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Higher death rate seen in cancer patients with nosocomial COVID-19
, according to researchers.
In an observational study of patients with COVID-19 and cancer, 19% of patients had COVID-19 acquired during a non-COVID-related hospital stay, and 81% had community-acquired COVID-19.
At a median follow-up of 23 days, the overall mortality rate was 28%. However, the all-cause mortality rate in patients with nosocomial COVID-19 was more than double that of patients with community-acquired COVID-19, at 47% and 23%, respectively.
Arielle Elkrief, MD, of the University of Montreal, reported these results during the AACR virtual meeting: COVID-19 and Cancer.
“This is the first report that describes a high rate of hospital-acquired COVID-19 in patients with cancer, at a rate of 19%,” Dr. Elkrief said. “This was associated with high mortality in both univariate and multivariate analyses.”
The study included 250 adults and 3 children with COVID-19 and cancer who were identified between March 3 and May 23, 2020. They ranged in age from 4 to 95 years, but the median age was 73 years.
All patients had either laboratory-confirmed (95%) or presumed COVID-19 (5%) and invasive cancer. The most common cancer types were similar to those seen in the general population. Lung and breast cancer were the most common, followed by lymphoma, prostate cancer, and colorectal cancer. Most patients were on active anticancer therapy, most often chemotherapy.
Most patients (n = 236) were residents of Quebec, but 17 patients were residents of British Columbia.
“It is important to note that Quebec was one of the most heavily affected areas in North America at the time of the study,” Dr. Elkrief said.
Outcomes by group
There were 206 patients (81%) who had community-acquired COVID-19 and 47 (19%) who had nosocomial COVID-19. The two groups were similar with respect to sex, performance status, and cancer stage. A small trend toward more patients on active therapy was seen in the nosocomial group, but the difference did not reach statistical significance.
The median overall survival was 27 days in the nosocomial group and 71 days in the community-acquired group (hazard ratio, 2.2; P = .002).
A multivariate analysis showed that nosocomial infection was “strongly and independently associated with death,” Dr. Elkrief said. “Other risk factors for poor prognosis included age, poor [performance] status, and advanced stage of cancer.”
There were no significant differences between the hospital-acquired and community-acquired groups for other outcomes, including oxygen requirements (43% and 47%, respectively), ICU admission (13% and 11%), need for mechanical ventilation (6% and 5%), or length of stay (median, 9.5 days and 8.5 days).
The low rate of ICU admission, considering the mortality rate of 28%, “could reflect that patients with cancer are less likely to be admitted to the ICU,” Dr. Elkrief noted.
Applying the findings to practice
The findings reinforce the importance of adherence to stringent infection control guidelines to protect vulnerable patients, such as those with cancer, Dr. Elkrief said.
In ambulatory settings, this means decreasing in-person visits through increased use of teleconsultations, and for those who need to be seen in person, screening for symptoms or use of polymerase chain reaction testing should be used when resources are available, she said.
“Similar principles apply to chemotherapy treatment units,” Dr. Elkrief said. She added that staff must avoid cross-contamination between COVID and COVID-free zones, and that “dedicated personnel and equipment should be maintained and separate between these two zones.
“Adequate protective personal equipment and strict hand hygiene protocols are also of utmost importance,” Dr. Elkrief said. “The threat of COVID-19 is not behind us, and so we continue to enforce these strategies to protect our patients.”
Session moderator Gypsyamber D’Souza, PhD, an infectious disease epidemiologist at Johns Hopkins University in Baltimore, raised the question of whether the high nosocomial infection and death rate in this study was related to patients having more severe disease because of underlying comorbidities.
Dr. Elkrief explained that the overall mortality rate was indeed higher than the 13% reported in other studies, and it may reflect an overrepresentation of hospitalized or more severely ill patients in the cohort.
However, the investigators made every effort to include all patients with both cancer and COVID-19 by using systematic screening of inpatient and outpatients lists and registries.
Further, the multivariate analysis included both inpatients and outpatients and adjusted for known negative prognostic factors for COVID-19 outcomes. These included increasing age, poor performance status, and different comorbidities.
The finding that nosocomial infection was an independent predictor of death “pushed us to look at nosocomial infection as a new independent risk factor,” Dr. Elkrief said.
Dr. Elkrief reported grant support from AstraZeneca. Dr. D’Souza did not report any disclosures.
SOURCE: Elkrief A et al. AACR: COVID and Cancer, Abstract S12-01.
, according to researchers.
In an observational study of patients with COVID-19 and cancer, 19% of patients had COVID-19 acquired during a non-COVID-related hospital stay, and 81% had community-acquired COVID-19.
At a median follow-up of 23 days, the overall mortality rate was 28%. However, the all-cause mortality rate in patients with nosocomial COVID-19 was more than double that of patients with community-acquired COVID-19, at 47% and 23%, respectively.
Arielle Elkrief, MD, of the University of Montreal, reported these results during the AACR virtual meeting: COVID-19 and Cancer.
“This is the first report that describes a high rate of hospital-acquired COVID-19 in patients with cancer, at a rate of 19%,” Dr. Elkrief said. “This was associated with high mortality in both univariate and multivariate analyses.”
The study included 250 adults and 3 children with COVID-19 and cancer who were identified between March 3 and May 23, 2020. They ranged in age from 4 to 95 years, but the median age was 73 years.
All patients had either laboratory-confirmed (95%) or presumed COVID-19 (5%) and invasive cancer. The most common cancer types were similar to those seen in the general population. Lung and breast cancer were the most common, followed by lymphoma, prostate cancer, and colorectal cancer. Most patients were on active anticancer therapy, most often chemotherapy.
Most patients (n = 236) were residents of Quebec, but 17 patients were residents of British Columbia.
“It is important to note that Quebec was one of the most heavily affected areas in North America at the time of the study,” Dr. Elkrief said.
Outcomes by group
There were 206 patients (81%) who had community-acquired COVID-19 and 47 (19%) who had nosocomial COVID-19. The two groups were similar with respect to sex, performance status, and cancer stage. A small trend toward more patients on active therapy was seen in the nosocomial group, but the difference did not reach statistical significance.
The median overall survival was 27 days in the nosocomial group and 71 days in the community-acquired group (hazard ratio, 2.2; P = .002).
A multivariate analysis showed that nosocomial infection was “strongly and independently associated with death,” Dr. Elkrief said. “Other risk factors for poor prognosis included age, poor [performance] status, and advanced stage of cancer.”
There were no significant differences between the hospital-acquired and community-acquired groups for other outcomes, including oxygen requirements (43% and 47%, respectively), ICU admission (13% and 11%), need for mechanical ventilation (6% and 5%), or length of stay (median, 9.5 days and 8.5 days).
The low rate of ICU admission, considering the mortality rate of 28%, “could reflect that patients with cancer are less likely to be admitted to the ICU,” Dr. Elkrief noted.
Applying the findings to practice
The findings reinforce the importance of adherence to stringent infection control guidelines to protect vulnerable patients, such as those with cancer, Dr. Elkrief said.
In ambulatory settings, this means decreasing in-person visits through increased use of teleconsultations, and for those who need to be seen in person, screening for symptoms or use of polymerase chain reaction testing should be used when resources are available, she said.
“Similar principles apply to chemotherapy treatment units,” Dr. Elkrief said. She added that staff must avoid cross-contamination between COVID and COVID-free zones, and that “dedicated personnel and equipment should be maintained and separate between these two zones.
“Adequate protective personal equipment and strict hand hygiene protocols are also of utmost importance,” Dr. Elkrief said. “The threat of COVID-19 is not behind us, and so we continue to enforce these strategies to protect our patients.”
Session moderator Gypsyamber D’Souza, PhD, an infectious disease epidemiologist at Johns Hopkins University in Baltimore, raised the question of whether the high nosocomial infection and death rate in this study was related to patients having more severe disease because of underlying comorbidities.
Dr. Elkrief explained that the overall mortality rate was indeed higher than the 13% reported in other studies, and it may reflect an overrepresentation of hospitalized or more severely ill patients in the cohort.
However, the investigators made every effort to include all patients with both cancer and COVID-19 by using systematic screening of inpatient and outpatients lists and registries.
Further, the multivariate analysis included both inpatients and outpatients and adjusted for known negative prognostic factors for COVID-19 outcomes. These included increasing age, poor performance status, and different comorbidities.
The finding that nosocomial infection was an independent predictor of death “pushed us to look at nosocomial infection as a new independent risk factor,” Dr. Elkrief said.
Dr. Elkrief reported grant support from AstraZeneca. Dr. D’Souza did not report any disclosures.
SOURCE: Elkrief A et al. AACR: COVID and Cancer, Abstract S12-01.
, according to researchers.
In an observational study of patients with COVID-19 and cancer, 19% of patients had COVID-19 acquired during a non-COVID-related hospital stay, and 81% had community-acquired COVID-19.
At a median follow-up of 23 days, the overall mortality rate was 28%. However, the all-cause mortality rate in patients with nosocomial COVID-19 was more than double that of patients with community-acquired COVID-19, at 47% and 23%, respectively.
Arielle Elkrief, MD, of the University of Montreal, reported these results during the AACR virtual meeting: COVID-19 and Cancer.
“This is the first report that describes a high rate of hospital-acquired COVID-19 in patients with cancer, at a rate of 19%,” Dr. Elkrief said. “This was associated with high mortality in both univariate and multivariate analyses.”
The study included 250 adults and 3 children with COVID-19 and cancer who were identified between March 3 and May 23, 2020. They ranged in age from 4 to 95 years, but the median age was 73 years.
All patients had either laboratory-confirmed (95%) or presumed COVID-19 (5%) and invasive cancer. The most common cancer types were similar to those seen in the general population. Lung and breast cancer were the most common, followed by lymphoma, prostate cancer, and colorectal cancer. Most patients were on active anticancer therapy, most often chemotherapy.
Most patients (n = 236) were residents of Quebec, but 17 patients were residents of British Columbia.
“It is important to note that Quebec was one of the most heavily affected areas in North America at the time of the study,” Dr. Elkrief said.
Outcomes by group
There were 206 patients (81%) who had community-acquired COVID-19 and 47 (19%) who had nosocomial COVID-19. The two groups were similar with respect to sex, performance status, and cancer stage. A small trend toward more patients on active therapy was seen in the nosocomial group, but the difference did not reach statistical significance.
The median overall survival was 27 days in the nosocomial group and 71 days in the community-acquired group (hazard ratio, 2.2; P = .002).
A multivariate analysis showed that nosocomial infection was “strongly and independently associated with death,” Dr. Elkrief said. “Other risk factors for poor prognosis included age, poor [performance] status, and advanced stage of cancer.”
There were no significant differences between the hospital-acquired and community-acquired groups for other outcomes, including oxygen requirements (43% and 47%, respectively), ICU admission (13% and 11%), need for mechanical ventilation (6% and 5%), or length of stay (median, 9.5 days and 8.5 days).
The low rate of ICU admission, considering the mortality rate of 28%, “could reflect that patients with cancer are less likely to be admitted to the ICU,” Dr. Elkrief noted.
Applying the findings to practice
The findings reinforce the importance of adherence to stringent infection control guidelines to protect vulnerable patients, such as those with cancer, Dr. Elkrief said.
In ambulatory settings, this means decreasing in-person visits through increased use of teleconsultations, and for those who need to be seen in person, screening for symptoms or use of polymerase chain reaction testing should be used when resources are available, she said.
“Similar principles apply to chemotherapy treatment units,” Dr. Elkrief said. She added that staff must avoid cross-contamination between COVID and COVID-free zones, and that “dedicated personnel and equipment should be maintained and separate between these two zones.
“Adequate protective personal equipment and strict hand hygiene protocols are also of utmost importance,” Dr. Elkrief said. “The threat of COVID-19 is not behind us, and so we continue to enforce these strategies to protect our patients.”
Session moderator Gypsyamber D’Souza, PhD, an infectious disease epidemiologist at Johns Hopkins University in Baltimore, raised the question of whether the high nosocomial infection and death rate in this study was related to patients having more severe disease because of underlying comorbidities.
Dr. Elkrief explained that the overall mortality rate was indeed higher than the 13% reported in other studies, and it may reflect an overrepresentation of hospitalized or more severely ill patients in the cohort.
However, the investigators made every effort to include all patients with both cancer and COVID-19 by using systematic screening of inpatient and outpatients lists and registries.
Further, the multivariate analysis included both inpatients and outpatients and adjusted for known negative prognostic factors for COVID-19 outcomes. These included increasing age, poor performance status, and different comorbidities.
The finding that nosocomial infection was an independent predictor of death “pushed us to look at nosocomial infection as a new independent risk factor,” Dr. Elkrief said.
Dr. Elkrief reported grant support from AstraZeneca. Dr. D’Souza did not report any disclosures.
SOURCE: Elkrief A et al. AACR: COVID and Cancer, Abstract S12-01.
FROM AACR: COVID-19 AND CANCER
Low vitamin D linked to increased COVID-19 risk
Low plasma vitamin D levels emerged as an independent risk factor for COVID-19 infection and hospitalization in a large, population-based study.
Participants positive for COVID-19 were 50% more likely to have low vs normal 25(OH)D levels in a multivariate analysis that controlled for other confounders, for example.
The take home message for physicians is to “test patients’ vitamin D levels and keep them optimal for the overall health – as well as for a better immunoresponse to COVID-19,” senior author Milana Frenkel-Morgenstern, PhD, head of the Cancer Genomics and BioComputing of Complex Diseases Lab at Bar-Ilan University in Ramat Gan, Israel, said in an interview.
The study was published online July 23 in The FEBS Journal.
Previous and ongoing studies are evaluating a potential role for vitamin D to prevent or minimize the severity of SARS-CoV-2 infection, building on years of research addressing vitamin D for other viral respiratory infections. The evidence to date regarding COVID-19, primarily observational studies, has yielded mixed results.
Multiple experts weighed in on the controversy in a previous report. Many point out the limitations of observational data, particularly when it comes to ruling out other factors that could affect the severity of COVID-19 infection. In addition, in a video report, JoAnn E. Manson, MD, DrPH, of Harvard Medical School in Boston, cited an observational study from three South Asian hospitals that found more severe COVID-19 patients had lower vitamin D levels, as well as other “compelling evidence” suggesting an association.
Dr. Frenkel-Morgenstern and colleagues studied data for 7,807 people, of whom 10.1% were COVID-19 positive. They assessed electronic health records for demographics, potential confounders, and outcomes between February 1 and April 30.
Participants positive for COVID-19 tended to be younger and were more likely to be men and live in a lower socioeconomic area, compared with the participants who were negative for COVID-19, in a univariate analysis.
Key findings
A higher proportion of COVID-19–positive patients had low plasma 25(OH)D concentrations, about 90% versus 85% of participants who were negative for COVID-19. The difference was statistically significant (P < .001). Furthermore, the increased likelihood for low vitamin D levels among those positive for COVID-19 held in a multivariate analysis that controlled for demographics and psychiatric and somatic disorders (adjusted odds ratio, 1.50). The difference remained statistically significant (P < .001).
The study also was noteworthy for what it did not find among participants with COVID-19. For example, the prevalence of dementia, cardiovascular disease, chronic lung disorders, and hypertension were significantly higher among the COVID-19 negative participants.
“Severe social contacts restrictions that were imposed on all the population and were even more emphasized in this highly vulnerable population” could explain these findings, the researchers noted.
“We assume that following the Israeli Ministry of Health instructions, patients with chronic medical conditions significantly reduced their social contacts” and thereby reduced their infection risk.
In contrast to previous reports, obesity was not a significant factor associated with increased likelihood for COVID-19 infection or hospitalization in the current study.
The researchers also linked low plasma 25(OH)D level to an increased likelihood of hospitalization for COVID-19 infection (crude OR, 2.09; P < .05).
After controlling for demographics and chronic disorders, the aOR decreased to 1.95 (P = .061) in a multivariate analysis. The only factor that remained statistically significant for hospitalization was age over 50 years (aOR, 2.71; P < .001).
Implications and future plans
The large number of participants and the “real world,” population-based design are strengths of the study. Considering potential confounders is another strength, the researchers noted. The retrospective database design was a limitation.
Going forward, Dr. Frenkel-Morgenstern and colleagues will “try to decipher the potential role of vitamin D in prevention and/or treatment of COVID-19” through three additional studies, she said. Also, they would like to conduct a meta-analysis to combine data from different countries to further explore the potential role of vitamin D in COVID-19.
“A compelling case”
“This is a strong study – large, adjusted for confounders, consistent with the biology and other clinical studies of vitamin D, infections, and COVID-19,” Wayne Jonas, MD, a practicing family physician and executive director of Samueli Integrative Health Programs, said in an interview.
Because the research was retrospective and observational, a causative link between vitamin D levels and COVID-19 risk cannot be interpreted from the findings. “That would need a prospective, randomized study,” said Dr. Jonas, who was not involved with the current study.
However, “the study makes a compelling case for possibly screening vitamin D levels for judging risk of COVID infection and hospitalization,” Dr. Jonas said, “and the compelling need for a large, randomized vitamin D supplement study to see if it can help prevent infection.”
“Given that vitamin D is largely safe, such a study could be done quickly and on healthy people with minimal risk for harm,” he added.
More confounders likely?
“I think the study is of interest,” Naveed Sattar, PhD, professor of metabolic medicine at the University of Glasgow, who also was not affiliated with the research, said in an interview.
“Whilst the authors adjusted for some confounders, there is a strong potential for residual confounding,” said Dr. Sattar, a coauthor of a UK Biobank study that did not find an association between vitamin D stages and COVID-19 infection in multivariate models.
For example, Dr. Sattar said, “Robust adjustment for social class is important since both Vitamin D levels and COVID-19 severity are both strongly associated with social class.” Further, it remains unknown when and what time of year the vitamin D concentrations were measured in the current study.
“In the end, only a robust randomized trial can tell us whether vitamin D supplementation helps lessen COVID-19 severity,” Dr. Sattar added. “I am not hopeful we will find this is the case – but I am glad some such trials are [ongoing].”
Dr. Frenkel-Morgenstern received a COVID-19 Data Sciences Institute grant to support this work. Dr. Frenkel-Morgenstern, Dr. Jonas, and Dr. Sattar have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Low plasma vitamin D levels emerged as an independent risk factor for COVID-19 infection and hospitalization in a large, population-based study.
Participants positive for COVID-19 were 50% more likely to have low vs normal 25(OH)D levels in a multivariate analysis that controlled for other confounders, for example.
The take home message for physicians is to “test patients’ vitamin D levels and keep them optimal for the overall health – as well as for a better immunoresponse to COVID-19,” senior author Milana Frenkel-Morgenstern, PhD, head of the Cancer Genomics and BioComputing of Complex Diseases Lab at Bar-Ilan University in Ramat Gan, Israel, said in an interview.
The study was published online July 23 in The FEBS Journal.
Previous and ongoing studies are evaluating a potential role for vitamin D to prevent or minimize the severity of SARS-CoV-2 infection, building on years of research addressing vitamin D for other viral respiratory infections. The evidence to date regarding COVID-19, primarily observational studies, has yielded mixed results.
Multiple experts weighed in on the controversy in a previous report. Many point out the limitations of observational data, particularly when it comes to ruling out other factors that could affect the severity of COVID-19 infection. In addition, in a video report, JoAnn E. Manson, MD, DrPH, of Harvard Medical School in Boston, cited an observational study from three South Asian hospitals that found more severe COVID-19 patients had lower vitamin D levels, as well as other “compelling evidence” suggesting an association.
Dr. Frenkel-Morgenstern and colleagues studied data for 7,807 people, of whom 10.1% were COVID-19 positive. They assessed electronic health records for demographics, potential confounders, and outcomes between February 1 and April 30.
Participants positive for COVID-19 tended to be younger and were more likely to be men and live in a lower socioeconomic area, compared with the participants who were negative for COVID-19, in a univariate analysis.
Key findings
A higher proportion of COVID-19–positive patients had low plasma 25(OH)D concentrations, about 90% versus 85% of participants who were negative for COVID-19. The difference was statistically significant (P < .001). Furthermore, the increased likelihood for low vitamin D levels among those positive for COVID-19 held in a multivariate analysis that controlled for demographics and psychiatric and somatic disorders (adjusted odds ratio, 1.50). The difference remained statistically significant (P < .001).
The study also was noteworthy for what it did not find among participants with COVID-19. For example, the prevalence of dementia, cardiovascular disease, chronic lung disorders, and hypertension were significantly higher among the COVID-19 negative participants.
“Severe social contacts restrictions that were imposed on all the population and were even more emphasized in this highly vulnerable population” could explain these findings, the researchers noted.
“We assume that following the Israeli Ministry of Health instructions, patients with chronic medical conditions significantly reduced their social contacts” and thereby reduced their infection risk.
In contrast to previous reports, obesity was not a significant factor associated with increased likelihood for COVID-19 infection or hospitalization in the current study.
The researchers also linked low plasma 25(OH)D level to an increased likelihood of hospitalization for COVID-19 infection (crude OR, 2.09; P < .05).
After controlling for demographics and chronic disorders, the aOR decreased to 1.95 (P = .061) in a multivariate analysis. The only factor that remained statistically significant for hospitalization was age over 50 years (aOR, 2.71; P < .001).
Implications and future plans
The large number of participants and the “real world,” population-based design are strengths of the study. Considering potential confounders is another strength, the researchers noted. The retrospective database design was a limitation.
Going forward, Dr. Frenkel-Morgenstern and colleagues will “try to decipher the potential role of vitamin D in prevention and/or treatment of COVID-19” through three additional studies, she said. Also, they would like to conduct a meta-analysis to combine data from different countries to further explore the potential role of vitamin D in COVID-19.
“A compelling case”
“This is a strong study – large, adjusted for confounders, consistent with the biology and other clinical studies of vitamin D, infections, and COVID-19,” Wayne Jonas, MD, a practicing family physician and executive director of Samueli Integrative Health Programs, said in an interview.
Because the research was retrospective and observational, a causative link between vitamin D levels and COVID-19 risk cannot be interpreted from the findings. “That would need a prospective, randomized study,” said Dr. Jonas, who was not involved with the current study.
However, “the study makes a compelling case for possibly screening vitamin D levels for judging risk of COVID infection and hospitalization,” Dr. Jonas said, “and the compelling need for a large, randomized vitamin D supplement study to see if it can help prevent infection.”
“Given that vitamin D is largely safe, such a study could be done quickly and on healthy people with minimal risk for harm,” he added.
More confounders likely?
“I think the study is of interest,” Naveed Sattar, PhD, professor of metabolic medicine at the University of Glasgow, who also was not affiliated with the research, said in an interview.
“Whilst the authors adjusted for some confounders, there is a strong potential for residual confounding,” said Dr. Sattar, a coauthor of a UK Biobank study that did not find an association between vitamin D stages and COVID-19 infection in multivariate models.
For example, Dr. Sattar said, “Robust adjustment for social class is important since both Vitamin D levels and COVID-19 severity are both strongly associated with social class.” Further, it remains unknown when and what time of year the vitamin D concentrations were measured in the current study.
“In the end, only a robust randomized trial can tell us whether vitamin D supplementation helps lessen COVID-19 severity,” Dr. Sattar added. “I am not hopeful we will find this is the case – but I am glad some such trials are [ongoing].”
Dr. Frenkel-Morgenstern received a COVID-19 Data Sciences Institute grant to support this work. Dr. Frenkel-Morgenstern, Dr. Jonas, and Dr. Sattar have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Low plasma vitamin D levels emerged as an independent risk factor for COVID-19 infection and hospitalization in a large, population-based study.
Participants positive for COVID-19 were 50% more likely to have low vs normal 25(OH)D levels in a multivariate analysis that controlled for other confounders, for example.
The take home message for physicians is to “test patients’ vitamin D levels and keep them optimal for the overall health – as well as for a better immunoresponse to COVID-19,” senior author Milana Frenkel-Morgenstern, PhD, head of the Cancer Genomics and BioComputing of Complex Diseases Lab at Bar-Ilan University in Ramat Gan, Israel, said in an interview.
The study was published online July 23 in The FEBS Journal.
Previous and ongoing studies are evaluating a potential role for vitamin D to prevent or minimize the severity of SARS-CoV-2 infection, building on years of research addressing vitamin D for other viral respiratory infections. The evidence to date regarding COVID-19, primarily observational studies, has yielded mixed results.
Multiple experts weighed in on the controversy in a previous report. Many point out the limitations of observational data, particularly when it comes to ruling out other factors that could affect the severity of COVID-19 infection. In addition, in a video report, JoAnn E. Manson, MD, DrPH, of Harvard Medical School in Boston, cited an observational study from three South Asian hospitals that found more severe COVID-19 patients had lower vitamin D levels, as well as other “compelling evidence” suggesting an association.
Dr. Frenkel-Morgenstern and colleagues studied data for 7,807 people, of whom 10.1% were COVID-19 positive. They assessed electronic health records for demographics, potential confounders, and outcomes between February 1 and April 30.
Participants positive for COVID-19 tended to be younger and were more likely to be men and live in a lower socioeconomic area, compared with the participants who were negative for COVID-19, in a univariate analysis.
Key findings
A higher proportion of COVID-19–positive patients had low plasma 25(OH)D concentrations, about 90% versus 85% of participants who were negative for COVID-19. The difference was statistically significant (P < .001). Furthermore, the increased likelihood for low vitamin D levels among those positive for COVID-19 held in a multivariate analysis that controlled for demographics and psychiatric and somatic disorders (adjusted odds ratio, 1.50). The difference remained statistically significant (P < .001).
The study also was noteworthy for what it did not find among participants with COVID-19. For example, the prevalence of dementia, cardiovascular disease, chronic lung disorders, and hypertension were significantly higher among the COVID-19 negative participants.
“Severe social contacts restrictions that were imposed on all the population and were even more emphasized in this highly vulnerable population” could explain these findings, the researchers noted.
“We assume that following the Israeli Ministry of Health instructions, patients with chronic medical conditions significantly reduced their social contacts” and thereby reduced their infection risk.
In contrast to previous reports, obesity was not a significant factor associated with increased likelihood for COVID-19 infection or hospitalization in the current study.
The researchers also linked low plasma 25(OH)D level to an increased likelihood of hospitalization for COVID-19 infection (crude OR, 2.09; P < .05).
After controlling for demographics and chronic disorders, the aOR decreased to 1.95 (P = .061) in a multivariate analysis. The only factor that remained statistically significant for hospitalization was age over 50 years (aOR, 2.71; P < .001).
Implications and future plans
The large number of participants and the “real world,” population-based design are strengths of the study. Considering potential confounders is another strength, the researchers noted. The retrospective database design was a limitation.
Going forward, Dr. Frenkel-Morgenstern and colleagues will “try to decipher the potential role of vitamin D in prevention and/or treatment of COVID-19” through three additional studies, she said. Also, they would like to conduct a meta-analysis to combine data from different countries to further explore the potential role of vitamin D in COVID-19.
“A compelling case”
“This is a strong study – large, adjusted for confounders, consistent with the biology and other clinical studies of vitamin D, infections, and COVID-19,” Wayne Jonas, MD, a practicing family physician and executive director of Samueli Integrative Health Programs, said in an interview.
Because the research was retrospective and observational, a causative link between vitamin D levels and COVID-19 risk cannot be interpreted from the findings. “That would need a prospective, randomized study,” said Dr. Jonas, who was not involved with the current study.
However, “the study makes a compelling case for possibly screening vitamin D levels for judging risk of COVID infection and hospitalization,” Dr. Jonas said, “and the compelling need for a large, randomized vitamin D supplement study to see if it can help prevent infection.”
“Given that vitamin D is largely safe, such a study could be done quickly and on healthy people with minimal risk for harm,” he added.
More confounders likely?
“I think the study is of interest,” Naveed Sattar, PhD, professor of metabolic medicine at the University of Glasgow, who also was not affiliated with the research, said in an interview.
“Whilst the authors adjusted for some confounders, there is a strong potential for residual confounding,” said Dr. Sattar, a coauthor of a UK Biobank study that did not find an association between vitamin D stages and COVID-19 infection in multivariate models.
For example, Dr. Sattar said, “Robust adjustment for social class is important since both Vitamin D levels and COVID-19 severity are both strongly associated with social class.” Further, it remains unknown when and what time of year the vitamin D concentrations were measured in the current study.
“In the end, only a robust randomized trial can tell us whether vitamin D supplementation helps lessen COVID-19 severity,” Dr. Sattar added. “I am not hopeful we will find this is the case – but I am glad some such trials are [ongoing].”
Dr. Frenkel-Morgenstern received a COVID-19 Data Sciences Institute grant to support this work. Dr. Frenkel-Morgenstern, Dr. Jonas, and Dr. Sattar have disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Sleepless in the pandemic
Sleep difficulties during the COVID-19 crisis may be exacerbated by media overexposure and other factors causing fear and stress, according to findings from a large survey of French individuals.
“Physicians usually recommend coping with sleep disorders by exercising, going outside, avoiding screen time, and having a regular schedule – all recommendations difficult to apply during lockdown. Being forced to stay home and the ensuing boredom and loneliness may have led to increased [media exposure], especially among disadvantaged people and overexposure to media COVID-19 content may have contributed to fright and emotional distress,” Damien Leger of the Centre du Sommeil et de la Vigilance, Hôtel Dieu APHP, Université de Paris, and his colleagues wrote in the journal Sleep.
The investigators analyzed data from survey respondents about their sleep problems since the COVID-19 lockdown and other topics such as employment, daily activities, and sleep medications. The survey was part of a large research project, COCONEL, that has been developed to study the French population on a variety of behaviors and comprises 750,000 permanent panelists who respond to surveys. The survey was sent to random sample of panelists with no topic label to avoid selection bias. Of the 25,800 surveys sent, 1,005 responses were recorded.
Respondents were classified as having severe sleep problems if they reported that their daytime activities were affected or if their sleeping medications had increased since the lockdown. While 73% of respondents reported poor sleep in the 8 previous days, 25% reported severe sleep problems, and 54% reported that their sleep problems had worsened during the COVID-19 lockdown.
A media exposure score was created with a Likert scale (strongly agree, agree, disagree, strongly disagree) about media exposures of different types. The investigators also queried respondents about the degree to which they found media coverage of the pandemic provoked a fear response. Overall, 68% of respondents agreed that media images and stories about COVD-19 were frightening.
The researchers found a strong association between severe sleeping problems and a high media exposure score (risk ratio, 1.49; 95% confidence interval, 1.10-2.01; P < .05).
In addition, trepidation and fear from media exposure to COVID-19 news were also associated with severe sleep problems (RR, 1.27; 95% CI, 0.92-1.75; P < .05). “Suffering from sleep problems may have increased media use at night, and thus increased stress and/or psychological distress and reinforced sleeping problems,” the investigators wrote.
Not surprisingly, respondents with financial difficulties due to the pandemic also reported severe sleeping difficulties (RR, 1.99; 95% CI, 1.49-2.65; P < .05).
For individuals who have been treated for sleep problems, the COVID-19 pandemic may ratchet up their sleep challenges. The strongest association with severe sleep problems was found in those respondents who were already taking sleeping medications before the pandemic (RR, 2.72; 95% CI, 2.04-3.61; P < .05).
The COCONEL survey has been funded by the French and National Agency for Research, the Fondation de France, and the National Research Institute for Sustainable Development.
SOURCE: Leger D et al. Sleep. 2020, Jul 25. doi: 10.1093/sleep/zsaa125.
Sleep difficulties during the COVID-19 crisis may be exacerbated by media overexposure and other factors causing fear and stress, according to findings from a large survey of French individuals.
“Physicians usually recommend coping with sleep disorders by exercising, going outside, avoiding screen time, and having a regular schedule – all recommendations difficult to apply during lockdown. Being forced to stay home and the ensuing boredom and loneliness may have led to increased [media exposure], especially among disadvantaged people and overexposure to media COVID-19 content may have contributed to fright and emotional distress,” Damien Leger of the Centre du Sommeil et de la Vigilance, Hôtel Dieu APHP, Université de Paris, and his colleagues wrote in the journal Sleep.
The investigators analyzed data from survey respondents about their sleep problems since the COVID-19 lockdown and other topics such as employment, daily activities, and sleep medications. The survey was part of a large research project, COCONEL, that has been developed to study the French population on a variety of behaviors and comprises 750,000 permanent panelists who respond to surveys. The survey was sent to random sample of panelists with no topic label to avoid selection bias. Of the 25,800 surveys sent, 1,005 responses were recorded.
Respondents were classified as having severe sleep problems if they reported that their daytime activities were affected or if their sleeping medications had increased since the lockdown. While 73% of respondents reported poor sleep in the 8 previous days, 25% reported severe sleep problems, and 54% reported that their sleep problems had worsened during the COVID-19 lockdown.
A media exposure score was created with a Likert scale (strongly agree, agree, disagree, strongly disagree) about media exposures of different types. The investigators also queried respondents about the degree to which they found media coverage of the pandemic provoked a fear response. Overall, 68% of respondents agreed that media images and stories about COVD-19 were frightening.
The researchers found a strong association between severe sleeping problems and a high media exposure score (risk ratio, 1.49; 95% confidence interval, 1.10-2.01; P < .05).
In addition, trepidation and fear from media exposure to COVID-19 news were also associated with severe sleep problems (RR, 1.27; 95% CI, 0.92-1.75; P < .05). “Suffering from sleep problems may have increased media use at night, and thus increased stress and/or psychological distress and reinforced sleeping problems,” the investigators wrote.
Not surprisingly, respondents with financial difficulties due to the pandemic also reported severe sleeping difficulties (RR, 1.99; 95% CI, 1.49-2.65; P < .05).
For individuals who have been treated for sleep problems, the COVID-19 pandemic may ratchet up their sleep challenges. The strongest association with severe sleep problems was found in those respondents who were already taking sleeping medications before the pandemic (RR, 2.72; 95% CI, 2.04-3.61; P < .05).
The COCONEL survey has been funded by the French and National Agency for Research, the Fondation de France, and the National Research Institute for Sustainable Development.
SOURCE: Leger D et al. Sleep. 2020, Jul 25. doi: 10.1093/sleep/zsaa125.
Sleep difficulties during the COVID-19 crisis may be exacerbated by media overexposure and other factors causing fear and stress, according to findings from a large survey of French individuals.
“Physicians usually recommend coping with sleep disorders by exercising, going outside, avoiding screen time, and having a regular schedule – all recommendations difficult to apply during lockdown. Being forced to stay home and the ensuing boredom and loneliness may have led to increased [media exposure], especially among disadvantaged people and overexposure to media COVID-19 content may have contributed to fright and emotional distress,” Damien Leger of the Centre du Sommeil et de la Vigilance, Hôtel Dieu APHP, Université de Paris, and his colleagues wrote in the journal Sleep.
The investigators analyzed data from survey respondents about their sleep problems since the COVID-19 lockdown and other topics such as employment, daily activities, and sleep medications. The survey was part of a large research project, COCONEL, that has been developed to study the French population on a variety of behaviors and comprises 750,000 permanent panelists who respond to surveys. The survey was sent to random sample of panelists with no topic label to avoid selection bias. Of the 25,800 surveys sent, 1,005 responses were recorded.
Respondents were classified as having severe sleep problems if they reported that their daytime activities were affected or if their sleeping medications had increased since the lockdown. While 73% of respondents reported poor sleep in the 8 previous days, 25% reported severe sleep problems, and 54% reported that their sleep problems had worsened during the COVID-19 lockdown.
A media exposure score was created with a Likert scale (strongly agree, agree, disagree, strongly disagree) about media exposures of different types. The investigators also queried respondents about the degree to which they found media coverage of the pandemic provoked a fear response. Overall, 68% of respondents agreed that media images and stories about COVD-19 were frightening.
The researchers found a strong association between severe sleeping problems and a high media exposure score (risk ratio, 1.49; 95% confidence interval, 1.10-2.01; P < .05).
In addition, trepidation and fear from media exposure to COVID-19 news were also associated with severe sleep problems (RR, 1.27; 95% CI, 0.92-1.75; P < .05). “Suffering from sleep problems may have increased media use at night, and thus increased stress and/or psychological distress and reinforced sleeping problems,” the investigators wrote.
Not surprisingly, respondents with financial difficulties due to the pandemic also reported severe sleeping difficulties (RR, 1.99; 95% CI, 1.49-2.65; P < .05).
For individuals who have been treated for sleep problems, the COVID-19 pandemic may ratchet up their sleep challenges. The strongest association with severe sleep problems was found in those respondents who were already taking sleeping medications before the pandemic (RR, 2.72; 95% CI, 2.04-3.61; P < .05).
The COCONEL survey has been funded by the French and National Agency for Research, the Fondation de France, and the National Research Institute for Sustainable Development.
SOURCE: Leger D et al. Sleep. 2020, Jul 25. doi: 10.1093/sleep/zsaa125.
FROM SLEEP
Postmenopausal use of estrogen alone lowers breast cancer cases, deaths
A new follow-up study of menopausal hormone therapy found that prior use of conjugated equine estrogen (CEE) decreased both breast cancer incidence and mortality, while prior use of CEE plus medroxyprogesterone acetate (MPA) was associated with an increase in incidence.
“Prior use of CEE alone is, to our knowledge, the first pharmacologic intervention demonstrated to be associated with a statistically significantly reduction in deaths from breast cancer,” wrote Rowan T. Chlebowski, MD, PhD, of the Lundquist Institute for Biomedical Innovation in Torrance, Calif., and his coauthors. The study was published July 28 in JAMA.
To further investigate the outcomes of the Women’s Health Initiative in regard to hormone therapy and breast cancer risk, the researchers analyzed the long-term follow-up of two randomized trials that included 27,347 postmenopausal women with no prior breast cancer and negative mammograms at baseline. Their mean (SD) age was 63.4 (7.2) years. Enrollment took place from 1993 to 1998; participants were contacted for follow-up every 6 months through 2005 and annually from then on. Mortality data were gathered from follow-up and the National Death Index.
The first trial included 16,608 women with a uterus. Among these women, 8,506 received 0.625 mg/day of CEE plus 2.5 mg/day of MPA, and 8,102 received placebo. The second trial included 10,739 women who’d gotten a hysterectomy, 5,310 of whom received 0.625 mg/day of CEE alone and 5,429 of whom received placebo. The first trial ended in 2002 after a median intervention period of 5.6 years, and the second trial ended in 2004 after a period of 7.2 years.
An analysis in 2015 found that CEE alone was associated with lower risk of breast cancer and CEE plus MPA was associated with increased risk.
The current analysis confirmed that, after a median of 20.3 years of follow-up, and with mortality data now available for more than 98% of participants, CEE alone was associated with fewer cases of breast cancer (238 cases, annualized rate 0.30%), compared with placebo (296 cases, annualized rate 0.37%; hazard ratio 0.78; 95% confidence interval, 0.65-0.93; P = .005).
Furthermore, CEE alone was also associated with lower mortality (30 deaths, annualized mortality rate 0.031%), compared with placebo (46 deaths, annualized mortality rate 0.046%; HR 0.60; 95% CI, 0.37-0.97; P = .04).
By comparison, CEE plus MPA was linked with more cases of breast cancer (584 cases, annualized rate 0.45%) than placebo (447 cases, annualized rate 0.36%; HR 1.28; 95% CI, 1.13-1.45; P < .001). In regard to mortality, there was no statistically significant difference between CEE plus MPA (71 deaths, annualized mortality rate 0.045%) and placebo (53 deaths, annualized mortality rate 0.035%; HR 1.35; 95% CI, 0.94-1.95; P = .11).
“The big thing to think about is estrogen alone reducing breast cancer mortality by 40%,” said Dr. Chlebowski in an interview. “None of the other interventions, including tamoxifen, had any change on mortality. This should change the way we look at breast cancer prevention, though we might have to be a little creative about it. I think you have to be a little away from menopause for it to reduce breast cancer. But we wanted to start that debate.
“On the other hand,” he said, “a woman takes estrogen plus progestin and when you look at that curve, it’s staying about 25% increased. You take it for 5.6 years and the increase continues through 20 years, so you’re maybe buying a lifetime of increase in breast cancer by taking estrogen plus progestin for 5 years.”
He also highlighted the comprehensiveness of the mortality data, noting that “when you hook up to the National Death Index, they find 98% of all deaths in the United States. That’s really remarkable; you retain the whole power of the randomization. It means our data, between the death index and our follow-up of participants, is essentially complete.”
Use of hormone therapy, and decoding the outcomes, remains ‘complex’
Decades after the data were gathered from the Women’s Health Initiative clinical trials, they continue to assist researchers and patients alike, wrote Christina A. Minami, MD, of Brigham and Women’s Hospital in Boston and Rachel A. Freedman, MD, of the Dana-Farber Cancer Institute in Boston, in an accompanying editorial.
That said, in regard to the findings of this latest analysis, “many questions still remain on whether (and how) a hormone therapy intervention that occurred many years earlier may continue to affect breast cancer risk and mortality at 20 years,” they wrote. They noted that it’s “impossible” to isolate how exposure to certain therapies can impact long-term outcomes, and that a high percentage of patients who discontinued the drugs during each trial muddy the waters even further.
“Decisions to initiate these medications remain complex,” they added, emphasizing that breast cancer risk is just one of many factors that physicians must consider when considering hormone therapy for their patients.
Dr. Chlebowski and his coauthors acknowledged their study’s limitations, including the use of very specifically administered and formulated dosages making their findings “not necessarily generalizable to other preparations.” In addition, they noted the significant percentage of patients – 54% with CEE alone and 42% with CEE plus MPA – who discontinued drug usage during their respective trials.
The Women’s Health Initiative is supported by the National Institutes of Health and the Department of Health and Human Services. The authors reported numerous potential conflicts of interest, including receiving personal fees and grants from various government organizations, foundations, and pharmaceutical companies. The editorial’s authors reported no conflicts of interest.
SOURCE: Chlebowski RT et al. JAMA. 2020 Jul 28. doi: 10.1001/jama.2020.9482.
A new follow-up study of menopausal hormone therapy found that prior use of conjugated equine estrogen (CEE) decreased both breast cancer incidence and mortality, while prior use of CEE plus medroxyprogesterone acetate (MPA) was associated with an increase in incidence.
“Prior use of CEE alone is, to our knowledge, the first pharmacologic intervention demonstrated to be associated with a statistically significantly reduction in deaths from breast cancer,” wrote Rowan T. Chlebowski, MD, PhD, of the Lundquist Institute for Biomedical Innovation in Torrance, Calif., and his coauthors. The study was published July 28 in JAMA.
To further investigate the outcomes of the Women’s Health Initiative in regard to hormone therapy and breast cancer risk, the researchers analyzed the long-term follow-up of two randomized trials that included 27,347 postmenopausal women with no prior breast cancer and negative mammograms at baseline. Their mean (SD) age was 63.4 (7.2) years. Enrollment took place from 1993 to 1998; participants were contacted for follow-up every 6 months through 2005 and annually from then on. Mortality data were gathered from follow-up and the National Death Index.
The first trial included 16,608 women with a uterus. Among these women, 8,506 received 0.625 mg/day of CEE plus 2.5 mg/day of MPA, and 8,102 received placebo. The second trial included 10,739 women who’d gotten a hysterectomy, 5,310 of whom received 0.625 mg/day of CEE alone and 5,429 of whom received placebo. The first trial ended in 2002 after a median intervention period of 5.6 years, and the second trial ended in 2004 after a period of 7.2 years.
An analysis in 2015 found that CEE alone was associated with lower risk of breast cancer and CEE plus MPA was associated with increased risk.
The current analysis confirmed that, after a median of 20.3 years of follow-up, and with mortality data now available for more than 98% of participants, CEE alone was associated with fewer cases of breast cancer (238 cases, annualized rate 0.30%), compared with placebo (296 cases, annualized rate 0.37%; hazard ratio 0.78; 95% confidence interval, 0.65-0.93; P = .005).
Furthermore, CEE alone was also associated with lower mortality (30 deaths, annualized mortality rate 0.031%), compared with placebo (46 deaths, annualized mortality rate 0.046%; HR 0.60; 95% CI, 0.37-0.97; P = .04).
By comparison, CEE plus MPA was linked with more cases of breast cancer (584 cases, annualized rate 0.45%) than placebo (447 cases, annualized rate 0.36%; HR 1.28; 95% CI, 1.13-1.45; P < .001). In regard to mortality, there was no statistically significant difference between CEE plus MPA (71 deaths, annualized mortality rate 0.045%) and placebo (53 deaths, annualized mortality rate 0.035%; HR 1.35; 95% CI, 0.94-1.95; P = .11).
“The big thing to think about is estrogen alone reducing breast cancer mortality by 40%,” said Dr. Chlebowski in an interview. “None of the other interventions, including tamoxifen, had any change on mortality. This should change the way we look at breast cancer prevention, though we might have to be a little creative about it. I think you have to be a little away from menopause for it to reduce breast cancer. But we wanted to start that debate.
“On the other hand,” he said, “a woman takes estrogen plus progestin and when you look at that curve, it’s staying about 25% increased. You take it for 5.6 years and the increase continues through 20 years, so you’re maybe buying a lifetime of increase in breast cancer by taking estrogen plus progestin for 5 years.”
He also highlighted the comprehensiveness of the mortality data, noting that “when you hook up to the National Death Index, they find 98% of all deaths in the United States. That’s really remarkable; you retain the whole power of the randomization. It means our data, between the death index and our follow-up of participants, is essentially complete.”
Use of hormone therapy, and decoding the outcomes, remains ‘complex’
Decades after the data were gathered from the Women’s Health Initiative clinical trials, they continue to assist researchers and patients alike, wrote Christina A. Minami, MD, of Brigham and Women’s Hospital in Boston and Rachel A. Freedman, MD, of the Dana-Farber Cancer Institute in Boston, in an accompanying editorial.
That said, in regard to the findings of this latest analysis, “many questions still remain on whether (and how) a hormone therapy intervention that occurred many years earlier may continue to affect breast cancer risk and mortality at 20 years,” they wrote. They noted that it’s “impossible” to isolate how exposure to certain therapies can impact long-term outcomes, and that a high percentage of patients who discontinued the drugs during each trial muddy the waters even further.
“Decisions to initiate these medications remain complex,” they added, emphasizing that breast cancer risk is just one of many factors that physicians must consider when considering hormone therapy for their patients.
Dr. Chlebowski and his coauthors acknowledged their study’s limitations, including the use of very specifically administered and formulated dosages making their findings “not necessarily generalizable to other preparations.” In addition, they noted the significant percentage of patients – 54% with CEE alone and 42% with CEE plus MPA – who discontinued drug usage during their respective trials.
The Women’s Health Initiative is supported by the National Institutes of Health and the Department of Health and Human Services. The authors reported numerous potential conflicts of interest, including receiving personal fees and grants from various government organizations, foundations, and pharmaceutical companies. The editorial’s authors reported no conflicts of interest.
SOURCE: Chlebowski RT et al. JAMA. 2020 Jul 28. doi: 10.1001/jama.2020.9482.
A new follow-up study of menopausal hormone therapy found that prior use of conjugated equine estrogen (CEE) decreased both breast cancer incidence and mortality, while prior use of CEE plus medroxyprogesterone acetate (MPA) was associated with an increase in incidence.
“Prior use of CEE alone is, to our knowledge, the first pharmacologic intervention demonstrated to be associated with a statistically significantly reduction in deaths from breast cancer,” wrote Rowan T. Chlebowski, MD, PhD, of the Lundquist Institute for Biomedical Innovation in Torrance, Calif., and his coauthors. The study was published July 28 in JAMA.
To further investigate the outcomes of the Women’s Health Initiative in regard to hormone therapy and breast cancer risk, the researchers analyzed the long-term follow-up of two randomized trials that included 27,347 postmenopausal women with no prior breast cancer and negative mammograms at baseline. Their mean (SD) age was 63.4 (7.2) years. Enrollment took place from 1993 to 1998; participants were contacted for follow-up every 6 months through 2005 and annually from then on. Mortality data were gathered from follow-up and the National Death Index.
The first trial included 16,608 women with a uterus. Among these women, 8,506 received 0.625 mg/day of CEE plus 2.5 mg/day of MPA, and 8,102 received placebo. The second trial included 10,739 women who’d gotten a hysterectomy, 5,310 of whom received 0.625 mg/day of CEE alone and 5,429 of whom received placebo. The first trial ended in 2002 after a median intervention period of 5.6 years, and the second trial ended in 2004 after a period of 7.2 years.
An analysis in 2015 found that CEE alone was associated with lower risk of breast cancer and CEE plus MPA was associated with increased risk.
The current analysis confirmed that, after a median of 20.3 years of follow-up, and with mortality data now available for more than 98% of participants, CEE alone was associated with fewer cases of breast cancer (238 cases, annualized rate 0.30%), compared with placebo (296 cases, annualized rate 0.37%; hazard ratio 0.78; 95% confidence interval, 0.65-0.93; P = .005).
Furthermore, CEE alone was also associated with lower mortality (30 deaths, annualized mortality rate 0.031%), compared with placebo (46 deaths, annualized mortality rate 0.046%; HR 0.60; 95% CI, 0.37-0.97; P = .04).
By comparison, CEE plus MPA was linked with more cases of breast cancer (584 cases, annualized rate 0.45%) than placebo (447 cases, annualized rate 0.36%; HR 1.28; 95% CI, 1.13-1.45; P < .001). In regard to mortality, there was no statistically significant difference between CEE plus MPA (71 deaths, annualized mortality rate 0.045%) and placebo (53 deaths, annualized mortality rate 0.035%; HR 1.35; 95% CI, 0.94-1.95; P = .11).
“The big thing to think about is estrogen alone reducing breast cancer mortality by 40%,” said Dr. Chlebowski in an interview. “None of the other interventions, including tamoxifen, had any change on mortality. This should change the way we look at breast cancer prevention, though we might have to be a little creative about it. I think you have to be a little away from menopause for it to reduce breast cancer. But we wanted to start that debate.
“On the other hand,” he said, “a woman takes estrogen plus progestin and when you look at that curve, it’s staying about 25% increased. You take it for 5.6 years and the increase continues through 20 years, so you’re maybe buying a lifetime of increase in breast cancer by taking estrogen plus progestin for 5 years.”
He also highlighted the comprehensiveness of the mortality data, noting that “when you hook up to the National Death Index, they find 98% of all deaths in the United States. That’s really remarkable; you retain the whole power of the randomization. It means our data, between the death index and our follow-up of participants, is essentially complete.”
Use of hormone therapy, and decoding the outcomes, remains ‘complex’
Decades after the data were gathered from the Women’s Health Initiative clinical trials, they continue to assist researchers and patients alike, wrote Christina A. Minami, MD, of Brigham and Women’s Hospital in Boston and Rachel A. Freedman, MD, of the Dana-Farber Cancer Institute in Boston, in an accompanying editorial.
That said, in regard to the findings of this latest analysis, “many questions still remain on whether (and how) a hormone therapy intervention that occurred many years earlier may continue to affect breast cancer risk and mortality at 20 years,” they wrote. They noted that it’s “impossible” to isolate how exposure to certain therapies can impact long-term outcomes, and that a high percentage of patients who discontinued the drugs during each trial muddy the waters even further.
“Decisions to initiate these medications remain complex,” they added, emphasizing that breast cancer risk is just one of many factors that physicians must consider when considering hormone therapy for their patients.
Dr. Chlebowski and his coauthors acknowledged their study’s limitations, including the use of very specifically administered and formulated dosages making their findings “not necessarily generalizable to other preparations.” In addition, they noted the significant percentage of patients – 54% with CEE alone and 42% with CEE plus MPA – who discontinued drug usage during their respective trials.
The Women’s Health Initiative is supported by the National Institutes of Health and the Department of Health and Human Services. The authors reported numerous potential conflicts of interest, including receiving personal fees and grants from various government organizations, foundations, and pharmaceutical companies. The editorial’s authors reported no conflicts of interest.
SOURCE: Chlebowski RT et al. JAMA. 2020 Jul 28. doi: 10.1001/jama.2020.9482.
FROM JAMA
Real-world data show SGLT2 inhibitors for diabetes triple DKA risk
according to a new large database analysis.
The findings, which include data on the use of three different SGLT2 inhibitors in Canada and the United Kingdom and suggest a class effect, were published online July 27 in Annals of Internal Medicine by Antonios Douros, MD, PhD, of McGill University and the Centre for Clinical Epidemiology, Lady Davis Institute, Montreal, and colleagues.
“Our results provide robust evidence that SGLT2 inhibitors are associated with an increased risk for DKA. Of note, increased risks were observed in all molecule-specific analyses, with canagliflozin [Invokana, Janssen] showing the highest effect estimate,” they noted.
And because the beneficial effects of SGLT2 inhibitors in the prevention of cardiovascular and renal disease will probably increase their uptake in the coming years, “Physicians should be aware of DKA as a potential adverse effect,” Dr. Douros and colleagues wrote.
Analysis “generally confirms what has already been published”
Asked for comment, Simeon I. Taylor, MD, PhD, professor of medicine at the University of Maryland, Baltimore, said that the study “generally confirms what has already been published” on the topic. He noted that overall “the risk of SGLT2 inhibitor–induced ketoacidosis is quite low in type 2 diabetes, perhaps on the order of 1 episode per 1000 patient-years.”
However, Dr. Taylor cautioned: “Published evidence suggests that the risk of DKA is increased if patients are unable to eat,” such as when hospitalized patients are not permitted to eat.
“In that setting, it is probably prudent to discontinue an SGLT2 inhibitor. Also, it may be prudent not to prescribe SGLT2 inhibitors to patients with a history of DKA,” he added.
Dr. Taylor also advised: “Although not necessarily supported by this publication, I think that caution should be exercised in prescribing SGLT2 inhibitors to insulin-dependent type 2 diabetes patients. ... Some late-stage type 2 diabetes patients may have severe insulin deficiency, and their physiology may resemble that of a type 1 diabetes patient.”
Dr. Taylor has previously advised against using SGLT2 inhibitors altogether in patients with type 1 diabetes.
Increased DKA risk seen across all SGLT2 inhibitors
The study involved electronic health care databases from seven Canadian provinces and the United Kingdom, from which 208,757 new users of SGLT2 inhibitors were propensity-matched 1:1 to new dipeptidyl peptidase-4 (DPP-4) inhibitor users.
Of those taking an SGLT2 inhibitor, 42.3% took canagliflozin, 30.7% dapagliflozin (Farxiga/Forxiga, AstraZeneca), and 27.0% empagliflozin (Jardiance, Boehringer Ingelheim).
Over a mean 0.9-year follow-up, 521 patients were hospitalized with DKA, for an overall incidence rate of 1.41 per 1,000 person-years.
The rate with SGLT2 inhibitors, 2.03 per 1,000 person-years, was nearly three times that seen with DPP-4 inhibitors, at 0.75 per 1,000 person-years, a significant difference (hazard ratio, 2.85).
By individual SGLT2 inhibitor, the hazard ratios compared with DPP-4 inhibitors were 1.86 for dapagliflozin, 2.52 for empagliflozin, and 3.58 for canagliflozin, all statistically significant. Stratification by age, sex, and incident versus prevalent user did not change the association between SGLT2 inhibitors and DKA.
Asked about the higher rate for canagliflozin, Dr. Taylor commented: “It is hard to know whether there are real and reproducible differences in the risks of DKA among the various SGLT2 inhibitors. The differences are not huge and the populations are not well matched.”
But, he noted, “If canagliflozin triggers more glucosuria, it is not surprising that it would also induce more ketosis and possibly ketoacidosis.”
He also noted that the threefold relative increase in DKA with canagliflozin versus comparators is consistent with Janssen’s data, published in 2015.
“It is, of course, reassuring that both [randomized clinical trials] and epidemiology produce similar estimates of the risk of drug-induced adverse events. Interestingly, the incidence of DKA is approximately threefold higher in the Canadian [data] as compared to Janssen’s clinical trials.”
Dr. Taylor also pointed out that, in the Janssen studies, the risk of canagliflozin-induced DKA appeared to be higher among patients with anti-islet antibodies, which suggests that some may have actually had autoimmune (type 1) diabetes. “So the overall risk of SGLT2 inhibitor-induced DKA may depend at least in part on the mix of patients.”
In the current study, individuals who never used insulin had a greater relative increase in risk of DKA with SGLT2 inhibitors, compared with DPP-4 inhibitors, than did those who did use insulin (hazard ratios, 3.96 vs. 2.24, both compared with DPP-4 inhibitors). However, just among those taking SGLT2 inhibitors, the absolute risk for DKA was higher for those with prior insulin use (3.52 vs. 1.43 per 1,000 person-years).
The results of sensitivity analyses were consistent with those of the primary analysis.
The study was funded by the Canadian Institutes of Health Research and supported by ICES. Dr. Douros has reported receiving a salary support award from Fonds de recherche du Quebec – sante. Dr. Taylor was previously employed at Bristol-Myers Squibb. He is currently a consultant for Ionis Pharmaceuticals and has reported receiving research support provided to the University of Maryland School of Medicine by Regeneron.
A version of this article originally appeared on Medscape.com.
according to a new large database analysis.
The findings, which include data on the use of three different SGLT2 inhibitors in Canada and the United Kingdom and suggest a class effect, were published online July 27 in Annals of Internal Medicine by Antonios Douros, MD, PhD, of McGill University and the Centre for Clinical Epidemiology, Lady Davis Institute, Montreal, and colleagues.
“Our results provide robust evidence that SGLT2 inhibitors are associated with an increased risk for DKA. Of note, increased risks were observed in all molecule-specific analyses, with canagliflozin [Invokana, Janssen] showing the highest effect estimate,” they noted.
And because the beneficial effects of SGLT2 inhibitors in the prevention of cardiovascular and renal disease will probably increase their uptake in the coming years, “Physicians should be aware of DKA as a potential adverse effect,” Dr. Douros and colleagues wrote.
Analysis “generally confirms what has already been published”
Asked for comment, Simeon I. Taylor, MD, PhD, professor of medicine at the University of Maryland, Baltimore, said that the study “generally confirms what has already been published” on the topic. He noted that overall “the risk of SGLT2 inhibitor–induced ketoacidosis is quite low in type 2 diabetes, perhaps on the order of 1 episode per 1000 patient-years.”
However, Dr. Taylor cautioned: “Published evidence suggests that the risk of DKA is increased if patients are unable to eat,” such as when hospitalized patients are not permitted to eat.
“In that setting, it is probably prudent to discontinue an SGLT2 inhibitor. Also, it may be prudent not to prescribe SGLT2 inhibitors to patients with a history of DKA,” he added.
Dr. Taylor also advised: “Although not necessarily supported by this publication, I think that caution should be exercised in prescribing SGLT2 inhibitors to insulin-dependent type 2 diabetes patients. ... Some late-stage type 2 diabetes patients may have severe insulin deficiency, and their physiology may resemble that of a type 1 diabetes patient.”
Dr. Taylor has previously advised against using SGLT2 inhibitors altogether in patients with type 1 diabetes.
Increased DKA risk seen across all SGLT2 inhibitors
The study involved electronic health care databases from seven Canadian provinces and the United Kingdom, from which 208,757 new users of SGLT2 inhibitors were propensity-matched 1:1 to new dipeptidyl peptidase-4 (DPP-4) inhibitor users.
Of those taking an SGLT2 inhibitor, 42.3% took canagliflozin, 30.7% dapagliflozin (Farxiga/Forxiga, AstraZeneca), and 27.0% empagliflozin (Jardiance, Boehringer Ingelheim).
Over a mean 0.9-year follow-up, 521 patients were hospitalized with DKA, for an overall incidence rate of 1.41 per 1,000 person-years.
The rate with SGLT2 inhibitors, 2.03 per 1,000 person-years, was nearly three times that seen with DPP-4 inhibitors, at 0.75 per 1,000 person-years, a significant difference (hazard ratio, 2.85).
By individual SGLT2 inhibitor, the hazard ratios compared with DPP-4 inhibitors were 1.86 for dapagliflozin, 2.52 for empagliflozin, and 3.58 for canagliflozin, all statistically significant. Stratification by age, sex, and incident versus prevalent user did not change the association between SGLT2 inhibitors and DKA.
Asked about the higher rate for canagliflozin, Dr. Taylor commented: “It is hard to know whether there are real and reproducible differences in the risks of DKA among the various SGLT2 inhibitors. The differences are not huge and the populations are not well matched.”
But, he noted, “If canagliflozin triggers more glucosuria, it is not surprising that it would also induce more ketosis and possibly ketoacidosis.”
He also noted that the threefold relative increase in DKA with canagliflozin versus comparators is consistent with Janssen’s data, published in 2015.
“It is, of course, reassuring that both [randomized clinical trials] and epidemiology produce similar estimates of the risk of drug-induced adverse events. Interestingly, the incidence of DKA is approximately threefold higher in the Canadian [data] as compared to Janssen’s clinical trials.”
Dr. Taylor also pointed out that, in the Janssen studies, the risk of canagliflozin-induced DKA appeared to be higher among patients with anti-islet antibodies, which suggests that some may have actually had autoimmune (type 1) diabetes. “So the overall risk of SGLT2 inhibitor-induced DKA may depend at least in part on the mix of patients.”
In the current study, individuals who never used insulin had a greater relative increase in risk of DKA with SGLT2 inhibitors, compared with DPP-4 inhibitors, than did those who did use insulin (hazard ratios, 3.96 vs. 2.24, both compared with DPP-4 inhibitors). However, just among those taking SGLT2 inhibitors, the absolute risk for DKA was higher for those with prior insulin use (3.52 vs. 1.43 per 1,000 person-years).
The results of sensitivity analyses were consistent with those of the primary analysis.
The study was funded by the Canadian Institutes of Health Research and supported by ICES. Dr. Douros has reported receiving a salary support award from Fonds de recherche du Quebec – sante. Dr. Taylor was previously employed at Bristol-Myers Squibb. He is currently a consultant for Ionis Pharmaceuticals and has reported receiving research support provided to the University of Maryland School of Medicine by Regeneron.
A version of this article originally appeared on Medscape.com.
according to a new large database analysis.
The findings, which include data on the use of three different SGLT2 inhibitors in Canada and the United Kingdom and suggest a class effect, were published online July 27 in Annals of Internal Medicine by Antonios Douros, MD, PhD, of McGill University and the Centre for Clinical Epidemiology, Lady Davis Institute, Montreal, and colleagues.
“Our results provide robust evidence that SGLT2 inhibitors are associated with an increased risk for DKA. Of note, increased risks were observed in all molecule-specific analyses, with canagliflozin [Invokana, Janssen] showing the highest effect estimate,” they noted.
And because the beneficial effects of SGLT2 inhibitors in the prevention of cardiovascular and renal disease will probably increase their uptake in the coming years, “Physicians should be aware of DKA as a potential adverse effect,” Dr. Douros and colleagues wrote.
Analysis “generally confirms what has already been published”
Asked for comment, Simeon I. Taylor, MD, PhD, professor of medicine at the University of Maryland, Baltimore, said that the study “generally confirms what has already been published” on the topic. He noted that overall “the risk of SGLT2 inhibitor–induced ketoacidosis is quite low in type 2 diabetes, perhaps on the order of 1 episode per 1000 patient-years.”
However, Dr. Taylor cautioned: “Published evidence suggests that the risk of DKA is increased if patients are unable to eat,” such as when hospitalized patients are not permitted to eat.
“In that setting, it is probably prudent to discontinue an SGLT2 inhibitor. Also, it may be prudent not to prescribe SGLT2 inhibitors to patients with a history of DKA,” he added.
Dr. Taylor also advised: “Although not necessarily supported by this publication, I think that caution should be exercised in prescribing SGLT2 inhibitors to insulin-dependent type 2 diabetes patients. ... Some late-stage type 2 diabetes patients may have severe insulin deficiency, and their physiology may resemble that of a type 1 diabetes patient.”
Dr. Taylor has previously advised against using SGLT2 inhibitors altogether in patients with type 1 diabetes.
Increased DKA risk seen across all SGLT2 inhibitors
The study involved electronic health care databases from seven Canadian provinces and the United Kingdom, from which 208,757 new users of SGLT2 inhibitors were propensity-matched 1:1 to new dipeptidyl peptidase-4 (DPP-4) inhibitor users.
Of those taking an SGLT2 inhibitor, 42.3% took canagliflozin, 30.7% dapagliflozin (Farxiga/Forxiga, AstraZeneca), and 27.0% empagliflozin (Jardiance, Boehringer Ingelheim).
Over a mean 0.9-year follow-up, 521 patients were hospitalized with DKA, for an overall incidence rate of 1.41 per 1,000 person-years.
The rate with SGLT2 inhibitors, 2.03 per 1,000 person-years, was nearly three times that seen with DPP-4 inhibitors, at 0.75 per 1,000 person-years, a significant difference (hazard ratio, 2.85).
By individual SGLT2 inhibitor, the hazard ratios compared with DPP-4 inhibitors were 1.86 for dapagliflozin, 2.52 for empagliflozin, and 3.58 for canagliflozin, all statistically significant. Stratification by age, sex, and incident versus prevalent user did not change the association between SGLT2 inhibitors and DKA.
Asked about the higher rate for canagliflozin, Dr. Taylor commented: “It is hard to know whether there are real and reproducible differences in the risks of DKA among the various SGLT2 inhibitors. The differences are not huge and the populations are not well matched.”
But, he noted, “If canagliflozin triggers more glucosuria, it is not surprising that it would also induce more ketosis and possibly ketoacidosis.”
He also noted that the threefold relative increase in DKA with canagliflozin versus comparators is consistent with Janssen’s data, published in 2015.
“It is, of course, reassuring that both [randomized clinical trials] and epidemiology produce similar estimates of the risk of drug-induced adverse events. Interestingly, the incidence of DKA is approximately threefold higher in the Canadian [data] as compared to Janssen’s clinical trials.”
Dr. Taylor also pointed out that, in the Janssen studies, the risk of canagliflozin-induced DKA appeared to be higher among patients with anti-islet antibodies, which suggests that some may have actually had autoimmune (type 1) diabetes. “So the overall risk of SGLT2 inhibitor-induced DKA may depend at least in part on the mix of patients.”
In the current study, individuals who never used insulin had a greater relative increase in risk of DKA with SGLT2 inhibitors, compared with DPP-4 inhibitors, than did those who did use insulin (hazard ratios, 3.96 vs. 2.24, both compared with DPP-4 inhibitors). However, just among those taking SGLT2 inhibitors, the absolute risk for DKA was higher for those with prior insulin use (3.52 vs. 1.43 per 1,000 person-years).
The results of sensitivity analyses were consistent with those of the primary analysis.
The study was funded by the Canadian Institutes of Health Research and supported by ICES. Dr. Douros has reported receiving a salary support award from Fonds de recherche du Quebec – sante. Dr. Taylor was previously employed at Bristol-Myers Squibb. He is currently a consultant for Ionis Pharmaceuticals and has reported receiving research support provided to the University of Maryland School of Medicine by Regeneron.
A version of this article originally appeared on Medscape.com.
MIS-C is a serious immune-mediated response to COVID-19 infection
One of the take-away messages from a review of multisystem inflammatory syndrome in children (MIS-C) is that clinicians treating this condition “need to be comfortable with uncertainty,” Melissa Hazen, MD, said at a synthesis of multiple published case series and personal experience summarized at the virtual Pediatric Hospital Medicine meeting.
She emphasized MIS-C patient care “requires flexibility,” and she advised clinicians managing these patients to open the lines of communication with the many specialists who often are required to deal with complications affecting an array of organ systems.
MIS-C might best be understood as the most serious manifestation of an immune-mediated response to COVID-19 infection that ranges from transient mild symptoms to the life-threatening multiple organ involvement that characterizes this newly recognized threat. Although “most children who encounter this pathogen only develop mild disease,” the spectrum of the disease can move in a subset of patients to a “Kawasaki-like illness” without hemodynamic instability and then to MIS-C “with highly elevated systemic inflammatory markers and multiple organ involvement,” explained Dr. Hazen, an attending physician in the rheumatology program at Boston Children’s Hospital.
most of which have only recently reached publication, according to Dr. Hazen. In general, the description of the most common symptoms and their course has been relatively consistent.
In 186 cases of MIS-C collected in a study funded by the Centers for Disease Control and Prevention, 148 (80%) were admitted to intensive care, 90 patients (48%) received vasoactive support, 37 (20%) received mechanical ventilation, and 4 (2%) died.1 The median age was 8 years (range, 3-13 years) in this study. The case definition was fever for at least 24 hours, laboratory evidence of inflammation, multisystem organ involvement, and evidence of COVID-19 infection. In this cohort of 186 children, 92% had gastrointestinal, 80% had cardiovascular, 76% had hematologic, and 70% had respiratory system involvement.
In a different series of 95 cases collected in New York State, 79 (80%) were admitted to intensive care, 61 (62%) received vasoactive support, 10 (10%) received mechanical ventilation, 4 (4%) received extracorporeal membrane oxygenation (ECMO), and 2 (2%) died. 2 Thirty-one percent patients were aged 0-5 years, 42% were 6-12 years, and 26% were 13-20 years of age. In that series, for which the case definition was elevation of two or more inflammatory markers, virologic evidence of COVID-19 infection, 80% had gastrointestinal system involvement, and 53% had evidence of myocarditis.
In both of these series, as well as others published and unpublished, the peak in MIS-C cases has occurred about 3 to 4 weeks after peak COVID-19 activity, according to Diana Lee, MD, a pediatrician at Icahn School of Medicine at Mount Sinai, New York. This pattern, reported by others, was observed in New York State, where 230 cases of MIS-C were collected from the beginning of May until the end of June, which reflected this 3- to 4-week delay in peak incidence.
“This does seem to be a rare syndrome since this [group of] 230 cases is amongst the entire population of children in New York State. So, yes, we should be keeping this in mind in our differential, but we should not forget all the other reasons that children can have a fever,” she said.
Both Dr. Hazen and Dr. Lee cautioned that MIS-C, despite a general consistency among published studies, remains a moving target in regard to how it is being characterized. In a 2-day period in May, the CDC, the World Health Organization, and New York State all issued descriptions of MIS-C, employing compatible but slightly different terminology and diagnostic criteria. Many questions regarding optimal methods of diagnosis, treatment, and follow-up remain unanswered.
Questions regarding the risk to the cardiovascular system, one of the organs most commonly affected in MIS-C, are among the most urgent. It is not now clear how best to monitor cardiovascular involvement, how to intervene, and how to follow patients in the postinfection period, according to Kevin G. Friedman, MD, a pediatrician at Harvard Medical School, Boston, and an attending physician in the department of cardiology at Boston Children’s Hospital.
“The most frequent complication we have seen is ventricular dysfunction, which occurs in about half of these patients,” he reported. “Usually it is in the mild to moderate range, but occasionally patients have an ejection fraction of less than 40%.”
Coronary abnormalities, typically in the form of dilations or small aneurysms, occur in 10%-20% of children with MIS-C, according to Dr. Friedman. Giant aneurysms have been reported.
“Some of these findings can progress including in both the acute phase and, particularly for the coronary aneurysms, in the subacute phase. We recommend echocardiograms and EKGs at diagnosis and at 1-2 weeks to recheck coronary size or sooner if there are clinical indications,” Dr. Friedman advised.
Protocols like these are constantly under review as more information becomes available. There are as yet no guidelines, and practice differs across institutions, according to the investigators summarizing this information.
None of the speakers had any relevant financial disclosures.
References
1. Feldstein LR et al. Multisystem inflammatory syndrome in U.S. children and adolescents. N Engl J Med. 2020;383:334-46.
2. Dufort EM et al. Multisystem inflammatory syndrome in children in New York State. N Engl J Med 2020;383:347-58.
One of the take-away messages from a review of multisystem inflammatory syndrome in children (MIS-C) is that clinicians treating this condition “need to be comfortable with uncertainty,” Melissa Hazen, MD, said at a synthesis of multiple published case series and personal experience summarized at the virtual Pediatric Hospital Medicine meeting.
She emphasized MIS-C patient care “requires flexibility,” and she advised clinicians managing these patients to open the lines of communication with the many specialists who often are required to deal with complications affecting an array of organ systems.
MIS-C might best be understood as the most serious manifestation of an immune-mediated response to COVID-19 infection that ranges from transient mild symptoms to the life-threatening multiple organ involvement that characterizes this newly recognized threat. Although “most children who encounter this pathogen only develop mild disease,” the spectrum of the disease can move in a subset of patients to a “Kawasaki-like illness” without hemodynamic instability and then to MIS-C “with highly elevated systemic inflammatory markers and multiple organ involvement,” explained Dr. Hazen, an attending physician in the rheumatology program at Boston Children’s Hospital.
most of which have only recently reached publication, according to Dr. Hazen. In general, the description of the most common symptoms and their course has been relatively consistent.
In 186 cases of MIS-C collected in a study funded by the Centers for Disease Control and Prevention, 148 (80%) were admitted to intensive care, 90 patients (48%) received vasoactive support, 37 (20%) received mechanical ventilation, and 4 (2%) died.1 The median age was 8 years (range, 3-13 years) in this study. The case definition was fever for at least 24 hours, laboratory evidence of inflammation, multisystem organ involvement, and evidence of COVID-19 infection. In this cohort of 186 children, 92% had gastrointestinal, 80% had cardiovascular, 76% had hematologic, and 70% had respiratory system involvement.
In a different series of 95 cases collected in New York State, 79 (80%) were admitted to intensive care, 61 (62%) received vasoactive support, 10 (10%) received mechanical ventilation, 4 (4%) received extracorporeal membrane oxygenation (ECMO), and 2 (2%) died. 2 Thirty-one percent patients were aged 0-5 years, 42% were 6-12 years, and 26% were 13-20 years of age. In that series, for which the case definition was elevation of two or more inflammatory markers, virologic evidence of COVID-19 infection, 80% had gastrointestinal system involvement, and 53% had evidence of myocarditis.
In both of these series, as well as others published and unpublished, the peak in MIS-C cases has occurred about 3 to 4 weeks after peak COVID-19 activity, according to Diana Lee, MD, a pediatrician at Icahn School of Medicine at Mount Sinai, New York. This pattern, reported by others, was observed in New York State, where 230 cases of MIS-C were collected from the beginning of May until the end of June, which reflected this 3- to 4-week delay in peak incidence.
“This does seem to be a rare syndrome since this [group of] 230 cases is amongst the entire population of children in New York State. So, yes, we should be keeping this in mind in our differential, but we should not forget all the other reasons that children can have a fever,” she said.
Both Dr. Hazen and Dr. Lee cautioned that MIS-C, despite a general consistency among published studies, remains a moving target in regard to how it is being characterized. In a 2-day period in May, the CDC, the World Health Organization, and New York State all issued descriptions of MIS-C, employing compatible but slightly different terminology and diagnostic criteria. Many questions regarding optimal methods of diagnosis, treatment, and follow-up remain unanswered.
Questions regarding the risk to the cardiovascular system, one of the organs most commonly affected in MIS-C, are among the most urgent. It is not now clear how best to monitor cardiovascular involvement, how to intervene, and how to follow patients in the postinfection period, according to Kevin G. Friedman, MD, a pediatrician at Harvard Medical School, Boston, and an attending physician in the department of cardiology at Boston Children’s Hospital.
“The most frequent complication we have seen is ventricular dysfunction, which occurs in about half of these patients,” he reported. “Usually it is in the mild to moderate range, but occasionally patients have an ejection fraction of less than 40%.”
Coronary abnormalities, typically in the form of dilations or small aneurysms, occur in 10%-20% of children with MIS-C, according to Dr. Friedman. Giant aneurysms have been reported.
“Some of these findings can progress including in both the acute phase and, particularly for the coronary aneurysms, in the subacute phase. We recommend echocardiograms and EKGs at diagnosis and at 1-2 weeks to recheck coronary size or sooner if there are clinical indications,” Dr. Friedman advised.
Protocols like these are constantly under review as more information becomes available. There are as yet no guidelines, and practice differs across institutions, according to the investigators summarizing this information.
None of the speakers had any relevant financial disclosures.
References
1. Feldstein LR et al. Multisystem inflammatory syndrome in U.S. children and adolescents. N Engl J Med. 2020;383:334-46.
2. Dufort EM et al. Multisystem inflammatory syndrome in children in New York State. N Engl J Med 2020;383:347-58.
One of the take-away messages from a review of multisystem inflammatory syndrome in children (MIS-C) is that clinicians treating this condition “need to be comfortable with uncertainty,” Melissa Hazen, MD, said at a synthesis of multiple published case series and personal experience summarized at the virtual Pediatric Hospital Medicine meeting.
She emphasized MIS-C patient care “requires flexibility,” and she advised clinicians managing these patients to open the lines of communication with the many specialists who often are required to deal with complications affecting an array of organ systems.
MIS-C might best be understood as the most serious manifestation of an immune-mediated response to COVID-19 infection that ranges from transient mild symptoms to the life-threatening multiple organ involvement that characterizes this newly recognized threat. Although “most children who encounter this pathogen only develop mild disease,” the spectrum of the disease can move in a subset of patients to a “Kawasaki-like illness” without hemodynamic instability and then to MIS-C “with highly elevated systemic inflammatory markers and multiple organ involvement,” explained Dr. Hazen, an attending physician in the rheumatology program at Boston Children’s Hospital.
most of which have only recently reached publication, according to Dr. Hazen. In general, the description of the most common symptoms and their course has been relatively consistent.
In 186 cases of MIS-C collected in a study funded by the Centers for Disease Control and Prevention, 148 (80%) were admitted to intensive care, 90 patients (48%) received vasoactive support, 37 (20%) received mechanical ventilation, and 4 (2%) died.1 The median age was 8 years (range, 3-13 years) in this study. The case definition was fever for at least 24 hours, laboratory evidence of inflammation, multisystem organ involvement, and evidence of COVID-19 infection. In this cohort of 186 children, 92% had gastrointestinal, 80% had cardiovascular, 76% had hematologic, and 70% had respiratory system involvement.
In a different series of 95 cases collected in New York State, 79 (80%) were admitted to intensive care, 61 (62%) received vasoactive support, 10 (10%) received mechanical ventilation, 4 (4%) received extracorporeal membrane oxygenation (ECMO), and 2 (2%) died. 2 Thirty-one percent patients were aged 0-5 years, 42% were 6-12 years, and 26% were 13-20 years of age. In that series, for which the case definition was elevation of two or more inflammatory markers, virologic evidence of COVID-19 infection, 80% had gastrointestinal system involvement, and 53% had evidence of myocarditis.
In both of these series, as well as others published and unpublished, the peak in MIS-C cases has occurred about 3 to 4 weeks after peak COVID-19 activity, according to Diana Lee, MD, a pediatrician at Icahn School of Medicine at Mount Sinai, New York. This pattern, reported by others, was observed in New York State, where 230 cases of MIS-C were collected from the beginning of May until the end of June, which reflected this 3- to 4-week delay in peak incidence.
“This does seem to be a rare syndrome since this [group of] 230 cases is amongst the entire population of children in New York State. So, yes, we should be keeping this in mind in our differential, but we should not forget all the other reasons that children can have a fever,” she said.
Both Dr. Hazen and Dr. Lee cautioned that MIS-C, despite a general consistency among published studies, remains a moving target in regard to how it is being characterized. In a 2-day period in May, the CDC, the World Health Organization, and New York State all issued descriptions of MIS-C, employing compatible but slightly different terminology and diagnostic criteria. Many questions regarding optimal methods of diagnosis, treatment, and follow-up remain unanswered.
Questions regarding the risk to the cardiovascular system, one of the organs most commonly affected in MIS-C, are among the most urgent. It is not now clear how best to monitor cardiovascular involvement, how to intervene, and how to follow patients in the postinfection period, according to Kevin G. Friedman, MD, a pediatrician at Harvard Medical School, Boston, and an attending physician in the department of cardiology at Boston Children’s Hospital.
“The most frequent complication we have seen is ventricular dysfunction, which occurs in about half of these patients,” he reported. “Usually it is in the mild to moderate range, but occasionally patients have an ejection fraction of less than 40%.”
Coronary abnormalities, typically in the form of dilations or small aneurysms, occur in 10%-20% of children with MIS-C, according to Dr. Friedman. Giant aneurysms have been reported.
“Some of these findings can progress including in both the acute phase and, particularly for the coronary aneurysms, in the subacute phase. We recommend echocardiograms and EKGs at diagnosis and at 1-2 weeks to recheck coronary size or sooner if there are clinical indications,” Dr. Friedman advised.
Protocols like these are constantly under review as more information becomes available. There are as yet no guidelines, and practice differs across institutions, according to the investigators summarizing this information.
None of the speakers had any relevant financial disclosures.
References
1. Feldstein LR et al. Multisystem inflammatory syndrome in U.S. children and adolescents. N Engl J Med. 2020;383:334-46.
2. Dufort EM et al. Multisystem inflammatory syndrome in children in New York State. N Engl J Med 2020;383:347-58.
FROM PHM20 VIRTUAL
Physician recruitment drops by 30% because of pandemic
the firm reported.
“Rather than having many practice opportunities to choose from, physicians now may have to compete to secure practice opportunities that meet their needs,” the authors wrote in Merritt Hawkins’ report on the impact of COVID-19.
Most of the report concerns physician recruitment from April 1, 2019, to March 31, 2020. The data were mostly derived from searches that Merritt Hawkins conducted before the effects of the pandemic was fully felt.
Family medicine was again the most sought-after specialty, as it has been for the past 14 years. But demand for primary care doctors – including family physicians, internists, and pediatricians – leveled off, and average starting salaries for primary care doctors dropped during 2019-2020. In contrast, the number of searches conducted for nurse practitioners (NPs) and physician assistants (PAs) increased by 54%, and their salaries increased slightly.
To explain the lackluster prospects for primary care before the pandemic, the authors cited research showing that patients were turning away from the traditional office visit model. At the same time, there was a rise in visits to NPs and PAs, including those in urgent care centers and retail clinics.
As a result of decreased demand for primary care physicians and the rising prevalence of telehealth, Merritt Hawkins expects primary care salaries to drop overall. With telehealth generating a larger portion of revenues, “it is uncertain whether primary care physicians will be able to sustain levels of reimbursement that were prevalent pre-COVID even at such time as the economy is improved and utilization increases,” the authors reported.
Demand for specialists was increasing prior to the COVID-19 crisis, partly as a result of the aging of the population. Seventy-eight percent of all searches were for medical specialists, compared with 67% 5 years ago. However, the pandemic has set back specialist searches. “Demand and compensation for specialists also will change as a result of COVID-19 in response to declines in the volume of medical procedures,” according to the authors.
In contrast, the recruitment of doctors who are on the front line of COVID-19 care is expected to increase. Among the fields anticipated to be in demand are emergency department specialists, infectious disease specialists, and pulmonology/critical care physicians. Travis Singleton, executive vice president of Merritt Hawkins, said in an interview that this trend is already happening and will accelerate as COVID-19 hot spots arise across the country.
Specialists in different fields received either higher or lower offers than during the previous year. Starting salaries for noninvasive cardiologists, for example, dropped 7.3%; gastroenterologists earned 7.7% less; and neurologists, 6.9% less. In contrast, orthopedic surgeons saw offers surge 16.7%; radiologists, 9.3%; and pulmonologists/critical care specialists, 7.7%.
Physicians were offered salaries plus bonuses in three-quarters of searches. Relative value unit–based production remained the most common basis for bonuses. Quality/value-based metrics were used in computing 64% of bonuses – up from 56% the previous year – but still determined only 11% of total physician compensation.
Pandemic outlook
Whereas health care helped drive the U.S. economy in 2018-2019, the pace of job growth in health care has decreased since March. As a result of the pandemic, health care spending in the United States declined by 18% in the first quarter of 2020. Physician practice revenue dropped by 55% during the first quarter, and many small and solo practices are still struggling.
In a 2018 Merritt Hawkins survey, 18% of physicians said they had used telehealth to treat patients. Because of the pandemic, that percentage jumped to 48% in April 2020. But telehealth hasn’t made up for the loss of patient revenue from in-office procedures, tests, and other services, and it still isn’t being reimbursed at the same level as in-office visits.
With practices under severe financial strain, the authors explained, “A majority of private practices have curtailed most physician recruiting activity since the virus emerged.”
In some states, many specialty practices have been adversely affected by the suspension of elective procedures, and specialty practices that rely on nonessential procedures are unlikely to recruit additional physicians.
One-third of practices could close
The survival of many private practices is now in question. “Based on the losses physician practices have sustained as a result of COVID-19, some markets could lose up to 35% or more of their most vulnerable group practices while a large percent of others will be acquired,” the authors wrote.
Hospitals and health systems will acquire the bulk of these practices, in many cases at fire-sale prices, Mr. Singleton predicted. This enormous shift from private practice to employment, he added, “will have as much to do with the [physician] income levels we’re going to see as the demand for the specialties themselves.”
Right now, he said, Merritt Hawkins is fielding a huge number of requests from doctors seeking employment, but there aren’t many jobs out there. “We haven’t seen an employer-friendly market like this since the 1970s,” he noted. “Before the pandemic, a physician might have had five to 10 jobs to choose from. Now it’s the opposite: We have one job, and 5 to 10 physicians are applying for it.”
Singleton believes the market will adjust by the second quarter of next year. Even if the pandemic worsens, he said, the system will have made the necessary corrections and adjustments “because we have to start seeing patients again, both in terms of demand and economics. So these doctors will be in demand again and will have work.”
Contingent employment
Although the COVID-related falloff in revenue has hit private practices the hardest, some employed physicians have also found themselves in a bind. According to a Merritt Hawkins/Physicians Foundation survey conducted in April, 21% of physicians said they had been furloughed or had taken a pay cut.
Mr. Singleton views this trend as part of hospitals’ reassessment of how they’re going to deal with labor going forward. To cope with utilization ebbs and flows in response to the virus, hospitals are now considering what the report calls a “contingent labor/flex staffing model.”
Under this type of arrangement, which some hospitals have already adopted, physicians may no longer work full time in a single setting, Mr. Singleton said. They may be asked to conduct telehealth visits on nights and weekends and work 20 hours a week in the clinic, or they may have shifts in multiple hospitals or clinics.
“You can make as much or more on a temporary basis as on a permanent basis,” he said. “But you have to be more flexible. You may have to travel or do a different scope of work, or work in different settings.”
A version of this article originally appeared on Medscape.com.
the firm reported.
“Rather than having many practice opportunities to choose from, physicians now may have to compete to secure practice opportunities that meet their needs,” the authors wrote in Merritt Hawkins’ report on the impact of COVID-19.
Most of the report concerns physician recruitment from April 1, 2019, to March 31, 2020. The data were mostly derived from searches that Merritt Hawkins conducted before the effects of the pandemic was fully felt.
Family medicine was again the most sought-after specialty, as it has been for the past 14 years. But demand for primary care doctors – including family physicians, internists, and pediatricians – leveled off, and average starting salaries for primary care doctors dropped during 2019-2020. In contrast, the number of searches conducted for nurse practitioners (NPs) and physician assistants (PAs) increased by 54%, and their salaries increased slightly.
To explain the lackluster prospects for primary care before the pandemic, the authors cited research showing that patients were turning away from the traditional office visit model. At the same time, there was a rise in visits to NPs and PAs, including those in urgent care centers and retail clinics.
As a result of decreased demand for primary care physicians and the rising prevalence of telehealth, Merritt Hawkins expects primary care salaries to drop overall. With telehealth generating a larger portion of revenues, “it is uncertain whether primary care physicians will be able to sustain levels of reimbursement that were prevalent pre-COVID even at such time as the economy is improved and utilization increases,” the authors reported.
Demand for specialists was increasing prior to the COVID-19 crisis, partly as a result of the aging of the population. Seventy-eight percent of all searches were for medical specialists, compared with 67% 5 years ago. However, the pandemic has set back specialist searches. “Demand and compensation for specialists also will change as a result of COVID-19 in response to declines in the volume of medical procedures,” according to the authors.
In contrast, the recruitment of doctors who are on the front line of COVID-19 care is expected to increase. Among the fields anticipated to be in demand are emergency department specialists, infectious disease specialists, and pulmonology/critical care physicians. Travis Singleton, executive vice president of Merritt Hawkins, said in an interview that this trend is already happening and will accelerate as COVID-19 hot spots arise across the country.
Specialists in different fields received either higher or lower offers than during the previous year. Starting salaries for noninvasive cardiologists, for example, dropped 7.3%; gastroenterologists earned 7.7% less; and neurologists, 6.9% less. In contrast, orthopedic surgeons saw offers surge 16.7%; radiologists, 9.3%; and pulmonologists/critical care specialists, 7.7%.
Physicians were offered salaries plus bonuses in three-quarters of searches. Relative value unit–based production remained the most common basis for bonuses. Quality/value-based metrics were used in computing 64% of bonuses – up from 56% the previous year – but still determined only 11% of total physician compensation.
Pandemic outlook
Whereas health care helped drive the U.S. economy in 2018-2019, the pace of job growth in health care has decreased since March. As a result of the pandemic, health care spending in the United States declined by 18% in the first quarter of 2020. Physician practice revenue dropped by 55% during the first quarter, and many small and solo practices are still struggling.
In a 2018 Merritt Hawkins survey, 18% of physicians said they had used telehealth to treat patients. Because of the pandemic, that percentage jumped to 48% in April 2020. But telehealth hasn’t made up for the loss of patient revenue from in-office procedures, tests, and other services, and it still isn’t being reimbursed at the same level as in-office visits.
With practices under severe financial strain, the authors explained, “A majority of private practices have curtailed most physician recruiting activity since the virus emerged.”
In some states, many specialty practices have been adversely affected by the suspension of elective procedures, and specialty practices that rely on nonessential procedures are unlikely to recruit additional physicians.
One-third of practices could close
The survival of many private practices is now in question. “Based on the losses physician practices have sustained as a result of COVID-19, some markets could lose up to 35% or more of their most vulnerable group practices while a large percent of others will be acquired,” the authors wrote.
Hospitals and health systems will acquire the bulk of these practices, in many cases at fire-sale prices, Mr. Singleton predicted. This enormous shift from private practice to employment, he added, “will have as much to do with the [physician] income levels we’re going to see as the demand for the specialties themselves.”
Right now, he said, Merritt Hawkins is fielding a huge number of requests from doctors seeking employment, but there aren’t many jobs out there. “We haven’t seen an employer-friendly market like this since the 1970s,” he noted. “Before the pandemic, a physician might have had five to 10 jobs to choose from. Now it’s the opposite: We have one job, and 5 to 10 physicians are applying for it.”
Singleton believes the market will adjust by the second quarter of next year. Even if the pandemic worsens, he said, the system will have made the necessary corrections and adjustments “because we have to start seeing patients again, both in terms of demand and economics. So these doctors will be in demand again and will have work.”
Contingent employment
Although the COVID-related falloff in revenue has hit private practices the hardest, some employed physicians have also found themselves in a bind. According to a Merritt Hawkins/Physicians Foundation survey conducted in April, 21% of physicians said they had been furloughed or had taken a pay cut.
Mr. Singleton views this trend as part of hospitals’ reassessment of how they’re going to deal with labor going forward. To cope with utilization ebbs and flows in response to the virus, hospitals are now considering what the report calls a “contingent labor/flex staffing model.”
Under this type of arrangement, which some hospitals have already adopted, physicians may no longer work full time in a single setting, Mr. Singleton said. They may be asked to conduct telehealth visits on nights and weekends and work 20 hours a week in the clinic, or they may have shifts in multiple hospitals or clinics.
“You can make as much or more on a temporary basis as on a permanent basis,” he said. “But you have to be more flexible. You may have to travel or do a different scope of work, or work in different settings.”
A version of this article originally appeared on Medscape.com.
the firm reported.
“Rather than having many practice opportunities to choose from, physicians now may have to compete to secure practice opportunities that meet their needs,” the authors wrote in Merritt Hawkins’ report on the impact of COVID-19.
Most of the report concerns physician recruitment from April 1, 2019, to March 31, 2020. The data were mostly derived from searches that Merritt Hawkins conducted before the effects of the pandemic was fully felt.
Family medicine was again the most sought-after specialty, as it has been for the past 14 years. But demand for primary care doctors – including family physicians, internists, and pediatricians – leveled off, and average starting salaries for primary care doctors dropped during 2019-2020. In contrast, the number of searches conducted for nurse practitioners (NPs) and physician assistants (PAs) increased by 54%, and their salaries increased slightly.
To explain the lackluster prospects for primary care before the pandemic, the authors cited research showing that patients were turning away from the traditional office visit model. At the same time, there was a rise in visits to NPs and PAs, including those in urgent care centers and retail clinics.
As a result of decreased demand for primary care physicians and the rising prevalence of telehealth, Merritt Hawkins expects primary care salaries to drop overall. With telehealth generating a larger portion of revenues, “it is uncertain whether primary care physicians will be able to sustain levels of reimbursement that were prevalent pre-COVID even at such time as the economy is improved and utilization increases,” the authors reported.
Demand for specialists was increasing prior to the COVID-19 crisis, partly as a result of the aging of the population. Seventy-eight percent of all searches were for medical specialists, compared with 67% 5 years ago. However, the pandemic has set back specialist searches. “Demand and compensation for specialists also will change as a result of COVID-19 in response to declines in the volume of medical procedures,” according to the authors.
In contrast, the recruitment of doctors who are on the front line of COVID-19 care is expected to increase. Among the fields anticipated to be in demand are emergency department specialists, infectious disease specialists, and pulmonology/critical care physicians. Travis Singleton, executive vice president of Merritt Hawkins, said in an interview that this trend is already happening and will accelerate as COVID-19 hot spots arise across the country.
Specialists in different fields received either higher or lower offers than during the previous year. Starting salaries for noninvasive cardiologists, for example, dropped 7.3%; gastroenterologists earned 7.7% less; and neurologists, 6.9% less. In contrast, orthopedic surgeons saw offers surge 16.7%; radiologists, 9.3%; and pulmonologists/critical care specialists, 7.7%.
Physicians were offered salaries plus bonuses in three-quarters of searches. Relative value unit–based production remained the most common basis for bonuses. Quality/value-based metrics were used in computing 64% of bonuses – up from 56% the previous year – but still determined only 11% of total physician compensation.
Pandemic outlook
Whereas health care helped drive the U.S. economy in 2018-2019, the pace of job growth in health care has decreased since March. As a result of the pandemic, health care spending in the United States declined by 18% in the first quarter of 2020. Physician practice revenue dropped by 55% during the first quarter, and many small and solo practices are still struggling.
In a 2018 Merritt Hawkins survey, 18% of physicians said they had used telehealth to treat patients. Because of the pandemic, that percentage jumped to 48% in April 2020. But telehealth hasn’t made up for the loss of patient revenue from in-office procedures, tests, and other services, and it still isn’t being reimbursed at the same level as in-office visits.
With practices under severe financial strain, the authors explained, “A majority of private practices have curtailed most physician recruiting activity since the virus emerged.”
In some states, many specialty practices have been adversely affected by the suspension of elective procedures, and specialty practices that rely on nonessential procedures are unlikely to recruit additional physicians.
One-third of practices could close
The survival of many private practices is now in question. “Based on the losses physician practices have sustained as a result of COVID-19, some markets could lose up to 35% or more of their most vulnerable group practices while a large percent of others will be acquired,” the authors wrote.
Hospitals and health systems will acquire the bulk of these practices, in many cases at fire-sale prices, Mr. Singleton predicted. This enormous shift from private practice to employment, he added, “will have as much to do with the [physician] income levels we’re going to see as the demand for the specialties themselves.”
Right now, he said, Merritt Hawkins is fielding a huge number of requests from doctors seeking employment, but there aren’t many jobs out there. “We haven’t seen an employer-friendly market like this since the 1970s,” he noted. “Before the pandemic, a physician might have had five to 10 jobs to choose from. Now it’s the opposite: We have one job, and 5 to 10 physicians are applying for it.”
Singleton believes the market will adjust by the second quarter of next year. Even if the pandemic worsens, he said, the system will have made the necessary corrections and adjustments “because we have to start seeing patients again, both in terms of demand and economics. So these doctors will be in demand again and will have work.”
Contingent employment
Although the COVID-related falloff in revenue has hit private practices the hardest, some employed physicians have also found themselves in a bind. According to a Merritt Hawkins/Physicians Foundation survey conducted in April, 21% of physicians said they had been furloughed or had taken a pay cut.
Mr. Singleton views this trend as part of hospitals’ reassessment of how they’re going to deal with labor going forward. To cope with utilization ebbs and flows in response to the virus, hospitals are now considering what the report calls a “contingent labor/flex staffing model.”
Under this type of arrangement, which some hospitals have already adopted, physicians may no longer work full time in a single setting, Mr. Singleton said. They may be asked to conduct telehealth visits on nights and weekends and work 20 hours a week in the clinic, or they may have shifts in multiple hospitals or clinics.
“You can make as much or more on a temporary basis as on a permanent basis,” he said. “But you have to be more flexible. You may have to travel or do a different scope of work, or work in different settings.”
A version of this article originally appeared on Medscape.com.
NFL’s only physician player opts out of 2020 season over COVID
Canadian-born Duvernay-Tardif, right guard for the Kansas City Chiefs, announced on Twitter on July 24 what he called “one of the most difficult decisions I have had to make in my life.”
“There is no doubt in my mind the Chiefs’ medical staff have put together a strong plan to minimize the health risks associated with COVID-19, but some risks will remain,” he posted.
“Being at the frontline during this offseason has given me a different perspective on this pandemic and the stress it puts on individuals and our healthcare system. I cannot allow myself to potentially transmit the virus in our communities simply to play the sport that I love. If I am to take risks, I will do it caring for patients.”
According to CNN, Duvernay-Tardif, less than 3 months after helping the Chiefs win the Super Bowl in February, began working at a long-term care facility near Montreal in what he described as a “nursing role.”
Duvernay-Tardif wrote recently in an article for Sports Illustrated that he has not completed his residency and is not yet licensed to practice.
“My first day back in the hospital was April 24,” Duvernay-Tardif wrote. “I felt nervous the night before, but a good nervous, like before a game.”
Duvernay-Tardif has also served on the NFL Players’ Association COVID-19 task force, according to Yahoo News .
A spokesperson for Duvernay-Tardif told Medscape Medical News he was unavailable to comment about the announcement.
Starting His Dual Career
Duvernay-Tardif, 29, was drafted in the sixth round by the Chiefs in 2014.
According to Forbes , he spent 8 years (2010-2018) pursuing his medical degree while still playing college football for McGill University in Montreal. Duvernay-Tardif played offensive tackle for the Redmen and in his senior year (2013) won the Metras Trophy as most outstanding lineman in Canadian college football.
He explained in a previous Medscape interview how he managed his dual career; as a doctor he said he would like to focus on emergency medicine:
“I would say that at around 16-17 years of age, I was pretty convinced that medicine was for me,” he told Medscape.
“I was lucky that I didn’t have to do an undergrad program,” he continued. “In Canada, they have a fast-track program where instead of doing a full undergrad before getting into medical school, you can do a 1-year program where you can do all your physiology and biology classes all together.
“I had the chance to get into that program, and that’s how I was able to manage football and medicine at the same time. There’s no way I could have finished my med school doing part-time med school like I did for the past 4 years.”
ESPN explained the opt-out option: “According to an agreement approved by both the league and the union on [July 24], players considered high risk for COVID-19 can earn $350,000 and an accrued NFL season if they choose to opt out of the 2020 season. Players without risk can earn $150,000 for opting out. Duvernay-Tardif was scheduled to make $2.75 million this season.”
The danger of COVID-19 in professional sports has already been seen in Major League Baseball.
According to USA Today, the Miami Marlins have at least 14 players and staff who have tested positive for COVID-19, and major league baseball Commissioner Rob Manfred must decide whether to further delay the shortened season, cancel it, or allow it to continue.
MLB postponed the Marlins’ home opener July 27 against the Baltimore Orioles as well as the New York Yankees game in Philadelphia against the Phillies.
COVID-19 also shut down professional, college, high school, and recreational sports throughout much of the country beginning in March.
Medicine, Football Intersect
In the previous Medscape interview, Duvernay-Tardif talked about how medicine influenced his football career.
“For me, medicine was really helpful in the sense that I was better able to build a routine and question what works for me and what doesn’t. It gave me the ability to structure my work in order to optimize my time and to make sure that it’s pertinent.
“Another thing is the psychology and the sports psychology. I think there’s a little bit of a stigma around mental health issues in professional sports and everywhere, actually. I think because of medicine, I was more willing to question myself and more willing to use different tools in order to be a better football player.”
A version of this article first appeared on Medscape.com.
Canadian-born Duvernay-Tardif, right guard for the Kansas City Chiefs, announced on Twitter on July 24 what he called “one of the most difficult decisions I have had to make in my life.”
“There is no doubt in my mind the Chiefs’ medical staff have put together a strong plan to minimize the health risks associated with COVID-19, but some risks will remain,” he posted.
“Being at the frontline during this offseason has given me a different perspective on this pandemic and the stress it puts on individuals and our healthcare system. I cannot allow myself to potentially transmit the virus in our communities simply to play the sport that I love. If I am to take risks, I will do it caring for patients.”
According to CNN, Duvernay-Tardif, less than 3 months after helping the Chiefs win the Super Bowl in February, began working at a long-term care facility near Montreal in what he described as a “nursing role.”
Duvernay-Tardif wrote recently in an article for Sports Illustrated that he has not completed his residency and is not yet licensed to practice.
“My first day back in the hospital was April 24,” Duvernay-Tardif wrote. “I felt nervous the night before, but a good nervous, like before a game.”
Duvernay-Tardif has also served on the NFL Players’ Association COVID-19 task force, according to Yahoo News .
A spokesperson for Duvernay-Tardif told Medscape Medical News he was unavailable to comment about the announcement.
Starting His Dual Career
Duvernay-Tardif, 29, was drafted in the sixth round by the Chiefs in 2014.
According to Forbes , he spent 8 years (2010-2018) pursuing his medical degree while still playing college football for McGill University in Montreal. Duvernay-Tardif played offensive tackle for the Redmen and in his senior year (2013) won the Metras Trophy as most outstanding lineman in Canadian college football.
He explained in a previous Medscape interview how he managed his dual career; as a doctor he said he would like to focus on emergency medicine:
“I would say that at around 16-17 years of age, I was pretty convinced that medicine was for me,” he told Medscape.
“I was lucky that I didn’t have to do an undergrad program,” he continued. “In Canada, they have a fast-track program where instead of doing a full undergrad before getting into medical school, you can do a 1-year program where you can do all your physiology and biology classes all together.
“I had the chance to get into that program, and that’s how I was able to manage football and medicine at the same time. There’s no way I could have finished my med school doing part-time med school like I did for the past 4 years.”
ESPN explained the opt-out option: “According to an agreement approved by both the league and the union on [July 24], players considered high risk for COVID-19 can earn $350,000 and an accrued NFL season if they choose to opt out of the 2020 season. Players without risk can earn $150,000 for opting out. Duvernay-Tardif was scheduled to make $2.75 million this season.”
The danger of COVID-19 in professional sports has already been seen in Major League Baseball.
According to USA Today, the Miami Marlins have at least 14 players and staff who have tested positive for COVID-19, and major league baseball Commissioner Rob Manfred must decide whether to further delay the shortened season, cancel it, or allow it to continue.
MLB postponed the Marlins’ home opener July 27 against the Baltimore Orioles as well as the New York Yankees game in Philadelphia against the Phillies.
COVID-19 also shut down professional, college, high school, and recreational sports throughout much of the country beginning in March.
Medicine, Football Intersect
In the previous Medscape interview, Duvernay-Tardif talked about how medicine influenced his football career.
“For me, medicine was really helpful in the sense that I was better able to build a routine and question what works for me and what doesn’t. It gave me the ability to structure my work in order to optimize my time and to make sure that it’s pertinent.
“Another thing is the psychology and the sports psychology. I think there’s a little bit of a stigma around mental health issues in professional sports and everywhere, actually. I think because of medicine, I was more willing to question myself and more willing to use different tools in order to be a better football player.”
A version of this article first appeared on Medscape.com.
Canadian-born Duvernay-Tardif, right guard for the Kansas City Chiefs, announced on Twitter on July 24 what he called “one of the most difficult decisions I have had to make in my life.”
“There is no doubt in my mind the Chiefs’ medical staff have put together a strong plan to minimize the health risks associated with COVID-19, but some risks will remain,” he posted.
“Being at the frontline during this offseason has given me a different perspective on this pandemic and the stress it puts on individuals and our healthcare system. I cannot allow myself to potentially transmit the virus in our communities simply to play the sport that I love. If I am to take risks, I will do it caring for patients.”
According to CNN, Duvernay-Tardif, less than 3 months after helping the Chiefs win the Super Bowl in February, began working at a long-term care facility near Montreal in what he described as a “nursing role.”
Duvernay-Tardif wrote recently in an article for Sports Illustrated that he has not completed his residency and is not yet licensed to practice.
“My first day back in the hospital was April 24,” Duvernay-Tardif wrote. “I felt nervous the night before, but a good nervous, like before a game.”
Duvernay-Tardif has also served on the NFL Players’ Association COVID-19 task force, according to Yahoo News .
A spokesperson for Duvernay-Tardif told Medscape Medical News he was unavailable to comment about the announcement.
Starting His Dual Career
Duvernay-Tardif, 29, was drafted in the sixth round by the Chiefs in 2014.
According to Forbes , he spent 8 years (2010-2018) pursuing his medical degree while still playing college football for McGill University in Montreal. Duvernay-Tardif played offensive tackle for the Redmen and in his senior year (2013) won the Metras Trophy as most outstanding lineman in Canadian college football.
He explained in a previous Medscape interview how he managed his dual career; as a doctor he said he would like to focus on emergency medicine:
“I would say that at around 16-17 years of age, I was pretty convinced that medicine was for me,” he told Medscape.
“I was lucky that I didn’t have to do an undergrad program,” he continued. “In Canada, they have a fast-track program where instead of doing a full undergrad before getting into medical school, you can do a 1-year program where you can do all your physiology and biology classes all together.
“I had the chance to get into that program, and that’s how I was able to manage football and medicine at the same time. There’s no way I could have finished my med school doing part-time med school like I did for the past 4 years.”
ESPN explained the opt-out option: “According to an agreement approved by both the league and the union on [July 24], players considered high risk for COVID-19 can earn $350,000 and an accrued NFL season if they choose to opt out of the 2020 season. Players without risk can earn $150,000 for opting out. Duvernay-Tardif was scheduled to make $2.75 million this season.”
The danger of COVID-19 in professional sports has already been seen in Major League Baseball.
According to USA Today, the Miami Marlins have at least 14 players and staff who have tested positive for COVID-19, and major league baseball Commissioner Rob Manfred must decide whether to further delay the shortened season, cancel it, or allow it to continue.
MLB postponed the Marlins’ home opener July 27 against the Baltimore Orioles as well as the New York Yankees game in Philadelphia against the Phillies.
COVID-19 also shut down professional, college, high school, and recreational sports throughout much of the country beginning in March.
Medicine, Football Intersect
In the previous Medscape interview, Duvernay-Tardif talked about how medicine influenced his football career.
“For me, medicine was really helpful in the sense that I was better able to build a routine and question what works for me and what doesn’t. It gave me the ability to structure my work in order to optimize my time and to make sure that it’s pertinent.
“Another thing is the psychology and the sports psychology. I think there’s a little bit of a stigma around mental health issues in professional sports and everywhere, actually. I think because of medicine, I was more willing to question myself and more willing to use different tools in order to be a better football player.”
A version of this article first appeared on Medscape.com.
Diary of a rheumatologist who briefly became a COVID hospitalist
When the coronavirus pandemic hit New York City in early March, the Hospital for Special Surgery leadership decided that the best way to serve the city was to stop elective orthopedic procedures temporarily and use the facility to take on patients from its sister institution, NewYork–Presbyterian Hospital.
As in other institutions, it was all hands on deck. , other internal medicine subspecialists were asked to volunteer, including rheumatologists and primary care sports medicine doctors.
As a rheumatologist, it had been well over 10 years since I had last done any inpatient work. I was filled with trepidation, but I was also excited to dive in.
April 4:
Feeling very unmoored. I am in unfamiliar territory, and it’s terrifying. There are so many things that I no longer know how to do. Thankfully, the hospitalists are gracious, extremely supportive, and helpful.
My N95 doesn’t fit well. It’s never fit — not during residency or fellowship, not in any job I’ve had, and not today. The lady fit-testing me said she was sorry, but the look on her face said, “I’m sorry, but you’re going to die.”
April 7:
We don’t know how to treat coronavirus. I’ve sent some patients home, others I’ve sent to the ICU. Thank goodness for treatment algorithms from leadership, but we are sorely lacking good-quality data.
Our infectious disease doctor doesn’t think hydroxychloroquine works at all; I suspect he is right. The guidance right now is to give hydroxychloroquine and azithromycin to everyone who is sick enough to be admitted, but there are methodologic flaws in the early enthusiastic preprints, and so far, I’ve not noticed any demonstrable benefit.
The only thing that seems to be happening is that I am seeing more QT prolongation — not something I previously counseled my rheumatology patients on.
April 9:
The patients have been, with a few exceptions, alone in the room. They’re not allowed to have visitors and are required to wear masks all the time. Anyone who enters their rooms is fully covered up so you can barely see them. It’s anonymous and dehumanizing.
We’re instructed to take histories by phone in order to limit the time spent in each room. I buck this instruction; I still take histories in person because human contact seems more important now than ever.
Except maybe I should be smarter about this. One of my patients refuses any treatment, including oxygen support. She firmly believes this is a result of 5G networks — something I later discovered was a common conspiracy theory. She refused to wear a mask despite having a very bad cough. She coughed in my face a lot when we were chatting. My face with my ill-fitting N95 mask. Maybe the fit-testing lady’s eyes weren’t lying and I will die after all.
April 15:
On the days when I’m not working as a hospitalist, I am still doing remote visits with my rheumatology patients. It feels good to be doing something familiar and something I’m actually good at. But it is surreal to be faced with the quotidian on one hand and life and death on the other.
I recently saw a fairly new patient, and I still haven’t figured out if she has a rheumatic condition or if her symptoms all stem from an alcohol use disorder. In our previous visits, she could barely acknowledge that her drinking was an issue. On today’s visit, she told me she was 1½ months sober.
I don’t know her very well, but it was the happiest news I’d heard in a long time. I was so beside myself with joy that I cried, which says more about my current emotional state than anything else, really.
April 21:
On my panel of patients, I have three women with COVID-19 — all of whom lost their husbands to COVID-19, and none of whom were able to say their goodbyes. I cannot even begin to imagine what it must be like to survive this period of illness, isolation, and fear, only to be met on the other side by grief.
Rheumatology doesn’t lend itself too well to such existential concerns; I am not equipped for this. Perhaps my only advantage as a rheumatologist is that I know how to use IVIG, anakinra, and tocilizumab.
Someone on my panel was started on anakinra, and it turned his case around. Would he have gotten better without it anyway? We’ll never know for sure.
April 28:
Patients seem to be requiring prolonged intubation. We have now reached the stage where patients are alive but trached and PEGed. One of my patients had been intubated for close to 3 weeks. She was one of four people in her family who contracted the illness (they had had a dinner party before New York’s state of emergency was declared). We thought she might die once she was extubated, but she is still fighting. Unconscious, unarousable, but breathing on her own.
Will she ever wake up? We don’t know. We put the onus on her family to make decisions about placing a PEG tube in. They can only do so from a distance with imperfect information gleaned from periodic, brief FaceTime interactions — where no interaction happens at all.
May 4:
It’s my last day as a “COVID hospitalist.” When I first started, I felt like I was being helpful. Walking home in the middle of the 7 PM cheers for healthcare workers frequently left me teary eyed. As horrible as the situation was, I was proud of myself for volunteering to help and appreciative of a broken city’s gratitude toward all healthcare workers in general. Maybe I bought into the idea that, like many others around me, I am a hero.
I don’t feel like a hero, though. The stuff I saw was easy compared with the stuff that my colleagues in critical care saw. Our hospital accepted the more stable patient transfers from our sister hospitals. Patients who remained in the NewYork–Presbyterian system were sicker, with encephalitis, thrombotic complications, multiorgan failure, and cytokine release syndrome. It’s the doctors who took care of those patients who deserve to be called heroes.
No, I am no hero. But did my volunteering make a difference? It made a difference to me. The overwhelming feeling I am left with isn’t pride; it’s humility. I feel humbled that I could feel so unexpectedly touched by the lives of people that I had no idea I could feel touched by.
Postscript:
My patient Esther [name changed to hide her identity] died from COVID-19. She was MY patient — not a patient I met as a COVID hospitalist, but a patient with rheumatoid arthritis whom I cared for for years.
She had scleromalacia and multiple failed scleral grafts, which made her profoundly sad. She fought her anxiety fiercely and always with poise and panache. One way she dealt with her anxiety was that she constantly messaged me via our EHR portal. She ran everything by me and trusted me to be her rock.
The past month has been so busy that I just now noticed it had been a month since I last heard from her. I tried to call her but got her voicemail. It wasn’t until I exchanged messages with her ophthalmologist that I found out she had passed away from complications of COVID-19.
She was taking rituximab and mycophenolate. I wonder if these drugs made her sicker than she would have been otherwise; it fills me with sadness. I wonder if she was alone like my other COVID-19 patients. I wonder if she was afraid. I am sorry that I wasn’t able to say goodbye.
Karmela Kim Chan, MD, is an assistant professor at Weill Cornell Medical College and an attending physician at Hospital for Special Surgery and Memorial Sloan Kettering Cancer Center in New York City. Before moving to New York City, she spent 7 years in private practice in Rhode Island and was a columnist for this rheumatology publication, writing about the challenges of starting life as a full-fledged rheumatologist in a private practice.
A version of this article originally appeared on Medscape.com. This article is part of a partnership between Medscape and Hospital for Special Surgery.
When the coronavirus pandemic hit New York City in early March, the Hospital for Special Surgery leadership decided that the best way to serve the city was to stop elective orthopedic procedures temporarily and use the facility to take on patients from its sister institution, NewYork–Presbyterian Hospital.
As in other institutions, it was all hands on deck. , other internal medicine subspecialists were asked to volunteer, including rheumatologists and primary care sports medicine doctors.
As a rheumatologist, it had been well over 10 years since I had last done any inpatient work. I was filled with trepidation, but I was also excited to dive in.
April 4:
Feeling very unmoored. I am in unfamiliar territory, and it’s terrifying. There are so many things that I no longer know how to do. Thankfully, the hospitalists are gracious, extremely supportive, and helpful.
My N95 doesn’t fit well. It’s never fit — not during residency or fellowship, not in any job I’ve had, and not today. The lady fit-testing me said she was sorry, but the look on her face said, “I’m sorry, but you’re going to die.”
April 7:
We don’t know how to treat coronavirus. I’ve sent some patients home, others I’ve sent to the ICU. Thank goodness for treatment algorithms from leadership, but we are sorely lacking good-quality data.
Our infectious disease doctor doesn’t think hydroxychloroquine works at all; I suspect he is right. The guidance right now is to give hydroxychloroquine and azithromycin to everyone who is sick enough to be admitted, but there are methodologic flaws in the early enthusiastic preprints, and so far, I’ve not noticed any demonstrable benefit.
The only thing that seems to be happening is that I am seeing more QT prolongation — not something I previously counseled my rheumatology patients on.
April 9:
The patients have been, with a few exceptions, alone in the room. They’re not allowed to have visitors and are required to wear masks all the time. Anyone who enters their rooms is fully covered up so you can barely see them. It’s anonymous and dehumanizing.
We’re instructed to take histories by phone in order to limit the time spent in each room. I buck this instruction; I still take histories in person because human contact seems more important now than ever.
Except maybe I should be smarter about this. One of my patients refuses any treatment, including oxygen support. She firmly believes this is a result of 5G networks — something I later discovered was a common conspiracy theory. She refused to wear a mask despite having a very bad cough. She coughed in my face a lot when we were chatting. My face with my ill-fitting N95 mask. Maybe the fit-testing lady’s eyes weren’t lying and I will die after all.
April 15:
On the days when I’m not working as a hospitalist, I am still doing remote visits with my rheumatology patients. It feels good to be doing something familiar and something I’m actually good at. But it is surreal to be faced with the quotidian on one hand and life and death on the other.
I recently saw a fairly new patient, and I still haven’t figured out if she has a rheumatic condition or if her symptoms all stem from an alcohol use disorder. In our previous visits, she could barely acknowledge that her drinking was an issue. On today’s visit, she told me she was 1½ months sober.
I don’t know her very well, but it was the happiest news I’d heard in a long time. I was so beside myself with joy that I cried, which says more about my current emotional state than anything else, really.
April 21:
On my panel of patients, I have three women with COVID-19 — all of whom lost their husbands to COVID-19, and none of whom were able to say their goodbyes. I cannot even begin to imagine what it must be like to survive this period of illness, isolation, and fear, only to be met on the other side by grief.
Rheumatology doesn’t lend itself too well to such existential concerns; I am not equipped for this. Perhaps my only advantage as a rheumatologist is that I know how to use IVIG, anakinra, and tocilizumab.
Someone on my panel was started on anakinra, and it turned his case around. Would he have gotten better without it anyway? We’ll never know for sure.
April 28:
Patients seem to be requiring prolonged intubation. We have now reached the stage where patients are alive but trached and PEGed. One of my patients had been intubated for close to 3 weeks. She was one of four people in her family who contracted the illness (they had had a dinner party before New York’s state of emergency was declared). We thought she might die once she was extubated, but she is still fighting. Unconscious, unarousable, but breathing on her own.
Will she ever wake up? We don’t know. We put the onus on her family to make decisions about placing a PEG tube in. They can only do so from a distance with imperfect information gleaned from periodic, brief FaceTime interactions — where no interaction happens at all.
May 4:
It’s my last day as a “COVID hospitalist.” When I first started, I felt like I was being helpful. Walking home in the middle of the 7 PM cheers for healthcare workers frequently left me teary eyed. As horrible as the situation was, I was proud of myself for volunteering to help and appreciative of a broken city’s gratitude toward all healthcare workers in general. Maybe I bought into the idea that, like many others around me, I am a hero.
I don’t feel like a hero, though. The stuff I saw was easy compared with the stuff that my colleagues in critical care saw. Our hospital accepted the more stable patient transfers from our sister hospitals. Patients who remained in the NewYork–Presbyterian system were sicker, with encephalitis, thrombotic complications, multiorgan failure, and cytokine release syndrome. It’s the doctors who took care of those patients who deserve to be called heroes.
No, I am no hero. But did my volunteering make a difference? It made a difference to me. The overwhelming feeling I am left with isn’t pride; it’s humility. I feel humbled that I could feel so unexpectedly touched by the lives of people that I had no idea I could feel touched by.
Postscript:
My patient Esther [name changed to hide her identity] died from COVID-19. She was MY patient — not a patient I met as a COVID hospitalist, but a patient with rheumatoid arthritis whom I cared for for years.
She had scleromalacia and multiple failed scleral grafts, which made her profoundly sad. She fought her anxiety fiercely and always with poise and panache. One way she dealt with her anxiety was that she constantly messaged me via our EHR portal. She ran everything by me and trusted me to be her rock.
The past month has been so busy that I just now noticed it had been a month since I last heard from her. I tried to call her but got her voicemail. It wasn’t until I exchanged messages with her ophthalmologist that I found out she had passed away from complications of COVID-19.
She was taking rituximab and mycophenolate. I wonder if these drugs made her sicker than she would have been otherwise; it fills me with sadness. I wonder if she was alone like my other COVID-19 patients. I wonder if she was afraid. I am sorry that I wasn’t able to say goodbye.
Karmela Kim Chan, MD, is an assistant professor at Weill Cornell Medical College and an attending physician at Hospital for Special Surgery and Memorial Sloan Kettering Cancer Center in New York City. Before moving to New York City, she spent 7 years in private practice in Rhode Island and was a columnist for this rheumatology publication, writing about the challenges of starting life as a full-fledged rheumatologist in a private practice.
A version of this article originally appeared on Medscape.com. This article is part of a partnership between Medscape and Hospital for Special Surgery.
When the coronavirus pandemic hit New York City in early March, the Hospital for Special Surgery leadership decided that the best way to serve the city was to stop elective orthopedic procedures temporarily and use the facility to take on patients from its sister institution, NewYork–Presbyterian Hospital.
As in other institutions, it was all hands on deck. , other internal medicine subspecialists were asked to volunteer, including rheumatologists and primary care sports medicine doctors.
As a rheumatologist, it had been well over 10 years since I had last done any inpatient work. I was filled with trepidation, but I was also excited to dive in.
April 4:
Feeling very unmoored. I am in unfamiliar territory, and it’s terrifying. There are so many things that I no longer know how to do. Thankfully, the hospitalists are gracious, extremely supportive, and helpful.
My N95 doesn’t fit well. It’s never fit — not during residency or fellowship, not in any job I’ve had, and not today. The lady fit-testing me said she was sorry, but the look on her face said, “I’m sorry, but you’re going to die.”
April 7:
We don’t know how to treat coronavirus. I’ve sent some patients home, others I’ve sent to the ICU. Thank goodness for treatment algorithms from leadership, but we are sorely lacking good-quality data.
Our infectious disease doctor doesn’t think hydroxychloroquine works at all; I suspect he is right. The guidance right now is to give hydroxychloroquine and azithromycin to everyone who is sick enough to be admitted, but there are methodologic flaws in the early enthusiastic preprints, and so far, I’ve not noticed any demonstrable benefit.
The only thing that seems to be happening is that I am seeing more QT prolongation — not something I previously counseled my rheumatology patients on.
April 9:
The patients have been, with a few exceptions, alone in the room. They’re not allowed to have visitors and are required to wear masks all the time. Anyone who enters their rooms is fully covered up so you can barely see them. It’s anonymous and dehumanizing.
We’re instructed to take histories by phone in order to limit the time spent in each room. I buck this instruction; I still take histories in person because human contact seems more important now than ever.
Except maybe I should be smarter about this. One of my patients refuses any treatment, including oxygen support. She firmly believes this is a result of 5G networks — something I later discovered was a common conspiracy theory. She refused to wear a mask despite having a very bad cough. She coughed in my face a lot when we were chatting. My face with my ill-fitting N95 mask. Maybe the fit-testing lady’s eyes weren’t lying and I will die after all.
April 15:
On the days when I’m not working as a hospitalist, I am still doing remote visits with my rheumatology patients. It feels good to be doing something familiar and something I’m actually good at. But it is surreal to be faced with the quotidian on one hand and life and death on the other.
I recently saw a fairly new patient, and I still haven’t figured out if she has a rheumatic condition or if her symptoms all stem from an alcohol use disorder. In our previous visits, she could barely acknowledge that her drinking was an issue. On today’s visit, she told me she was 1½ months sober.
I don’t know her very well, but it was the happiest news I’d heard in a long time. I was so beside myself with joy that I cried, which says more about my current emotional state than anything else, really.
April 21:
On my panel of patients, I have three women with COVID-19 — all of whom lost their husbands to COVID-19, and none of whom were able to say their goodbyes. I cannot even begin to imagine what it must be like to survive this period of illness, isolation, and fear, only to be met on the other side by grief.
Rheumatology doesn’t lend itself too well to such existential concerns; I am not equipped for this. Perhaps my only advantage as a rheumatologist is that I know how to use IVIG, anakinra, and tocilizumab.
Someone on my panel was started on anakinra, and it turned his case around. Would he have gotten better without it anyway? We’ll never know for sure.
April 28:
Patients seem to be requiring prolonged intubation. We have now reached the stage where patients are alive but trached and PEGed. One of my patients had been intubated for close to 3 weeks. She was one of four people in her family who contracted the illness (they had had a dinner party before New York’s state of emergency was declared). We thought she might die once she was extubated, but she is still fighting. Unconscious, unarousable, but breathing on her own.
Will she ever wake up? We don’t know. We put the onus on her family to make decisions about placing a PEG tube in. They can only do so from a distance with imperfect information gleaned from periodic, brief FaceTime interactions — where no interaction happens at all.
May 4:
It’s my last day as a “COVID hospitalist.” When I first started, I felt like I was being helpful. Walking home in the middle of the 7 PM cheers for healthcare workers frequently left me teary eyed. As horrible as the situation was, I was proud of myself for volunteering to help and appreciative of a broken city’s gratitude toward all healthcare workers in general. Maybe I bought into the idea that, like many others around me, I am a hero.
I don’t feel like a hero, though. The stuff I saw was easy compared with the stuff that my colleagues in critical care saw. Our hospital accepted the more stable patient transfers from our sister hospitals. Patients who remained in the NewYork–Presbyterian system were sicker, with encephalitis, thrombotic complications, multiorgan failure, and cytokine release syndrome. It’s the doctors who took care of those patients who deserve to be called heroes.
No, I am no hero. But did my volunteering make a difference? It made a difference to me. The overwhelming feeling I am left with isn’t pride; it’s humility. I feel humbled that I could feel so unexpectedly touched by the lives of people that I had no idea I could feel touched by.
Postscript:
My patient Esther [name changed to hide her identity] died from COVID-19. She was MY patient — not a patient I met as a COVID hospitalist, but a patient with rheumatoid arthritis whom I cared for for years.
She had scleromalacia and multiple failed scleral grafts, which made her profoundly sad. She fought her anxiety fiercely and always with poise and panache. One way she dealt with her anxiety was that she constantly messaged me via our EHR portal. She ran everything by me and trusted me to be her rock.
The past month has been so busy that I just now noticed it had been a month since I last heard from her. I tried to call her but got her voicemail. It wasn’t until I exchanged messages with her ophthalmologist that I found out she had passed away from complications of COVID-19.
She was taking rituximab and mycophenolate. I wonder if these drugs made her sicker than she would have been otherwise; it fills me with sadness. I wonder if she was alone like my other COVID-19 patients. I wonder if she was afraid. I am sorry that I wasn’t able to say goodbye.
Karmela Kim Chan, MD, is an assistant professor at Weill Cornell Medical College and an attending physician at Hospital for Special Surgery and Memorial Sloan Kettering Cancer Center in New York City. Before moving to New York City, she spent 7 years in private practice in Rhode Island and was a columnist for this rheumatology publication, writing about the challenges of starting life as a full-fledged rheumatologist in a private practice.
A version of this article originally appeared on Medscape.com. This article is part of a partnership between Medscape and Hospital for Special Surgery.
Hypertension medication adjustment less likely with polypill
A secondary analysis of a major study of polypill therapy for hypertension found that patients who don’t reach blood pressure targets are less likely to have their medications adjusted if they’re on fixed-dose combination therapy.
However, hypertension patients on low-dose, triple-pill combination therapy are more likely to achieve blood pressure control than are those on usual care.
The secondary analysis of Triple Pill vs. Usual Care Management for Patients with Mild-to-Moderate Hypertension (TRIUMPH) was published online in JAMA Cardiology (2020 Jul 22. doi: 10.1001/jamacardio.2020.2739). The trial randomized 700 patients with hypertension in Sri Lanka to triple-pill fixed-dose combination (FDC) therapy or usual care during February 2016–May 2017, with follow-up ending in October 2017.
A greater proportion of FDC patients reached target BP by the end of the study compared with usual care, 70% vs. 55%. However, the study found that therapeutic inertia – the failure to intensify therapy in nonresponsive patients – was more common in the FDC group at 6- and 12-week follow-up: 87% vs. 64% and 90% vs. 65%, respectively; both differences were significant different at P < .001).
The once-daily FDC pill contained telmisartan 20 mg, amlodipine 2.5 mg; and chlorthalidone 12.5 mg.
“Using a triple low-dose combination blood-pressure pill reduced the need to uptitrate BP therapy as more patients are at target, but doctors were less likely to uptitrate with triple-pill therapy when it was needed,” lead author Nelson Wang, MD, a research fellow at the George Institute for Global Health in suburban Sydney, said in an interview.
“Overall, there were fewer treatment inertia episodes in the triple-pill group than in the usual care group, but this was driven by the fact that fewer triple-pill patients needed uptitration when coming to their follow-up visits,” Dr. Wang added.
The analysis found that clinicians who prescribed triple-pill FDC used 23 unique drug treatment regimens per 100 treated patients compared with 54 different regiments with usual care (P < .001). “There was a large simplification in care,” Dr. Wang said of the FDC approach.
Dr. Wang and colleagues called for greater efforts to address therapeutic inertia, particularly with FDC therapies, and suggested potential strategies consisting of patient education, incentives for appropriate treatment adjustments, and feedback mechanisms and reminders for physicians.
“There may also be a need for more dosage options with the FDC triple pill to allow physicians to intensify therapy without fear of overtreatment and adverse drug effects,” they wrote.
In an accompanying editorial (JAMA Cardiol. 2020 Jul 22. doi: 10.1001/jamacardio.2020.2693), Ann Marie Navar, MD, PhD, associate professor of cardiology at Duke Clinical Research Institute, Durham, N.C., noted that initiating treatment with FDC therapy doesn’t preclude a more personalized approach for patients who don’t achieve their BP target. “The real choice now is the choice of initial treatment,” she wrote, adding that future treatment guidelines should consider extending an FDC-first approach to patients with less severe levels of hypertension.
“The study showed there’s room for a both a population-based fixed-drug combination approach and a personalized approach to how we think about hypertension management with fixed-dose therapy,” she said in an interview. “It’s not a one-and-done situation.”
Dr. Wang has no financial relationships to disclose. Study coauthors received funding from the Australian National Health and Medical Research Council and the U.K. National Institute for Health Research. Dr. Navar has no relevant financial relationships to report.
SOURCE: Wang N et al. JAMA Cardiol. 2020. doi: 10.1001/jamacardio.2020.2739.
A secondary analysis of a major study of polypill therapy for hypertension found that patients who don’t reach blood pressure targets are less likely to have their medications adjusted if they’re on fixed-dose combination therapy.
However, hypertension patients on low-dose, triple-pill combination therapy are more likely to achieve blood pressure control than are those on usual care.
The secondary analysis of Triple Pill vs. Usual Care Management for Patients with Mild-to-Moderate Hypertension (TRIUMPH) was published online in JAMA Cardiology (2020 Jul 22. doi: 10.1001/jamacardio.2020.2739). The trial randomized 700 patients with hypertension in Sri Lanka to triple-pill fixed-dose combination (FDC) therapy or usual care during February 2016–May 2017, with follow-up ending in October 2017.
A greater proportion of FDC patients reached target BP by the end of the study compared with usual care, 70% vs. 55%. However, the study found that therapeutic inertia – the failure to intensify therapy in nonresponsive patients – was more common in the FDC group at 6- and 12-week follow-up: 87% vs. 64% and 90% vs. 65%, respectively; both differences were significant different at P < .001).
The once-daily FDC pill contained telmisartan 20 mg, amlodipine 2.5 mg; and chlorthalidone 12.5 mg.
“Using a triple low-dose combination blood-pressure pill reduced the need to uptitrate BP therapy as more patients are at target, but doctors were less likely to uptitrate with triple-pill therapy when it was needed,” lead author Nelson Wang, MD, a research fellow at the George Institute for Global Health in suburban Sydney, said in an interview.
“Overall, there were fewer treatment inertia episodes in the triple-pill group than in the usual care group, but this was driven by the fact that fewer triple-pill patients needed uptitration when coming to their follow-up visits,” Dr. Wang added.
The analysis found that clinicians who prescribed triple-pill FDC used 23 unique drug treatment regimens per 100 treated patients compared with 54 different regiments with usual care (P < .001). “There was a large simplification in care,” Dr. Wang said of the FDC approach.
Dr. Wang and colleagues called for greater efforts to address therapeutic inertia, particularly with FDC therapies, and suggested potential strategies consisting of patient education, incentives for appropriate treatment adjustments, and feedback mechanisms and reminders for physicians.
“There may also be a need for more dosage options with the FDC triple pill to allow physicians to intensify therapy without fear of overtreatment and adverse drug effects,” they wrote.
In an accompanying editorial (JAMA Cardiol. 2020 Jul 22. doi: 10.1001/jamacardio.2020.2693), Ann Marie Navar, MD, PhD, associate professor of cardiology at Duke Clinical Research Institute, Durham, N.C., noted that initiating treatment with FDC therapy doesn’t preclude a more personalized approach for patients who don’t achieve their BP target. “The real choice now is the choice of initial treatment,” she wrote, adding that future treatment guidelines should consider extending an FDC-first approach to patients with less severe levels of hypertension.
“The study showed there’s room for a both a population-based fixed-drug combination approach and a personalized approach to how we think about hypertension management with fixed-dose therapy,” she said in an interview. “It’s not a one-and-done situation.”
Dr. Wang has no financial relationships to disclose. Study coauthors received funding from the Australian National Health and Medical Research Council and the U.K. National Institute for Health Research. Dr. Navar has no relevant financial relationships to report.
SOURCE: Wang N et al. JAMA Cardiol. 2020. doi: 10.1001/jamacardio.2020.2739.
A secondary analysis of a major study of polypill therapy for hypertension found that patients who don’t reach blood pressure targets are less likely to have their medications adjusted if they’re on fixed-dose combination therapy.
However, hypertension patients on low-dose, triple-pill combination therapy are more likely to achieve blood pressure control than are those on usual care.
The secondary analysis of Triple Pill vs. Usual Care Management for Patients with Mild-to-Moderate Hypertension (TRIUMPH) was published online in JAMA Cardiology (2020 Jul 22. doi: 10.1001/jamacardio.2020.2739). The trial randomized 700 patients with hypertension in Sri Lanka to triple-pill fixed-dose combination (FDC) therapy or usual care during February 2016–May 2017, with follow-up ending in October 2017.
A greater proportion of FDC patients reached target BP by the end of the study compared with usual care, 70% vs. 55%. However, the study found that therapeutic inertia – the failure to intensify therapy in nonresponsive patients – was more common in the FDC group at 6- and 12-week follow-up: 87% vs. 64% and 90% vs. 65%, respectively; both differences were significant different at P < .001).
The once-daily FDC pill contained telmisartan 20 mg, amlodipine 2.5 mg; and chlorthalidone 12.5 mg.
“Using a triple low-dose combination blood-pressure pill reduced the need to uptitrate BP therapy as more patients are at target, but doctors were less likely to uptitrate with triple-pill therapy when it was needed,” lead author Nelson Wang, MD, a research fellow at the George Institute for Global Health in suburban Sydney, said in an interview.
“Overall, there were fewer treatment inertia episodes in the triple-pill group than in the usual care group, but this was driven by the fact that fewer triple-pill patients needed uptitration when coming to their follow-up visits,” Dr. Wang added.
The analysis found that clinicians who prescribed triple-pill FDC used 23 unique drug treatment regimens per 100 treated patients compared with 54 different regiments with usual care (P < .001). “There was a large simplification in care,” Dr. Wang said of the FDC approach.
Dr. Wang and colleagues called for greater efforts to address therapeutic inertia, particularly with FDC therapies, and suggested potential strategies consisting of patient education, incentives for appropriate treatment adjustments, and feedback mechanisms and reminders for physicians.
“There may also be a need for more dosage options with the FDC triple pill to allow physicians to intensify therapy without fear of overtreatment and adverse drug effects,” they wrote.
In an accompanying editorial (JAMA Cardiol. 2020 Jul 22. doi: 10.1001/jamacardio.2020.2693), Ann Marie Navar, MD, PhD, associate professor of cardiology at Duke Clinical Research Institute, Durham, N.C., noted that initiating treatment with FDC therapy doesn’t preclude a more personalized approach for patients who don’t achieve their BP target. “The real choice now is the choice of initial treatment,” she wrote, adding that future treatment guidelines should consider extending an FDC-first approach to patients with less severe levels of hypertension.
“The study showed there’s room for a both a population-based fixed-drug combination approach and a personalized approach to how we think about hypertension management with fixed-dose therapy,” she said in an interview. “It’s not a one-and-done situation.”
Dr. Wang has no financial relationships to disclose. Study coauthors received funding from the Australian National Health and Medical Research Council and the U.K. National Institute for Health Research. Dr. Navar has no relevant financial relationships to report.
SOURCE: Wang N et al. JAMA Cardiol. 2020. doi: 10.1001/jamacardio.2020.2739.
FROM JAMA CARDIOLOGY