should talk to their patients about alcohol, “especially those going through active treatment because alcohol may affect the treatment or may be associated with more complications of the treatment.”

“Many people now know that smoking causes cancer, but unfortunately, many people do not know about the association of alcohol with cancer,” he said.

Outside of an awareness gap, there are numerous risk factors for substance abuse among cancer survivors, Marleen Meyers, MD, director of the cancer survivorship program at NYU Langone Perlmutter Cancer Center, New York, explained.

Alcohol can help some cancer survivors dull feelings of isolation, fear, stress, and poor pain management that may accompany their diagnosis and treatment, said Dr. Meyers, who was not involved in the research. That is why “it is important for patients to be honest with their providers and for providers to ask about substance use in a nonjudgmental way.”

In these conversations, oncologists should educate patients about the safety risks associated with alcohol intake during or after treatment and that there is no established “safe” amount of alcohol. Incorporating a mental health screening and questions about a family history of substance abuse can also help identify patients “most at risk so providers can be proactive,” she said.

The study was supported by a grant from the NIH. Dr. Cao, Dr. Islami, and Dr. Meyers report no relevant financial relationships.

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

For the first time in the fall of 2023, families will be offered season-long protection for infants and some children against respiratory syncytial virus (RSV).

The Food and Drug Administration in July approved a prevention called nirsevimab (Beyfortus, AstraZeneca/Sanofi) and it is expected to be widely rolled out in the coming weeks as the RSV season begins.

It’s not a vaccine, but a monoclonal antibody used for prevention. That may cause confusion because a vaccine for RSV was approved just 3 months ago for adults aged 60 and older. And monoclonal antibodies are often used for treatment rather than prevention.

Adding to potential confusion is the fact the Centers for Disease Control and Prevention has included nirsevimab in the Vaccines for Children program, which covers the costs for uninsured kids and makes it more accessible.

Nirsevimab is approved for infants (up to 8 months old) born during or entering their first RSV season, and in children up to 2 years of age who are still vulnerable to severe RSV through their second season.

It’s recommended that all infants get one injection in their first 8 months for prevention instead of the previous monthly shots used to help prevent kids at high risk from getting severe RSV.

If monoclonal antibodies can be used for preventing disease in infants, could they become a viable vaccine alternative for adults?

Specialists say no.

That’s partly because of the difference in body size. Although an injection is an option for a newborn, pediatricians suggest, it would take far too much of the treatment to work as a shot for adults.

Ruth Karron, MD, an expert in pediatric infectious diseases at Johns Hopkins Medicine, Baltimore, said that, while vaccines come in small amounts and activate immune cells, monoclonal antibodies are more like a drug, with the dose based on weight.

“You’d have to give it intravenously,” for larger doses, she explained, which has never been studied before and would also be very expensive. “It really couldn’t be an option for adults.”
 

What’s the difference between vaccines and antibodies?

Monoclonal antibodies are proteins made in a lab to mimic the immune system’s ability to fight pathogens such as viruses.

Dr. Karron explained that a wide variety of monoclonal antibodies have long been used to treat diseases such as cancers and autoimmune disease. In recent years, the antibodies have been used to treat COVID.

Monoclonal antibodies have also been used to treat RSV in children, but the effects don’t last long – they confer passive immunity and “when it’s gone, it’s gone,” Dr. Karron said.

That means kids at high risk for severe RSV have had to get monthly injections.

But with nirsevimab, the mutated antibodies stay in circulation longer so they can last 5 or 6 months, enough to cover the RSV season, Dr. Karron explained. “It’s highly, highly effective.”
 

Vaccines train the body

“The idea with vaccines is that you engage the individual’s immune system. You teach it to make antibodies,” Dr. Karron said. Conversely, “you give an antibody and it’s good for as long as the antibody lasts. It’s not teaching your body anything.”

Frank Esper, MD, a pediatric infectious disease specialist at Cleveland Clinic Children’s Hospital, said monoclonal antibody protection for RSV is particularly welcome. “We’ve been trying to make an RSV vaccine since the 1960s and have done nothing but fail miserably.”

“The best thing is always a vaccine,” Dr. Esper said, explaining that vaccines teach the body to make its own antibodies and confer long-term protection and are “probably more efficacious than anything that’s ever manmade.

“But since we’ve really not done very well for pediatric RSV vaccines, nirsevimab is certainly something I’m looking forward to,” he said.
 

Fast-acting monoclonal antibodies

An advantage for monoclonal antibodies is that they start working almost immediately.

Children can get sick with RSV in the first few months of life so the speed of the monoclonal antibodies to begin protection is important, Dr. Esper said, adding that RSV “is the worst during the first year of life.”

The peak age for babies getting infected enough to require hospitalization is about 2 months, he said.

By 14 months, he said, kids’ immune systems and airways have matured enough “that it’s not nearly as bad.”

To get protection from a vaccine, he added, “usually takes 2-4 weeks from the time you get your shot to the time you see some benefit. With an antibody, you’re bypassing the processing that the body has to do, and it goes straight to ‘protection’ mode,” Dr. Esper said. “You get protected pretty much as soon as you get the antibody.”

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

For the first time in the fall of 2023, families will be offered season-long protection for infants and some children against respiratory syncytial virus (RSV).

The Food and Drug Administration in July approved a prevention called nirsevimab (Beyfortus, AstraZeneca/Sanofi) and it is expected to be widely rolled out in the coming weeks as the RSV season begins.

It’s not a vaccine, but a monoclonal antibody used for prevention. That may cause confusion because a vaccine for RSV was approved just 3 months ago for adults aged 60 and older. And monoclonal antibodies are often used for treatment rather than prevention.

Adding to potential confusion is the fact the Centers for Disease Control and Prevention has included nirsevimab in the Vaccines for Children program, which covers the costs for uninsured kids and makes it more accessible.

Nirsevimab is approved for infants (up to 8 months old) born during or entering their first RSV season, and in children up to 2 years of age who are still vulnerable to severe RSV through their second season.

It’s recommended that all infants get one injection in their first 8 months for prevention instead of the previous monthly shots used to help prevent kids at high risk from getting severe RSV.

If monoclonal antibodies can be used for preventing disease in infants, could they become a viable vaccine alternative for adults?

Specialists say no.

That’s partly because of the difference in body size. Although an injection is an option for a newborn, pediatricians suggest, it would take far too much of the treatment to work as a shot for adults.

Ruth Karron, MD, an expert in pediatric infectious diseases at Johns Hopkins Medicine, Baltimore, said that, while vaccines come in small amounts and activate immune cells, monoclonal antibodies are more like a drug, with the dose based on weight.

“You’d have to give it intravenously,” for larger doses, she explained, which has never been studied before and would also be very expensive. “It really couldn’t be an option for adults.”
 

What’s the difference between vaccines and antibodies?

Monoclonal antibodies are proteins made in a lab to mimic the immune system’s ability to fight pathogens such as viruses.

Dr. Karron explained that a wide variety of monoclonal antibodies have long been used to treat diseases such as cancers and autoimmune disease. In recent years, the antibodies have been used to treat COVID.

Monoclonal antibodies have also been used to treat RSV in children, but the effects don’t last long – they confer passive immunity and “when it’s gone, it’s gone,” Dr. Karron said.

That means kids at high risk for severe RSV have had to get monthly injections.

But with nirsevimab, the mutated antibodies stay in circulation longer so they can last 5 or 6 months, enough to cover the RSV season, Dr. Karron explained. “It’s highly, highly effective.”
 

Vaccines train the body

“The idea with vaccines is that you engage the individual’s immune system. You teach it to make antibodies,” Dr. Karron said. Conversely, “you give an antibody and it’s good for as long as the antibody lasts. It’s not teaching your body anything.”

Frank Esper, MD, a pediatric infectious disease specialist at Cleveland Clinic Children’s Hospital, said monoclonal antibody protection for RSV is particularly welcome. “We’ve been trying to make an RSV vaccine since the 1960s and have done nothing but fail miserably.”

“The best thing is always a vaccine,” Dr. Esper said, explaining that vaccines teach the body to make its own antibodies and confer long-term protection and are “probably more efficacious than anything that’s ever manmade.

“But since we’ve really not done very well for pediatric RSV vaccines, nirsevimab is certainly something I’m looking forward to,” he said.
 

Fast-acting monoclonal antibodies

An advantage for monoclonal antibodies is that they start working almost immediately.

Children can get sick with RSV in the first few months of life so the speed of the monoclonal antibodies to begin protection is important, Dr. Esper said, adding that RSV “is the worst during the first year of life.”

The peak age for babies getting infected enough to require hospitalization is about 2 months, he said.

By 14 months, he said, kids’ immune systems and airways have matured enough “that it’s not nearly as bad.”

To get protection from a vaccine, he added, “usually takes 2-4 weeks from the time you get your shot to the time you see some benefit. With an antibody, you’re bypassing the processing that the body has to do, and it goes straight to ‘protection’ mode,” Dr. Esper said. “You get protected pretty much as soon as you get the antibody.”

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

For the first time in the fall of 2023, families will be offered season-long protection for infants and some children against respiratory syncytial virus (RSV).

The Food and Drug Administration in July approved a prevention called nirsevimab (Beyfortus, AstraZeneca/Sanofi) and it is expected to be widely rolled out in the coming weeks as the RSV season begins.

It’s not a vaccine, but a monoclonal antibody used for prevention. That may cause confusion because a vaccine for RSV was approved just 3 months ago for adults aged 60 and older. And monoclonal antibodies are often used for treatment rather than prevention.

Adding to potential confusion is the fact the Centers for Disease Control and Prevention has included nirsevimab in the Vaccines for Children program, which covers the costs for uninsured kids and makes it more accessible.

Nirsevimab is approved for infants (up to 8 months old) born during or entering their first RSV season, and in children up to 2 years of age who are still vulnerable to severe RSV through their second season.

It’s recommended that all infants get one injection in their first 8 months for prevention instead of the previous monthly shots used to help prevent kids at high risk from getting severe RSV.

If monoclonal antibodies can be used for preventing disease in infants, could they become a viable vaccine alternative for adults?

Specialists say no.

That’s partly because of the difference in body size. Although an injection is an option for a newborn, pediatricians suggest, it would take far too much of the treatment to work as a shot for adults.

Ruth Karron, MD, an expert in pediatric infectious diseases at Johns Hopkins Medicine, Baltimore, said that, while vaccines come in small amounts and activate immune cells, monoclonal antibodies are more like a drug, with the dose based on weight.

“You’d have to give it intravenously,” for larger doses, she explained, which has never been studied before and would also be very expensive. “It really couldn’t be an option for adults.”
 

What’s the difference between vaccines and antibodies?

Monoclonal antibodies are proteins made in a lab to mimic the immune system’s ability to fight pathogens such as viruses.

Dr. Karron explained that a wide variety of monoclonal antibodies have long been used to treat diseases such as cancers and autoimmune disease. In recent years, the antibodies have been used to treat COVID.

Monoclonal antibodies have also been used to treat RSV in children, but the effects don’t last long – they confer passive immunity and “when it’s gone, it’s gone,” Dr. Karron said.

That means kids at high risk for severe RSV have had to get monthly injections.

But with nirsevimab, the mutated antibodies stay in circulation longer so they can last 5 or 6 months, enough to cover the RSV season, Dr. Karron explained. “It’s highly, highly effective.”
 

Vaccines train the body

“The idea with vaccines is that you engage the individual’s immune system. You teach it to make antibodies,” Dr. Karron said. Conversely, “you give an antibody and it’s good for as long as the antibody lasts. It’s not teaching your body anything.”

Frank Esper, MD, a pediatric infectious disease specialist at Cleveland Clinic Children’s Hospital, said monoclonal antibody protection for RSV is particularly welcome. “We’ve been trying to make an RSV vaccine since the 1960s and have done nothing but fail miserably.”

“The best thing is always a vaccine,” Dr. Esper said, explaining that vaccines teach the body to make its own antibodies and confer long-term protection and are “probably more efficacious than anything that’s ever manmade.

“But since we’ve really not done very well for pediatric RSV vaccines, nirsevimab is certainly something I’m looking forward to,” he said.
 

Fast-acting monoclonal antibodies

An advantage for monoclonal antibodies is that they start working almost immediately.

Children can get sick with RSV in the first few months of life so the speed of the monoclonal antibodies to begin protection is important, Dr. Esper said, adding that RSV “is the worst during the first year of life.”

The peak age for babies getting infected enough to require hospitalization is about 2 months, he said.

By 14 months, he said, kids’ immune systems and airways have matured enough “that it’s not nearly as bad.”

To get protection from a vaccine, he added, “usually takes 2-4 weeks from the time you get your shot to the time you see some benefit. With an antibody, you’re bypassing the processing that the body has to do, and it goes straight to ‘protection’ mode,” Dr. Esper said. “You get protected pretty much as soon as you get the antibody.”

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

PARIS – Oxygen therapy is used too often in patients with respiratory difficulties, says one expert, and should be given only when oxygen saturation levels (SpO₂) drop below 93%, as per the current guidelines. Florian Negrello, MD, an emergency medicine specialist at University Hospital of Martinique in Fort-de-France, reiterated this message at the 2023 conference held by France’s emergency medicine society (Urgences 2023). The recommendation is intended to prevent hyperoxia; increasing evidence indicates the harmful effects of such a state on the body. 

“This is a real problem. Oxygen therapy is given all too readily despite studies now showing that excess oxygen is harmful, especially in patients with head trauma, ischemic stroke, or cardiac arrest,” stated the session’s moderator, Patrick Plaisance, MD, PhD, a doctor at Lariboisière Hospital in Paris. 
 

No proven hypoxia

Described as difficulty breathing or shortness of breath, dyspnea is common in the emergency department, occurring in 5%-9% of patients. Close to 20% of intensive care unit admissions involve patients with dyspnea. “Since this is a very subjective symptom, it’s possible it’s being underdiagnosed,” said Dr. Negrello.

Lower respiratory tract infection, acute heart failure, chronic obstructive pulmonary disease, and exacerbation of asthma are the four main diagnoses linked to dyspnea, but this symptom is also seen in several medical conditions (gastrointestinal, metabolic, neurologic, etc.), he noted. 

Often seen as a harmless treatment option, oxygen therapy is commonly administered to patients with breathing difficulties even when no hypoxemia is documented. This is particularly the case for patients brought into hospital via ambulance who are treated with oxygen without even having had their blood oxygen levels, SpO₂, and partial pressure of oxygen checked. 

In the United States, one of the few studies published on the topic showed that one-third of patients transported via ambulance are put on oxygen, with SpO₂ being measured in just 5% of these cases. Finally, just 17% of patients receiving oxygen were experiencing hypoxia, defined as SpO₂ < 94%. 
 

Oxidative stress 

Recently, several research studies have revealed the potential dangers of unjustified use of oxygen, which can lead to hyperoxia and increased mortality in hospitalized patients. 

A meta-analysis reported a linear relationship between severe hyperoxia, in-hospital mortality, and length of stay in intensive care. Another study revealed a greater mortality rate in patients with acute respiratory distress syndrome (ARDS) experiencing an episode of hyperoxia, regardless of the severity of ARDS. 

Oxygen toxicity in intensive care is said to be linked to oxidative stress caused by increased growth of reactive oxygen species but also to the systemic inflammation caused by hyperoxia, explained Dr. Negrello. Excess oxygen may also cause lung lesions with necrosis, the severity of which is proportional to the fraction of inspired oxygen and the length of exposure. 

According to the most up-to-date international recommendations published in 2018 on the use of oxygen therapy in treating acute conditions, oxygen should not be used when SpO₂ ≥ 93%. When treatment has been started, it must be stopped when SpO₂ reaches 96%. SpO₂ cannot be maintained above 96%, according to experts. 

These threshold values can be found in the COVID-19 treatment guidelines produced by the French-Language Society of Respiratory Medicine, with oxygen therapy being recommended when SpO₂ < 92%, added Dr. Negrello. The aim is to maintain normal oxygen levels, with SpO₂ between 92% and 96%. 
 

Use sparingly 

For patients with COPD, the target levels are lower, due to the risk of hypercapnia (higher than normal carbon dioxide levels in the blood). Oxygen saturation levels should then be kept between 88% and 92%, “by using the minimum amount of oxygen necessary,” per the guidelines. 

“Oxygen should be used sparingly,” concluded Dr. Negrello. “To treat our patients without harming them, we must be able to use it at the right time, meaning when a patient really has low blood oxygen, by focusing on normal saturation levels as the end goal.”

SpO₂ measurement is the first step to be taken to determine oxygen requirements, followed by, if necessary, blood gas analysis once the patient has been admitted, he explained. 

Questioned at the end of his session on how long oxygen therapy can be given for, Dr. Negrello reiterated that the risk for death is correlated with the length of time spent in a state of hyperoxia but that it is difficult to establish a maximum timeframe to be adhered to strictly. 

Given that excess oxygen is harmful to patients in intensive care, “it would be better, when in doubt, to focus on physiological levels” and simply stop treatment when target saturation levels are reached. 

This article was translated from the Medscape French Edition. A version appeared on Medscape.com.

PARIS – Oxygen therapy is used too often in patients with respiratory difficulties, says one expert, and should be given only when oxygen saturation levels (SpO₂) drop below 93%, as per the current guidelines. Florian Negrello, MD, an emergency medicine specialist at University Hospital of Martinique in Fort-de-France, reiterated this message at the 2023 conference held by France’s emergency medicine society (Urgences 2023). The recommendation is intended to prevent hyperoxia; increasing evidence indicates the harmful effects of such a state on the body. 

“This is a real problem. Oxygen therapy is given all too readily despite studies now showing that excess oxygen is harmful, especially in patients with head trauma, ischemic stroke, or cardiac arrest,” stated the session’s moderator, Patrick Plaisance, MD, PhD, a doctor at Lariboisière Hospital in Paris. 
 

No proven hypoxia

Described as difficulty breathing or shortness of breath, dyspnea is common in the emergency department, occurring in 5%-9% of patients. Close to 20% of intensive care unit admissions involve patients with dyspnea. “Since this is a very subjective symptom, it’s possible it’s being underdiagnosed,” said Dr. Negrello.

Lower respiratory tract infection, acute heart failure, chronic obstructive pulmonary disease, and exacerbation of asthma are the four main diagnoses linked to dyspnea, but this symptom is also seen in several medical conditions (gastrointestinal, metabolic, neurologic, etc.), he noted. 

Often seen as a harmless treatment option, oxygen therapy is commonly administered to patients with breathing difficulties even when no hypoxemia is documented. This is particularly the case for patients brought into hospital via ambulance who are treated with oxygen without even having had their blood oxygen levels, SpO₂, and partial pressure of oxygen checked. 

In the United States, one of the few studies published on the topic showed that one-third of patients transported via ambulance are put on oxygen, with SpO₂ being measured in just 5% of these cases. Finally, just 17% of patients receiving oxygen were experiencing hypoxia, defined as SpO₂ < 94%. 
 

Oxidative stress 

Recently, several research studies have revealed the potential dangers of unjustified use of oxygen, which can lead to hyperoxia and increased mortality in hospitalized patients. 

A meta-analysis reported a linear relationship between severe hyperoxia, in-hospital mortality, and length of stay in intensive care. Another study revealed a greater mortality rate in patients with acute respiratory distress syndrome (ARDS) experiencing an episode of hyperoxia, regardless of the severity of ARDS. 

Oxygen toxicity in intensive care is said to be linked to oxidative stress caused by increased growth of reactive oxygen species but also to the systemic inflammation caused by hyperoxia, explained Dr. Negrello. Excess oxygen may also cause lung lesions with necrosis, the severity of which is proportional to the fraction of inspired oxygen and the length of exposure. 

According to the most up-to-date international recommendations published in 2018 on the use of oxygen therapy in treating acute conditions, oxygen should not be used when SpO₂ ≥ 93%. When treatment has been started, it must be stopped when SpO₂ reaches 96%. SpO₂ cannot be maintained above 96%, according to experts. 

These threshold values can be found in the COVID-19 treatment guidelines produced by the French-Language Society of Respiratory Medicine, with oxygen therapy being recommended when SpO₂ < 92%, added Dr. Negrello. The aim is to maintain normal oxygen levels, with SpO₂ between 92% and 96%. 
 

Use sparingly 

For patients with COPD, the target levels are lower, due to the risk of hypercapnia (higher than normal carbon dioxide levels in the blood). Oxygen saturation levels should then be kept between 88% and 92%, “by using the minimum amount of oxygen necessary,” per the guidelines. 

“Oxygen should be used sparingly,” concluded Dr. Negrello. “To treat our patients without harming them, we must be able to use it at the right time, meaning when a patient really has low blood oxygen, by focusing on normal saturation levels as the end goal.”

SpO₂ measurement is the first step to be taken to determine oxygen requirements, followed by, if necessary, blood gas analysis once the patient has been admitted, he explained. 

Questioned at the end of his session on how long oxygen therapy can be given for, Dr. Negrello reiterated that the risk for death is correlated with the length of time spent in a state of hyperoxia but that it is difficult to establish a maximum timeframe to be adhered to strictly. 

Given that excess oxygen is harmful to patients in intensive care, “it would be better, when in doubt, to focus on physiological levels” and simply stop treatment when target saturation levels are reached. 

This article was translated from the Medscape French Edition. A version appeared on Medscape.com.

PARIS – Oxygen therapy is used too often in patients with respiratory difficulties, says one expert, and should be given only when oxygen saturation levels (SpO₂) drop below 93%, as per the current guidelines. Florian Negrello, MD, an emergency medicine specialist at University Hospital of Martinique in Fort-de-France, reiterated this message at the 2023 conference held by France’s emergency medicine society (Urgences 2023). The recommendation is intended to prevent hyperoxia; increasing evidence indicates the harmful effects of such a state on the body. 

“This is a real problem. Oxygen therapy is given all too readily despite studies now showing that excess oxygen is harmful, especially in patients with head trauma, ischemic stroke, or cardiac arrest,” stated the session’s moderator, Patrick Plaisance, MD, PhD, a doctor at Lariboisière Hospital in Paris. 
 

No proven hypoxia

Described as difficulty breathing or shortness of breath, dyspnea is common in the emergency department, occurring in 5%-9% of patients. Close to 20% of intensive care unit admissions involve patients with dyspnea. “Since this is a very subjective symptom, it’s possible it’s being underdiagnosed,” said Dr. Negrello.

Lower respiratory tract infection, acute heart failure, chronic obstructive pulmonary disease, and exacerbation of asthma are the four main diagnoses linked to dyspnea, but this symptom is also seen in several medical conditions (gastrointestinal, metabolic, neurologic, etc.), he noted. 

Often seen as a harmless treatment option, oxygen therapy is commonly administered to patients with breathing difficulties even when no hypoxemia is documented. This is particularly the case for patients brought into hospital via ambulance who are treated with oxygen without even having had their blood oxygen levels, SpO₂, and partial pressure of oxygen checked. 

In the United States, one of the few studies published on the topic showed that one-third of patients transported via ambulance are put on oxygen, with SpO₂ being measured in just 5% of these cases. Finally, just 17% of patients receiving oxygen were experiencing hypoxia, defined as SpO₂ < 94%. 
 

Oxidative stress 

Recently, several research studies have revealed the potential dangers of unjustified use of oxygen, which can lead to hyperoxia and increased mortality in hospitalized patients. 

A meta-analysis reported a linear relationship between severe hyperoxia, in-hospital mortality, and length of stay in intensive care. Another study revealed a greater mortality rate in patients with acute respiratory distress syndrome (ARDS) experiencing an episode of hyperoxia, regardless of the severity of ARDS. 

Oxygen toxicity in intensive care is said to be linked to oxidative stress caused by increased growth of reactive oxygen species but also to the systemic inflammation caused by hyperoxia, explained Dr. Negrello. Excess oxygen may also cause lung lesions with necrosis, the severity of which is proportional to the fraction of inspired oxygen and the length of exposure. 

According to the most up-to-date international recommendations published in 2018 on the use of oxygen therapy in treating acute conditions, oxygen should not be used when SpO₂ ≥ 93%. When treatment has been started, it must be stopped when SpO₂ reaches 96%. SpO₂ cannot be maintained above 96%, according to experts. 

These threshold values can be found in the COVID-19 treatment guidelines produced by the French-Language Society of Respiratory Medicine, with oxygen therapy being recommended when SpO₂ < 92%, added Dr. Negrello. The aim is to maintain normal oxygen levels, with SpO₂ between 92% and 96%. 
 

Use sparingly 

For patients with COPD, the target levels are lower, due to the risk of hypercapnia (higher than normal carbon dioxide levels in the blood). Oxygen saturation levels should then be kept between 88% and 92%, “by using the minimum amount of oxygen necessary,” per the guidelines. 

“Oxygen should be used sparingly,” concluded Dr. Negrello. “To treat our patients without harming them, we must be able to use it at the right time, meaning when a patient really has low blood oxygen, by focusing on normal saturation levels as the end goal.”

SpO₂ measurement is the first step to be taken to determine oxygen requirements, followed by, if necessary, blood gas analysis once the patient has been admitted, he explained. 

Questioned at the end of his session on how long oxygen therapy can be given for, Dr. Negrello reiterated that the risk for death is correlated with the length of time spent in a state of hyperoxia but that it is difficult to establish a maximum timeframe to be adhered to strictly. 

Given that excess oxygen is harmful to patients in intensive care, “it would be better, when in doubt, to focus on physiological levels” and simply stop treatment when target saturation levels are reached. 

This article was translated from the Medscape French Edition. A version appeared on Medscape.com.

Across all industries, studies by the U.S. Department of Labor have shown that women, on average, earn 83.7 percent of what their male peers earn. While a lot has been written about the struggles women face in medicine, there have been decidedly fewer analyses that focus on women who choose to become mothers while working in medicine.

Elina Maymind

I’ve been privileged to work with medical students and residents for the last 8 years as the director of graduate and medical student mental health at Rowan-Virtua School of Osteopathic Medicine in Mt. Laurel, N.J. Often, the women I see as patients speak about their struggles with the elusive goal of “having it all.” While both men and women in medicine have difficulty maintaining a work-life balance, I’ve learned, both personally and professionally, that many women face a unique set of challenges.

No matter what their professional status, our society often views a woman as the default parent. For example, the teacher often calls the mothers first. The camp nurse calls me first, not my husband, when our child scrapes a knee. After-school play dates are arranged by the mothers, not fathers.

But mothers also bring to medicine a wealth of unique experiences, ideas, and viewpoints. They learn firsthand how to foster affect regulation and frustration tolerance in their kids and become efficient at managing the constant, conflicting tug of war of demands.

Some may argue that, over time, women end up earning significantly less than their male counterparts because they leave the workforce while on maternity leave, ultimately delaying their upward career progression. It’s likely a much more complex problem. Many of my patients believe that, in our male-dominated society (and workforce), women are punished for being aggressive or stating bold opinions, while men are rewarded for the same actions. While a man may sound forceful and in charge, a women will likely be thought of as brusque and unappreciative.

Outside of work, many women may have more on their plate. A 2020 Gallup poll of more than 3,000 heterosexual couples found that women are responsible for the majority of household chores. Women continue to handle more of the emotional labor within their families, regardless of income, age, or professional status. This is sometimes called the “Mental Load’ or “Second Shift.” As our society continues to view women as the default parent for childcare, medical issues, and overarching social and emotional tasks vital to raising happy, healthy children, the struggle a female medical professional feels is palpable.

Despite the very real and difficult challenges in finding a perfect balance and having it all, both at home and at work, the role of mother and physician must be intimately intertwined. Raising kids requires a parent to consistently dole out control, predictability, and reassurance for a child to thrive. Good limit and boundary setting leads to healthy development from a young age.

Psychiatric patients (and perhaps all patients) also require control, predictability, and reassurance from their doctor. The lessons learned in being a good mother can be directly applied in patient care, and vice versa. The cross-pollination of this relationship continues to grow more powerful as a woman’s children grow and her career matures.

Pediatrician and psychoanalyst Donald Winnicott’s idea of a “good enough” mother cannot be a one-size-fits-all approach. Women who self-select into the world of medicine often hold themselves to a higher standard than “good enough.” Acknowledging that the demands from both home and work will fluctuate is key to achieving success both personally and professionally, and lessons from home can and should be utilized to become a more effective physician. The notion of having it all, and the definition of success, must evolve over time.

Dr. Maymind is director of medical and graduate student mental health at Rowan-Virtua School of Osteopathic Medicine in Mt. Laurel, N.J. She has no relevant disclosures.

Across all industries, studies by the U.S. Department of Labor have shown that women, on average, earn 83.7 percent of what their male peers earn. While a lot has been written about the struggles women face in medicine, there have been decidedly fewer analyses that focus on women who choose to become mothers while working in medicine.

Elina Maymind

I’ve been privileged to work with medical students and residents for the last 8 years as the director of graduate and medical student mental health at Rowan-Virtua School of Osteopathic Medicine in Mt. Laurel, N.J. Often, the women I see as patients speak about their struggles with the elusive goal of “having it all.” While both men and women in medicine have difficulty maintaining a work-life balance, I’ve learned, both personally and professionally, that many women face a unique set of challenges.

No matter what their professional status, our society often views a woman as the default parent. For example, the teacher often calls the mothers first. The camp nurse calls me first, not my husband, when our child scrapes a knee. After-school play dates are arranged by the mothers, not fathers.

But mothers also bring to medicine a wealth of unique experiences, ideas, and viewpoints. They learn firsthand how to foster affect regulation and frustration tolerance in their kids and become efficient at managing the constant, conflicting tug of war of demands.

Some may argue that, over time, women end up earning significantly less than their male counterparts because they leave the workforce while on maternity leave, ultimately delaying their upward career progression. It’s likely a much more complex problem. Many of my patients believe that, in our male-dominated society (and workforce), women are punished for being aggressive or stating bold opinions, while men are rewarded for the same actions. While a man may sound forceful and in charge, a women will likely be thought of as brusque and unappreciative.

Outside of work, many women may have more on their plate. A 2020 Gallup poll of more than 3,000 heterosexual couples found that women are responsible for the majority of household chores. Women continue to handle more of the emotional labor within their families, regardless of income, age, or professional status. This is sometimes called the “Mental Load’ or “Second Shift.” As our society continues to view women as the default parent for childcare, medical issues, and overarching social and emotional tasks vital to raising happy, healthy children, the struggle a female medical professional feels is palpable.

Despite the very real and difficult challenges in finding a perfect balance and having it all, both at home and at work, the role of mother and physician must be intimately intertwined. Raising kids requires a parent to consistently dole out control, predictability, and reassurance for a child to thrive. Good limit and boundary setting leads to healthy development from a young age.

Psychiatric patients (and perhaps all patients) also require control, predictability, and reassurance from their doctor. The lessons learned in being a good mother can be directly applied in patient care, and vice versa. The cross-pollination of this relationship continues to grow more powerful as a woman’s children grow and her career matures.

Pediatrician and psychoanalyst Donald Winnicott’s idea of a “good enough” mother cannot be a one-size-fits-all approach. Women who self-select into the world of medicine often hold themselves to a higher standard than “good enough.” Acknowledging that the demands from both home and work will fluctuate is key to achieving success both personally and professionally, and lessons from home can and should be utilized to become a more effective physician. The notion of having it all, and the definition of success, must evolve over time.

Dr. Maymind is director of medical and graduate student mental health at Rowan-Virtua School of Osteopathic Medicine in Mt. Laurel, N.J. She has no relevant disclosures.

Across all industries, studies by the U.S. Department of Labor have shown that women, on average, earn 83.7 percent of what their male peers earn. While a lot has been written about the struggles women face in medicine, there have been decidedly fewer analyses that focus on women who choose to become mothers while working in medicine.

Elina Maymind

I’ve been privileged to work with medical students and residents for the last 8 years as the director of graduate and medical student mental health at Rowan-Virtua School of Osteopathic Medicine in Mt. Laurel, N.J. Often, the women I see as patients speak about their struggles with the elusive goal of “having it all.” While both men and women in medicine have difficulty maintaining a work-life balance, I’ve learned, both personally and professionally, that many women face a unique set of challenges.

No matter what their professional status, our society often views a woman as the default parent. For example, the teacher often calls the mothers first. The camp nurse calls me first, not my husband, when our child scrapes a knee. After-school play dates are arranged by the mothers, not fathers.

But mothers also bring to medicine a wealth of unique experiences, ideas, and viewpoints. They learn firsthand how to foster affect regulation and frustration tolerance in their kids and become efficient at managing the constant, conflicting tug of war of demands.

Some may argue that, over time, women end up earning significantly less than their male counterparts because they leave the workforce while on maternity leave, ultimately delaying their upward career progression. It’s likely a much more complex problem. Many of my patients believe that, in our male-dominated society (and workforce), women are punished for being aggressive or stating bold opinions, while men are rewarded for the same actions. While a man may sound forceful and in charge, a women will likely be thought of as brusque and unappreciative.

Outside of work, many women may have more on their plate. A 2020 Gallup poll of more than 3,000 heterosexual couples found that women are responsible for the majority of household chores. Women continue to handle more of the emotional labor within their families, regardless of income, age, or professional status. This is sometimes called the “Mental Load’ or “Second Shift.” As our society continues to view women as the default parent for childcare, medical issues, and overarching social and emotional tasks vital to raising happy, healthy children, the struggle a female medical professional feels is palpable.

Despite the very real and difficult challenges in finding a perfect balance and having it all, both at home and at work, the role of mother and physician must be intimately intertwined. Raising kids requires a parent to consistently dole out control, predictability, and reassurance for a child to thrive. Good limit and boundary setting leads to healthy development from a young age.

Psychiatric patients (and perhaps all patients) also require control, predictability, and reassurance from their doctor. The lessons learned in being a good mother can be directly applied in patient care, and vice versa. The cross-pollination of this relationship continues to grow more powerful as a woman’s children grow and her career matures.

Pediatrician and psychoanalyst Donald Winnicott’s idea of a “good enough” mother cannot be a one-size-fits-all approach. Women who self-select into the world of medicine often hold themselves to a higher standard than “good enough.” Acknowledging that the demands from both home and work will fluctuate is key to achieving success both personally and professionally, and lessons from home can and should be utilized to become a more effective physician. The notion of having it all, and the definition of success, must evolve over time.

Dr. Maymind is director of medical and graduate student mental health at Rowan-Virtua School of Osteopathic Medicine in Mt. Laurel, N.J. She has no relevant disclosures.

Caffeine consumption may improve thyroid function for people with metabolic disorders, new research shows.

“Although the causal relationship between caffeine intake and thyroid function requires further verification, as an easily obtainable and widely consumed dietary ingredient, caffeine is a potential candidate for improving thyroid health in people with metabolic disorders,” reported the authors in the study, published in Nutritional Journal.

Caffeine intake, within established healthy ranges, showed a nonlinear association with thyroid levels.

Moderate caffeine intake has been associated with reducing the risk of metabolic disorders in addition to showing some mental health benefits. However, research on its effects on thyroid hormone, which importantly plays a key role in systemic metabolism and neurologic development, is lacking.

To investigate the effects, Yu Zhou, of the Department of Rehabilitation Medicine, School of Health, Fujian Medical University, Fuzhou, China, and colleagues evaluated data from the National Health and Nutrition Examination Survey (NHANES) III 2007-2012 study involving 2,582 participants for whom data were available regarding medical conditions, dietary intake, thyroid function, and demographic background.

The participants were divided into three subgroups based on sex, age, body mass index, hyperglycemia, hypertension, and cardio-cerebral vascular disease (CVD).

Group 1 (n = 208) was the most metabolically unhealthy. Patients in that group had the highest BMI and were of oldest age. In addition, that group had higher rates of hypertension, hyperglycemia, and CVD, but, notably, it had the lowest level of caffeine consumption.

In group 2 (n = 543), all participants were current smokers, and 90.4% had a habit of drinking alcohol. That group also had the highest percentage of men.

Group 3 (n = 1,183) was the most metabolically healthy, with more women, younger age, and lowest BMI. No participants in that group had hyperglycemia, hypertension, or CVD.

Group 1, the most metabolically unhealthy, had the highest serum thyroid-stimulating hormone (TSH) levels. Of note, while participants with thyroid diseases were initially excluded from the analysis, higher TSH levels are predictive of subclinical hypothyroidism or progression to overt hypothyroidism.

Overall, there was no association between caffeine and TSH levels.

However, a subgroup analysis of the groups showed that in group 1, caffeine intake correlated with TSH nonlinearly (P = .0019), with minimal average consumption of caffeine (< 9.97 mg/d). There was an association with slightly higher TSH levels (P = .035) after adjustment for age, sex, race, drink, disease state, micronutrients, and macronutrients.

However, in higher, moderate amounts of caffeine consumption (9.97 – 264.97 mg/d), there was an inverse association, with lower TSH (P = .001).

There was no association between daily caffeine consumption of more than 264.97 mg and TSH levels.

For context, a typical 8-ounce cup of coffee generally contains 80-100 mg of caffeine, and the Food and Drug Administration indicates that 400 mg/d of caffeine is safe for healthy adults.

Group 2 consumed the highest amount of caffeine. Notably, that group had the lowest serum TSH levels of the three groups. There were no significant associations between caffeine consumption and TSH levels in group 2 or group 3.

There were no significant associations between caffeine consumption and levels of serum FT4 or FT3, also linked to thyroid dysfunction, in any of the groups.

The findings show that “caffeine consumption was correlated with serum TSH nonlinearly, and when taken in moderate amounts (9.97-264.97 mg/d), caffeine demonstrated a positive correlation with serum TSH levels in patients with metabolic disorders,” the authors concluded.