Clinician Reviews

Overall risk for venous thromboembolism (VTE) in nonhospitalized COVID-19 patients is low, but some of those patients may have factors that increase the risk and warrant more surveillance, according to a new retrospective cohort study.

Though VTE risk is well studied and significant in those hospitalized with COVID, little is known about the risk in the outpatient setting, said the authors of the new research published online in JAMA Network Open.

The study was conducted at two integrated health care delivery systems in northern and southern California. Data were gathered from the Kaiser Permanente Virtual Data Warehouse and electronic health records.
 

Nearly 400,000 patients studied

Researchers, led by Margaret Fang, MD, with the division of hospital medicine, University of California, San Francisco, identified 398,530 outpatients with COVID-19 from Jan. 1, 2020, through Jan. 31, 2021.

VTE risk was low overall for ambulatory COVID patients.

“It is a reassuring study,” Dr. Fang said in an interview.

The researchers found that the risk is highest in the first 30 days after COVID-19 diagnosis (unadjusted rate, 0.58; 95% confidence interval, 0.51-0.67 per 100 person-years vs. 0.09; 95% CI, 0.08-0.11 per 100 person-years after 30 days).
 

Factors linked with high VTE risk

They also found that several factors were linked with a higher risk of blood clots in the study population, including being at least 55 years old; being male; having a history of blood clots or thrombophilia; and a body mass index (BMI) of at least 30 kg/m².

The authors write, “These findings may help identify subsets of patients with COVID-19 who could benefit from VTE preventive strategies and more intensive short-term surveillance.”
 

Are routine anticoagulants justified?

Previously, randomized clinical trials have found that hospitalized patients with moderate COVID-19 may benefit from therapeutically dosed heparin anticoagulants but that therapeutic anticoagulation had no net benefit – and perhaps could even harm – patients who were critically ill with COVID.

“[M]uch less is known about the optimal thromboprophylaxis strategy for people with milder presentations of COVID-19 who do not require hospitalization,” they write.
 

Mild COVID VTE risk similar to general population

The authors note that rates of blood clots linked with COVID-19 are not much higher than the average blood clot rate in the general population, which is about 0.1-0.2 per 100 person-years.

Therefore, the results don’t justify routine administration of anticoagulation given the costs, inconvenience, and bleeding risks, they acknowledge.

Dr. Fang told this publication that it’s hard to know what to tell patients, given the overall low VTE risk. She said their study wasn’t designed to advise when to give prophylaxis.
 

Physicians should inform patients of their higher risk

“We should tell our patients who fall into these risk categories that blood clot is a concern after the development of COVID, especially in those first 30 days. And some people might benefit from increased surveillance,” Dr. Fang said.

”I think this study would support ongoing studies that look at whether selected patients benefit from VTE prophylaxis, for example low-dose anticoagulants,” she said.

Dr. Fang said the subgroup factors they found increased risk of blood clots for all patients, not just COVID-19 patients. It’s not clear why factors such as being male may increase blood clot risk, though that is consistent with previous literature, but higher risk with higher BMI might be related to a combination of inflammation or decreased mobility, she said.
 

Unanswered questions

Robert H. Hopkins Jr., MD, says the study helps answer a couple of important questions – that the VTE risk in nonhospitalized COVID-19 patients is low and when and for which patients risk may be highest.

However, there are several unanswered questions that argue against routine initiation of anticoagulants, notes the professor of internal medicine and pediatrics chief, division of general internal medicine, at University of Arkansas for Medical Sciences, Little Rock.

One is the change in the COVID variant landscape.

“We do not know whether rates of VTE are same or lower or higher with current circulating variants,” Dr. Hopkins said.

The authors acknowledge this as a limitation. Study data predate Omicron and subvariants, which appear to lower clinical severity, so it’s unclear whether VTE risk is different in this Omicron era.

Dr. Hopkins added another unknown: “We do not know whether vaccination affects rates of VTE in ambulatory breakthrough infection.”

Dr. Hopkins and the authors also note the lack of a control group in the study, to better compare risk.

Coauthor Dr. Prasad reports consultant fees from EpiExcellence LLC outside the submitted work. Coauthor Dr. Go reports grants paid to the division of research, Kaiser Permanente Northern California, from CSL Behring, Novartis, Bristol Meyers Squibb/Pfizer Alliance, and Janssen outside the submitted work.

The research was funded through Patient-Centered Outcomes Research Institute.

Dr. Hopkins reports no relevant financial relationships.

Overall risk for venous thromboembolism (VTE) in nonhospitalized COVID-19 patients is low, but some of those patients may have factors that increase the risk and warrant more surveillance, according to a new retrospective cohort study.

Though VTE risk is well studied and significant in those hospitalized with COVID, little is known about the risk in the outpatient setting, said the authors of the new research published online in JAMA Network Open.

The study was conducted at two integrated health care delivery systems in northern and southern California. Data were gathered from the Kaiser Permanente Virtual Data Warehouse and electronic health records.
 

Nearly 400,000 patients studied

Researchers, led by Margaret Fang, MD, with the division of hospital medicine, University of California, San Francisco, identified 398,530 outpatients with COVID-19 from Jan. 1, 2020, through Jan. 31, 2021.

VTE risk was low overall for ambulatory COVID patients.

“It is a reassuring study,” Dr. Fang said in an interview.

The researchers found that the risk is highest in the first 30 days after COVID-19 diagnosis (unadjusted rate, 0.58; 95% confidence interval, 0.51-0.67 per 100 person-years vs. 0.09; 95% CI, 0.08-0.11 per 100 person-years after 30 days).
 

Factors linked with high VTE risk

They also found that several factors were linked with a higher risk of blood clots in the study population, including being at least 55 years old; being male; having a history of blood clots or thrombophilia; and a body mass index (BMI) of at least 30 kg/m².

The authors write, “These findings may help identify subsets of patients with COVID-19 who could benefit from VTE preventive strategies and more intensive short-term surveillance.”
 

Are routine anticoagulants justified?

Previously, randomized clinical trials have found that hospitalized patients with moderate COVID-19 may benefit from therapeutically dosed heparin anticoagulants but that therapeutic anticoagulation had no net benefit – and perhaps could even harm – patients who were critically ill with COVID.

“[M]uch less is known about the optimal thromboprophylaxis strategy for people with milder presentations of COVID-19 who do not require hospitalization,” they write.
 

Mild COVID VTE risk similar to general population

The authors note that rates of blood clots linked with COVID-19 are not much higher than the average blood clot rate in the general population, which is about 0.1-0.2 per 100 person-years.

Therefore, the results don’t justify routine administration of anticoagulation given the costs, inconvenience, and bleeding risks, they acknowledge.

Dr. Fang told this publication that it’s hard to know what to tell patients, given the overall low VTE risk. She said their study wasn’t designed to advise when to give prophylaxis.
 

Physicians should inform patients of their higher risk

“We should tell our patients who fall into these risk categories that blood clot is a concern after the development of COVID, especially in those first 30 days. And some people might benefit from increased surveillance,” Dr. Fang said.

”I think this study would support ongoing studies that look at whether selected patients benefit from VTE prophylaxis, for example low-dose anticoagulants,” she said.

Dr. Fang said the subgroup factors they found increased risk of blood clots for all patients, not just COVID-19 patients. It’s not clear why factors such as being male may increase blood clot risk, though that is consistent with previous literature, but higher risk with higher BMI might be related to a combination of inflammation or decreased mobility, she said.
 

Unanswered questions

Robert H. Hopkins Jr., MD, says the study helps answer a couple of important questions – that the VTE risk in nonhospitalized COVID-19 patients is low and when and for which patients risk may be highest.

However, there are several unanswered questions that argue against routine initiation of anticoagulants, notes the professor of internal medicine and pediatrics chief, division of general internal medicine, at University of Arkansas for Medical Sciences, Little Rock.

One is the change in the COVID variant landscape.

“We do not know whether rates of VTE are same or lower or higher with current circulating variants,” Dr. Hopkins said.

The authors acknowledge this as a limitation. Study data predate Omicron and subvariants, which appear to lower clinical severity, so it’s unclear whether VTE risk is different in this Omicron era.

Dr. Hopkins added another unknown: “We do not know whether vaccination affects rates of VTE in ambulatory breakthrough infection.”

Dr. Hopkins and the authors also note the lack of a control group in the study, to better compare risk.

Coauthor Dr. Prasad reports consultant fees from EpiExcellence LLC outside the submitted work. Coauthor Dr. Go reports grants paid to the division of research, Kaiser Permanente Northern California, from CSL Behring, Novartis, Bristol Meyers Squibb/Pfizer Alliance, and Janssen outside the submitted work.

The research was funded through Patient-Centered Outcomes Research Institute.

Dr. Hopkins reports no relevant financial relationships.

Overall risk for venous thromboembolism (VTE) in nonhospitalized COVID-19 patients is low, but some of those patients may have factors that increase the risk and warrant more surveillance, according to a new retrospective cohort study.

Though VTE risk is well studied and significant in those hospitalized with COVID, little is known about the risk in the outpatient setting, said the authors of the new research published online in JAMA Network Open.

The study was conducted at two integrated health care delivery systems in northern and southern California. Data were gathered from the Kaiser Permanente Virtual Data Warehouse and electronic health records.
 

Nearly 400,000 patients studied

Researchers, led by Margaret Fang, MD, with the division of hospital medicine, University of California, San Francisco, identified 398,530 outpatients with COVID-19 from Jan. 1, 2020, through Jan. 31, 2021.

VTE risk was low overall for ambulatory COVID patients.

“It is a reassuring study,” Dr. Fang said in an interview.

The researchers found that the risk is highest in the first 30 days after COVID-19 diagnosis (unadjusted rate, 0.58; 95% confidence interval, 0.51-0.67 per 100 person-years vs. 0.09; 95% CI, 0.08-0.11 per 100 person-years after 30 days).
 

Factors linked with high VTE risk

They also found that several factors were linked with a higher risk of blood clots in the study population, including being at least 55 years old; being male; having a history of blood clots or thrombophilia; and a body mass index (BMI) of at least 30 kg/m².

The authors write, “These findings may help identify subsets of patients with COVID-19 who could benefit from VTE preventive strategies and more intensive short-term surveillance.”
 

Are routine anticoagulants justified?

Previously, randomized clinical trials have found that hospitalized patients with moderate COVID-19 may benefit from therapeutically dosed heparin anticoagulants but that therapeutic anticoagulation had no net benefit – and perhaps could even harm – patients who were critically ill with COVID.

“[M]uch less is known about the optimal thromboprophylaxis strategy for people with milder presentations of COVID-19 who do not require hospitalization,” they write.
 

Mild COVID VTE risk similar to general population

The authors note that rates of blood clots linked with COVID-19 are not much higher than the average blood clot rate in the general population, which is about 0.1-0.2 per 100 person-years.

Therefore, the results don’t justify routine administration of anticoagulation given the costs, inconvenience, and bleeding risks, they acknowledge.

Dr. Fang told this publication that it’s hard to know what to tell patients, given the overall low VTE risk. She said their study wasn’t designed to advise when to give prophylaxis.
 

Physicians should inform patients of their higher risk

“We should tell our patients who fall into these risk categories that blood clot is a concern after the development of COVID, especially in those first 30 days. And some people might benefit from increased surveillance,” Dr. Fang said.

”I think this study would support ongoing studies that look at whether selected patients benefit from VTE prophylaxis, for example low-dose anticoagulants,” she said.

Dr. Fang said the subgroup factors they found increased risk of blood clots for all patients, not just COVID-19 patients. It’s not clear why factors such as being male may increase blood clot risk, though that is consistent with previous literature, but higher risk with higher BMI might be related to a combination of inflammation or decreased mobility, she said.
 

Unanswered questions

Robert H. Hopkins Jr., MD, says the study helps answer a couple of important questions – that the VTE risk in nonhospitalized COVID-19 patients is low and when and for which patients risk may be highest.

However, there are several unanswered questions that argue against routine initiation of anticoagulants, notes the professor of internal medicine and pediatrics chief, division of general internal medicine, at University of Arkansas for Medical Sciences, Little Rock.

One is the change in the COVID variant landscape.

“We do not know whether rates of VTE are same or lower or higher with current circulating variants,” Dr. Hopkins said.

The authors acknowledge this as a limitation. Study data predate Omicron and subvariants, which appear to lower clinical severity, so it’s unclear whether VTE risk is different in this Omicron era.

Dr. Hopkins added another unknown: “We do not know whether vaccination affects rates of VTE in ambulatory breakthrough infection.”

Dr. Hopkins and the authors also note the lack of a control group in the study, to better compare risk.

Coauthor Dr. Prasad reports consultant fees from EpiExcellence LLC outside the submitted work. Coauthor Dr. Go reports grants paid to the division of research, Kaiser Permanente Northern California, from CSL Behring, Novartis, Bristol Meyers Squibb/Pfizer Alliance, and Janssen outside the submitted work.

The research was funded through Patient-Centered Outcomes Research Institute.

Dr. Hopkins reports no relevant financial relationships.

Greater adherence to the Dietary Approaches to Stop Hypertension (DASH) diet was associated with a significantly reduced risk of chronic obstructive pulmonary disease (COPD) and improved lung function, based on data from more than 28,000 individuals in the United States.

Diet is a modifiable risk factor for COPD and other chronic diseases, but the effects of specific diet models such as the DASH diet and Mediterranean diet on COPD in particular has not been well studied, Jingli Wen, MD, of Nanjing Medical University, Jiangsu, China, and colleagues wrote.

In a study published in Frontiers in Nutrition, the researchers reviewed data from 28,605 adult participants in the National Health and Nutrition Examination Survey from 1999 to 2018.

The study population included 2,488 individuals with COPD participants and 25,607 individuals without COPD; the mean ages of the COPD and non-COPD groups were 60.2 years and 56.9 years, and the proportion of women was 63.7% and 51.4%, respectively. The primary outcome was the prevalence of COPD, defined as self-reports of a diagnosis of chronic bronchitis or emphysema. DASH diet scores were based on consumption of nine target nutrients: saturated fat, total fat, protein, cholesterol, fiber, magnesium, calcium, potassium, and sodium. Scores for compliance with the Mediterranean diet were based on intake of eight food categories: fruits, vegetables, legumes, fish, red meat, dairy products, alcohol, and olive oil.

Overall, a higher score for adherence to the DASH diet was significantly associated with a lower COPD risk (odds ratio, 0.83; P = .021). This association remained significant in subgroups of younger adults (OR, 0.74), men (OR, 0.73), and smokers (OR, 0.82).

By contrast, adherence to the Mediterranean diet was not significantly associated with COPD prevalence (OR, 1.03; P = .697).

The researchers also found a correlation between DASH diet adherence and improved lung function, especially among individuals without COPD. The risk of FEV₁: forced vital capacity decrease, as well as dyspnea, cough, and expectoration, were negatively associated with greater adherence to the DASH diet, but greater adherence to the Mediterranean diet was only negatively associated with cough risk.

The relationship between the DASH diet and reduced COPD risk persisted after adjusting for occupational exposure and excluding participants with cardiovascular disease, cancer, or diabetes.

The current study is the first known to focus on the association between DASH diet and the risk of COPD among adults in the United States, the researchers wrote. The lack of effect of the Mediterranean diet on COPD, in contrast to some studies in other countries, “suggests that regional differences in diet may affect the role of diet in the development of COPD.”

The study findings were limited by several factors including the cross-sectional design that prevented conclusions of causality, the researchers noted. Other limitations included the lack of data of the impact of poor living habits, such as smoking, on food decisions, the use of short-term 24-hour dietary recall, and the reliance of self-reports for a diagnosis of COPD.

However, the results support the role of diet in COPD pathogenesis and expand the knowledge of relationships between the DASH diet and major chronic diseases, the researchers said. More prospective studies and clinical intervention studies are needed, but the findings should encourage clinicians to consider the potential role of a healthy diet in promoting lung health.

The study was supported by the Department of Health, Jiangsu Province, China. The researchers had no financial conflicts to disclose.

Greater adherence to the Dietary Approaches to Stop Hypertension (DASH) diet was associated with a significantly reduced risk of chronic obstructive pulmonary disease (COPD) and improved lung function, based on data from more than 28,000 individuals in the United States.

Diet is a modifiable risk factor for COPD and other chronic diseases, but the effects of specific diet models such as the DASH diet and Mediterranean diet on COPD in particular has not been well studied, Jingli Wen, MD, of Nanjing Medical University, Jiangsu, China, and colleagues wrote.

In a study published in Frontiers in Nutrition, the researchers reviewed data from 28,605 adult participants in the National Health and Nutrition Examination Survey from 1999 to 2018.

The study population included 2,488 individuals with COPD participants and 25,607 individuals without COPD; the mean ages of the COPD and non-COPD groups were 60.2 years and 56.9 years, and the proportion of women was 63.7% and 51.4%, respectively. The primary outcome was the prevalence of COPD, defined as self-reports of a diagnosis of chronic bronchitis or emphysema. DASH diet scores were based on consumption of nine target nutrients: saturated fat, total fat, protein, cholesterol, fiber, magnesium, calcium, potassium, and sodium. Scores for compliance with the Mediterranean diet were based on intake of eight food categories: fruits, vegetables, legumes, fish, red meat, dairy products, alcohol, and olive oil.

Overall, a higher score for adherence to the DASH diet was significantly associated with a lower COPD risk (odds ratio, 0.83; P = .021). This association remained significant in subgroups of younger adults (OR, 0.74), men (OR, 0.73), and smokers (OR, 0.82).

By contrast, adherence to the Mediterranean diet was not significantly associated with COPD prevalence (OR, 1.03; P = .697).

The researchers also found a correlation between DASH diet adherence and improved lung function, especially among individuals without COPD. The risk of FEV₁: forced vital capacity decrease, as well as dyspnea, cough, and expectoration, were negatively associated with greater adherence to the DASH diet, but greater adherence to the Mediterranean diet was only negatively associated with cough risk.

The relationship between the DASH diet and reduced COPD risk persisted after adjusting for occupational exposure and excluding participants with cardiovascular disease, cancer, or diabetes.

The current study is the first known to focus on the association between DASH diet and the risk of COPD among adults in the United States, the researchers wrote. The lack of effect of the Mediterranean diet on COPD, in contrast to some studies in other countries, “suggests that regional differences in diet may affect the role of diet in the development of COPD.”

The study findings were limited by several factors including the cross-sectional design that prevented conclusions of causality, the researchers noted. Other limitations included the lack of data of the impact of poor living habits, such as smoking, on food decisions, the use of short-term 24-hour dietary recall, and the reliance of self-reports for a diagnosis of COPD.

However, the results support the role of diet in COPD pathogenesis and expand the knowledge of relationships between the DASH diet and major chronic diseases, the researchers said. More prospective studies and clinical intervention studies are needed, but the findings should encourage clinicians to consider the potential role of a healthy diet in promoting lung health.

The study was supported by the Department of Health, Jiangsu Province, China. The researchers had no financial conflicts to disclose.

Greater adherence to the Dietary Approaches to Stop Hypertension (DASH) diet was associated with a significantly reduced risk of chronic obstructive pulmonary disease (COPD) and improved lung function, based on data from more than 28,000 individuals in the United States.

Diet is a modifiable risk factor for COPD and other chronic diseases, but the effects of specific diet models such as the DASH diet and Mediterranean diet on COPD in particular has not been well studied, Jingli Wen, MD, of Nanjing Medical University, Jiangsu, China, and colleagues wrote.

In a study published in Frontiers in Nutrition, the researchers reviewed data from 28,605 adult participants in the National Health and Nutrition Examination Survey from 1999 to 2018.

The study population included 2,488 individuals with COPD participants and 25,607 individuals without COPD; the mean ages of the COPD and non-COPD groups were 60.2 years and 56.9 years, and the proportion of women was 63.7% and 51.4%, respectively. The primary outcome was the prevalence of COPD, defined as self-reports of a diagnosis of chronic bronchitis or emphysema. DASH diet scores were based on consumption of nine target nutrients: saturated fat, total fat, protein, cholesterol, fiber, magnesium, calcium, potassium, and sodium. Scores for compliance with the Mediterranean diet were based on intake of eight food categories: fruits, vegetables, legumes, fish, red meat, dairy products, alcohol, and olive oil.

Overall, a higher score for adherence to the DASH diet was significantly associated with a lower COPD risk (odds ratio, 0.83; P = .021). This association remained significant in subgroups of younger adults (OR, 0.74), men (OR, 0.73), and smokers (OR, 0.82).

By contrast, adherence to the Mediterranean diet was not significantly associated with COPD prevalence (OR, 1.03; P = .697).

The researchers also found a correlation between DASH diet adherence and improved lung function, especially among individuals without COPD. The risk of FEV₁: forced vital capacity decrease, as well as dyspnea, cough, and expectoration, were negatively associated with greater adherence to the DASH diet, but greater adherence to the Mediterranean diet was only negatively associated with cough risk.

The relationship between the DASH diet and reduced COPD risk persisted after adjusting for occupational exposure and excluding participants with cardiovascular disease, cancer, or diabetes.

The current study is the first known to focus on the association between DASH diet and the risk of COPD among adults in the United States, the researchers wrote. The lack of effect of the Mediterranean diet on COPD, in contrast to some studies in other countries, “suggests that regional differences in diet may affect the role of diet in the development of COPD.”

The study findings were limited by several factors including the cross-sectional design that prevented conclusions of causality, the researchers noted. Other limitations included the lack of data of the impact of poor living habits, such as smoking, on food decisions, the use of short-term 24-hour dietary recall, and the reliance of self-reports for a diagnosis of COPD.

However, the results support the role of diet in COPD pathogenesis and expand the knowledge of relationships between the DASH diet and major chronic diseases, the researchers said. More prospective studies and clinical intervention studies are needed, but the findings should encourage clinicians to consider the potential role of a healthy diet in promoting lung health.

The study was supported by the Department of Health, Jiangsu Province, China. The researchers had no financial conflicts to disclose.

In Western diets, dairy and beef are ubiquitous: Milk goes with coffee, melted cheese with pizza, and chili with rice. But what if dairy products and beef contained a new kind of pathogen that could infect you as a child and trigger cancer or multiple sclerosis (MS) 40-70 years later?

Researchers from the German Cancer Research Center (DKFZ) suspect that such zoonoses are possibly widespread and are therefore recommending that infants not be given dairy products until they are at least age 1 year. However, in two joint statements, the German Federal Institute for Risk Assessment (BfR) and the Max Rubner Institute (MRI) have rejected such theories.

In 2008, Harald zur Hausen, MD, DSc, received the Nobel Prize in Medicine for his discovery that human papillomaviruses cause cervical cancer. His starting point was the observation that sexually abstinent women, such as nuns, rarely develop this cancer. So it was possible to draw the conclusion that pathogens are transmitted during sexual intercourse, explain Dr. zur Hausen and his wife Ethel-Michele de Villiers, PhD, both of DKFZ Heidelberg.

Papillomaviruses, as well as human herpes and Epstein-Barr viruses (EBV), polyomaviruses, and retroviruses, cause cancer in a direct way: by inserting their genes into the DNA of human cells. With a latency of a few years to a few decades, the proteins formed through expression stimulate malignant growth by altering the regulating host gene.
 

Acid radicals

However, viruses – just like bacteria and parasites – can also indirectly trigger cancer. One mechanism for this triggering is the disruption of immune defenses, as shown by the sometimes drastically increased tumor incidence with AIDS or with immunosuppressants after transplants. Chronic inflammation is a second mechanism that generates acid radicals and thereby causes random mutations in replicating cells. Examples include stomach cancer caused by Helicobacter pylori and liver cancer caused by Schistosoma, liver fluke, and hepatitis B and C viruses.

According to Dr. de Villiers and Dr. zur Hausen, there are good reasons to believe that other pathogens could cause chronic inflammation and thereby lead to cancer. Epidemiologic data suggest that dairy and meat products from European cows (Bos taurus) are a potential source. This is because colon cancer and breast cancer commonly occur in places where these foods are heavily consumed (that is, in North America, Argentina, Europe, and Australia). In contrast, the rate is low in India, where cows are revered as holy animals. Also noteworthy is that women with a lactose intolerance rarely develop breast cancer.
 

Viral progeny

In fact, the researchers found single-stranded DNA rings that originated in viruses, which they named bovine meat and milk factors (BMMF), in the intestines of patients with colon cancer. They reported, “This new class of pathogen deserves, in our opinion at least, to become the focus of cancer development and further chronic diseases.” They also detected elevated levels of acid radicals in these areas (that is, oxidative stress), which is typical for chronic inflammation.

The researchers assume that infants, whose immune system is not yet fully matured, ingest the BMMF as soon as they have dairy. Therefore, there is no need for adults to avoid dairy or beef because everyone is infected anyway, said Dr. zur Hausen.
 

‘Breast milk is healthy’

Dr. De Villiers and Dr. zur Hausen outlined more evidence of cancer-triggering pathogens. Mothers who have breastfed are less likely, especially after multiple pregnancies, to develop tumors in various organs or to have MS and type 2 diabetes. The authors attribute the protective effect to oligosaccharides in breast milk, which begin to be formed midway through the pregnancy. They bind to lectin receptors and, in so doing, mask the terminal molecule onto which the viruses need to dock. As a result, their port of entry into the cells is blocked.

The oligosaccharides also protect the baby against life-threatening infections by blocking access by rotaviruses and noroviruses. In this way, especially if breastfeeding lasts a long time – around 1 year – the period of incomplete immunocompetence is bridged.
 

Colon cancer

To date, it has been assumed that around 20% of all cancerous diseases globally are caused by infections, said the researchers. But if the suspected BMMF cases are included, this figure rises to 50%, even to around 80%, for colon cancer. If the suspicion is confirmed, the consequences for prevention and therapy would be significant.

The voice of a Nobel prize winner undoubtedly carries weight, but at the time, Dr. zur Hausen still had to convince a host of skeptics with his discovery that a viral infection is a major cause of cervical cancer. Nonetheless, some indicators suggest that he and his wife have found a dead end this time.
 

Institutional skepticism

When his working group made the results public in February 2019, the DKFZ felt the need to give an all-clear signal in response to alarmed press reports. There is no reason to see dairy and meat consumption as something negative. Similarly, in their first joint statement, the BfR and the MRI judged the data to be insufficient and called for further studies. Multiple research teams began to focus on BMMF as a result. In what foods can they be found? Are they more common in patients with cancer than in healthy people? Are they infectious? Do they cause inflammation and cancer?

The findings presented in a second statement by the BfR and MRI at the end of November 2022 contradicted the claims made by the DKFZ scientists across the board. In no way do BMMF represent new pathogens. They are variants of already known DNA sequences. In addition, they are present in numerous animal-based and plant-based foods, including pork, fish, fruit, vegetables, and nuts.

BMMF do not possess the ability to infect human cells, the institutes said. The proof that they are damaging to one’s health was also absent. It is true that the incidence of intestinal tumors correlates positively with the consumption of red and processed meat – which in no way signifies causality – but dairy products are linked to a reduced risk. On the other hand, breast cancer cannot be associated with the consumption of beef or dairy.

Therefore, both institutes recommend continuing to use these products as supplementary diet for infants because of their micronutrients. They further stated that the products are safe for people of all ages.
 

Association with MS?

Unperturbed, Dr. de Villiers and Dr. zur Hausen went one step further in their current article. They posited that MS is also associated with the consumption of dairy products and beef. Here too geographic distribution prompted the idea to look for BMMF in the brain lesions of patients with MS. The researchers isolated ring-shaped DNA molecules that proved to be closely related to BMMF from dairy and cattle blood. “The result was electrifying for us.”

However, there are several other factors to consider, such as vitamin D3 deficiency. This is because the incidence of MS decreases the further you travel from the poles toward the equator (that is, as solar radiation increases). Also, EBV clearly plays a role because patients with MS display increased titers of EBV antibodies. One study also showed that people in Antarctica excreted reactivated EBV in their saliva during winter and that vitamin D3 stopped the viral secretion.

Under these conditions, the researchers hypothesized that MS is caused by a double infection of brain cells by EBV and BMMF. EBV is reactivated by a lack of vitamin D3, and the BMMF multiply and are eventually converted into proteins. A focal immunoreaction causes the Schwann cells and oligodendrocytes to malfunction, which leads to the destruction of the myelin sheaths around the nerve fibers.

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

In Western diets, dairy and beef are ubiquitous: Milk goes with coffee, melted cheese with pizza, and chili with rice. But what if dairy products and beef contained a new kind of pathogen that could infect you as a child and trigger cancer or multiple sclerosis (MS) 40-70 years later?

Researchers from the German Cancer Research Center (DKFZ) suspect that such zoonoses are possibly widespread and are therefore recommending that infants not be given dairy products until they are at least age 1 year. However, in two joint statements, the German Federal Institute for Risk Assessment (BfR) and the Max Rubner Institute (MRI) have rejected such theories.

In 2008, Harald zur Hausen, MD, DSc, received the Nobel Prize in Medicine for his discovery that human papillomaviruses cause cervical cancer. His starting point was the observation that sexually abstinent women, such as nuns, rarely develop this cancer. So it was possible to draw the conclusion that pathogens are transmitted during sexual intercourse, explain Dr. zur Hausen and his wife Ethel-Michele de Villiers, PhD, both of DKFZ Heidelberg.

Papillomaviruses, as well as human herpes and Epstein-Barr viruses (EBV), polyomaviruses, and retroviruses, cause cancer in a direct way: by inserting their genes into the DNA of human cells. With a latency of a few years to a few decades, the proteins formed through expression stimulate malignant growth by altering the regulating host gene.
 

Acid radicals

However, viruses – just like bacteria and parasites – can also indirectly trigger cancer. One mechanism for this triggering is the disruption of immune defenses, as shown by the sometimes drastically increased tumor incidence with AIDS or with immunosuppressants after transplants. Chronic inflammation is a second mechanism that generates acid radicals and thereby causes random mutations in replicating cells. Examples include stomach cancer caused by Helicobacter pylori and liver cancer caused by Schistosoma, liver fluke, and hepatitis B and C viruses.

According to Dr. de Villiers and Dr. zur Hausen, there are good reasons to believe that other pathogens could cause chronic inflammation and thereby lead to cancer. Epidemiologic data suggest that dairy and meat products from European cows (Bos taurus) are a potential source. This is because colon cancer and breast cancer commonly occur in places where these foods are heavily consumed (that is, in North America, Argentina, Europe, and Australia). In contrast, the rate is low in India, where cows are revered as holy animals. Also noteworthy is that women with a lactose intolerance rarely develop breast cancer.
 

Viral progeny

In fact, the researchers found single-stranded DNA rings that originated in viruses, which they named bovine meat and milk factors (BMMF), in the intestines of patients with colon cancer. They reported, “This new class of pathogen deserves, in our opinion at least, to become the focus of cancer development and further chronic diseases.” They also detected elevated levels of acid radicals in these areas (that is, oxidative stress), which is typical for chronic inflammation.

The researchers assume that infants, whose immune system is not yet fully matured, ingest the BMMF as soon as they have dairy. Therefore, there is no need for adults to avoid dairy or beef because everyone is infected anyway, said Dr. zur Hausen.
 

‘Breast milk is healthy’

Dr. De Villiers and Dr. zur Hausen outlined more evidence of cancer-triggering pathogens. Mothers who have breastfed are less likely, especially after multiple pregnancies, to develop tumors in various organs or to have MS and type 2 diabetes. The authors attribute the protective effect to oligosaccharides in breast milk, which begin to be formed midway through the pregnancy. They bind to lectin receptors and, in so doing, mask the terminal molecule onto which the viruses need to dock. As a result, their port of entry into the cells is blocked.

The oligosaccharides also protect the baby against life-threatening infections by blocking access by rotaviruses and noroviruses. In this way, especially if breastfeeding lasts a long time – around 1 year – the period of incomplete immunocompetence is bridged.
 

Colon cancer

To date, it has been assumed that around 20% of all cancerous diseases globally are caused by infections, said the researchers. But if the suspected BMMF cases are included, this figure rises to 50%, even to around 80%, for colon cancer. If the suspicion is confirmed, the consequences for prevention and therapy would be significant.

The voice of a Nobel prize winner undoubtedly carries weight, but at the time, Dr. zur Hausen still had to convince a host of skeptics with his discovery that a viral infection is a major cause of cervical cancer. Nonetheless, some indicators suggest that he and his wife have found a dead end this time.
 

Institutional skepticism

When his working group made the results public in February 2019, the DKFZ felt the need to give an all-clear signal in response to alarmed press reports. There is no reason to see dairy and meat consumption as something negative. Similarly, in their first joint statement, the BfR and the MRI judged the data to be insufficient and called for further studies. Multiple research teams began to focus on BMMF as a result. In what foods can they be found? Are they more common in patients with cancer than in healthy people? Are they infectious? Do they cause inflammation and cancer?

The findings presented in a second statement by the BfR and MRI at the end of November 2022 contradicted the claims made by the DKFZ scientists across the board. In no way do BMMF represent new pathogens. They are variants of already known DNA sequences. In addition, they are present in numerous animal-based and plant-based foods, including pork, fish, fruit, vegetables, and nuts.

BMMF do not possess the ability to infect human cells, the institutes said. The proof that they are damaging to one’s health was also absent. It is true that the incidence of intestinal tumors correlates positively with the consumption of red and processed meat – which in no way signifies causality – but dairy products are linked to a reduced risk. On the other hand, breast cancer cannot be associated with the consumption of beef or dairy.

Therefore, both institutes recommend continuing to use these products as supplementary diet for infants because of their micronutrients. They further stated that the products are safe for people of all ages.
 

Association with MS?

Unperturbed, Dr. de Villiers and Dr. zur Hausen went one step further in their current article. They posited that MS is also associated with the consumption of dairy products and beef. Here too geographic distribution prompted the idea to look for BMMF in the brain lesions of patients with MS. The researchers isolated ring-shaped DNA molecules that proved to be closely related to BMMF from dairy and cattle blood. “The result was electrifying for us.”

However, there are several other factors to consider, such as vitamin D3 deficiency. This is because the incidence of MS decreases the further you travel from the poles toward the equator (that is, as solar radiation increases). Also, EBV clearly plays a role because patients with MS display increased titers of EBV antibodies. One study also showed that people in Antarctica excreted reactivated EBV in their saliva during winter and that vitamin D3 stopped the viral secretion.

Under these conditions, the researchers hypothesized that MS is caused by a double infection of brain cells by EBV and BMMF. EBV is reactivated by a lack of vitamin D3, and the BMMF multiply and are eventually converted into proteins. A focal immunoreaction causes the Schwann cells and oligodendrocytes to malfunction, which leads to the destruction of the myelin sheaths around the nerve fibers.

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

In Western diets, dairy and beef are ubiquitous: Milk goes with coffee, melted cheese with pizza, and chili with rice. But what if dairy products and beef contained a new kind of pathogen that could infect you as a child and trigger cancer or multiple sclerosis (MS) 40-70 years later?

Researchers from the German Cancer Research Center (DKFZ) suspect that such zoonoses are possibly widespread and are therefore recommending that infants not be given dairy products until they are at least age 1 year. However, in two joint statements, the German Federal Institute for Risk Assessment (BfR) and the Max Rubner Institute (MRI) have rejected such theories.

In 2008, Harald zur Hausen, MD, DSc, received the Nobel Prize in Medicine for his discovery that human papillomaviruses cause cervical cancer. His starting point was the observation that sexually abstinent women, such as nuns, rarely develop this cancer. So it was possible to draw the conclusion that pathogens are transmitted during sexual intercourse, explain Dr. zur Hausen and his wife Ethel-Michele de Villiers, PhD, both of DKFZ Heidelberg.

Papillomaviruses, as well as human herpes and Epstein-Barr viruses (EBV), polyomaviruses, and retroviruses, cause cancer in a direct way: by inserting their genes into the DNA of human cells. With a latency of a few years to a few decades, the proteins formed through expression stimulate malignant growth by altering the regulating host gene.
 

Acid radicals

However, viruses – just like bacteria and parasites – can also indirectly trigger cancer. One mechanism for this triggering is the disruption of immune defenses, as shown by the sometimes drastically increased tumor incidence with AIDS or with immunosuppressants after transplants. Chronic inflammation is a second mechanism that generates acid radicals and thereby causes random mutations in replicating cells. Examples include stomach cancer caused by Helicobacter pylori and liver cancer caused by Schistosoma, liver fluke, and hepatitis B and C viruses.

According to Dr. de Villiers and Dr. zur Hausen, there are good reasons to believe that other pathogens could cause chronic inflammation and thereby lead to cancer. Epidemiologic data suggest that dairy and meat products from European cows (Bos taurus) are a potential source. This is because colon cancer and breast cancer commonly occur in places where these foods are heavily consumed (that is, in North America, Argentina, Europe, and Australia). In contrast, the rate is low in India, where cows are revered as holy animals. Also noteworthy is that women with a lactose intolerance rarely develop breast cancer.
 

Viral progeny

In fact, the researchers found single-stranded DNA rings that originated in viruses, which they named bovine meat and milk factors (BMMF), in the intestines of patients with colon cancer. They reported, “This new class of pathogen deserves, in our opinion at least, to become the focus of cancer development and further chronic diseases.” They also detected elevated levels of acid radicals in these areas (that is, oxidative stress), which is typical for chronic inflammation.

The researchers assume that infants, whose immune system is not yet fully matured, ingest the BMMF as soon as they have dairy. Therefore, there is no need for adults to avoid dairy or beef because everyone is infected anyway, said Dr. zur Hausen.
 

‘Breast milk is healthy’

Dr. De Villiers and Dr. zur Hausen outlined more evidence of cancer-triggering pathogens. Mothers who have breastfed are less likely, especially after multiple pregnancies, to develop tumors in various organs or to have MS and type 2 diabetes. The authors attribute the protective effect to oligosaccharides in breast milk, which begin to be formed midway through the pregnancy. They bind to lectin receptors and, in so doing, mask the terminal molecule onto which the viruses need to dock. As a result, their port of entry into the cells is blocked.

The oligosaccharides also protect the baby against life-threatening infections by blocking access by rotaviruses and noroviruses. In this way, especially if breastfeeding lasts a long time – around 1 year – the period of incomplete immunocompetence is bridged.
 

Colon cancer

To date, it has been assumed that around 20% of all cancerous diseases globally are caused by infections, said the researchers. But if the suspected BMMF cases are included, this figure rises to 50%, even to around 80%, for colon cancer. If the suspicion is confirmed, the consequences for prevention and therapy would be significant.

The voice of a Nobel prize winner undoubtedly carries weight, but at the time, Dr. zur Hausen still had to convince a host of skeptics with his discovery that a viral infection is a major cause of cervical cancer. Nonetheless, some indicators suggest that he and his wife have found a dead end this time.
 

Institutional skepticism

When his working group made the results public in February 2019, the DKFZ felt the need to give an all-clear signal in response to alarmed press reports. There is no reason to see dairy and meat consumption as something negative. Similarly, in their first joint statement, the BfR and the MRI judged the data to be insufficient and called for further studies. Multiple research teams began to focus on BMMF as a result. In what foods can they be found? Are they more common in patients with cancer than in healthy people? Are they infectious? Do they cause inflammation and cancer?

The findings presented in a second statement by the BfR and MRI at the end of November 2022 contradicted the claims made by the DKFZ scientists across the board. In no way do BMMF represent new pathogens. They are variants of already known DNA sequences. In addition, they are present in numerous animal-based and plant-based foods, including pork, fish, fruit, vegetables, and nuts.

BMMF do not possess the ability to infect human cells, the institutes said. The proof that they are damaging to one’s health was also absent. It is true that the incidence of intestinal tumors correlates positively with the consumption of red and processed meat – which in no way signifies causality – but dairy products are linked to a reduced risk. On the other hand, breast cancer cannot be associated with the consumption of beef or dairy.

Therefore, both institutes recommend continuing to use these products as supplementary diet for infants because of their micronutrients. They further stated that the products are safe for people of all ages.
 

Association with MS?

Unperturbed, Dr. de Villiers and Dr. zur Hausen went one step further in their current article. They posited that MS is also associated with the consumption of dairy products and beef. Here too geographic distribution prompted the idea to look for BMMF in the brain lesions of patients with MS. The researchers isolated ring-shaped DNA molecules that proved to be closely related to BMMF from dairy and cattle blood. “The result was electrifying for us.”

However, there are several other factors to consider, such as vitamin D3 deficiency. This is because the incidence of MS decreases the further you travel from the poles toward the equator (that is, as solar radiation increases). Also, EBV clearly plays a role because patients with MS display increased titers of EBV antibodies. One study also showed that people in Antarctica excreted reactivated EBV in their saliva during winter and that vitamin D3 stopped the viral secretion.

Under these conditions, the researchers hypothesized that MS is caused by a double infection of brain cells by EBV and BMMF. EBV is reactivated by a lack of vitamin D3, and the BMMF multiply and are eventually converted into proteins. A focal immunoreaction causes the Schwann cells and oligodendrocytes to malfunction, which leads to the destruction of the myelin sheaths around the nerve fibers.

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

Providing care for individuals with both cardiovascular disease (CVD) and obesity necessitates addressing both conditions at the same time, say the authors of a new state-of-the-art review.

“CVD and obesity are common conditions that frequently coexist. We cannot treat one of these conditions while ignoring the other,” Rosana G. Bianchettin, MD, of the division of cardiovascular diseases, Mayo Clinic, Rochester, Minn., and colleagues wrote in their review, recently published in the Journal of the American College of Cardiology.

The review outlines, for example, how obesity can impair common imaging tests used to diagnose heart disease, potentially reducing their accuracy.

And cardiac procedures such as percutaneous coronary intervention, open heart surgery, and revascularization all involve greater risk in the setting of obesity, while procedures such as valve replacement and heart transplantation carry a greater likelihood of failure.

Obesity can also alter drug pharmacokinetics and pharmacodynamics.

Weight reduction is an important part of the management of patients with cardiovascular disease and obesity, and “cardiac rehabilitation programs represent a potential opportunity for structured interventions,” the authors noted. However, “when other measures are insufficient, bariatric surgery can improve outcomes.”

They also advised against relying solely on body mass index (BMI) to assess adiposity: “It is prudent to investigate a range of complementary ... parameters alongside standard BMI calculations (accounting for age, race, and sex), including measures of central obesity, such as waist circumference, waist-to-hip ratio, and weight-to-height ratio.”
 

Excess fat acts as filter and can skew diagnostic results

“Obesity affects nearly all the diagnostic tests used in cardiology, such as ECG, CT scan, MRI, and echocardiogram,” senior author Francisco Lopez-Jimenez, MD, director of preventive cardiology at Mayo Clinic, explained in a statement.

The review includes a detailed table of these key obesity-related challenges. With electrocardiograms, for example, obesity can cause displacement of the heart, increased cardiac workload, and widening of the distance between the heart and the recording electrodes.

Obesity also lowers the sensitivity of exercise echocardiography, and use of CT coronary angiogram is completely precluded in people with a BMI above 40 kg/m². In interventional radiology, there may be poor visualization of target areas.

“Excess fat acts as a kind of filter and can skew test readings to under- or overdiagnosis,” noted Dr. Lopez-Jimenez.
 

Therapeutic challenges: Drugs may work differently

A longer table in the review summarizes the therapeutic challenges involved in lifestyle modification, pharmacology, cardiac procedures, and other therapeutic measures for people with the two conditions.

Obesity can limit a person’s ability to exercise, for example, and smoking cessation may promote overeating and further weight gain.

Moreover, “tailoring pharmacotherapy is difficult because of unique pharmacokinetic and pharmacodynamic factors in people with obesity that alter distribution, metabolism, and elimination of drugs. Each drug also has special properties that must be considered when it is administrated,” the authors wrote.

Examples include the higher volume of distribution of lipophilic drugs in those with increased fat mass, alterations in liver metabolism, and difficulties with anticoagulant dosing.
 

Cardiac rehabilitation is an intervention opportunity

Although cardiac rehabilitation is “a cornerstone in secondary prevention” for people who have experienced a cardiac event, only 8% of such programs include formal in-house behavioral weight-loss programs.

But that could be remedied and expanded with the use of options such as home-based rehabilitation and telephone counseling, particularly in rural communities, Dr. Bianchettin and colleagues said.

“Motivated individuals will benefit from multicomponent approaches and should be encouraged to set specific, proximal, shared goals with their health care professional. A multitude of tools are available to support self-monitoring (e.g., smartphone applications, food diaries), and scheduled regular follow-up and feedback on progress can help to maintain motivation,” they wrote.

The bottom line, said Dr. Lopez-Jimenez: “Obesity is an important risk factor to address in patients with heart disease and it requires us to do something. ... The patient needs to know that their clinician can help them lose weight. Overall, weight-loss solutions come down to finding the right therapy for the patient.”

Dr. Bianchettin reported no relevant financial relationships. Dr. Lopez-Jimenez has reported conducting research related to 3D body assessment with Select Research, Mayo Clinic, and may benefit in the future if the technology is commercialized; he has not received any relevant monetary, financial, or other type of compensation to date, in relationship to this arrangement. He is a member of the scientific advisory board for Novo Nordisk.

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

Providing care for individuals with both cardiovascular disease (CVD) and obesity necessitates addressing both conditions at the same time, say the authors of a new state-of-the-art review.

“CVD and obesity are common conditions that frequently coexist. We cannot treat one of these conditions while ignoring the other,” Rosana G. Bianchettin, MD, of the division of cardiovascular diseases, Mayo Clinic, Rochester, Minn., and colleagues wrote in their review, recently published in the Journal of the American College of Cardiology.

The review outlines, for example, how obesity can impair common imaging tests used to diagnose heart disease, potentially reducing their accuracy.

And cardiac procedures such as percutaneous coronary intervention, open heart surgery, and revascularization all involve greater risk in the setting of obesity, while procedures such as valve replacement and heart transplantation carry a greater likelihood of failure.

Obesity can also alter drug pharmacokinetics and pharmacodynamics.

Weight reduction is an important part of the management of patients with cardiovascular disease and obesity, and “cardiac rehabilitation programs represent a potential opportunity for structured interventions,” the authors noted. However, “when other measures are insufficient, bariatric surgery can improve outcomes.”

They also advised against relying solely on body mass index (BMI) to assess adiposity: “It is prudent to investigate a range of complementary ... parameters alongside standard BMI calculations (accounting for age, race, and sex), including measures of central obesity, such as waist circumference, waist-to-hip ratio, and weight-to-height ratio.”
 

Excess fat acts as filter and can skew diagnostic results

“Obesity affects nearly all the diagnostic tests used in cardiology, such as ECG, CT scan, MRI, and echocardiogram,” senior author Francisco Lopez-Jimenez, MD, director of preventive cardiology at Mayo Clinic, explained in a statement.

The review includes a detailed table of these key obesity-related challenges. With electrocardiograms, for example, obesity can cause displacement of the heart, increased cardiac workload, and widening of the distance between the heart and the recording electrodes.

Obesity also lowers the sensitivity of exercise echocardiography, and use of CT coronary angiogram is completely precluded in people with a BMI above 40 kg/m². In interventional radiology, there may be poor visualization of target areas.

“Excess fat acts as a kind of filter and can skew test readings to under- or overdiagnosis,” noted Dr. Lopez-Jimenez.
 

Therapeutic challenges: Drugs may work differently

A longer table in the review summarizes the therapeutic challenges involved in lifestyle modification, pharmacology, cardiac procedures, and other therapeutic measures for people with the two conditions.

Obesity can limit a person’s ability to exercise, for example, and smoking cessation may promote overeating and further weight gain.

Moreover, “tailoring pharmacotherapy is difficult because of unique pharmacokinetic and pharmacodynamic factors in people with obesity that alter distribution, metabolism, and elimination of drugs. Each drug also has special properties that must be considered when it is administrated,” the authors wrote.

Examples include the higher volume of distribution of lipophilic drugs in those with increased fat mass, alterations in liver metabolism, and difficulties with anticoagulant dosing.
 

Cardiac rehabilitation is an intervention opportunity

Although cardiac rehabilitation is “a cornerstone in secondary prevention” for people who have experienced a cardiac event, only 8% of such programs include formal in-house behavioral weight-loss programs.

But that could be remedied and expanded with the use of options such as home-based rehabilitation and telephone counseling, particularly in rural communities, Dr. Bianchettin and colleagues said.

“Motivated individuals will benefit from multicomponent approaches and should be encouraged to set specific, proximal, shared goals with their health care professional. A multitude of tools are available to support self-monitoring (e.g., smartphone applications, food diaries), and scheduled regular follow-up and feedback on progress can help to maintain motivation,” they wrote.

The bottom line, said Dr. Lopez-Jimenez: “Obesity is an important risk factor to address in patients with heart disease and it requires us to do something. ... The patient needs to know that their clinician can help them lose weight. Overall, weight-loss solutions come down to finding the right therapy for the patient.”

Dr. Bianchettin reported no relevant financial relationships. Dr. Lopez-Jimenez has reported conducting research related to 3D body assessment with Select Research, Mayo Clinic, and may benefit in the future if the technology is commercialized; he has not received any relevant monetary, financial, or other type of compensation to date, in relationship to this arrangement. He is a member of the scientific advisory board for Novo Nordisk.

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

Providing care for individuals with both cardiovascular disease (CVD) and obesity necessitates addressing both conditions at the same time, say the authors of a new state-of-the-art review.

“CVD and obesity are common conditions that frequently coexist. We cannot treat one of these conditions while ignoring the other,” Rosana G. Bianchettin, MD, of the division of cardiovascular diseases, Mayo Clinic, Rochester, Minn., and colleagues wrote in their review, recently published in the Journal of the American College of Cardiology.

The review outlines, for example, how obesity can impair common imaging tests used to diagnose heart disease, potentially reducing their accuracy.

And cardiac procedures such as percutaneous coronary intervention, open heart surgery, and revascularization all involve greater risk in the setting of obesity, while procedures such as valve replacement and heart transplantation carry a greater likelihood of failure.

Obesity can also alter drug pharmacokinetics and pharmacodynamics.

Weight reduction is an important part of the management of patients with cardiovascular disease and obesity, and “cardiac rehabilitation programs represent a potential opportunity for structured interventions,” the authors noted. However, “when other measures are insufficient, bariatric surgery can improve outcomes.”

They also advised against relying solely on body mass index (BMI) to assess adiposity: “It is prudent to investigate a range of complementary ... parameters alongside standard BMI calculations (accounting for age, race, and sex), including measures of central obesity, such as waist circumference, waist-to-hip ratio, and weight-to-height ratio.”
 

Excess fat acts as filter and can skew diagnostic results

“Obesity affects nearly all the diagnostic tests used in cardiology, such as ECG, CT scan, MRI, and echocardiogram,” senior author Francisco Lopez-Jimenez, MD, director of preventive cardiology at Mayo Clinic, explained in a statement.

The review includes a detailed table of these key obesity-related challenges. With electrocardiograms, for example, obesity can cause displacement of the heart, increased cardiac workload, and widening of the distance between the heart and the recording electrodes.

Obesity also lowers the sensitivity of exercise echocardiography, and use of CT coronary angiogram is completely precluded in people with a BMI above 40 kg/m². In interventional radiology, there may be poor visualization of target areas.

“Excess fat acts as a kind of filter and can skew test readings to under- or overdiagnosis,” noted Dr. Lopez-Jimenez.
 

Therapeutic challenges: Drugs may work differently

A longer table in the review summarizes the therapeutic challenges involved in lifestyle modification, pharmacology, cardiac procedures, and other therapeutic measures for people with the two conditions.

Obesity can limit a person’s ability to exercise, for example, and smoking cessation may promote overeating and further weight gain.

Moreover, “tailoring pharmacotherapy is difficult because of unique pharmacokinetic and pharmacodynamic factors in people with obesity that alter distribution, metabolism, and elimination of drugs. Each drug also has special properties that must be considered when it is administrated,” the authors wrote.

Examples include the higher volume of distribution of lipophilic drugs in those with increased fat mass, alterations in liver metabolism, and difficulties with anticoagulant dosing.
 

Cardiac rehabilitation is an intervention opportunity

Although cardiac rehabilitation is “a cornerstone in secondary prevention” for people who have experienced a cardiac event, only 8% of such programs include formal in-house behavioral weight-loss programs.

But that could be remedied and expanded with the use of options such as home-based rehabilitation and telephone counseling, particularly in rural communities, Dr. Bianchettin and colleagues said.

“Motivated individuals will benefit from multicomponent approaches and should be encouraged to set specific, proximal, shared goals with their health care professional. A multitude of tools are available to support self-monitoring (e.g., smartphone applications, food diaries), and scheduled regular follow-up and feedback on progress can help to maintain motivation,” they wrote.

The bottom line, said Dr. Lopez-Jimenez: “Obesity is an important risk factor to address in patients with heart disease and it requires us to do something. ... The patient needs to know that their clinician can help them lose weight. Overall, weight-loss solutions come down to finding the right therapy for the patient.”

Dr. Bianchettin reported no relevant financial relationships. Dr. Lopez-Jimenez has reported conducting research related to 3D body assessment with Select Research, Mayo Clinic, and may benefit in the future if the technology is commercialized; he has not received any relevant monetary, financial, or other type of compensation to date, in relationship to this arrangement. He is a member of the scientific advisory board for Novo Nordisk.

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

Lung development in the fetus may be adversely affected by a mother’s gestational diabetes, based on data from in vivo, in vitro, and ex vivo studies.

Gestational diabetes mellitus (GDM) has recently been associated with fetal lung underdevelopment (FLUD) and delayed lung maturation that may lead to immediate respiratory distress in newborns and later chronic lung disease, Pengzheng Chen, PhD, of Shandong University, Jinan, China, and colleagues wrote.

Antenatal corticosteroids are considered an effective treatment for gestational fetal lung underdevelopment, but recent studies have shown adverse effects of these medications, and therefore more research is needed to identify the etiology and pathogenesis of FLUD induced by GDM, they said.

In a study published in the International Journal of Nanomedicine, the researchers collected umbilical cord blood samples from patients with GDM and matched controls at a single hospital in China.

“Using an ex vivo exosome exposure model of fetal lung explants, we observed the morphological alteration of lung explants and evaluated the expression of molecules involved in lung development,” the researchers wrote.

Fetal lung underdevelopment was more common after exposure to exosomes from the umbilical cord plasma of individuals with gestational diabetes mellitus, compared with exosomes from healthy controls.

The researchers also used mouse models to examine the effects of exosomes on fetal lung development in vivo. They found that exosomes associated with GDM impeded the growth, branching morphogenesis, and maturation of fetal lungs in mouse models. In addition, the expression of the apoptotic biomarkers known as BAX, BIM, and cleaved CASPASE-3 was up-regulated in GDMUB-exosomes and HG-exos groups, but the antiapoptotic protein BCL-2 was down-regulated; this further supported the negative impact of GDM exomes on fetal lung development, the researchers said.

The researchers then conducted miRNA sequencing, which showed that the miRNA in placenta-derived exosomes from GDM pregnancies were distinct from the miRNA in exosomes from healthy control pregnancies.

The study findings were limited by several factors including the impurity of the isolated placenta-derived exosomes from the umbilical cord blood plasma, which were not placenta specific, the researchers noted. Other limitations included the lack of data on different stages of lung development, and more research is needed to validate miRNAs and to explore the signally pathways involved in fetal lung development.

However, the study is the first known to demonstrate an adverse effect of GDM on fetal lung development via in vitro, ex vivo, and in vitro models, they said.

“These data highlight an emerging role of placenta-derived exosomes in the pathogenesis of fetal lung underdevelopment in GDM pregnancies, and provide a novel strategy for maternal-fetal communication,” they concluded.

The study received no outside funding. The researchers had no financial conflicts to disclose.

Lung development in the fetus may be adversely affected by a mother’s gestational diabetes, based on data from in vivo, in vitro, and ex vivo studies.

Gestational diabetes mellitus (GDM) has recently been associated with fetal lung underdevelopment (FLUD) and delayed lung maturation that may lead to immediate respiratory distress in newborns and later chronic lung disease, Pengzheng Chen, PhD, of Shandong University, Jinan, China, and colleagues wrote.

Antenatal corticosteroids are considered an effective treatment for gestational fetal lung underdevelopment, but recent studies have shown adverse effects of these medications, and therefore more research is needed to identify the etiology and pathogenesis of FLUD induced by GDM, they said.

In a study published in the International Journal of Nanomedicine, the researchers collected umbilical cord blood samples from patients with GDM and matched controls at a single hospital in China.

“Using an ex vivo exosome exposure model of fetal lung explants, we observed the morphological alteration of lung explants and evaluated the expression of molecules involved in lung development,” the researchers wrote.

Fetal lung underdevelopment was more common after exposure to exosomes from the umbilical cord plasma of individuals with gestational diabetes mellitus, compared with exosomes from healthy controls.

The researchers also used mouse models to examine the effects of exosomes on fetal lung development in vivo. They found that exosomes associated with GDM impeded the growth, branching morphogenesis, and maturation of fetal lungs in mouse models. In addition, the expression of the apoptotic biomarkers known as BAX, BIM, and cleaved CASPASE-3 was up-regulated in GDMUB-exosomes and HG-exos groups, but the antiapoptotic protein BCL-2 was down-regulated; this further supported the negative impact of GDM exomes on fetal lung development, the researchers said.

The researchers then conducted miRNA sequencing, which showed that the miRNA in placenta-derived exosomes from GDM pregnancies were distinct from the miRNA in exosomes from healthy control pregnancies.

The study findings were limited by several factors including the impurity of the isolated placenta-derived exosomes from the umbilical cord blood plasma, which were not placenta specific, the researchers noted. Other limitations included the lack of data on different stages of lung development, and more research is needed to validate miRNAs and to explore the signally pathways involved in fetal lung development.

However, the study is the first known to demonstrate an adverse effect of GDM on fetal lung development via in vitro, ex vivo, and in vitro models, they said.

“These data highlight an emerging role of placenta-derived exosomes in the pathogenesis of fetal lung underdevelopment in GDM pregnancies, and provide a novel strategy for maternal-fetal communication,” they concluded.

The study received no outside funding. The researchers had no financial conflicts to disclose.

Lung development in the fetus may be adversely affected by a mother’s gestational diabetes, based on data from in vivo, in vitro, and ex vivo studies.

Gestational diabetes mellitus (GDM) has recently been associated with fetal lung underdevelopment (FLUD) and delayed lung maturation that may lead to immediate respiratory distress in newborns and later chronic lung disease, Pengzheng Chen, PhD, of Shandong University, Jinan, China, and colleagues wrote.

Antenatal corticosteroids are considered an effective treatment for gestational fetal lung underdevelopment, but recent studies have shown adverse effects of these medications, and therefore more research is needed to identify the etiology and pathogenesis of FLUD induced by GDM, they said.

In a study published in the International Journal of Nanomedicine, the researchers collected umbilical cord blood samples from patients with GDM and matched controls at a single hospital in China.

“Using an ex vivo exosome exposure model of fetal lung explants, we observed the morphological alteration of lung explants and evaluated the expression of molecules involved in lung development,” the researchers wrote.

Fetal lung underdevelopment was more common after exposure to exosomes from the umbilical cord plasma of individuals with gestational diabetes mellitus, compared with exosomes from healthy controls.

The researchers also used mouse models to examine the effects of exosomes on fetal lung development in vivo. They found that exosomes associated with GDM impeded the growth, branching morphogenesis, and maturation of fetal lungs in mouse models. In addition, the expression of the apoptotic biomarkers known as BAX, BIM, and cleaved CASPASE-3 was up-regulated in GDMUB-exosomes and HG-exos groups, but the antiapoptotic protein BCL-2 was down-regulated; this further supported the negative impact of GDM exomes on fetal lung development, the researchers said.

The researchers then conducted miRNA sequencing, which showed that the miRNA in placenta-derived exosomes from GDM pregnancies were distinct from the miRNA in exosomes from healthy control pregnancies.

The study findings were limited by several factors including the impurity of the isolated placenta-derived exosomes from the umbilical cord blood plasma, which were not placenta specific, the researchers noted. Other limitations included the lack of data on different stages of lung development, and more research is needed to validate miRNAs and to explore the signally pathways involved in fetal lung development.

However, the study is the first known to demonstrate an adverse effect of GDM on fetal lung development via in vitro, ex vivo, and in vitro models, they said.

“These data highlight an emerging role of placenta-derived exosomes in the pathogenesis of fetal lung underdevelopment in GDM pregnancies, and provide a novel strategy for maternal-fetal communication,” they concluded.

The study received no outside funding. The researchers had no financial conflicts to disclose.

A simple urine test for genetic mutations in urine-derived DNA can predict urothelial cancer up to 12 years before patients develop symptoms, an international team of researchers claims.

The test, if validated in further studies, has the potential to serve as a cancer screening tool for individuals at elevated risk for bladder cancer due to genetics, smoking, or from environmental exposures to known carcinogens, and it could help to reduce the frequency of unnecessary cystoscopies, say urologists who were not involved in the research.

The test involved was performed using a next-generation sequencing assay (UroAmp, Convergent Genomics, based in San Francisco) that identifies mutations in 60 genes associated with bladder cancer. New research reported at the annual congress of the European Association of Urology described the screening model that focused on 10 key genes covered in the assay.

In training and validation cohorts, the urinary comprehensive genomic profiling test accurately predicted future bladder cancer in 66% of patient urine samples, including some that had been collected more than a decade prior to being tested, reported Florence Le Calvez-Kelm, PhD, MSc, from the International Agency for Research on Cancer, Lyon, France.

“Our results provide first evidence from a population-based cohort study of preclinical urothelial cancer detection with urinary comprehensive genomic profiling,” she told the meeting.

The results were consistent both in individuals with known risk factors for bladder cancer who were undergoing cystoscopy and in those with no evidence of disease, she said.

“Research of this nature is very encouraging, as it shows that our ability to identify molecular alterations in liquid biopsies such as urine that might indicate cancer is constantly improving,” commented Joost Boormans, MD, PhD, a urologist at the Erasmus University Medical Center, Rotterdam, Netherlands, and a member of the EAU Scientific Congress Office.

“While we do need to develop more accurate diagnostics, it’s unlikely that we’ll have a mass screening program for bladder cancer in the near future,” he continued. “Where a urine test for genetic mutations could show its value is in reducing cystoscopies and scans in bladder cancer patients who are being monitored for recurrence, as well as those referred for blood in their urine. A simple urine test would be far easier for patients to undergo than invasive procedures or scans, as well as being less costly for health services.”

Dr. Le Calvez-Kelm and colleagues had previously shown that promoter mutations in the gene encoding for the enzyme telomerase reverse transcriptase (TERT) identified in urine were “promising noninvasive biomarkers” for early detection of bladder cancer.

They found that TERT mutations in urine could predict which patients were likely to develop urothelial cancer with 48% sensitivity and 100% specificity.

In the study presented at EAU23, they hypothesized that uCGP of DNA in urine could offer enhanced sensitivity for early detection of urothelial cancer.

They first used the 60-gene assay to create a training set using urine samples from 46 patients with de novo urothelial cancer, 40 with recurrent cancer, and 140 healthy controls.

They then tested the model in two validation cohorts. The first validation cohort consisted of samples from 22 patients with de novo cancer, 48 with recurrent urothelial cancer, and 96 controls from a case-control study conducted at Massachusetts General Hospital, Boston, and Ohio State University, Columbus.

The second validation cohort included 29 patients from the prospective Golestan Cohort Study who subsequently developed urothelial cancer, with 98 controls.

In all, 10 genes were identified as optimal for inclusion in a screening model, which was trained to an overall sensitivity of 88% and a 97% sensitivity for high-grade tumors, with a specificity of 94%.

In the MGH/OSU validation cohort the sensitivity of the models was 71%, and the specificity was 94%. In the Golestan cohort, the sensitivity was 66%, with a specificity of 94%. This compared favorably with the performance of the TERT-only screening model, which, as noted before, had a sensitivity of 48%, albeit with 100% specificity.

“Interestingly, when we broke down the analysis according to the lag time between urine collection and diagnosis, sensitivity increased as the time to diagnosis decreased, so the closer we got to the diagnosis, the higher was the sensitivity,” Dr. Le Calvez-Kelm said.

When the analysis was limited to urothelial cancers diagnosed within 7 years of sample collection, the sensitivity for detecting preclinical cancer improved to 86%, compared with 57% for a test of TERT promoter mutations alone. 

Among the patients in the Golestan cohort, uCGP-predicted positive results were associated with a more than eightfold higher risk for worse cancer-free survival, compared with uCGP-predicted negatives (hazard ratio 8.5, P < .0001).

“Of course, further studies are needed to validate this finding and to assess the clinical utility in other longitudinal cohorts,” Dr. Le Calvez-Kelm concluded.

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

A simple urine test for genetic mutations in urine-derived DNA can predict urothelial cancer up to 12 years before patients develop symptoms, an international team of researchers claims.

The test, if validated in further studies, has the potential to serve as a cancer screening tool for individuals at elevated risk for bladder cancer due to genetics, smoking, or from environmental exposures to known carcinogens, and it could help to reduce the frequency of unnecessary cystoscopies, say urologists who were not involved in the research.

The test involved was performed using a next-generation sequencing assay (UroAmp, Convergent Genomics, based in San Francisco) that identifies mutations in 60 genes associated with bladder cancer. New research reported at the annual congress of the European Association of Urology described the screening model that focused on 10 key genes covered in the assay.

In training and validation cohorts, the urinary comprehensive genomic profiling test accurately predicted future bladder cancer in 66% of patient urine samples, including some that had been collected more than a decade prior to being tested, reported Florence Le Calvez-Kelm, PhD, MSc, from the International Agency for Research on Cancer, Lyon, France.

“Our results provide first evidence from a population-based cohort study of preclinical urothelial cancer detection with urinary comprehensive genomic profiling,” she told the meeting.

The results were consistent both in individuals with known risk factors for bladder cancer who were undergoing cystoscopy and in those with no evidence of disease, she said.

“Research of this nature is very encouraging, as it shows that our ability to identify molecular alterations in liquid biopsies such as urine that might indicate cancer is constantly improving,” commented Joost Boormans, MD, PhD, a urologist at the Erasmus University Medical Center, Rotterdam, Netherlands, and a member of the EAU Scientific Congress Office.

“While we do need to develop more accurate diagnostics, it’s unlikely that we’ll have a mass screening program for bladder cancer in the near future,” he continued. “Where a urine test for genetic mutations could show its value is in reducing cystoscopies and scans in bladder cancer patients who are being monitored for recurrence, as well as those referred for blood in their urine. A simple urine test would be far easier for patients to undergo than invasive procedures or scans, as well as being less costly for health services.”

Dr. Le Calvez-Kelm and colleagues had previously shown that promoter mutations in the gene encoding for the enzyme telomerase reverse transcriptase (TERT) identified in urine were “promising noninvasive biomarkers” for early detection of bladder cancer.

They found that TERT mutations in urine could predict which patients were likely to develop urothelial cancer with 48% sensitivity and 100% specificity.

In the study presented at EAU23, they hypothesized that uCGP of DNA in urine could offer enhanced sensitivity for early detection of urothelial cancer.

They first used the 60-gene assay to create a training set using urine samples from 46 patients with de novo urothelial cancer, 40 with recurrent cancer, and 140 healthy controls.

They then tested the model in two validation cohorts. The first validation cohort consisted of samples from 22 patients with de novo cancer, 48 with recurrent urothelial cancer, and 96 controls from a case-control study conducted at Massachusetts General Hospital, Boston, and Ohio State University, Columbus.

The second validation cohort included 29 patients from the prospective Golestan Cohort Study who subsequently developed urothelial cancer, with 98 controls.

In all, 10 genes were identified as optimal for inclusion in a screening model, which was trained to an overall sensitivity of 88% and a 97% sensitivity for high-grade tumors, with a specificity of 94%.

In the MGH/OSU validation cohort the sensitivity of the models was 71%, and the specificity was 94%. In the Golestan cohort, the sensitivity was 66%, with a specificity of 94%. This compared favorably with the performance of the TERT-only screening model, which, as noted before, had a sensitivity of 48%, albeit with 100% specificity.

“Interestingly, when we broke down the analysis according to the lag time between urine collection and diagnosis, sensitivity increased as the time to diagnosis decreased, so the closer we got to the diagnosis, the higher was the sensitivity,” Dr. Le Calvez-Kelm said.

When the analysis was limited to urothelial cancers diagnosed within 7 years of sample collection, the sensitivity for detecting preclinical cancer improved to 86%, compared with 57% for a test of TERT promoter mutations alone. 

Among the patients in the Golestan cohort, uCGP-predicted positive results were associated with a more than eightfold higher risk for worse cancer-free survival, compared with uCGP-predicted negatives (hazard ratio 8.5, P < .0001).

“Of course, further studies are needed to validate this finding and to assess the clinical utility in other longitudinal cohorts,” Dr. Le Calvez-Kelm concluded.

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

A simple urine test for genetic mutations in urine-derived DNA can predict urothelial cancer up to 12 years before patients develop symptoms, an international team of researchers claims.

The test, if validated in further studies, has the potential to serve as a cancer screening tool for individuals at elevated risk for bladder cancer due to genetics, smoking, or from environmental exposures to known carcinogens, and it could help to reduce the frequency of unnecessary cystoscopies, say urologists who were not involved in the research.

The test involved was performed using a next-generation sequencing assay (UroAmp, Convergent Genomics, based in San Francisco) that identifies mutations in 60 genes associated with bladder cancer. New research reported at the annual congress of the European Association of Urology described the screening model that focused on 10 key genes covered in the assay.

In training and validation cohorts, the urinary comprehensive genomic profiling test accurately predicted future bladder cancer in 66% of patient urine samples, including some that had been collected more than a decade prior to being tested, reported Florence Le Calvez-Kelm, PhD, MSc, from the International Agency for Research on Cancer, Lyon, France.

“Our results provide first evidence from a population-based cohort study of preclinical urothelial cancer detection with urinary comprehensive genomic profiling,” she told the meeting.

The results were consistent both in individuals with known risk factors for bladder cancer who were undergoing cystoscopy and in those with no evidence of disease, she said.

“Research of this nature is very encouraging, as it shows that our ability to identify molecular alterations in liquid biopsies such as urine that might indicate cancer is constantly improving,” commented Joost Boormans, MD, PhD, a urologist at the Erasmus University Medical Center, Rotterdam, Netherlands, and a member of the EAU Scientific Congress Office.

“While we do need to develop more accurate diagnostics, it’s unlikely that we’ll have a mass screening program for bladder cancer in the near future,” he continued. “Where a urine test for genetic mutations could show its value is in reducing cystoscopies and scans in bladder cancer patients who are being monitored for recurrence, as well as those referred for blood in their urine. A simple urine test would be far easier for patients to undergo than invasive procedures or scans, as well as being less costly for health services.”

Dr. Le Calvez-Kelm and colleagues had previously shown that promoter mutations in the gene encoding for the enzyme telomerase reverse transcriptase (TERT) identified in urine were “promising noninvasive biomarkers” for early detection of bladder cancer.

They found that TERT mutations in urine could predict which patients were likely to develop urothelial cancer with 48% sensitivity and 100% specificity.

In the study presented at EAU23, they hypothesized that uCGP of DNA in urine could offer enhanced sensitivity for early detection of urothelial cancer.

They first used the 60-gene assay to create a training set using urine samples from 46 patients with de novo urothelial cancer, 40 with recurrent cancer, and 140 healthy controls.

They then tested the model in two validation cohorts. The first validation cohort consisted of samples from 22 patients with de novo cancer, 48 with recurrent urothelial cancer, and 96 controls from a case-control study conducted at Massachusetts General Hospital, Boston, and Ohio State University, Columbus.

The second validation cohort included 29 patients from the prospective Golestan Cohort Study who subsequently developed urothelial cancer, with 98 controls.

In all, 10 genes were identified as optimal for inclusion in a screening model, which was trained to an overall sensitivity of 88% and a 97% sensitivity for high-grade tumors, with a specificity of 94%.

In the MGH/OSU validation cohort the sensitivity of the models was 71%, and the specificity was 94%. In the Golestan cohort, the sensitivity was 66%, with a specificity of 94%. This compared favorably with the performance of the TERT-only screening model, which, as noted before, had a sensitivity of 48%, albeit with 100% specificity.

“Interestingly, when we broke down the analysis according to the lag time between urine collection and diagnosis, sensitivity increased as the time to diagnosis decreased, so the closer we got to the diagnosis, the higher was the sensitivity,” Dr. Le Calvez-Kelm said.

When the analysis was limited to urothelial cancers diagnosed within 7 years of sample collection, the sensitivity for detecting preclinical cancer improved to 86%, compared with 57% for a test of TERT promoter mutations alone. 

Among the patients in the Golestan cohort, uCGP-predicted positive results were associated with a more than eightfold higher risk for worse cancer-free survival, compared with uCGP-predicted negatives (hazard ratio 8.5, P < .0001).

“Of course, further studies are needed to validate this finding and to assess the clinical utility in other longitudinal cohorts,” Dr. Le Calvez-Kelm concluded.

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

Practicing yoga was associated with improvements in several frailty markers in previously inactive older adults, a multistudy review finds.

“Up to 50% of adults aged 80 years or older are estimated to be frail, and the global prevalence is expected to rise given the aging of our population,” therefore more interventions are needed to help with frailty, corresponding author Julia Loewenthal, MD, said in an interview.

Yoga integrates across multiple body systems including the musculoskeletal system, nervous system, and others, said Dr. Loewenthal of Brigham and Women’s Hospital, Boston. Previous research has shown that yoga has a positive effect on cardiovascular risk factors, mood, and quality of life, but the effects of yoga on frailty have not been well studied.

“We wanted to evaluate whether [yoga] might help with frailty, since it touches on so many systems, as frailty does,” she noted.

In a systematic review published in Annals of Internal Medicine, the researchers identified 33 randomized, controlled trials of yoga-based interventions including 2,384 adults aged 65 years and older. The studies mainly involved Iyengar or chair-based yoga methods. The study population included community-dwelling seniors, nursing home residents, and individuals with chronic diseases.

The studies assessed the effect of a range of yoga practices on frailty markers including gait speed, handgrip strength, balance, lower extremity strength and endurance, and multicomponent measures of physical performance.

Overall, individuals who were randomized to engage in a yoga practice showed improved gait speed and lower extremity strength, compared with controls who were inactive or received an education intervention, with moderate-certainty evidence. The researchers also found low-certainty evidence in favor of yoga for improved balance and for a composite measure of physical function, and low-certainty evidence in favor of yoga for improved handgrip strength.

The findings were limited by several factors, mainly the heterogenous study designs, populations, and yoga styles, the researchers noted. Other limitations included the small sample sizes, variation in descriptions of the studies’ randomizations, and a lack of data on race and ethnicity of the participants.
 

Yoga’s role in healthy aging

“Overall, we were not surprised by the results since we have seen similar findings from other mind-body practices such as tai chi,” Dr. Loewenthal said in an interview. “We were surprised by the degree of improvement many of the participants had with gait speed.

“Yoga practices usually include a mix of poses in the standing, seated, and lying-down positions,” Dr. Loewenthal said. Some of the studies in the review also involved chair-based methods with few standing poses, and some involved gentle or slow-paced practices. “We know that many of the practices helped with leg strength, and perhaps they are also helping with coordination between the brain and body for walking.”

The findings suggest that clinicians can view yoga practice in general as part of a strategy to support healthy aging, Dr. Loewenthal said. “While our work looked at frailty markers and not overall frailty, I think it would be reasonable to offer yoga as a strategy along with already-established interventions such as resistance training and the Mediterranean diet, and if older adults are already practicing yoga, this could help them understand how the practice is impacting the aging process.”

There are many styles of yoga that overlap and are related to one another, so it is hard to make recommendations about a single type, said Dr. Loewenthal. Many of the studies in the review involved Iyengar yoga, named for yoga master B.K.S. Iyengar, which focuses on precise alignment and breath and seems to be conducive for older populations. Iyengar yoga also involves use of props such as blocks, bolsters, straps, and chairs, which makes it well suited for older individuals who may have a chronic condition or other limitations.

“Some styles of yoga are very physical and may reach energy expenditure and cardiovascular effects similar to aerobic exercise, but this is generally not the case for most styles of yoga,” she added.

As for additional research, “I think it is important that trials use a validated definition of frailty as an outcome; all of the trials in our study used markers of frailty but did not look at overall frailty,” said Dr. Loewenthal. In addition, it is important to understand how yoga affects people who have different levels of frailty, since previous research shows that those who are the most frail benefit most from physical activity interventions.
 

Yoga as an entry point for physical activity

With the increasing population of older adults in the United States and around the world, frailty is a major health concern because its association with significant declines in health and potential loss of independence, Amanda Paluch, PhD, said in an interview.

“Therefore, it is important to identify programs that can prevent frailty to support longevity and living independently for older adults. Yoga can be a feasible solution to promote movement and prevent frailty,” said Dr. Paluch, of the University of Massachusetts, Amherst, an assistant professor in the department of kinesiology and Institute for Applied Life Sciences.

“Other studies have demonstrated that light-intensity movement, as in yoga, may be particularly beneficial for older adults,” Dr. Paluch said. “Additionally, research has demonstrated that balance training activities are important to maintain physical function, prevent falls, and maintain their independence for older adults, so it makes sense that yoga was associated with lower likelihood of frailty.”

Although there may be additional benefits with higher intensity activity, “yoga could be a great place to start for older adults who are starting at low activity levels,” she said.

The takeaway for clinicians is to consider encouraging more physical activity for their patients to support healthy aging, including reducing the risk factors for frailty, said Dr. Paluch. “Particularly for older adults, physical activity may not need to be of high intensity for benefits. Activities such as yoga that focus on flexibility, balance, and movement at lower intensities can support healthy aging, and yoga may be a particularly good option for older adults who are least active.”

The study received no outside funding. The researchers and Dr. Paluch had no financial conflicts to disclose.

Practicing yoga was associated with improvements in several frailty markers in previously inactive older adults, a multistudy review finds.

“Up to 50% of adults aged 80 years or older are estimated to be frail, and the global prevalence is expected to rise given the aging of our population,” therefore more interventions are needed to help with frailty, corresponding author Julia Loewenthal, MD, said in an interview.

Yoga integrates across multiple body systems including the musculoskeletal system, nervous system, and others, said Dr. Loewenthal of Brigham and Women’s Hospital, Boston. Previous research has shown that yoga has a positive effect on cardiovascular risk factors, mood, and quality of life, but the effects of yoga on frailty have not been well studied.

“We wanted to evaluate whether [yoga] might help with frailty, since it touches on so many systems, as frailty does,” she noted.

In a systematic review published in Annals of Internal Medicine, the researchers identified 33 randomized, controlled trials of yoga-based interventions including 2,384 adults aged 65 years and older. The studies mainly involved Iyengar or chair-based yoga methods. The study population included community-dwelling seniors, nursing home residents, and individuals with chronic diseases.

The studies assessed the effect of a range of yoga practices on frailty markers including gait speed, handgrip strength, balance, lower extremity strength and endurance, and multicomponent measures of physical performance.

Overall, individuals who were randomized to engage in a yoga practice showed improved gait speed and lower extremity strength, compared with controls who were inactive or received an education intervention, with moderate-certainty evidence. The researchers also found low-certainty evidence in favor of yoga for improved balance and for a composite measure of physical function, and low-certainty evidence in favor of yoga for improved handgrip strength.

The findings were limited by several factors, mainly the heterogenous study designs, populations, and yoga styles, the researchers noted. Other limitations included the small sample sizes, variation in descriptions of the studies’ randomizations, and a lack of data on race and ethnicity of the participants.
 

Yoga’s role in healthy aging

“Overall, we were not surprised by the results since we have seen similar findings from other mind-body practices such as tai chi,” Dr. Loewenthal said in an interview. “We were surprised by the degree of improvement many of the participants had with gait speed.

“Yoga practices usually include a mix of poses in the standing, seated, and lying-down positions,” Dr. Loewenthal said. Some of the studies in the review also involved chair-based methods with few standing poses, and some involved gentle or slow-paced practices. “We know that many of the practices helped with leg strength, and perhaps they are also helping with coordination between the brain and body for walking.”

The findings suggest that clinicians can view yoga practice in general as part of a strategy to support healthy aging, Dr. Loewenthal said. “While our work looked at frailty markers and not overall frailty, I think it would be reasonable to offer yoga as a strategy along with already-established interventions such as resistance training and the Mediterranean diet, and if older adults are already practicing yoga, this could help them understand how the practice is impacting the aging process.”

There are many styles of yoga that overlap and are related to one another, so it is hard to make recommendations about a single type, said Dr. Loewenthal. Many of the studies in the review involved Iyengar yoga, named for yoga master B.K.S. Iyengar, which focuses on precise alignment and breath and seems to be conducive for older populations. Iyengar yoga also involves use of props such as blocks, bolsters, straps, and chairs, which makes it well suited for older individuals who may have a chronic condition or other limitations.

“Some styles of yoga are very physical and may reach energy expenditure and cardiovascular effects similar to aerobic exercise, but this is generally not the case for most styles of yoga,” she added.

As for additional research, “I think it is important that trials use a validated definition of frailty as an outcome; all of the trials in our study used markers of frailty but did not look at overall frailty,” said Dr. Loewenthal. In addition, it is important to understand how yoga affects people who have different levels of frailty, since previous research shows that those who are the most frail benefit most from physical activity interventions.
 

Yoga as an entry point for physical activity

With the increasing population of older adults in the United States and around the world, frailty is a major health concern because its association with significant declines in health and potential loss of independence, Amanda Paluch, PhD, said in an interview.

“Therefore, it is important to identify programs that can prevent frailty to support longevity and living independently for older adults. Yoga can be a feasible solution to promote movement and prevent frailty,” said Dr. Paluch, of the University of Massachusetts, Amherst, an assistant professor in the department of kinesiology and Institute for Applied Life Sciences.

“Other studies have demonstrated that light-intensity movement, as in yoga, may be particularly beneficial for older adults,” Dr. Paluch said. “Additionally, research has demonstrated that balance training activities are important to maintain physical function, prevent falls, and maintain their independence for older adults, so it makes sense that yoga was associated with lower likelihood of frailty.”

Although there may be additional benefits with higher intensity activity, “yoga could be a great place to start for older adults who are starting at low activity levels,” she said.

The takeaway for clinicians is to consider encouraging more physical activity for their patients to support healthy aging, including reducing the risk factors for frailty, said Dr. Paluch. “Particularly for older adults, physical activity may not need to be of high intensity for benefits. Activities such as yoga that focus on flexibility, balance, and movement at lower intensities can support healthy aging, and yoga may be a particularly good option for older adults who are least active.”

The study received no outside funding. The researchers and Dr. Paluch had no financial conflicts to disclose.

Practicing yoga was associated with improvements in several frailty markers in previously inactive older adults, a multistudy review finds.

“Up to 50% of adults aged 80 years or older are estimated to be frail, and the global prevalence is expected to rise given the aging of our population,” therefore more interventions are needed to help with frailty, corresponding author Julia Loewenthal, MD, said in an interview.

Yoga integrates across multiple body systems including the musculoskeletal system, nervous system, and others, said Dr. Loewenthal of Brigham and Women’s Hospital, Boston. Previous research has shown that yoga has a positive effect on cardiovascular risk factors, mood, and quality of life, but the effects of yoga on frailty have not been well studied.

“We wanted to evaluate whether [yoga] might help with frailty, since it touches on so many systems, as frailty does,” she noted.

In a systematic review published in Annals of Internal Medicine, the researchers identified 33 randomized, controlled trials of yoga-based interventions including 2,384 adults aged 65 years and older. The studies mainly involved Iyengar or chair-based yoga methods. The study population included community-dwelling seniors, nursing home residents, and individuals with chronic diseases.

The studies assessed the effect of a range of yoga practices on frailty markers including gait speed, handgrip strength, balance, lower extremity strength and endurance, and multicomponent measures of physical performance.

Overall, individuals who were randomized to engage in a yoga practice showed improved gait speed and lower extremity strength, compared with controls who were inactive or received an education intervention, with moderate-certainty evidence. The researchers also found low-certainty evidence in favor of yoga for improved balance and for a composite measure of physical function, and low-certainty evidence in favor of yoga for improved handgrip strength.

The findings were limited by several factors, mainly the heterogenous study designs, populations, and yoga styles, the researchers noted. Other limitations included the small sample sizes, variation in descriptions of the studies’ randomizations, and a lack of data on race and ethnicity of the participants.
 

Yoga’s role in healthy aging

“Overall, we were not surprised by the results since we have seen similar findings from other mind-body practices such as tai chi,” Dr. Loewenthal said in an interview. “We were surprised by the degree of improvement many of the participants had with gait speed.

“Yoga practices usually include a mix of poses in the standing, seated, and lying-down positions,” Dr. Loewenthal said. Some of the studies in the review also involved chair-based methods with few standing poses, and some involved gentle or slow-paced practices. “We know that many of the practices helped with leg strength, and perhaps they are also helping with coordination between the brain and body for walking.”

The findings suggest that clinicians can view yoga practice in general as part of a strategy to support healthy aging, Dr. Loewenthal said. “While our work looked at frailty markers and not overall frailty, I think it would be reasonable to offer yoga as a strategy along with already-established interventions such as resistance training and the Mediterranean diet, and if older adults are already practicing yoga, this could help them understand how the practice is impacting the aging process.”

There are many styles of yoga that overlap and are related to one another, so it is hard to make recommendations about a single type, said Dr. Loewenthal. Many of the studies in the review involved Iyengar yoga, named for yoga master B.K.S. Iyengar, which focuses on precise alignment and breath and seems to be conducive for older populations. Iyengar yoga also involves use of props such as blocks, bolsters, straps, and chairs, which makes it well suited for older individuals who may have a chronic condition or other limitations.

“Some styles of yoga are very physical and may reach energy expenditure and cardiovascular effects similar to aerobic exercise, but this is generally not the case for most styles of yoga,” she added.

As for additional research, “I think it is important that trials use a validated definition of frailty as an outcome; all of the trials in our study used markers of frailty but did not look at overall frailty,” said Dr. Loewenthal. In addition, it is important to understand how yoga affects people who have different levels of frailty, since previous research shows that those who are the most frail benefit most from physical activity interventions.
 

Yoga as an entry point for physical activity

With the increasing population of older adults in the United States and around the world, frailty is a major health concern because its association with significant declines in health and potential loss of independence, Amanda Paluch, PhD, said in an interview.

“Therefore, it is important to identify programs that can prevent frailty to support longevity and living independently for older adults. Yoga can be a feasible solution to promote movement and prevent frailty,” said Dr. Paluch, of the University of Massachusetts, Amherst, an assistant professor in the department of kinesiology and Institute for Applied Life Sciences.

“Other studies have demonstrated that light-intensity movement, as in yoga, may be particularly beneficial for older adults,” Dr. Paluch said. “Additionally, research has demonstrated that balance training activities are important to maintain physical function, prevent falls, and maintain their independence for older adults, so it makes sense that yoga was associated with lower likelihood of frailty.”

Although there may be additional benefits with higher intensity activity, “yoga could be a great place to start for older adults who are starting at low activity levels,” she said.

The takeaway for clinicians is to consider encouraging more physical activity for their patients to support healthy aging, including reducing the risk factors for frailty, said Dr. Paluch. “Particularly for older adults, physical activity may not need to be of high intensity for benefits. Activities such as yoga that focus on flexibility, balance, and movement at lower intensities can support healthy aging, and yoga may be a particularly good option for older adults who are least active.”

The study received no outside funding. The researchers and Dr. Paluch had no financial conflicts to disclose.

NEW ORLEANS – An investigational, first-in class agent that delivers a completely new type of intervention to patients with pulmonary arterial hypertension (PAH) scored a clear win in the STELLAR trial, the first to complete among three phase 3 trials that are testing this agent.

Sotatercept, administered subcutaneously every 3 weeks for 24 weeks, improved from baseline average 6-minute walk distance (6MWD) by a significant and clinically meaningful 40.8 meters, compared with placebo, for the trial’s primary efficacy endpoint (P < .001). The treatment also “delivered broad clinical benefit across multiple domains including hemodynamics, World Health Organization functional class, disease biomarkers, risk scores and patient-reported outcomes,” Marius M. Hoeper, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Mitchel L. Zoler/MDedge News

“These results establish the clinical utility of sotatercept, administered in combination with approved PAH therapies, as a new treatment for PAH,” added Dr. Hoeper, professor and deputy director of the department of respiratory medicine at Hannover (Germany) Medical School,

“The most important aspect was the hemodynamic improvement,” with sotatercept treatment, which led to an average 235 dyn/sec per cm⁻⁵ reduction in pulmonary vascular resistance from baseline and an average cut in pulmonary artery pressure of 13.9 mm Hg from baseline, compared with placebo, a result that’s “unheard of,” Dr. Hoeper said in a press conference during the meeting.

“With other tested agents we usually see very little improvement in pulmonary artery pressure. This is a signal that we achieved some reversing of the pathological changes in the pulmonary vessels that lead to” PAH, he added.

Simultaneously with his report the findings also appeared online in the New England Journal of Medicine.
 

‘A new hope’ for patients with PAH

Based on the reported findings, sotatercept is a “very exciting boutique molecule” that will “offer patients with PAH a very exciting new treatment,” commented Rhonda Cooper-DeHoff, PharmD, a designated discussant and a researcher at the University of Florida, Gainesville.

Mitchel L. Zoler/MDedge News

“This study is a new hope for patients with PAH. Until now, they’ve had really bad outcomes, but [in this study] we see significant differences in 6MWD, hemodynamics, and risk factors. Overall, I think the benefit is greater than the risk” it may pose to patients through potential adverse effects, commented Julia Grapsa, MD, PhD, a cardiologist at St. Thomas Hospital in London, and another discussant at the meeting.

“The results are impressive” and “encouraging,” and “suggest that sotatercept may represent a new and clinically consequential addition to current medications for PAH,” wrote three clinicians from Canyons Region Intermountain Medical Center in Murray, Utah, in an editorial that accompanied the published report.

But the authors of the editorial also raised several cautions and concerns. They questioned the generalizability of the findings, noting that the patients with PAH enrolled in the study were all adults who were clinically stable and an average of more than 8 years out from their initial PAH diagnosis, and more than 90% were on stable treatment for PAH with two or three agents specific for treating the disorder. The study cohort also had a disproportionately high enrollment of patients with idiopathic (59%) or heritable (18%) forms of PAH, and the 15% of patients in the trial with connective tissue disease represented a disproportionately low prevalence of this PAH subtype.

The editorialists also called for “ongoing vigilance” for adverse effects from sotatercept treatment, although they acknowledged that the adverse effects reported to date from sotatercept are “largely reassuring.”
 

Death or clinical worsening cut by 84%

STELLAR randomized 323 patients at 91 sites in 21 countries with WHO Group 1 PAH and with WHO functional class II or III disease to receive either sotatercept or placebo for 24 weeks, with an option for treatment to continue beyond that until the last patient in the study reached 24 weeks on treatment, resulting in an overall median treatment duration of nearly 33 weeks.

In addition to the significant result for the primary endpoint, the 163 patients who received sotatercept had significant improvements, compared with 160 placebo-treated patients, for eight of nine secondary endpoints. The only secondary endpoint with a neutral result was for a measure of cognitive and emotional wellbeing, a parameter that was already at a normal level at baseline in most enrolled patients, Dr. Hoeper explained.

The incidence of either death or an event indicative of clinical worsening during the overall median follow-up of almost 33 weeks was 26.3% among the control patients and 5.5% among those who received sotatercept. This translated into a significant reduction for this endpoint of 84% with sotatercept treatment, compared with placebo.

The rates of treatment-emergent adverse events leading to discontinuation were roughly the same in the control and sotatercept arms, and the incidence of severe or serious treatment-emergent adverse events was higher among the control patients.

The most common adverse event on sotatercept was bleeding events, which occurred in 32% of those on sotatercept and in 16% of the control patients, but the events in the sotatercept arm were “mostly mild,” said Dr. Hoeper. The next most frequent adverse event during sotatercept treatment was appearance of telangiectasias, which occurred in 14% of those on sotatercept and in 4% of control patients.

“It’s an uncommon adverse event profile, but not unexpected for a drug with its mechanism of action,” he said.

Drug binds activin, a pathologic driver of PAH

Sotatercept is an engineered molecule that combines a section of a human immunoglobulin G molecule with a portion of the receptor for activin. This structure allows sotatercept to bind free activin molecules in a patient’s blood, thereby removing a key driver of the pulmonary vascular wall remodeling that is at the pathologic root of PAH.

“Hyperproliferation of blood vessel–wall cells” caused by activin signaling “is perhaps the most important driver of PAH,” Dr. Hoeper said. “Sotatercept allows us for the first time to target the underlying mechanism behind PAH.”

Still ongoing are the HYPERION and ZENITH phase 3 trials of sotatercept. HYPERION is enrolling patients with newly diagnosed or high-risk PAH and is expected to complete in 2028. ZENITH is enrolling patients with more advanced PAH and a higher mortality risk, with results expected in 2026.

Sotatercept has received “Breakthrough Therapy” designation and “Orphan Drug” designation by the Food and Drug Administration, and “Priority Medicines” designation and “Orphan Drug” designation by the European Medicines Agency for the treatment of PAH. One recent review estimated a worldwide PAH prevalence of about 3-4 cases/100,000, which for the United States translates into a total prevalence of perhaps 10,000-15,000 affected people.

STELLAR was funded by Acceleron Pharma, a subsidiary of Merck. Dr. Hoeper is a consultant to Acceleron. Dr. Cooper-DeHoff, Dr. Grapsa, and the authors of the editorial on STELLAR have no relevant disclosures.

NEW ORLEANS – An investigational, first-in class agent that delivers a completely new type of intervention to patients with pulmonary arterial hypertension (PAH) scored a clear win in the STELLAR trial, the first to complete among three phase 3 trials that are testing this agent.

Sotatercept, administered subcutaneously every 3 weeks for 24 weeks, improved from baseline average 6-minute walk distance (6MWD) by a significant and clinically meaningful 40.8 meters, compared with placebo, for the trial’s primary efficacy endpoint (P < .001). The treatment also “delivered broad clinical benefit across multiple domains including hemodynamics, World Health Organization functional class, disease biomarkers, risk scores and patient-reported outcomes,” Marius M. Hoeper, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Mitchel L. Zoler/MDedge News

“These results establish the clinical utility of sotatercept, administered in combination with approved PAH therapies, as a new treatment for PAH,” added Dr. Hoeper, professor and deputy director of the department of respiratory medicine at Hannover (Germany) Medical School,

“The most important aspect was the hemodynamic improvement,” with sotatercept treatment, which led to an average 235 dyn/sec per cm⁻⁵ reduction in pulmonary vascular resistance from baseline and an average cut in pulmonary artery pressure of 13.9 mm Hg from baseline, compared with placebo, a result that’s “unheard of,” Dr. Hoeper said in a press conference during the meeting.

“With other tested agents we usually see very little improvement in pulmonary artery pressure. This is a signal that we achieved some reversing of the pathological changes in the pulmonary vessels that lead to” PAH, he added.

Simultaneously with his report the findings also appeared online in the New England Journal of Medicine.
 

‘A new hope’ for patients with PAH

Based on the reported findings, sotatercept is a “very exciting boutique molecule” that will “offer patients with PAH a very exciting new treatment,” commented Rhonda Cooper-DeHoff, PharmD, a designated discussant and a researcher at the University of Florida, Gainesville.

Mitchel L. Zoler/MDedge News

“This study is a new hope for patients with PAH. Until now, they’ve had really bad outcomes, but [in this study] we see significant differences in 6MWD, hemodynamics, and risk factors. Overall, I think the benefit is greater than the risk” it may pose to patients through potential adverse effects, commented Julia Grapsa, MD, PhD, a cardiologist at St. Thomas Hospital in London, and another discussant at the meeting.

“The results are impressive” and “encouraging,” and “suggest that sotatercept may represent a new and clinically consequential addition to current medications for PAH,” wrote three clinicians from Canyons Region Intermountain Medical Center in Murray, Utah, in an editorial that accompanied the published report.

But the authors of the editorial also raised several cautions and concerns. They questioned the generalizability of the findings, noting that the patients with PAH enrolled in the study were all adults who were clinically stable and an average of more than 8 years out from their initial PAH diagnosis, and more than 90% were on stable treatment for PAH with two or three agents specific for treating the disorder. The study cohort also had a disproportionately high enrollment of patients with idiopathic (59%) or heritable (18%) forms of PAH, and the 15% of patients in the trial with connective tissue disease represented a disproportionately low prevalence of this PAH subtype.

The editorialists also called for “ongoing vigilance” for adverse effects from sotatercept treatment, although they acknowledged that the adverse effects reported to date from sotatercept are “largely reassuring.”
 

Death or clinical worsening cut by 84%

STELLAR randomized 323 patients at 91 sites in 21 countries with WHO Group 1 PAH and with WHO functional class II or III disease to receive either sotatercept or placebo for 24 weeks, with an option for treatment to continue beyond that until the last patient in the study reached 24 weeks on treatment, resulting in an overall median treatment duration of nearly 33 weeks.

In addition to the significant result for the primary endpoint, the 163 patients who received sotatercept had significant improvements, compared with 160 placebo-treated patients, for eight of nine secondary endpoints. The only secondary endpoint with a neutral result was for a measure of cognitive and emotional wellbeing, a parameter that was already at a normal level at baseline in most enrolled patients, Dr. Hoeper explained.

The incidence of either death or an event indicative of clinical worsening during the overall median follow-up of almost 33 weeks was 26.3% among the control patients and 5.5% among those who received sotatercept. This translated into a significant reduction for this endpoint of 84% with sotatercept treatment, compared with placebo.

The rates of treatment-emergent adverse events leading to discontinuation were roughly the same in the control and sotatercept arms, and the incidence of severe or serious treatment-emergent adverse events was higher among the control patients.

The most common adverse event on sotatercept was bleeding events, which occurred in 32% of those on sotatercept and in 16% of the control patients, but the events in the sotatercept arm were “mostly mild,” said Dr. Hoeper. The next most frequent adverse event during sotatercept treatment was appearance of telangiectasias, which occurred in 14% of those on sotatercept and in 4% of control patients.

“It’s an uncommon adverse event profile, but not unexpected for a drug with its mechanism of action,” he said.

Drug binds activin, a pathologic driver of PAH

Sotatercept is an engineered molecule that combines a section of a human immunoglobulin G molecule with a portion of the receptor for activin. This structure allows sotatercept to bind free activin molecules in a patient’s blood, thereby removing a key driver of the pulmonary vascular wall remodeling that is at the pathologic root of PAH.

“Hyperproliferation of blood vessel–wall cells” caused by activin signaling “is perhaps the most important driver of PAH,” Dr. Hoeper said. “Sotatercept allows us for the first time to target the underlying mechanism behind PAH.”

Still ongoing are the HYPERION and ZENITH phase 3 trials of sotatercept. HYPERION is enrolling patients with newly diagnosed or high-risk PAH and is expected to complete in 2028. ZENITH is enrolling patients with more advanced PAH and a higher mortality risk, with results expected in 2026.

Sotatercept has received “Breakthrough Therapy” designation and “Orphan Drug” designation by the Food and Drug Administration, and “Priority Medicines” designation and “Orphan Drug” designation by the European Medicines Agency for the treatment of PAH. One recent review estimated a worldwide PAH prevalence of about 3-4 cases/100,000, which for the United States translates into a total prevalence of perhaps 10,000-15,000 affected people.

STELLAR was funded by Acceleron Pharma, a subsidiary of Merck. Dr. Hoeper is a consultant to Acceleron. Dr. Cooper-DeHoff, Dr. Grapsa, and the authors of the editorial on STELLAR have no relevant disclosures.

NEW ORLEANS – An investigational, first-in class agent that delivers a completely new type of intervention to patients with pulmonary arterial hypertension (PAH) scored a clear win in the STELLAR trial, the first to complete among three phase 3 trials that are testing this agent.

Sotatercept, administered subcutaneously every 3 weeks for 24 weeks, improved from baseline average 6-minute walk distance (6MWD) by a significant and clinically meaningful 40.8 meters, compared with placebo, for the trial’s primary efficacy endpoint (P < .001). The treatment also “delivered broad clinical benefit across multiple domains including hemodynamics, World Health Organization functional class, disease biomarkers, risk scores and patient-reported outcomes,” Marius M. Hoeper, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Mitchel L. Zoler/MDedge News

“These results establish the clinical utility of sotatercept, administered in combination with approved PAH therapies, as a new treatment for PAH,” added Dr. Hoeper, professor and deputy director of the department of respiratory medicine at Hannover (Germany) Medical School,

“The most important aspect was the hemodynamic improvement,” with sotatercept treatment, which led to an average 235 dyn/sec per cm⁻⁵ reduction in pulmonary vascular resistance from baseline and an average cut in pulmonary artery pressure of 13.9 mm Hg from baseline, compared with placebo, a result that’s “unheard of,” Dr. Hoeper said in a press conference during the meeting.

“With other tested agents we usually see very little improvement in pulmonary artery pressure. This is a signal that we achieved some reversing of the pathological changes in the pulmonary vessels that lead to” PAH, he added.

Simultaneously with his report the findings also appeared online in the New England Journal of Medicine.
 

‘A new hope’ for patients with PAH

Based on the reported findings, sotatercept is a “very exciting boutique molecule” that will “offer patients with PAH a very exciting new treatment,” commented Rhonda Cooper-DeHoff, PharmD, a designated discussant and a researcher at the University of Florida, Gainesville.

Mitchel L. Zoler/MDedge News

“This study is a new hope for patients with PAH. Until now, they’ve had really bad outcomes, but [in this study] we see significant differences in 6MWD, hemodynamics, and risk factors. Overall, I think the benefit is greater than the risk” it may pose to patients through potential adverse effects, commented Julia Grapsa, MD, PhD, a cardiologist at St. Thomas Hospital in London, and another discussant at the meeting.

“The results are impressive” and “encouraging,” and “suggest that sotatercept may represent a new and clinically consequential addition to current medications for PAH,” wrote three clinicians from Canyons Region Intermountain Medical Center in Murray, Utah, in an editorial that accompanied the published report.

But the authors of the editorial also raised several cautions and concerns. They questioned the generalizability of the findings, noting that the patients with PAH enrolled in the study were all adults who were clinically stable and an average of more than 8 years out from their initial PAH diagnosis, and more than 90% were on stable treatment for PAH with two or three agents specific for treating the disorder. The study cohort also had a disproportionately high enrollment of patients with idiopathic (59%) or heritable (18%) forms of PAH, and the 15% of patients in the trial with connective tissue disease represented a disproportionately low prevalence of this PAH subtype.

The editorialists also called for “ongoing vigilance” for adverse effects from sotatercept treatment, although they acknowledged that the adverse effects reported to date from sotatercept are “largely reassuring.”
 

Death or clinical worsening cut by 84%

STELLAR randomized 323 patients at 91 sites in 21 countries with WHO Group 1 PAH and with WHO functional class II or III disease to receive either sotatercept or placebo for 24 weeks, with an option for treatment to continue beyond that until the last patient in the study reached 24 weeks on treatment, resulting in an overall median treatment duration of nearly 33 weeks.

In addition to the significant result for the primary endpoint, the 163 patients who received sotatercept had significant improvements, compared with 160 placebo-treated patients, for eight of nine secondary endpoints. The only secondary endpoint with a neutral result was for a measure of cognitive and emotional wellbeing, a parameter that was already at a normal level at baseline in most enrolled patients, Dr. Hoeper explained.

The incidence of either death or an event indicative of clinical worsening during the overall median follow-up of almost 33 weeks was 26.3% among the control patients and 5.5% among those who received sotatercept. This translated into a significant reduction for this endpoint of 84% with sotatercept treatment, compared with placebo.

The rates of treatment-emergent adverse events leading to discontinuation were roughly the same in the control and sotatercept arms, and the incidence of severe or serious treatment-emergent adverse events was higher among the control patients.

The most common adverse event on sotatercept was bleeding events, which occurred in 32% of those on sotatercept and in 16% of the control patients, but the events in the sotatercept arm were “mostly mild,” said Dr. Hoeper. The next most frequent adverse event during sotatercept treatment was appearance of telangiectasias, which occurred in 14% of those on sotatercept and in 4% of control patients.

“It’s an uncommon adverse event profile, but not unexpected for a drug with its mechanism of action,” he said.

Drug binds activin, a pathologic driver of PAH

Sotatercept is an engineered molecule that combines a section of a human immunoglobulin G molecule with a portion of the receptor for activin. This structure allows sotatercept to bind free activin molecules in a patient’s blood, thereby removing a key driver of the pulmonary vascular wall remodeling that is at the pathologic root of PAH.

“Hyperproliferation of blood vessel–wall cells” caused by activin signaling “is perhaps the most important driver of PAH,” Dr. Hoeper said. “Sotatercept allows us for the first time to target the underlying mechanism behind PAH.”

Still ongoing are the HYPERION and ZENITH phase 3 trials of sotatercept. HYPERION is enrolling patients with newly diagnosed or high-risk PAH and is expected to complete in 2028. ZENITH is enrolling patients with more advanced PAH and a higher mortality risk, with results expected in 2026.

Sotatercept has received “Breakthrough Therapy” designation and “Orphan Drug” designation by the Food and Drug Administration, and “Priority Medicines” designation and “Orphan Drug” designation by the European Medicines Agency for the treatment of PAH. One recent review estimated a worldwide PAH prevalence of about 3-4 cases/100,000, which for the United States translates into a total prevalence of perhaps 10,000-15,000 affected people.

STELLAR was funded by Acceleron Pharma, a subsidiary of Merck. Dr. Hoeper is a consultant to Acceleron. Dr. Cooper-DeHoff, Dr. Grapsa, and the authors of the editorial on STELLAR have no relevant disclosures.

As a lifeguard during college and then a physician assistant in emergency medicine for almost 3 decades, people often ask how I deal with emergency situations. I tell them the emotions turn off; skills and training take over. That is exactly what happened one day while I was surfing.

There’s a famous surf spot called Old Man’s on San Onofre beach in north San Diego County. It has nice, gentle waves that people say are similar to Waikiki in Hawaii. Since the waves are so forgiving, a lot of older people surf there. I taught my boys and some friends how to surf there. Everyone enjoys the water. It’s just a really fun vibe.

In September of 2008, I was at Old Man’s surfing with friends. After a while, I told them I was going to catch the next wave in. When I rode the wave to the beach, I saw an older guy waving his arms above his head, trying to get the lifeguard’s attention. His friend was lying on the sand at the water’s edge, unconscious. The lifeguards were about 200 yards away in their truck. Since it was off-season, they weren’t in the nearby towers.

I threw my board down on the sand and ran over. The guy was blue in the face and had some secretions around his mouth. He wasn’t breathing and had no pulse. I told his friend to get the lifeguards.

I gave two rescue breaths, and then started CPR. The waves were still lapping against his feet. I could sense people gathering around, so I said, “Okay, we’re going to be hooking him up to electricity, let’s get him out of the water.” I didn’t want him in contact with the water that could potentially transmit that electricity to anyone else.

Many hands reached in and we dragged him up to dry sand. When we pulled down his wetsuit, I saw an old midline sternotomy incision on his chest and I thought: “Oh man, he’s got a cardiac history.” I said, “I need a towel,” and suddenly there was a towel in my hand. I dried him off and continued doing CPR.

The lifeguard truck pulled up and in my peripheral vision I saw two lifeguards running over with their first aid kit. While doing compressions, I yelled over my shoulder: “Bring your AED! Get your oxygen!” They ran back to the truck.

At that point, a young woman came up and said: “I’m a nuclear medicine tech. What can I do?” I asked her to help me keep his airway open. I positioned her at his head, and she did a chin lift.

The two lifeguards came running back. One was very experienced, and he started getting the AED ready and putting the pads on. The other lifeguard was younger. He was nervous and shaking, trying to figure out how to turn on the oxygen tank. I told him: “Buddy, you better figure that out real fast.”

The AED said there was a shockable rhythm so it delivered a shock. I started compressions again. The younger lifeguard finally figured out how to turn on the oxygen tank. Now we had oxygen, a bag valve mask, and an AED. We let our training take over and quickly melded together as an efficient team.

Two minutes later the AED analyzed the rhythm and administered another shock. More compressions. Then another shock and compressions. I had so much adrenaline going through my body that I wasn’t even getting tired.

By then I had been doing compressions for a good 10 minutes. Finally, I asked: “Hey, when are the paramedics going to get here?” And the lifeguard said: “They’re on their way.” But we were all the way down on a very remote section of beach.

We did CPR on him for what seemed like eternity, probably only 15-20 minutes. Sometimes he would get a pulse back and pink up, and we could stop and get a break. But then I would see him become cyanotic. His pulse would become thready, so I would start again.

The paramedics finally arrived and loaded him into the ambulance. He was still blue in the face, and I honestly thought he would probably not survive. I said a quick prayer for him as they drove off.

For the next week, I wondered what happened to him. The next time I was at the beach, I approached some older guys and said: “Hey, I was doing CPR on a guy here last week. Do you know what happened to him?” They gave me a thumbs up sign and said: “He’s doing great!” I was amazed!

While at the beach, I saw the nuclear med tech who helped with the airway and oxygen. She told me she’d called her hospital after the incident and asked if they had received a full arrest from the beach. They said: “Yes, he was sitting up, awake and talking when he came through the door.”

A few weeks later, the local paper called and wanted to do an interview and get some photos on the beach. We set up a time to meet, and I told the reporter that if he ever found out who the guy was, I would love to meet him. I had two reasons: First, because I had done mouth-to-mouth on him and I wanted to make sure he didn’t have any communicable diseases. Second, and this is a little weirder, I wanted to find out if he had an out-of-body experience. They fascinate me.

The reporter called back a few minutes later and said: “You’ll never believe this – while I was talking to you, my phone beeped with another call. The person left a message, and it was the guy. He wants to meet you.” I was amazed at the coincidence that he would call at exactly the same time.

Later that day, we all met at the beach. I gave him a big hug and told him he looked a lot better than the last time I saw him. He now had a pacemaker/defibrillator. I found out he was married and had three teenage boys (who still have a father). He told me on the day of the incident he developed chest pain, weakness, and shortness of breath while surfing, so he came in and sat down at the water’s edge to catch his breath. That was the last thing he remembered. 

When I told him I did mouth-to-mouth on him, he laughed and reassured me that he didn’t have any contagious diseases. Then I asked him about an out-of-body experience, like hovering above his body and watching the CPR. “Did you see us doing that?” I asked. He said: “No, nothing but black. The next thing I remember is waking up in the back of the ambulance, and the paramedic asked me, ‘how does it feel to come back from the dead?’ ” He answered: “I think I have to throw up.”

He was cleared to surf 6 weeks later, and I thought it would be fun to surf with him. But when he started paddling out, he said his defibrillator went off, so he has now retired to golf.

I’ve been a PA in the emergency room for 28 years. I’ve done CPR for so long it’s instinctive for me. It really saves lives, especially with the AED. When people say: “You saved his life,” I say: “No, I didn’t. I just kept him alive and let the AED do its job.”

Ms. Westbrook-May is an emergency medicine physician assistant in Newport Beach, Calif.

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

As a lifeguard during college and then a physician assistant in emergency medicine for almost 3 decades, people often ask how I deal with emergency situations. I tell them the emotions turn off; skills and training take over. That is exactly what happened one day while I was surfing.

There’s a famous surf spot called Old Man’s on San Onofre beach in north San Diego County. It has nice, gentle waves that people say are similar to Waikiki in Hawaii. Since the waves are so forgiving, a lot of older people surf there. I taught my boys and some friends how to surf there. Everyone enjoys the water. It’s just a really fun vibe.

In September of 2008, I was at Old Man’s surfing with friends. After a while, I told them I was going to catch the next wave in. When I rode the wave to the beach, I saw an older guy waving his arms above his head, trying to get the lifeguard’s attention. His friend was lying on the sand at the water’s edge, unconscious. The lifeguards were about 200 yards away in their truck. Since it was off-season, they weren’t in the nearby towers.

I threw my board down on the sand and ran over. The guy was blue in the face and had some secretions around his mouth. He wasn’t breathing and had no pulse. I told his friend to get the lifeguards.

I gave two rescue breaths, and then started CPR. The waves were still lapping against his feet. I could sense people gathering around, so I said, “Okay, we’re going to be hooking him up to electricity, let’s get him out of the water.” I didn’t want him in contact with the water that could potentially transmit that electricity to anyone else.

Many hands reached in and we dragged him up to dry sand. When we pulled down his wetsuit, I saw an old midline sternotomy incision on his chest and I thought: “Oh man, he’s got a cardiac history.” I said, “I need a towel,” and suddenly there was a towel in my hand. I dried him off and continued doing CPR.

The lifeguard truck pulled up and in my peripheral vision I saw two lifeguards running over with their first aid kit. While doing compressions, I yelled over my shoulder: “Bring your AED! Get your oxygen!” They ran back to the truck.

At that point, a young woman came up and said: “I’m a nuclear medicine tech. What can I do?” I asked her to help me keep his airway open. I positioned her at his head, and she did a chin lift.

The two lifeguards came running back. One was very experienced, and he started getting the AED ready and putting the pads on. The other lifeguard was younger. He was nervous and shaking, trying to figure out how to turn on the oxygen tank. I told him: “Buddy, you better figure that out real fast.”

The AED said there was a shockable rhythm so it delivered a shock. I started compressions again. The younger lifeguard finally figured out how to turn on the oxygen tank. Now we had oxygen, a bag valve mask, and an AED. We let our training take over and quickly melded together as an efficient team.

Two minutes later the AED analyzed the rhythm and administered another shock. More compressions. Then another shock and compressions. I had so much adrenaline going through my body that I wasn’t even getting tired.

By then I had been doing compressions for a good 10 minutes. Finally, I asked: “Hey, when are the paramedics going to get here?” And the lifeguard said: “They’re on their way.” But we were all the way down on a very remote section of beach.

We did CPR on him for what seemed like eternity, probably only 15-20 minutes. Sometimes he would get a pulse back and pink up, and we could stop and get a break. But then I would see him become cyanotic. His pulse would become thready, so I would start again.

The paramedics finally arrived and loaded him into the ambulance. He was still blue in the face, and I honestly thought he would probably not survive. I said a quick prayer for him as they drove off.

For the next week, I wondered what happened to him. The next time I was at the beach, I approached some older guys and said: “Hey, I was doing CPR on a guy here last week. Do you know what happened to him?” They gave me a thumbs up sign and said: “He’s doing great!” I was amazed!

While at the beach, I saw the nuclear med tech who helped with the airway and oxygen. She told me she’d called her hospital after the incident and asked if they had received a full arrest from the beach. They said: “Yes, he was sitting up, awake and talking when he came through the door.”

A few weeks later, the local paper called and wanted to do an interview and get some photos on the beach. We set up a time to meet, and I told the reporter that if he ever found out who the guy was, I would love to meet him. I had two reasons: First, because I had done mouth-to-mouth on him and I wanted to make sure he didn’t have any communicable diseases. Second, and this is a little weirder, I wanted to find out if he had an out-of-body experience. They fascinate me.

The reporter called back a few minutes later and said: “You’ll never believe this – while I was talking to you, my phone beeped with another call. The person left a message, and it was the guy. He wants to meet you.” I was amazed at the coincidence that he would call at exactly the same time.

Later that day, we all met at the beach. I gave him a big hug and told him he looked a lot better than the last time I saw him. He now had a pacemaker/defibrillator. I found out he was married and had three teenage boys (who still have a father). He told me on the day of the incident he developed chest pain, weakness, and shortness of breath while surfing, so he came in and sat down at the water’s edge to catch his breath. That was the last thing he remembered. 

When I told him I did mouth-to-mouth on him, he laughed and reassured me that he didn’t have any contagious diseases. Then I asked him about an out-of-body experience, like hovering above his body and watching the CPR. “Did you see us doing that?” I asked. He said: “No, nothing but black. The next thing I remember is waking up in the back of the ambulance, and the paramedic asked me, ‘how does it feel to come back from the dead?’ ” He answered: “I think I have to throw up.”

He was cleared to surf 6 weeks later, and I thought it would be fun to surf with him. But when he started paddling out, he said his defibrillator went off, so he has now retired to golf.

I’ve been a PA in the emergency room for 28 years. I’ve done CPR for so long it’s instinctive for me. It really saves lives, especially with the AED. When people say: “You saved his life,” I say: “No, I didn’t. I just kept him alive and let the AED do its job.”

Ms. Westbrook-May is an emergency medicine physician assistant in Newport Beach, Calif.

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

As a lifeguard during college and then a physician assistant in emergency medicine for almost 3 decades, people often ask how I deal with emergency situations. I tell them the emotions turn off; skills and training take over. That is exactly what happened one day while I was surfing.

There’s a famous surf spot called Old Man’s on San Onofre beach in north San Diego County. It has nice, gentle waves that people say are similar to Waikiki in Hawaii. Since the waves are so forgiving, a lot of older people surf there. I taught my boys and some friends how to surf there. Everyone enjoys the water. It’s just a really fun vibe.

In September of 2008, I was at Old Man’s surfing with friends. After a while, I told them I was going to catch the next wave in. When I rode the wave to the beach, I saw an older guy waving his arms above his head, trying to get the lifeguard’s attention. His friend was lying on the sand at the water’s edge, unconscious. The lifeguards were about 200 yards away in their truck. Since it was off-season, they weren’t in the nearby towers.

I threw my board down on the sand and ran over. The guy was blue in the face and had some secretions around his mouth. He wasn’t breathing and had no pulse. I told his friend to get the lifeguards.

I gave two rescue breaths, and then started CPR. The waves were still lapping against his feet. I could sense people gathering around, so I said, “Okay, we’re going to be hooking him up to electricity, let’s get him out of the water.” I didn’t want him in contact with the water that could potentially transmit that electricity to anyone else.

Many hands reached in and we dragged him up to dry sand. When we pulled down his wetsuit, I saw an old midline sternotomy incision on his chest and I thought: “Oh man, he’s got a cardiac history.” I said, “I need a towel,” and suddenly there was a towel in my hand. I dried him off and continued doing CPR.

The lifeguard truck pulled up and in my peripheral vision I saw two lifeguards running over with their first aid kit. While doing compressions, I yelled over my shoulder: “Bring your AED! Get your oxygen!” They ran back to the truck.

At that point, a young woman came up and said: “I’m a nuclear medicine tech. What can I do?” I asked her to help me keep his airway open. I positioned her at his head, and she did a chin lift.

The two lifeguards came running back. One was very experienced, and he started getting the AED ready and putting the pads on. The other lifeguard was younger. He was nervous and shaking, trying to figure out how to turn on the oxygen tank. I told him: “Buddy, you better figure that out real fast.”

The AED said there was a shockable rhythm so it delivered a shock. I started compressions again. The younger lifeguard finally figured out how to turn on the oxygen tank. Now we had oxygen, a bag valve mask, and an AED. We let our training take over and quickly melded together as an efficient team.

Two minutes later the AED analyzed the rhythm and administered another shock. More compressions. Then another shock and compressions. I had so much adrenaline going through my body that I wasn’t even getting tired.

By then I had been doing compressions for a good 10 minutes. Finally, I asked: “Hey, when are the paramedics going to get here?” And the lifeguard said: “They’re on their way.” But we were all the way down on a very remote section of beach.

We did CPR on him for what seemed like eternity, probably only 15-20 minutes. Sometimes he would get a pulse back and pink up, and we could stop and get a break. But then I would see him become cyanotic. His pulse would become thready, so I would start again.

The paramedics finally arrived and loaded him into the ambulance. He was still blue in the face, and I honestly thought he would probably not survive. I said a quick prayer for him as they drove off.

For the next week, I wondered what happened to him. The next time I was at the beach, I approached some older guys and said: “Hey, I was doing CPR on a guy here last week. Do you know what happened to him?” They gave me a thumbs up sign and said: “He’s doing great!” I was amazed!

While at the beach, I saw the nuclear med tech who helped with the airway and oxygen. She told me she’d called her hospital after the incident and asked if they had received a full arrest from the beach. They said: “Yes, he was sitting up, awake and talking when he came through the door.”

A few weeks later, the local paper called and wanted to do an interview and get some photos on the beach. We set up a time to meet, and I told the reporter that if he ever found out who the guy was, I would love to meet him. I had two reasons: First, because I had done mouth-to-mouth on him and I wanted to make sure he didn’t have any communicable diseases. Second, and this is a little weirder, I wanted to find out if he had an out-of-body experience. They fascinate me.

The reporter called back a few minutes later and said: “You’ll never believe this – while I was talking to you, my phone beeped with another call. The person left a message, and it was the guy. He wants to meet you.” I was amazed at the coincidence that he would call at exactly the same time.

Later that day, we all met at the beach. I gave him a big hug and told him he looked a lot better than the last time I saw him. He now had a pacemaker/defibrillator. I found out he was married and had three teenage boys (who still have a father). He told me on the day of the incident he developed chest pain, weakness, and shortness of breath while surfing, so he came in and sat down at the water’s edge to catch his breath. That was the last thing he remembered. 

When I told him I did mouth-to-mouth on him, he laughed and reassured me that he didn’t have any contagious diseases. Then I asked him about an out-of-body experience, like hovering above his body and watching the CPR. “Did you see us doing that?” I asked. He said: “No, nothing but black. The next thing I remember is waking up in the back of the ambulance, and the paramedic asked me, ‘how does it feel to come back from the dead?’ ” He answered: “I think I have to throw up.”

He was cleared to surf 6 weeks later, and I thought it would be fun to surf with him. But when he started paddling out, he said his defibrillator went off, so he has now retired to golf.

I’ve been a PA in the emergency room for 28 years. I’ve done CPR for so long it’s instinctive for me. It really saves lives, especially with the AED. When people say: “You saved his life,” I say: “No, I didn’t. I just kept him alive and let the AED do its job.”

Ms. Westbrook-May is an emergency medicine physician assistant in Newport Beach, Calif.

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

The suggestion that long-term endurance exercise may lead to a paradoxical increase in coronary atherosclerosis has been raised again by a new study.

In the Master@Heart study, lifelong endurance athletes had more coronary plaques, including more noncalcified plaques, than fit and healthy individuals with a similarly low cardiovascular risk profile.

The study was presented at the joint scientific sessions of the American College of Cardiology and the World Heart Federation. It was also simultaneously published online in the European Heart Journal.

“We consistently see higher plaque burden in lifelong endurance athletes. This is regardless of the plaque type, whether it is calcified, mixed, noncalcified, in the proximal segment or causing more than 50% stenosis,” concluded Ruben De Bosscher, MD, Catholic University of Leuven (Belgium), during his presentation.

The researchers suggested that all the information to date suggests there may be a “reverse J-shaped” dose-response relationship between exercise and coronary atherosclerosis.

Dr. De Bosscher added that “the worst thing you can do is nothing at all. As soon as you do a little bit of exercise – just brisk walking or jogging up to 3 hours a week – it seems that’s where you get the most benefit. And after that, we tend to see an increase in coronary plaque burden.”

The discussant of the study at the ACC session, Michael Emery, MD, codirector of the Sports Cardiology Center at the Cleveland Clinic, asked how this information should be translated into advice for the general public, given that it is known that endurance athletes show much improved mortality.

“That is a very good question,” Dr. De Bosscher replied. “Yes, we do see less events and adverse outcomes in endurance athletes, but that is compared to the whole population, including those that are unhealthy and do not exercise.

“If we only look at healthy individuals who do exercise but at varying levels, the question is, do we then see the same relationship?” he asked. “There is increasing evidence that there may be a point of diminished returns – and at a certain point, an increased cardiovascular risk is seen in endurance athletes.”

On advice to the public, Dr. De Bosscher added, “one of the main findings here is that, despite having a very healthy lifestyle style and exercising a lot, no one is granted immunity to coronary atherosclerosis. It would seem that the most benefit occurs in individuals doing a moderate amount of exercise – up to about 3 hours a week.”

In a comment, Dr. Emery noted: “This continues to be a ‘hot topic,’ although I continue to be underwhelmed, given a lack of hard outcomes, and I worry about the wrong take-home message being sent, that too much exercise will do more harm than good.”

He added that fitness still matters regardless of calcium score, and he would not advise people to stop exercising, because “the better your fitness, the better the outcome.”

However, he acknowledged that “the study does nicely illustrate that exercise does not make you immune from heart disease (which is a message a lot of athletes need to hear, honestly).”

Also commenting, Paul D. Thompson, MD, Hartford (Conn.) Hospital, who has studied the cardiac implications of exercise for many years, said: “The problem we have in the U.S. and in most developed countries is not too much exercise but rather that most people don’t exercise very much at all.”

He noted that the Master@Heart study as an “important contribution” to the field.

“We have seen in previous trials that lifelong endurance athletes appear to have more deposition of cholesterol in their coronary arteries than you would expect,” he said. “But, while prior studies suggested that most of the deposits in endurance athletes were the safer type of highly calcified plaques, this study shows that the plaques in endurance athletes are not quite as benign as we had previously thought.”

It’s not clear what this means though, he added, because “despite these findings, it’s pretty clear that endurance athletes live longer than most people. But do they live longer because of the amount of exercise they do or because they are just hardier than the rest of us?”

He does not believe the study should be interpreted to mean that endurance exercise is dangerous. “We don’t have great evidence for that. This is a finding in a coronary artery. We don’t have outcome data.”

However, he added, “it doesn’t seem like you have to do a lot of extreme sport to get the cardiovascular benefits of exercise. All the studies show that the greatest benefits happen in people who go from doing very little to doing a moderate amount of exercise. Then it seems to plateau.”

Dr. Thompson pointed out that the most recent physical activity guidelines in the United States recommend between 150 and 300 minutes of moderate exercise, such as brisk walking, or 75-150 minutes a week of vigorous activity, such as running.

But he does not believe this study should put people off participating in endurance exercise, noting that many individuals engage in high levels of vigorous exercise for other reasons, not necessarily for their cardiovascular health.

“If people want to do more – for competitive reasons or if it makes them feel good – I say go ahead and do it,” Dr. Thompson added. “You should enjoy your life. But if you’re doing high levels of endurance exercise for your health and you’re miserable doing it, you may be wasting your time, as it doesn’t look as these more extreme levels of exercise do you any good. Does it do you any harm? We don’t have evidence yet to conclude that.”

In his presentation, Dr. De Bosscher noted that previous studies have reported higher calcium scores in athletes as well as more coronary plaques, compared with control persons. But the atherosclerotic lesions observed in the athletes were predominantly calcified plaques that were considered more stable and less prone to rupture, whereas nonathletes had predominantly mixed plaques that were considered less stable and more prone to rupture.

He pointed out, however, that these studies had limitations in that they included some individuals with other cardiovascular risk factors, such as smoking and intake of statins or antihypertensive drugs; they did not always assess the association between exercise and coronary atherosclerosis in a dose-response relationship; and while they reported the relative difference in plaque types, they didn’t report the absolute prevalence in calcified, noncalcified, and mixed plaques.

The Master@Heart study aimed to look at this question in a more comprehensive way.

The observational cohort study evaluated coronary atherosclerosis in 191 lifelong master endurance athletes, 191 late-onset athletes (endurance sports initiation after age 30 years), and 176 healthy nonathletes who engaged in no more than 3 hours a week of exercise. All participants were male and had a low cardiovascular risk profile. The median age was 55 in the three groups.

Maximal oxygen uptake (VO_2max) was used to quantify fitness. Lifelong and late-onset athletes had higher percentage predicted VO_2max than nonathletes (159 vs. 155 vs. 122).

There was no significant difference between the three groups with regard to age, weight, blood pressure cholesterol levels, or hemoglobin A1c levels. While the control group had a healthy body mass index and body fat percentage (19%), both groups of athletes were significantly leaner (body fat percentage, 14%-15%).

The exercise performed by the lifelong and late-onset endurance athletes was similar – mainly cycling and running. The endurance athletes reported an average of 10-11 hours of exercise per week, compared with 1 hour per week for the control persons. Only 22% of the control group reported engaging in no exercise at all; the others reported jogging, cycling, or engaging in nonendurance exercise, such as tennis.

Results showed that the overall coronary plaque burden assessed by segment stenosis score and segment-involvement score was higher among lifelong athletes than control persons (between-group difference, 0.86 and 0.65, respectively).

In comparison to control persons, lifelong endurance sport participation was associated with having one or more of each of the following, compared with a healthy nonathletic lifestyle:

• More than one coronary plaque (odds ratio, 1.86; 95% confidence interval, 1.17-2.94)
• More than one proximal plaque (OR, 1.96; 95% CI, 1.24-3.11)
• More than one calcified plaque (OR, 1.58; 95% CI, 1.01-2.49)
• More than one calcified proximal plaque (OR, 2.07; 95% CI, 1.28-3.35)
• More than one noncalcified plaque (OR, 1.95; 95% CI, 1.12-3.40)
• More than one noncalcified proximal plaque (OR, 2.80; 95% CI, 1.39-5.65)
• More than one mixed plaque (OR, 1.78; 95% CI, 1.06-2.99)

In comparison with late-onset athletes, at least 50% stenosis in any coronary segment (OR, 2.79; 95% CI, 1.20-6.50) and at least 50% stenosis in a proximal segment (OR, 5.92; 95% CI, 1.22 – 28.80) were more prevalent among lifelong athletes.

Vulnerable plaques, as defined by the presence of at least two high-risk features, were uncommon in all groups, but a lifelong athletic lifestyle was associated with a lower prevalence (OR, 0.11; 95% CI, 0.01-0.98).

In their article in the European Heart Journal, the researchers noted that the Master@Heart study is the largest and most comprehensive study to assess the dose-response relationship between intensive endurance exercise and coronary atherosclerosis.

“The findings do not support the hypothesis that highly trained endurance athletes have a more benign plaque composition to explain their lower risk of cardiovascular events compared to nonathletes,” they wrote.

“As studies on the impact of physical activity in the upper range are lacking, our data open the question on whether coronary events are indeed less prevalent in this high-end exercise cohort, and if that is the case, on what explains the paradox,” they concluded. “More and longitudinal research at the higher end of the endurance exercise spectrum is definitely needed.”

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

The suggestion that long-term endurance exercise may lead to a paradoxical increase in coronary atherosclerosis has been raised again by a new study.

In the Master@Heart study, lifelong endurance athletes had more coronary plaques, including more noncalcified plaques, than fit and healthy individuals with a similarly low cardiovascular risk profile.

The study was presented at the joint scientific sessions of the American College of Cardiology and the World Heart Federation. It was also simultaneously published online in the European Heart Journal.

“We consistently see higher plaque burden in lifelong endurance athletes. This is regardless of the plaque type, whether it is calcified, mixed, noncalcified, in the proximal segment or causing more than 50% stenosis,” concluded Ruben De Bosscher, MD, Catholic University of Leuven (Belgium), during his presentation.

The researchers suggested that all the information to date suggests there may be a “reverse J-shaped” dose-response relationship between exercise and coronary atherosclerosis.

Dr. De Bosscher added that “the worst thing you can do is nothing at all. As soon as you do a little bit of exercise – just brisk walking or jogging up to 3 hours a week – it seems that’s where you get the most benefit. And after that, we tend to see an increase in coronary plaque burden.”

The discussant of the study at the ACC session, Michael Emery, MD, codirector of the Sports Cardiology Center at the Cleveland Clinic, asked how this information should be translated into advice for the general public, given that it is known that endurance athletes show much improved mortality.

“That is a very good question,” Dr. De Bosscher replied. “Yes, we do see less events and adverse outcomes in endurance athletes, but that is compared to the whole population, including those that are unhealthy and do not exercise.

“If we only look at healthy individuals who do exercise but at varying levels, the question is, do we then see the same relationship?” he asked. “There is increasing evidence that there may be a point of diminished returns – and at a certain point, an increased cardiovascular risk is seen in endurance athletes.”

On advice to the public, Dr. De Bosscher added, “one of the main findings here is that, despite having a very healthy lifestyle style and exercising a lot, no one is granted immunity to coronary atherosclerosis. It would seem that the most benefit occurs in individuals doing a moderate amount of exercise – up to about 3 hours a week.”

In a comment, Dr. Emery noted: “This continues to be a ‘hot topic,’ although I continue to be underwhelmed, given a lack of hard outcomes, and I worry about the wrong take-home message being sent, that too much exercise will do more harm than good.”

He added that fitness still matters regardless of calcium score, and he would not advise people to stop exercising, because “the better your fitness, the better the outcome.”

However, he acknowledged that “the study does nicely illustrate that exercise does not make you immune from heart disease (which is a message a lot of athletes need to hear, honestly).”

Also commenting, Paul D. Thompson, MD, Hartford (Conn.) Hospital, who has studied the cardiac implications of exercise for many years, said: “The problem we have in the U.S. and in most developed countries is not too much exercise but rather that most people don’t exercise very much at all.”

He noted that the Master@Heart study as an “important contribution” to the field.

“We have seen in previous trials that lifelong endurance athletes appear to have more deposition of cholesterol in their coronary arteries than you would expect,” he said. “But, while prior studies suggested that most of the deposits in endurance athletes were the safer type of highly calcified plaques, this study shows that the plaques in endurance athletes are not quite as benign as we had previously thought.”

It’s not clear what this means though, he added, because “despite these findings, it’s pretty clear that endurance athletes live longer than most people. But do they live longer because of the amount of exercise they do or because they are just hardier than the rest of us?”

He does not believe the study should be interpreted to mean that endurance exercise is dangerous. “We don’t have great evidence for that. This is a finding in a coronary artery. We don’t have outcome data.”

However, he added, “it doesn’t seem like you have to do a lot of extreme sport to get the cardiovascular benefits of exercise. All the studies show that the greatest benefits happen in people who go from doing very little to doing a moderate amount of exercise. Then it seems to plateau.”

Dr. Thompson pointed out that the most recent physical activity guidelines in the United States recommend between 150 and 300 minutes of moderate exercise, such as brisk walking, or 75-150 minutes a week of vigorous activity, such as running.

But he does not believe this study should put people off participating in endurance exercise, noting that many individuals engage in high levels of vigorous exercise for other reasons, not necessarily for their cardiovascular health.

“If people want to do more – for competitive reasons or if it makes them feel good – I say go ahead and do it,” Dr. Thompson added. “You should enjoy your life. But if you’re doing high levels of endurance exercise for your health and you’re miserable doing it, you may be wasting your time, as it doesn’t look as these more extreme levels of exercise do you any good. Does it do you any harm? We don’t have evidence yet to conclude that.”

In his presentation, Dr. De Bosscher noted that previous studies have reported higher calcium scores in athletes as well as more coronary plaques, compared with control persons. But the atherosclerotic lesions observed in the athletes were predominantly calcified plaques that were considered more stable and less prone to rupture, whereas nonathletes had predominantly mixed plaques that were considered less stable and more prone to rupture.

He pointed out, however, that these studies had limitations in that they included some individuals with other cardiovascular risk factors, such as smoking and intake of statins or antihypertensive drugs; they did not always assess the association between exercise and coronary atherosclerosis in a dose-response relationship; and while they reported the relative difference in plaque types, they didn’t report the absolute prevalence in calcified, noncalcified, and mixed plaques.

The Master@Heart study aimed to look at this question in a more comprehensive way.

The observational cohort study evaluated coronary atherosclerosis in 191 lifelong master endurance athletes, 191 late-onset athletes (endurance sports initiation after age 30 years), and 176 healthy nonathletes who engaged in no more than 3 hours a week of exercise. All participants were male and had a low cardiovascular risk profile. The median age was 55 in the three groups.

Maximal oxygen uptake (VO_2max) was used to quantify fitness. Lifelong and late-onset athletes had higher percentage predicted VO_2max than nonathletes (159 vs. 155 vs. 122).

There was no significant difference between the three groups with regard to age, weight, blood pressure cholesterol levels, or hemoglobin A1c levels. While the control group had a healthy body mass index and body fat percentage (19%), both groups of athletes were significantly leaner (body fat percentage, 14%-15%).

The exercise performed by the lifelong and late-onset endurance athletes was similar – mainly cycling and running. The endurance athletes reported an average of 10-11 hours of exercise per week, compared with 1 hour per week for the control persons. Only 22% of the control group reported engaging in no exercise at all; the others reported jogging, cycling, or engaging in nonendurance exercise, such as tennis.

Results showed that the overall coronary plaque burden assessed by segment stenosis score and segment-involvement score was higher among lifelong athletes than control persons (between-group difference, 0.86 and 0.65, respectively).

In comparison to control persons, lifelong endurance sport participation was associated with having one or more of each of the following, compared with a healthy nonathletic lifestyle:

• More than one coronary plaque (odds ratio, 1.86; 95% confidence interval, 1.17-2.94)
• More than one proximal plaque (OR, 1.96; 95% CI, 1.24-3.11)
• More than one calcified plaque (OR, 1.58; 95% CI, 1.01-2.49)
• More than one calcified proximal plaque (OR, 2.07; 95% CI, 1.28-3.35)
• More than one noncalcified plaque (OR, 1.95; 95% CI, 1.12-3.40)
• More than one noncalcified proximal plaque (OR, 2.80; 95% CI, 1.39-5.65)
• More than one mixed plaque (OR, 1.78; 95% CI, 1.06-2.99)

In comparison with late-onset athletes, at least 50% stenosis in any coronary segment (OR, 2.79; 95% CI, 1.20-6.50) and at least 50% stenosis in a proximal segment (OR, 5.92; 95% CI, 1.22 – 28.80) were more prevalent among lifelong athletes.

Vulnerable plaques, as defined by the presence of at least two high-risk features, were uncommon in all groups, but a lifelong athletic lifestyle was associated with a lower prevalence (OR, 0.11; 95% CI, 0.01-0.98).

In their article in the European Heart Journal, the researchers noted that the Master@Heart study is the largest and most comprehensive study to assess the dose-response relationship between intensive endurance exercise and coronary atherosclerosis.

“The findings do not support the hypothesis that highly trained endurance athletes have a more benign plaque composition to explain their lower risk of cardiovascular events compared to nonathletes,” they wrote.

“As studies on the impact of physical activity in the upper range are lacking, our data open the question on whether coronary events are indeed less prevalent in this high-end exercise cohort, and if that is the case, on what explains the paradox,” they concluded. “More and longitudinal research at the higher end of the endurance exercise spectrum is definitely needed.”

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

The suggestion that long-term endurance exercise may lead to a paradoxical increase in coronary atherosclerosis has been raised again by a new study.

In the Master@Heart study, lifelong endurance athletes had more coronary plaques, including more noncalcified plaques, than fit and healthy individuals with a similarly low cardiovascular risk profile.

The study was presented at the joint scientific sessions of the American College of Cardiology and the World Heart Federation. It was also simultaneously published online in the European Heart Journal.

“We consistently see higher plaque burden in lifelong endurance athletes. This is regardless of the plaque type, whether it is calcified, mixed, noncalcified, in the proximal segment or causing more than 50% stenosis,” concluded Ruben De Bosscher, MD, Catholic University of Leuven (Belgium), during his presentation.

The researchers suggested that all the information to date suggests there may be a “reverse J-shaped” dose-response relationship between exercise and coronary atherosclerosis.

Dr. De Bosscher added that “the worst thing you can do is nothing at all. As soon as you do a little bit of exercise – just brisk walking or jogging up to 3 hours a week – it seems that’s where you get the most benefit. And after that, we tend to see an increase in coronary plaque burden.”

The discussant of the study at the ACC session, Michael Emery, MD, codirector of the Sports Cardiology Center at the Cleveland Clinic, asked how this information should be translated into advice for the general public, given that it is known that endurance athletes show much improved mortality.

“That is a very good question,” Dr. De Bosscher replied. “Yes, we do see less events and adverse outcomes in endurance athletes, but that is compared to the whole population, including those that are unhealthy and do not exercise.

“If we only look at healthy individuals who do exercise but at varying levels, the question is, do we then see the same relationship?” he asked. “There is increasing evidence that there may be a point of diminished returns – and at a certain point, an increased cardiovascular risk is seen in endurance athletes.”

On advice to the public, Dr. De Bosscher added, “one of the main findings here is that, despite having a very healthy lifestyle style and exercising a lot, no one is granted immunity to coronary atherosclerosis. It would seem that the most benefit occurs in individuals doing a moderate amount of exercise – up to about 3 hours a week.”

In a comment, Dr. Emery noted: “This continues to be a ‘hot topic,’ although I continue to be underwhelmed, given a lack of hard outcomes, and I worry about the wrong take-home message being sent, that too much exercise will do more harm than good.”

He added that fitness still matters regardless of calcium score, and he would not advise people to stop exercising, because “the better your fitness, the better the outcome.”

However, he acknowledged that “the study does nicely illustrate that exercise does not make you immune from heart disease (which is a message a lot of athletes need to hear, honestly).”

Also commenting, Paul D. Thompson, MD, Hartford (Conn.) Hospital, who has studied the cardiac implications of exercise for many years, said: “The problem we have in the U.S. and in most developed countries is not too much exercise but rather that most people don’t exercise very much at all.”

He noted that the Master@Heart study as an “important contribution” to the field.

“We have seen in previous trials that lifelong endurance athletes appear to have more deposition of cholesterol in their coronary arteries than you would expect,” he said. “But, while prior studies suggested that most of the deposits in endurance athletes were the safer type of highly calcified plaques, this study shows that the plaques in endurance athletes are not quite as benign as we had previously thought.”

It’s not clear what this means though, he added, because “despite these findings, it’s pretty clear that endurance athletes live longer than most people. But do they live longer because of the amount of exercise they do or because they are just hardier than the rest of us?”

He does not believe the study should be interpreted to mean that endurance exercise is dangerous. “We don’t have great evidence for that. This is a finding in a coronary artery. We don’t have outcome data.”

However, he added, “it doesn’t seem like you have to do a lot of extreme sport to get the cardiovascular benefits of exercise. All the studies show that the greatest benefits happen in people who go from doing very little to doing a moderate amount of exercise. Then it seems to plateau.”

Dr. Thompson pointed out that the most recent physical activity guidelines in the United States recommend between 150 and 300 minutes of moderate exercise, such as brisk walking, or 75-150 minutes a week of vigorous activity, such as running.

But he does not believe this study should put people off participating in endurance exercise, noting that many individuals engage in high levels of vigorous exercise for other reasons, not necessarily for their cardiovascular health.

“If people want to do more – for competitive reasons or if it makes them feel good – I say go ahead and do it,” Dr. Thompson added. “You should enjoy your life. But if you’re doing high levels of endurance exercise for your health and you’re miserable doing it, you may be wasting your time, as it doesn’t look as these more extreme levels of exercise do you any good. Does it do you any harm? We don’t have evidence yet to conclude that.”

In his presentation, Dr. De Bosscher noted that previous studies have reported higher calcium scores in athletes as well as more coronary plaques, compared with control persons. But the atherosclerotic lesions observed in the athletes were predominantly calcified plaques that were considered more stable and less prone to rupture, whereas nonathletes had predominantly mixed plaques that were considered less stable and more prone to rupture.

He pointed out, however, that these studies had limitations in that they included some individuals with other cardiovascular risk factors, such as smoking and intake of statins or antihypertensive drugs; they did not always assess the association between exercise and coronary atherosclerosis in a dose-response relationship; and while they reported the relative difference in plaque types, they didn’t report the absolute prevalence in calcified, noncalcified, and mixed plaques.

The Master@Heart study aimed to look at this question in a more comprehensive way.

The observational cohort study evaluated coronary atherosclerosis in 191 lifelong master endurance athletes, 191 late-onset athletes (endurance sports initiation after age 30 years), and 176 healthy nonathletes who engaged in no more than 3 hours a week of exercise. All participants were male and had a low cardiovascular risk profile. The median age was 55 in the three groups.

Maximal oxygen uptake (VO_2max) was used to quantify fitness. Lifelong and late-onset athletes had higher percentage predicted VO_2max than nonathletes (159 vs. 155 vs. 122).

There was no significant difference between the three groups with regard to age, weight, blood pressure cholesterol levels, or hemoglobin A1c levels. While the control group had a healthy body mass index and body fat percentage (19%), both groups of athletes were significantly leaner (body fat percentage, 14%-15%).

The exercise performed by the lifelong and late-onset endurance athletes was similar – mainly cycling and running. The endurance athletes reported an average of 10-11 hours of exercise per week, compared with 1 hour per week for the control persons. Only 22% of the control group reported engaging in no exercise at all; the others reported jogging, cycling, or engaging in nonendurance exercise, such as tennis.

Results showed that the overall coronary plaque burden assessed by segment stenosis score and segment-involvement score was higher among lifelong athletes than control persons (between-group difference, 0.86 and 0.65, respectively).

In comparison to control persons, lifelong endurance sport participation was associated with having one or more of each of the following, compared with a healthy nonathletic lifestyle:

• More than one coronary plaque (odds ratio, 1.86; 95% confidence interval, 1.17-2.94)
• More than one proximal plaque (OR, 1.96; 95% CI, 1.24-3.11)
• More than one calcified plaque (OR, 1.58; 95% CI, 1.01-2.49)
• More than one calcified proximal plaque (OR, 2.07; 95% CI, 1.28-3.35)
• More than one noncalcified plaque (OR, 1.95; 95% CI, 1.12-3.40)
• More than one noncalcified proximal plaque (OR, 2.80; 95% CI, 1.39-5.65)
• More than one mixed plaque (OR, 1.78; 95% CI, 1.06-2.99)

In comparison with late-onset athletes, at least 50% stenosis in any coronary segment (OR, 2.79; 95% CI, 1.20-6.50) and at least 50% stenosis in a proximal segment (OR, 5.92; 95% CI, 1.22 – 28.80) were more prevalent among lifelong athletes.

Vulnerable plaques, as defined by the presence of at least two high-risk features, were uncommon in all groups, but a lifelong athletic lifestyle was associated with a lower prevalence (OR, 0.11; 95% CI, 0.01-0.98).

In their article in the European Heart Journal, the researchers noted that the Master@Heart study is the largest and most comprehensive study to assess the dose-response relationship between intensive endurance exercise and coronary atherosclerosis.

“The findings do not support the hypothesis that highly trained endurance athletes have a more benign plaque composition to explain their lower risk of cardiovascular events compared to nonathletes,” they wrote.

“As studies on the impact of physical activity in the upper range are lacking, our data open the question on whether coronary events are indeed less prevalent in this high-end exercise cohort, and if that is the case, on what explains the paradox,” they concluded. “More and longitudinal research at the higher end of the endurance exercise spectrum is definitely needed.”

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