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More Than a Health Fair: Preventive Health Care During COVID-19 Vaccine Events
Shortly into the COVID-19 pandemic, Dr. Robert Califf, the commissioner of the US Food and Drug Administration, warned of a coming tsunami of chronic diseases, exacerbated by missed care during the pandemic.1 According to a Centers for Disease Control and Prevention (CDC) survey, more than 30% of adults reported delaying or avoiding routine medical care in the first 6 months of 2020. This rate was highest in people with comorbidities.2 Multiple studies demonstrated declines in hypertension care, hemoglobin A1c testing, mammography, and colon cancer screening.3-5 There has been a resultant increase in colon cancer complications, wounds, and amputations.6,7 The United Kingdom is expected to have a 7.9% to 16.6% increase in future deaths due to breast and colorectal cancer (CRC).8 The World Health Organization estimates an excess 14.9 million people died in 2020 and 2021, either directly from or indirectly related to COVID-19.9
Due to the large-scale conversion from face-to-face care to telehealth modalities, COVID-19 vaccination events offered a unique opportunity to perform preventive health care that requires in-person visits, since most US adults have sought vaccination. However, vaccine events may not reach people most at risk for COVID-19 or chronic disease. Groups of Americans with lower vaccination rates were concerned about driving times and missing work to get the vaccine.10
Distance and travel time may be a particular challenge in Hawaii. Oahu is considered rural by the US Department of Veterans Affairs (VA); some communities are 80 minutes away from the VA Pacific Islands Health Care System (VAPIHCS) main facility. Oahu has approximately 150 veterans experiencing homelessness who may not have transportation to vaccine events. Additionally, VAPIHCS serves veterans that may be at higher risk of not receiving COVID-19 vaccination. Racial and ethnic minority residents have lower vaccination rates, yet are at a higher risk of COVID-19 infection and complications, and through the pandemic, this vaccination gap worsened.11,12 More than 10% of the population of Hawaii is Native Hawaiian or Pacific Islander, and this population is at elevated risk for diabetes mellitus, hypertension, and COVID-19 mortality.13-16
Health Fair Program
The VA provides clinical reminders in its electronic health record (EHR) that are specified by age, gender assigned at birth, and comorbidities. The clinical reminder program is intended to provide clinically relevant reminders for preventive care at the point of care. Veterans with overdue clinical reminders can be identified by name and address, allowing for the creation of health fair events that were directed towards communities with veterans with clinical reminders, including COVID-19 vaccination need. A team of health care professionals from VAPIHCS conceived of a health fair program to increase the reach of vaccine events and include preventive care in partnership with the VAPIHCS Vet Center Program, local communities, U.S.VETS, and the Hawaii Institute of Health Services (HIHS). We sought to determine which services could be offered in community settings; large vaccine events; and at homeless emergency, transitional, or permanent housing. We tracked veterans who received care in the different locations of the directed health fair.
This project was determined to be a quality improvement initiative by the VAPIHCS Office of Research and Development. It was jointly planned by the VAPIHCS pharmacy, infectious diseases, Vet Center Program, and homeless team to make the COVID-19 vaccines available to more rural and to veterans experiencing homelessness, and in response to a decline in facility face-to-face visits. Monthly meetings were held to select sites within zip codes with higher numbers of open clinical reminders and lower vaccination uptake. Informatics developed a list of clinical reminders by zip code for care performed at face-to-face visits.
Partners
The Vet Center Program, suicide prevention coordinator, and the homeless outreach team have a mandate to perform outreach events.17,18 These services collaborate with community partners to locate sites for events. The team was able to leverage these contacts to set up sites for events. The Vet Center Program readjustment counselor and the suicide prevention coordinator provide mental health counseling. The Vet Center counsels on veteran benefits. They supplied a mobile van with WiFi, counseling and examination spaces, and refrigeration, which became the mobile clinic for the preventive care offered at events. The homeless program works with multiple community partners. They contract with HIHS and U.S.VETS to provide emergency and permanent housing for veterans. Each event is reviewed with HIHS and U.S.VETS staff for permission to be on site. The suicide prevention coordinator or the Vet Center readjustment counselor and the homeless team became regular attendees of events. The homeless team provided resources for housing or food insecurity.
Preventive Health Measures
The VA clinical reminder system supports caregivers for both preventive health care and chronic condition management.19 Clinical reminders appear as due in the EHR, and reminder reports can be run by clinical informatics to determine groups of patients who have not had a reminder completed. The following reminders were completed: vaccinations (including COVID-19), CRC screening, diabetic foot check and teaching of foot care, diabetic retinal consultations, laboratory studies (lipids, hemoglobin A1c, microalbumin), mammogram and pap smear referrals, mental health reminders, homeless and food insecurity screening, HIV and hepatitis C testing, and blood pressure (BP) measurement. Health records were reviewed 3 months after each event to determine whether they were completed by the veteran. Additionally, we determined whether BP was controlled (< 130/80 mm Hg).
Settings
Large urban event. The first setting for the health fair was a large vaccination event near the VAPIHCS center in April 2021. Attendance was solicited by VEText, phone calls, and social media advertisements. At check-in, veterans with relevant open clinical reminders were invited to receive preventive health care during the 15-minute monitoring period after the COVID-19 vaccine. The Vet Center Program stationed the mobile van outside the vaccination event, where a physician and a clinical pharmacy specialist (CPS) did assessments, completed reminders, and entered follow-up requests for about 4 hours. A medical support assistant registered veterans who had never signed up for VA health care.
Community Settings. Nine events occurred at least monthly between March and September 2021 at 4 different sites in Oahu. Texts and phone calls were used to solicit attendance; there was no prior publicity on social media. Community events required scheduling resources; this required about 30 hours of medical staff assistant time. Seven sites were visited for about 3 hours each. A physician, pharmacy technician, and CPS conducted assessments, completed reminders, and entered follow-up requests. A medical support assistant registered veterans who had never signed up for VA health care.
Homeless veteran outreach. Five events occurred at 2 homeless veteran housing sites between August 2021 and January 2022. These sites were emergency housing sites (2 events) and transitional and permanent housing (2 events). U.S.VETS and HIHS contacted veterans living in those settings to promote the event. A physician, registered nurse, licensed practical nurse, and CPS conducted assessments, completed reminders, and entered follow-up requests. A medical support assistant registered veterans that had never signed up for VA health care. Each event lasted approximate 3 hours.
Process Quality Improvement
After the CDC changed recommendations to allow concurrent vaccination with the COVID-19 vaccine, we added other vaccinations to the events. This occurred during the course of community events. In June of 2021, there was a health advisory concerning hepatitis A among people experiencing homelessness in Oahu, so hepatitis vaccinations were added for events for veterans.20
Veterans Served
The EHR was used to determine demographics, open clinical reminders, and attendance at follow-up. Simple descriptive statistics were performed in Microsoft Excel. A total of 115 veterans were seen for preventive health visits, and 404 clinical reminders were completed. Seven hundred veterans attended the large centrally located vaccine event and 43 agreed to have a preventive health visit. Thirty-eight veterans had a preventive health visit at homeless outreach events and 34 veterans had a preventive health visit at the community events. Veterans at community 
Of the 166 vaccines given, 73 were for COVID-19. Besides vaccination, 
Veteran follow-up or completion
Discussion
This program provided evidence that adding preventive screenings to vaccine events may help reach veterans who may have missed important preventive care due to the COVID-19 pandemic. The involvement of clinical informatics service allowed the outreach to be targeted to communities with incomplete clinical reminders. Interventions that could not be completed at the event had high levels of follow-up by veterans with important findings. The presence of a physician or nurse and a CPS allowed for point-of-care testing, as well as entering orders for medication, laboratory tests, and consultations. The attendance by representatives from the Vet Center, suicide prevention, and homeless services allowed counseling regarding benefits, and mental health follow-up. We believe that we were able to reach communities of veterans with unmet preventive needs and had higher risk of severe COVID-19, given the high numbers with open clinical reminders, the number of vaccines provided, and the high percentage of racial and ethnic minority veterans at events in the community. Our program experience provides some evidence that mobile and pop-up vaccination clinics may be beneficial for screening and managing chronic diseases, as proposed elsewhere.21-24
Strengths of this intervention include that we were able to show a high level of follow-up for recommended medical care as well as the results of our interventions. We have found no similar articles that provide data on completion of follow-up appointments after a health fair. A prior study showed only 23% to 63% of participants at a health fair reported having a recommended follow-up discussion with doctors, but the study reported no outcome of completed cancer screenings.25
Limitations
Weaknesses include the fact that health fair events may reach only healthy people, since attendees generally report better health and better health behaviors than nonattendees.26,27 We felt this was more problematic for the large-scale urban event and that offering rural events and events in homeless housing improved the reach. Future efforts will involve the use of social media and mailings to solicit attendance. To improve follow-up, future work will include adding to the events: phlebotomy or expanded point-of-care testing; specialty care telehealth capability; cervical cancer screen self-collection; and tele-retinal services.
Conclusions
This program provided evidence that directed, preventive screening can be performed in outreach settings paired with vaccine events. These vaccination events in rural and homeless settings reached communities with demonstrable COVID-19 vaccination and other preventive care needs. This approach could be used to help veterans catch up on needed preventive care.
Acknowledgments
Veterans Affairs Pacific Islands Health Care System: Anthony Chance, LCSW; Nicholas Chang, PharmD; Andrew Dahlburg, LCSW; Wilminia G. Ellorimo-Gil, RN; Paul Guillory, RN; Wendy D. Joy; Arthur Minor, LCSW; Avalua Smith; Jessica Spurrier, RN. Veterans Health Administration Vet Center Program: Rolly O. Alvarado; Edmond G. DeGuzman; Richard T. Teel. Hawaii Institute for Human Services. U.S.VETS.
1. Califf RM. Avoiding the coming tsunami of common, chronic disease: What the lessons of the COVID-19 pandemic can teach us. Circulation. 2021;143(19):1831-1834. doi:10.1161/CIRCULATIONAHA.121.053461
2. Czeisler MÉ, Marynak K, Clarke KEN, et al. Delay or avoidance of medical care because of COVID-19-related concerns - United States, June 2020. MMWR Morb Mortal Wkly Rep. 2020;69(36):1250-1257. doi:10.15585/mmwr.mm6936a4
3. European Society of Hypertension Corona-virus Disease 19 Task Force. The corona-virus disease 2019 pandemic compromised routine care for hypertension: a survey conducted among excellence centers of the European Society of Hypertension. J Hypertens. 2021;39(1):190-195. doi:10.1097/HJH.0000000000002703
4. Whaley CM, Pera MF, Cantor J, et al. Changes in health services use among commercially insured US populations during the COVID-19 pandemic. JAMA Netw Open. 2020;3(11):e2024984. doi:10.1001/jamanetworkopen.2020.24984
5. Song H, Bergman A, Chen AT, et al. Disruptions in preventive care: mammograms during the COVID-19 pandemic. Health Serv Res. 2021;56(1):95-101. doi:10.1111/1475-6773.13596
6. Shinkwin M, Silva L, Vogel I, et al. COVID-19 and the emergency presentation of colorectal cancer. Colorectal Dis. 2021;23(8):2014-2019. doi:10.1111/codi.15662
7. Rogers LC, Snyder RJ, Joseph WS. Diabetes-related amputations: a pandemic within a pandemic. J Am Podiatr Med Assoc. 2020;20-248. doi:10.7547/20-248
8. Maringe C, Spicer J, Morris M, et al. The impact of the COVID-19 pandemic on cancer deaths due to delays in diagnosis in England, UK: a national, population-based, modelling study. Lancet Oncol. 2020;21(8):1023-1034. doi:10.1016/S1470-2045(20)30388-0
9. World Health Organization. 14.9 million excess deaths associated with the COVID-19 pandemic in 2020 and 2021. May 5, 2022. Accessed August 31, 2022. https://www.who.int/news/item/05-05-2022-14.9-million-excess-deaths-were-associated-with-the-covid-19-pandemic-in-2020-and-2021
10. Padamsee TJ, Bond RM, Dixon GN, et al. Changes in COVID-19 vaccine hesitancy among Black and White individuals in the US. JAMA Netw Open. 2022;5(1):e2144470. doi:10.1001/jamanetworkopen.2021.44470
11. Barry V, Dasgupta S, Weller DL, et al. Patterns in COVID-19 vaccination coverage, by social vulnerability and urbanicity - United States, December 14, 2020-May 1, 2021. MMWR Morb Mortal Wkly Rep. 2021;70(22):818-824. doi:10.15585/mmwr.mm7022e1
12. Baack BN, Abad N, Yankey D, et al. COVID-19 vaccination coverage and intent among adults aged 18-39 years - United States, March-May 2021. MMWR Morb Mortal Wkly Rep. 2021;70(25):928-933. doi:10.15585/mmwr.mm7025e2
13. United States Census Bureau. QuickFacts Hawaii. July 7, 2021. Accessed August 31, 2022. https://www.census.gov/quickfacts/HI
14. Hawaii Health Data Warehouse. Diabetes - Adult. November 23, 2021. Updated July 31, 2022. Accessed August 31, 2022. https://hhdw.org/report/indicator/summary/DXDiabetesAA.html
15. Hawaii Health Data Warehouse. High Blood Pressure, Adult. November 23, 2021. Accessed August 31, 2022. https://hhdw.org/report/indicator/summary/DXBPHighAA.html
16. Penaia CS, Morey BN, Thomas KB, et al. Disparities in Native Hawaiian and Pacific Islander COVID-19 mortality: a community-driven data response. Am J Public Health. 2021;111(S2):S49-S52. doi:10.2105/AJPH.2021.306370
17. US Department of Veterans Affairs, Veterans Health Administration. VHA Handbook 1500.02 Readjustment Counseling Services (RCS) Vet Center Program. January 26, 2021. Accessed September 7, 2022. https://www.va.gov/vhapublications/ViewPublication.asp?pub_ID=9168
18. US Department of Veterans Affairs, Veterans Health Administration. VHA Directive 1162.08 Health Care for Veterans Homeless Outreach Services. February 18, 2022. Accessed September 7, 2022. https://www.va.gov/vhapublications/ViewPublication.asp?pub_ID=9673
19. US Department of Veterans Affairs. Clinical Reminders Version 2.0. Clinician Guide. October 2006. Accessed August 31, 2022. https://www.va.gov/vdl/documents/clinical/cprs-clinical_reminders/pxrm_2_4_um.pdf
20. Hawaii Department of Health. Hepatitis A Cases on Oahu and Maui. June 21, 2021. Accessed August 31, 2022. https://health.hawaii.gov/docd/files/2021/06/Medical-Advisory-HepA-June-21-2021.pdf
21. Hamel L, Lopes L, Sparks G, et al. KFF COVID-19 vaccine monitor: January 2022. January 28, 2022. Accessed August 31, 2022. https://www.kff.org/coronavirus-covid-19/poll-finding/kff-covid-19-vaccine-monitor-january-2022
22. Mast C, Munoz del Rio A. Delayed cancer screenings—a second look. Epic Research Network. July 17, 2020. Accessed August 31, 2022. https://epicresearch.org/articles/delayed-cancer-screenings-a-second-look
23. Shaukat A, Church T. Colorectal cancer screening in the USA in the wake of COVID-19. Lancet Gastroenterol Hepatol. 2020;5(8):726-727. doi:10.1016/S2468-1253(20)30191-6
24. Crespo J, Lazarus JV, Iruzubieta P, García F, García-Samaniego J; Alliance for the elimination of viral hepatitis in Spain. Let’s leverage SARS-CoV2 vaccination to screen for hepatitis C in Spain, in Europe, around the world. J Hepatol. 2021;75(1):224-226. doi:10.1016/j.jhep.2021.03.009
25. Escoffery C, Liang S, Rodgers K, et al. Process evaluation of health fairs promoting cancer screenings. BMC Cancer. 2017;17(1):865. doi:10.1186/s12885-017-3867-3
26. Waller PR, Crow C, Sands D, Becker H. Health related attitudes and health promoting behaviors: differences between health fair attenders and a community group. Am J Health Promot. 1988;3(1):17-32. doi:10.4278/0890-1171-3.1.17
27. Price JH, O’Connell J, Kukulka G. Preventive health behaviors related to the ten leading causes of mortality of health-fair attenders and nonattenders. Psychol Rep. 1985;56(1):131-135. doi:10.2466/pr0.1985.56.1.131
Shortly into the COVID-19 pandemic, Dr. Robert Califf, the commissioner of the US Food and Drug Administration, warned of a coming tsunami of chronic diseases, exacerbated by missed care during the pandemic.1 According to a Centers for Disease Control and Prevention (CDC) survey, more than 30% of adults reported delaying or avoiding routine medical care in the first 6 months of 2020. This rate was highest in people with comorbidities.2 Multiple studies demonstrated declines in hypertension care, hemoglobin A1c testing, mammography, and colon cancer screening.3-5 There has been a resultant increase in colon cancer complications, wounds, and amputations.6,7 The United Kingdom is expected to have a 7.9% to 16.6% increase in future deaths due to breast and colorectal cancer (CRC).8 The World Health Organization estimates an excess 14.9 million people died in 2020 and 2021, either directly from or indirectly related to COVID-19.9
Due to the large-scale conversion from face-to-face care to telehealth modalities, COVID-19 vaccination events offered a unique opportunity to perform preventive health care that requires in-person visits, since most US adults have sought vaccination. However, vaccine events may not reach people most at risk for COVID-19 or chronic disease. Groups of Americans with lower vaccination rates were concerned about driving times and missing work to get the vaccine.10
Distance and travel time may be a particular challenge in Hawaii. Oahu is considered rural by the US Department of Veterans Affairs (VA); some communities are 80 minutes away from the VA Pacific Islands Health Care System (VAPIHCS) main facility. Oahu has approximately 150 veterans experiencing homelessness who may not have transportation to vaccine events. Additionally, VAPIHCS serves veterans that may be at higher risk of not receiving COVID-19 vaccination. Racial and ethnic minority residents have lower vaccination rates, yet are at a higher risk of COVID-19 infection and complications, and through the pandemic, this vaccination gap worsened.11,12 More than 10% of the population of Hawaii is Native Hawaiian or Pacific Islander, and this population is at elevated risk for diabetes mellitus, hypertension, and COVID-19 mortality.13-16
Health Fair Program
The VA provides clinical reminders in its electronic health record (EHR) that are specified by age, gender assigned at birth, and comorbidities. The clinical reminder program is intended to provide clinically relevant reminders for preventive care at the point of care. Veterans with overdue clinical reminders can be identified by name and address, allowing for the creation of health fair events that were directed towards communities with veterans with clinical reminders, including COVID-19 vaccination need. A team of health care professionals from VAPIHCS conceived of a health fair program to increase the reach of vaccine events and include preventive care in partnership with the VAPIHCS Vet Center Program, local communities, U.S.VETS, and the Hawaii Institute of Health Services (HIHS). We sought to determine which services could be offered in community settings; large vaccine events; and at homeless emergency, transitional, or permanent housing. We tracked veterans who received care in the different locations of the directed health fair.
This project was determined to be a quality improvement initiative by the VAPIHCS Office of Research and Development. It was jointly planned by the VAPIHCS pharmacy, infectious diseases, Vet Center Program, and homeless team to make the COVID-19 vaccines available to more rural and to veterans experiencing homelessness, and in response to a decline in facility face-to-face visits. Monthly meetings were held to select sites within zip codes with higher numbers of open clinical reminders and lower vaccination uptake. Informatics developed a list of clinical reminders by zip code for care performed at face-to-face visits.
Partners
The Vet Center Program, suicide prevention coordinator, and the homeless outreach team have a mandate to perform outreach events.17,18 These services collaborate with community partners to locate sites for events. The team was able to leverage these contacts to set up sites for events. The Vet Center Program readjustment counselor and the suicide prevention coordinator provide mental health counseling. The Vet Center counsels on veteran benefits. They supplied a mobile van with WiFi, counseling and examination spaces, and refrigeration, which became the mobile clinic for the preventive care offered at events. The homeless program works with multiple community partners. They contract with HIHS and U.S.VETS to provide emergency and permanent housing for veterans. Each event is reviewed with HIHS and U.S.VETS staff for permission to be on site. The suicide prevention coordinator or the Vet Center readjustment counselor and the homeless team became regular attendees of events. The homeless team provided resources for housing or food insecurity.
Preventive Health Measures
The VA clinical reminder system supports caregivers for both preventive health care and chronic condition management.19 Clinical reminders appear as due in the EHR, and reminder reports can be run by clinical informatics to determine groups of patients who have not had a reminder completed. The following reminders were completed: vaccinations (including COVID-19), CRC screening, diabetic foot check and teaching of foot care, diabetic retinal consultations, laboratory studies (lipids, hemoglobin A1c, microalbumin), mammogram and pap smear referrals, mental health reminders, homeless and food insecurity screening, HIV and hepatitis C testing, and blood pressure (BP) measurement. Health records were reviewed 3 months after each event to determine whether they were completed by the veteran. Additionally, we determined whether BP was controlled (< 130/80 mm Hg).
Settings
Large urban event. The first setting for the health fair was a large vaccination event near the VAPIHCS center in April 2021. Attendance was solicited by VEText, phone calls, and social media advertisements. At check-in, veterans with relevant open clinical reminders were invited to receive preventive health care during the 15-minute monitoring period after the COVID-19 vaccine. The Vet Center Program stationed the mobile van outside the vaccination event, where a physician and a clinical pharmacy specialist (CPS) did assessments, completed reminders, and entered follow-up requests for about 4 hours. A medical support assistant registered veterans who had never signed up for VA health care.
Community Settings. Nine events occurred at least monthly between March and September 2021 at 4 different sites in Oahu. Texts and phone calls were used to solicit attendance; there was no prior publicity on social media. Community events required scheduling resources; this required about 30 hours of medical staff assistant time. Seven sites were visited for about 3 hours each. A physician, pharmacy technician, and CPS conducted assessments, completed reminders, and entered follow-up requests. A medical support assistant registered veterans who had never signed up for VA health care.
Homeless veteran outreach. Five events occurred at 2 homeless veteran housing sites between August 2021 and January 2022. These sites were emergency housing sites (2 events) and transitional and permanent housing (2 events). U.S.VETS and HIHS contacted veterans living in those settings to promote the event. A physician, registered nurse, licensed practical nurse, and CPS conducted assessments, completed reminders, and entered follow-up requests. A medical support assistant registered veterans that had never signed up for VA health care. Each event lasted approximate 3 hours.
Process Quality Improvement
After the CDC changed recommendations to allow concurrent vaccination with the COVID-19 vaccine, we added other vaccinations to the events. This occurred during the course of community events. In June of 2021, there was a health advisory concerning hepatitis A among people experiencing homelessness in Oahu, so hepatitis vaccinations were added for events for veterans.20
Veterans Served
The EHR was used to determine demographics, open clinical reminders, and attendance at follow-up. Simple descriptive statistics were performed in Microsoft Excel. A total of 115 veterans were seen for preventive health visits, and 404 clinical reminders were completed. Seven hundred veterans attended the large centrally located vaccine event and 43 agreed to have a preventive health visit. Thirty-eight veterans had a preventive health visit at homeless outreach events and 34 veterans had a preventive health visit at the community events. Veterans at community
Of the 166 vaccines given, 73 were for COVID-19. Besides vaccination,
Veteran follow-up or completion
Discussion
This program provided evidence that adding preventive screenings to vaccine events may help reach veterans who may have missed important preventive care due to the COVID-19 pandemic. The involvement of clinical informatics service allowed the outreach to be targeted to communities with incomplete clinical reminders. Interventions that could not be completed at the event had high levels of follow-up by veterans with important findings. The presence of a physician or nurse and a CPS allowed for point-of-care testing, as well as entering orders for medication, laboratory tests, and consultations. The attendance by representatives from the Vet Center, suicide prevention, and homeless services allowed counseling regarding benefits, and mental health follow-up. We believe that we were able to reach communities of veterans with unmet preventive needs and had higher risk of severe COVID-19, given the high numbers with open clinical reminders, the number of vaccines provided, and the high percentage of racial and ethnic minority veterans at events in the community. Our program experience provides some evidence that mobile and pop-up vaccination clinics may be beneficial for screening and managing chronic diseases, as proposed elsewhere.21-24
Strengths of this intervention include that we were able to show a high level of follow-up for recommended medical care as well as the results of our interventions. We have found no similar articles that provide data on completion of follow-up appointments after a health fair. A prior study showed only 23% to 63% of participants at a health fair reported having a recommended follow-up discussion with doctors, but the study reported no outcome of completed cancer screenings.25
Limitations
Weaknesses include the fact that health fair events may reach only healthy people, since attendees generally report better health and better health behaviors than nonattendees.26,27 We felt this was more problematic for the large-scale urban event and that offering rural events and events in homeless housing improved the reach. Future efforts will involve the use of social media and mailings to solicit attendance. To improve follow-up, future work will include adding to the events: phlebotomy or expanded point-of-care testing; specialty care telehealth capability; cervical cancer screen self-collection; and tele-retinal services.
Conclusions
This program provided evidence that directed, preventive screening can be performed in outreach settings paired with vaccine events. These vaccination events in rural and homeless settings reached communities with demonstrable COVID-19 vaccination and other preventive care needs. This approach could be used to help veterans catch up on needed preventive care.
Acknowledgments
Veterans Affairs Pacific Islands Health Care System: Anthony Chance, LCSW; Nicholas Chang, PharmD; Andrew Dahlburg, LCSW; Wilminia G. Ellorimo-Gil, RN; Paul Guillory, RN; Wendy D. Joy; Arthur Minor, LCSW; Avalua Smith; Jessica Spurrier, RN. Veterans Health Administration Vet Center Program: Rolly O. Alvarado; Edmond G. DeGuzman; Richard T. Teel. Hawaii Institute for Human Services. U.S.VETS.
Shortly into the COVID-19 pandemic, Dr. Robert Califf, the commissioner of the US Food and Drug Administration, warned of a coming tsunami of chronic diseases, exacerbated by missed care during the pandemic.1 According to a Centers for Disease Control and Prevention (CDC) survey, more than 30% of adults reported delaying or avoiding routine medical care in the first 6 months of 2020. This rate was highest in people with comorbidities.2 Multiple studies demonstrated declines in hypertension care, hemoglobin A1c testing, mammography, and colon cancer screening.3-5 There has been a resultant increase in colon cancer complications, wounds, and amputations.6,7 The United Kingdom is expected to have a 7.9% to 16.6% increase in future deaths due to breast and colorectal cancer (CRC).8 The World Health Organization estimates an excess 14.9 million people died in 2020 and 2021, either directly from or indirectly related to COVID-19.9
Due to the large-scale conversion from face-to-face care to telehealth modalities, COVID-19 vaccination events offered a unique opportunity to perform preventive health care that requires in-person visits, since most US adults have sought vaccination. However, vaccine events may not reach people most at risk for COVID-19 or chronic disease. Groups of Americans with lower vaccination rates were concerned about driving times and missing work to get the vaccine.10
Distance and travel time may be a particular challenge in Hawaii. Oahu is considered rural by the US Department of Veterans Affairs (VA); some communities are 80 minutes away from the VA Pacific Islands Health Care System (VAPIHCS) main facility. Oahu has approximately 150 veterans experiencing homelessness who may not have transportation to vaccine events. Additionally, VAPIHCS serves veterans that may be at higher risk of not receiving COVID-19 vaccination. Racial and ethnic minority residents have lower vaccination rates, yet are at a higher risk of COVID-19 infection and complications, and through the pandemic, this vaccination gap worsened.11,12 More than 10% of the population of Hawaii is Native Hawaiian or Pacific Islander, and this population is at elevated risk for diabetes mellitus, hypertension, and COVID-19 mortality.13-16
Health Fair Program
The VA provides clinical reminders in its electronic health record (EHR) that are specified by age, gender assigned at birth, and comorbidities. The clinical reminder program is intended to provide clinically relevant reminders for preventive care at the point of care. Veterans with overdue clinical reminders can be identified by name and address, allowing for the creation of health fair events that were directed towards communities with veterans with clinical reminders, including COVID-19 vaccination need. A team of health care professionals from VAPIHCS conceived of a health fair program to increase the reach of vaccine events and include preventive care in partnership with the VAPIHCS Vet Center Program, local communities, U.S.VETS, and the Hawaii Institute of Health Services (HIHS). We sought to determine which services could be offered in community settings; large vaccine events; and at homeless emergency, transitional, or permanent housing. We tracked veterans who received care in the different locations of the directed health fair.
This project was determined to be a quality improvement initiative by the VAPIHCS Office of Research and Development. It was jointly planned by the VAPIHCS pharmacy, infectious diseases, Vet Center Program, and homeless team to make the COVID-19 vaccines available to more rural and to veterans experiencing homelessness, and in response to a decline in facility face-to-face visits. Monthly meetings were held to select sites within zip codes with higher numbers of open clinical reminders and lower vaccination uptake. Informatics developed a list of clinical reminders by zip code for care performed at face-to-face visits.
Partners
The Vet Center Program, suicide prevention coordinator, and the homeless outreach team have a mandate to perform outreach events.17,18 These services collaborate with community partners to locate sites for events. The team was able to leverage these contacts to set up sites for events. The Vet Center Program readjustment counselor and the suicide prevention coordinator provide mental health counseling. The Vet Center counsels on veteran benefits. They supplied a mobile van with WiFi, counseling and examination spaces, and refrigeration, which became the mobile clinic for the preventive care offered at events. The homeless program works with multiple community partners. They contract with HIHS and U.S.VETS to provide emergency and permanent housing for veterans. Each event is reviewed with HIHS and U.S.VETS staff for permission to be on site. The suicide prevention coordinator or the Vet Center readjustment counselor and the homeless team became regular attendees of events. The homeless team provided resources for housing or food insecurity.
Preventive Health Measures
The VA clinical reminder system supports caregivers for both preventive health care and chronic condition management.19 Clinical reminders appear as due in the EHR, and reminder reports can be run by clinical informatics to determine groups of patients who have not had a reminder completed. The following reminders were completed: vaccinations (including COVID-19), CRC screening, diabetic foot check and teaching of foot care, diabetic retinal consultations, laboratory studies (lipids, hemoglobin A1c, microalbumin), mammogram and pap smear referrals, mental health reminders, homeless and food insecurity screening, HIV and hepatitis C testing, and blood pressure (BP) measurement. Health records were reviewed 3 months after each event to determine whether they were completed by the veteran. Additionally, we determined whether BP was controlled (< 130/80 mm Hg).
Settings
Large urban event. The first setting for the health fair was a large vaccination event near the VAPIHCS center in April 2021. Attendance was solicited by VEText, phone calls, and social media advertisements. At check-in, veterans with relevant open clinical reminders were invited to receive preventive health care during the 15-minute monitoring period after the COVID-19 vaccine. The Vet Center Program stationed the mobile van outside the vaccination event, where a physician and a clinical pharmacy specialist (CPS) did assessments, completed reminders, and entered follow-up requests for about 4 hours. A medical support assistant registered veterans who had never signed up for VA health care.
Community Settings. Nine events occurred at least monthly between March and September 2021 at 4 different sites in Oahu. Texts and phone calls were used to solicit attendance; there was no prior publicity on social media. Community events required scheduling resources; this required about 30 hours of medical staff assistant time. Seven sites were visited for about 3 hours each. A physician, pharmacy technician, and CPS conducted assessments, completed reminders, and entered follow-up requests. A medical support assistant registered veterans who had never signed up for VA health care.
Homeless veteran outreach. Five events occurred at 2 homeless veteran housing sites between August 2021 and January 2022. These sites were emergency housing sites (2 events) and transitional and permanent housing (2 events). U.S.VETS and HIHS contacted veterans living in those settings to promote the event. A physician, registered nurse, licensed practical nurse, and CPS conducted assessments, completed reminders, and entered follow-up requests. A medical support assistant registered veterans that had never signed up for VA health care. Each event lasted approximate 3 hours.
Process Quality Improvement
After the CDC changed recommendations to allow concurrent vaccination with the COVID-19 vaccine, we added other vaccinations to the events. This occurred during the course of community events. In June of 2021, there was a health advisory concerning hepatitis A among people experiencing homelessness in Oahu, so hepatitis vaccinations were added for events for veterans.20
Veterans Served
The EHR was used to determine demographics, open clinical reminders, and attendance at follow-up. Simple descriptive statistics were performed in Microsoft Excel. A total of 115 veterans were seen for preventive health visits, and 404 clinical reminders were completed. Seven hundred veterans attended the large centrally located vaccine event and 43 agreed to have a preventive health visit. Thirty-eight veterans had a preventive health visit at homeless outreach events and 34 veterans had a preventive health visit at the community events. Veterans at community
Of the 166 vaccines given, 73 were for COVID-19. Besides vaccination,
Veteran follow-up or completion
Discussion
This program provided evidence that adding preventive screenings to vaccine events may help reach veterans who may have missed important preventive care due to the COVID-19 pandemic. The involvement of clinical informatics service allowed the outreach to be targeted to communities with incomplete clinical reminders. Interventions that could not be completed at the event had high levels of follow-up by veterans with important findings. The presence of a physician or nurse and a CPS allowed for point-of-care testing, as well as entering orders for medication, laboratory tests, and consultations. The attendance by representatives from the Vet Center, suicide prevention, and homeless services allowed counseling regarding benefits, and mental health follow-up. We believe that we were able to reach communities of veterans with unmet preventive needs and had higher risk of severe COVID-19, given the high numbers with open clinical reminders, the number of vaccines provided, and the high percentage of racial and ethnic minority veterans at events in the community. Our program experience provides some evidence that mobile and pop-up vaccination clinics may be beneficial for screening and managing chronic diseases, as proposed elsewhere.21-24
Strengths of this intervention include that we were able to show a high level of follow-up for recommended medical care as well as the results of our interventions. We have found no similar articles that provide data on completion of follow-up appointments after a health fair. A prior study showed only 23% to 63% of participants at a health fair reported having a recommended follow-up discussion with doctors, but the study reported no outcome of completed cancer screenings.25
Limitations
Weaknesses include the fact that health fair events may reach only healthy people, since attendees generally report better health and better health behaviors than nonattendees.26,27 We felt this was more problematic for the large-scale urban event and that offering rural events and events in homeless housing improved the reach. Future efforts will involve the use of social media and mailings to solicit attendance. To improve follow-up, future work will include adding to the events: phlebotomy or expanded point-of-care testing; specialty care telehealth capability; cervical cancer screen self-collection; and tele-retinal services.
Conclusions
This program provided evidence that directed, preventive screening can be performed in outreach settings paired with vaccine events. These vaccination events in rural and homeless settings reached communities with demonstrable COVID-19 vaccination and other preventive care needs. This approach could be used to help veterans catch up on needed preventive care.
Acknowledgments
Veterans Affairs Pacific Islands Health Care System: Anthony Chance, LCSW; Nicholas Chang, PharmD; Andrew Dahlburg, LCSW; Wilminia G. Ellorimo-Gil, RN; Paul Guillory, RN; Wendy D. Joy; Arthur Minor, LCSW; Avalua Smith; Jessica Spurrier, RN. Veterans Health Administration Vet Center Program: Rolly O. Alvarado; Edmond G. DeGuzman; Richard T. Teel. Hawaii Institute for Human Services. U.S.VETS.
1. Califf RM. Avoiding the coming tsunami of common, chronic disease: What the lessons of the COVID-19 pandemic can teach us. Circulation. 2021;143(19):1831-1834. doi:10.1161/CIRCULATIONAHA.121.053461
2. Czeisler MÉ, Marynak K, Clarke KEN, et al. Delay or avoidance of medical care because of COVID-19-related concerns - United States, June 2020. MMWR Morb Mortal Wkly Rep. 2020;69(36):1250-1257. doi:10.15585/mmwr.mm6936a4
3. European Society of Hypertension Corona-virus Disease 19 Task Force. The corona-virus disease 2019 pandemic compromised routine care for hypertension: a survey conducted among excellence centers of the European Society of Hypertension. J Hypertens. 2021;39(1):190-195. doi:10.1097/HJH.0000000000002703
4. Whaley CM, Pera MF, Cantor J, et al. Changes in health services use among commercially insured US populations during the COVID-19 pandemic. JAMA Netw Open. 2020;3(11):e2024984. doi:10.1001/jamanetworkopen.2020.24984
5. Song H, Bergman A, Chen AT, et al. Disruptions in preventive care: mammograms during the COVID-19 pandemic. Health Serv Res. 2021;56(1):95-101. doi:10.1111/1475-6773.13596
6. Shinkwin M, Silva L, Vogel I, et al. COVID-19 and the emergency presentation of colorectal cancer. Colorectal Dis. 2021;23(8):2014-2019. doi:10.1111/codi.15662
7. Rogers LC, Snyder RJ, Joseph WS. Diabetes-related amputations: a pandemic within a pandemic. J Am Podiatr Med Assoc. 2020;20-248. doi:10.7547/20-248
8. Maringe C, Spicer J, Morris M, et al. The impact of the COVID-19 pandemic on cancer deaths due to delays in diagnosis in England, UK: a national, population-based, modelling study. Lancet Oncol. 2020;21(8):1023-1034. doi:10.1016/S1470-2045(20)30388-0
9. World Health Organization. 14.9 million excess deaths associated with the COVID-19 pandemic in 2020 and 2021. May 5, 2022. Accessed August 31, 2022. https://www.who.int/news/item/05-05-2022-14.9-million-excess-deaths-were-associated-with-the-covid-19-pandemic-in-2020-and-2021
10. Padamsee TJ, Bond RM, Dixon GN, et al. Changes in COVID-19 vaccine hesitancy among Black and White individuals in the US. JAMA Netw Open. 2022;5(1):e2144470. doi:10.1001/jamanetworkopen.2021.44470
11. Barry V, Dasgupta S, Weller DL, et al. Patterns in COVID-19 vaccination coverage, by social vulnerability and urbanicity - United States, December 14, 2020-May 1, 2021. MMWR Morb Mortal Wkly Rep. 2021;70(22):818-824. doi:10.15585/mmwr.mm7022e1
12. Baack BN, Abad N, Yankey D, et al. COVID-19 vaccination coverage and intent among adults aged 18-39 years - United States, March-May 2021. MMWR Morb Mortal Wkly Rep. 2021;70(25):928-933. doi:10.15585/mmwr.mm7025e2
13. United States Census Bureau. QuickFacts Hawaii. July 7, 2021. Accessed August 31, 2022. https://www.census.gov/quickfacts/HI
14. Hawaii Health Data Warehouse. Diabetes - Adult. November 23, 2021. Updated July 31, 2022. Accessed August 31, 2022. https://hhdw.org/report/indicator/summary/DXDiabetesAA.html
15. Hawaii Health Data Warehouse. High Blood Pressure, Adult. November 23, 2021. Accessed August 31, 2022. https://hhdw.org/report/indicator/summary/DXBPHighAA.html
16. Penaia CS, Morey BN, Thomas KB, et al. Disparities in Native Hawaiian and Pacific Islander COVID-19 mortality: a community-driven data response. Am J Public Health. 2021;111(S2):S49-S52. doi:10.2105/AJPH.2021.306370
17. US Department of Veterans Affairs, Veterans Health Administration. VHA Handbook 1500.02 Readjustment Counseling Services (RCS) Vet Center Program. January 26, 2021. Accessed September 7, 2022. https://www.va.gov/vhapublications/ViewPublication.asp?pub_ID=9168
18. US Department of Veterans Affairs, Veterans Health Administration. VHA Directive 1162.08 Health Care for Veterans Homeless Outreach Services. February 18, 2022. Accessed September 7, 2022. https://www.va.gov/vhapublications/ViewPublication.asp?pub_ID=9673
19. US Department of Veterans Affairs. Clinical Reminders Version 2.0. Clinician Guide. October 2006. Accessed August 31, 2022. https://www.va.gov/vdl/documents/clinical/cprs-clinical_reminders/pxrm_2_4_um.pdf
20. Hawaii Department of Health. Hepatitis A Cases on Oahu and Maui. June 21, 2021. Accessed August 31, 2022. https://health.hawaii.gov/docd/files/2021/06/Medical-Advisory-HepA-June-21-2021.pdf
21. Hamel L, Lopes L, Sparks G, et al. KFF COVID-19 vaccine monitor: January 2022. January 28, 2022. Accessed August 31, 2022. https://www.kff.org/coronavirus-covid-19/poll-finding/kff-covid-19-vaccine-monitor-january-2022
22. Mast C, Munoz del Rio A. Delayed cancer screenings—a second look. Epic Research Network. July 17, 2020. Accessed August 31, 2022. https://epicresearch.org/articles/delayed-cancer-screenings-a-second-look
23. Shaukat A, Church T. Colorectal cancer screening in the USA in the wake of COVID-19. Lancet Gastroenterol Hepatol. 2020;5(8):726-727. doi:10.1016/S2468-1253(20)30191-6
24. Crespo J, Lazarus JV, Iruzubieta P, García F, García-Samaniego J; Alliance for the elimination of viral hepatitis in Spain. Let’s leverage SARS-CoV2 vaccination to screen for hepatitis C in Spain, in Europe, around the world. J Hepatol. 2021;75(1):224-226. doi:10.1016/j.jhep.2021.03.009
25. Escoffery C, Liang S, Rodgers K, et al. Process evaluation of health fairs promoting cancer screenings. BMC Cancer. 2017;17(1):865. doi:10.1186/s12885-017-3867-3
26. Waller PR, Crow C, Sands D, Becker H. Health related attitudes and health promoting behaviors: differences between health fair attenders and a community group. Am J Health Promot. 1988;3(1):17-32. doi:10.4278/0890-1171-3.1.17
27. Price JH, O’Connell J, Kukulka G. Preventive health behaviors related to the ten leading causes of mortality of health-fair attenders and nonattenders. Psychol Rep. 1985;56(1):131-135. doi:10.2466/pr0.1985.56.1.131
1. Califf RM. Avoiding the coming tsunami of common, chronic disease: What the lessons of the COVID-19 pandemic can teach us. Circulation. 2021;143(19):1831-1834. doi:10.1161/CIRCULATIONAHA.121.053461
2. Czeisler MÉ, Marynak K, Clarke KEN, et al. Delay or avoidance of medical care because of COVID-19-related concerns - United States, June 2020. MMWR Morb Mortal Wkly Rep. 2020;69(36):1250-1257. doi:10.15585/mmwr.mm6936a4
3. European Society of Hypertension Corona-virus Disease 19 Task Force. The corona-virus disease 2019 pandemic compromised routine care for hypertension: a survey conducted among excellence centers of the European Society of Hypertension. J Hypertens. 2021;39(1):190-195. doi:10.1097/HJH.0000000000002703
4. Whaley CM, Pera MF, Cantor J, et al. Changes in health services use among commercially insured US populations during the COVID-19 pandemic. JAMA Netw Open. 2020;3(11):e2024984. doi:10.1001/jamanetworkopen.2020.24984
5. Song H, Bergman A, Chen AT, et al. Disruptions in preventive care: mammograms during the COVID-19 pandemic. Health Serv Res. 2021;56(1):95-101. doi:10.1111/1475-6773.13596
6. Shinkwin M, Silva L, Vogel I, et al. COVID-19 and the emergency presentation of colorectal cancer. Colorectal Dis. 2021;23(8):2014-2019. doi:10.1111/codi.15662
7. Rogers LC, Snyder RJ, Joseph WS. Diabetes-related amputations: a pandemic within a pandemic. J Am Podiatr Med Assoc. 2020;20-248. doi:10.7547/20-248
8. Maringe C, Spicer J, Morris M, et al. The impact of the COVID-19 pandemic on cancer deaths due to delays in diagnosis in England, UK: a national, population-based, modelling study. Lancet Oncol. 2020;21(8):1023-1034. doi:10.1016/S1470-2045(20)30388-0
9. World Health Organization. 14.9 million excess deaths associated with the COVID-19 pandemic in 2020 and 2021. May 5, 2022. Accessed August 31, 2022. https://www.who.int/news/item/05-05-2022-14.9-million-excess-deaths-were-associated-with-the-covid-19-pandemic-in-2020-and-2021
10. Padamsee TJ, Bond RM, Dixon GN, et al. Changes in COVID-19 vaccine hesitancy among Black and White individuals in the US. JAMA Netw Open. 2022;5(1):e2144470. doi:10.1001/jamanetworkopen.2021.44470
11. Barry V, Dasgupta S, Weller DL, et al. Patterns in COVID-19 vaccination coverage, by social vulnerability and urbanicity - United States, December 14, 2020-May 1, 2021. MMWR Morb Mortal Wkly Rep. 2021;70(22):818-824. doi:10.15585/mmwr.mm7022e1
12. Baack BN, Abad N, Yankey D, et al. COVID-19 vaccination coverage and intent among adults aged 18-39 years - United States, March-May 2021. MMWR Morb Mortal Wkly Rep. 2021;70(25):928-933. doi:10.15585/mmwr.mm7025e2
13. United States Census Bureau. QuickFacts Hawaii. July 7, 2021. Accessed August 31, 2022. https://www.census.gov/quickfacts/HI
14. Hawaii Health Data Warehouse. Diabetes - Adult. November 23, 2021. Updated July 31, 2022. Accessed August 31, 2022. https://hhdw.org/report/indicator/summary/DXDiabetesAA.html
15. Hawaii Health Data Warehouse. High Blood Pressure, Adult. November 23, 2021. Accessed August 31, 2022. https://hhdw.org/report/indicator/summary/DXBPHighAA.html
16. Penaia CS, Morey BN, Thomas KB, et al. Disparities in Native Hawaiian and Pacific Islander COVID-19 mortality: a community-driven data response. Am J Public Health. 2021;111(S2):S49-S52. doi:10.2105/AJPH.2021.306370
17. US Department of Veterans Affairs, Veterans Health Administration. VHA Handbook 1500.02 Readjustment Counseling Services (RCS) Vet Center Program. January 26, 2021. Accessed September 7, 2022. https://www.va.gov/vhapublications/ViewPublication.asp?pub_ID=9168
18. US Department of Veterans Affairs, Veterans Health Administration. VHA Directive 1162.08 Health Care for Veterans Homeless Outreach Services. February 18, 2022. Accessed September 7, 2022. https://www.va.gov/vhapublications/ViewPublication.asp?pub_ID=9673
19. US Department of Veterans Affairs. Clinical Reminders Version 2.0. Clinician Guide. October 2006. Accessed August 31, 2022. https://www.va.gov/vdl/documents/clinical/cprs-clinical_reminders/pxrm_2_4_um.pdf
20. Hawaii Department of Health. Hepatitis A Cases on Oahu and Maui. June 21, 2021. Accessed August 31, 2022. https://health.hawaii.gov/docd/files/2021/06/Medical-Advisory-HepA-June-21-2021.pdf
21. Hamel L, Lopes L, Sparks G, et al. KFF COVID-19 vaccine monitor: January 2022. January 28, 2022. Accessed August 31, 2022. https://www.kff.org/coronavirus-covid-19/poll-finding/kff-covid-19-vaccine-monitor-january-2022
22. Mast C, Munoz del Rio A. Delayed cancer screenings—a second look. Epic Research Network. July 17, 2020. Accessed August 31, 2022. https://epicresearch.org/articles/delayed-cancer-screenings-a-second-look
23. Shaukat A, Church T. Colorectal cancer screening in the USA in the wake of COVID-19. Lancet Gastroenterol Hepatol. 2020;5(8):726-727. doi:10.1016/S2468-1253(20)30191-6
24. Crespo J, Lazarus JV, Iruzubieta P, García F, García-Samaniego J; Alliance for the elimination of viral hepatitis in Spain. Let’s leverage SARS-CoV2 vaccination to screen for hepatitis C in Spain, in Europe, around the world. J Hepatol. 2021;75(1):224-226. doi:10.1016/j.jhep.2021.03.009
25. Escoffery C, Liang S, Rodgers K, et al. Process evaluation of health fairs promoting cancer screenings. BMC Cancer. 2017;17(1):865. doi:10.1186/s12885-017-3867-3
26. Waller PR, Crow C, Sands D, Becker H. Health related attitudes and health promoting behaviors: differences between health fair attenders and a community group. Am J Health Promot. 1988;3(1):17-32. doi:10.4278/0890-1171-3.1.17
27. Price JH, O’Connell J, Kukulka G. Preventive health behaviors related to the ten leading causes of mortality of health-fair attenders and nonattenders. Psychol Rep. 1985;56(1):131-135. doi:10.2466/pr0.1985.56.1.131
Thoracic Oncology & Chest Imaging Network
Ultrasound & Chest Imaging Section
VExUS scan: The missing piece of hemodynamic puzzle?
Volume status and tailoring the correct level of fluid resuscitation is challenging for the intensivist. Determining “fluid overload,” especially in the setting of acute kidney injury, can be difficult. While a Swan-Ganz catheter, central venous pressure, or inferior vena cava (IVC) ultrasound measurement can suggest elevated right atrial pressure, the effect on organ level hemodynamics is unknown.
Abdominal venous Doppler is a method to view the effects of venous pressure on abdominal organ venous flow. An application of this is the Venous Excess Ultrasound Score (VExUS) (Rola, et al. Ultrasound J. 2021;13[1]:32). VExUS uses IVC diameter and pulse wave doppler waveforms from the hepatic, portal, and renal veins to grade venous congestion from none to severe. Studies demonstrate an association between venous congestion and renal dysfunction in cardiac surgery (Beaubien-Souligny, et al. Ultrasound J. 2020;12[1]:16) and general ICU patients (Spiegel, et al. Crit Care. 2020;24[1]:615).
This practice of identifying venous congestion and avoiding over-resuscitation could improve patient care. However, acquiring quality images and waveforms may prove to be difficult, and interpretation may be confounded by other disease states such as cirrhosis. Though it is postulated that removing fluid could be beneficial to patients with high VExUS scores, this has yet to be proven and may be difficult to prove. While the score estimates volume status well, the source of venous congestion is not identified such that it should be used as a clinical supplement to other data.
VExUS has a strong physiologic basis, and early clinical experience indicates a strong role in improving assessment of venous congestion, an important aspect of volume status. This is an area of ongoing research to ensure appropriate and effective use.
Kyle Swartz, DO
Steven Fox, MD
John Levasseur, DO
Ultrasound & Chest Imaging Section
VExUS scan: The missing piece of hemodynamic puzzle?
Volume status and tailoring the correct level of fluid resuscitation is challenging for the intensivist. Determining “fluid overload,” especially in the setting of acute kidney injury, can be difficult. While a Swan-Ganz catheter, central venous pressure, or inferior vena cava (IVC) ultrasound measurement can suggest elevated right atrial pressure, the effect on organ level hemodynamics is unknown.
Abdominal venous Doppler is a method to view the effects of venous pressure on abdominal organ venous flow. An application of this is the Venous Excess Ultrasound Score (VExUS) (Rola, et al. Ultrasound J. 2021;13[1]:32). VExUS uses IVC diameter and pulse wave doppler waveforms from the hepatic, portal, and renal veins to grade venous congestion from none to severe. Studies demonstrate an association between venous congestion and renal dysfunction in cardiac surgery (Beaubien-Souligny, et al. Ultrasound J. 2020;12[1]:16) and general ICU patients (Spiegel, et al. Crit Care. 2020;24[1]:615).
This practice of identifying venous congestion and avoiding over-resuscitation could improve patient care. However, acquiring quality images and waveforms may prove to be difficult, and interpretation may be confounded by other disease states such as cirrhosis. Though it is postulated that removing fluid could be beneficial to patients with high VExUS scores, this has yet to be proven and may be difficult to prove. While the score estimates volume status well, the source of venous congestion is not identified such that it should be used as a clinical supplement to other data.
VExUS has a strong physiologic basis, and early clinical experience indicates a strong role in improving assessment of venous congestion, an important aspect of volume status. This is an area of ongoing research to ensure appropriate and effective use.
Kyle Swartz, DO
Steven Fox, MD
John Levasseur, DO
Ultrasound & Chest Imaging Section
VExUS scan: The missing piece of hemodynamic puzzle?
Volume status and tailoring the correct level of fluid resuscitation is challenging for the intensivist. Determining “fluid overload,” especially in the setting of acute kidney injury, can be difficult. While a Swan-Ganz catheter, central venous pressure, or inferior vena cava (IVC) ultrasound measurement can suggest elevated right atrial pressure, the effect on organ level hemodynamics is unknown.
Abdominal venous Doppler is a method to view the effects of venous pressure on abdominal organ venous flow. An application of this is the Venous Excess Ultrasound Score (VExUS) (Rola, et al. Ultrasound J. 2021;13[1]:32). VExUS uses IVC diameter and pulse wave doppler waveforms from the hepatic, portal, and renal veins to grade venous congestion from none to severe. Studies demonstrate an association between venous congestion and renal dysfunction in cardiac surgery (Beaubien-Souligny, et al. Ultrasound J. 2020;12[1]:16) and general ICU patients (Spiegel, et al. Crit Care. 2020;24[1]:615).
This practice of identifying venous congestion and avoiding over-resuscitation could improve patient care. However, acquiring quality images and waveforms may prove to be difficult, and interpretation may be confounded by other disease states such as cirrhosis. Though it is postulated that removing fluid could be beneficial to patients with high VExUS scores, this has yet to be proven and may be difficult to prove. While the score estimates volume status well, the source of venous congestion is not identified such that it should be used as a clinical supplement to other data.
VExUS has a strong physiologic basis, and early clinical experience indicates a strong role in improving assessment of venous congestion, an important aspect of volume status. This is an area of ongoing research to ensure appropriate and effective use.
Kyle Swartz, DO
Steven Fox, MD
John Levasseur, DO
Critical Care Network
Sepsis/Shock Section
Fluid Resuscitation – Back to BaSICS
The age-old debate regarding the appropriate timing, volume, and type of fluid resuscitation for patients in septic shock rages on – or does it? In October 2021, the Surviving Sepsis Campaign published updated guidelines for the management of sepsis. One of the biggest changes from prior versions was downgrading the recommendation for an initial 30mL/kg bolus of IV crystalloid for the initial resuscitation of a patient in septic shock to a suggestion, based on dynamic measures to assess individual patients’ fluid balance (Evans, et al. Crit Care Med. 2021;49[11]:e1063-e1143).
Traditionally, 0.9% saline had been the resuscitative fluid of choice in sepsis. But it has a propensity to cause physiologic derangements such as hyperchloremic metabolic acidosis, renal afferent vasoconstriction, and reduced glomerular filtration rate – not to mention, can be a signal for possibly increased mortality, as seen in the SMART trial (Semler, et al. N Engl J Med. 2018;378[9]:829-839). Normal saline had subsequently fallen from grace in favor of balanced crystalloids such as Lactated Ringer’s and Plasma-Lyte. However, the recent PLUS and BaSICS trials showed no significant difference in 90-day mortality or secondary outcomes of acute kidney injury, need for renal replacement therapy, or ICU mortality (Finfer, et al. N Engl J Med. 2022;386[9]:815-826; Zampieri, et al. JAMA. 2021;326[9]:818-829). While these are large randomized controlled trials, a major weakness is the administration of uncontrolled resuscitative fluids prior to randomization and even postenrollment, which may have biased results.
Ultimately, does the choice between salt water or balanced crystalloids matter? Despite the limitations in the newest trials, probably less than the timely administration of antibiotics and pressors, unless your patient also has a traumatic TBI – then go with the saline. But, in the everlasting quest for medical excellence, choosing the balanced fluid that causes the least physiologic derangement seems to make the most sense.
LCDR Meredith Olsen, MD, USN
Ankita Agarwal, MD
The views expressed are those of the authors and do not reflect the official policy or position of the U.S. Navy, Department of Defense, or the U.S. Government.
Sepsis/Shock Section
Fluid Resuscitation – Back to BaSICS
The age-old debate regarding the appropriate timing, volume, and type of fluid resuscitation for patients in septic shock rages on – or does it? In October 2021, the Surviving Sepsis Campaign published updated guidelines for the management of sepsis. One of the biggest changes from prior versions was downgrading the recommendation for an initial 30mL/kg bolus of IV crystalloid for the initial resuscitation of a patient in septic shock to a suggestion, based on dynamic measures to assess individual patients’ fluid balance (Evans, et al. Crit Care Med. 2021;49[11]:e1063-e1143).
Traditionally, 0.9% saline had been the resuscitative fluid of choice in sepsis. But it has a propensity to cause physiologic derangements such as hyperchloremic metabolic acidosis, renal afferent vasoconstriction, and reduced glomerular filtration rate – not to mention, can be a signal for possibly increased mortality, as seen in the SMART trial (Semler, et al. N Engl J Med. 2018;378[9]:829-839). Normal saline had subsequently fallen from grace in favor of balanced crystalloids such as Lactated Ringer’s and Plasma-Lyte. However, the recent PLUS and BaSICS trials showed no significant difference in 90-day mortality or secondary outcomes of acute kidney injury, need for renal replacement therapy, or ICU mortality (Finfer, et al. N Engl J Med. 2022;386[9]:815-826; Zampieri, et al. JAMA. 2021;326[9]:818-829). While these are large randomized controlled trials, a major weakness is the administration of uncontrolled resuscitative fluids prior to randomization and even postenrollment, which may have biased results.
Ultimately, does the choice between salt water or balanced crystalloids matter? Despite the limitations in the newest trials, probably less than the timely administration of antibiotics and pressors, unless your patient also has a traumatic TBI – then go with the saline. But, in the everlasting quest for medical excellence, choosing the balanced fluid that causes the least physiologic derangement seems to make the most sense.
LCDR Meredith Olsen, MD, USN
Ankita Agarwal, MD
The views expressed are those of the authors and do not reflect the official policy or position of the U.S. Navy, Department of Defense, or the U.S. Government.
Sepsis/Shock Section
Fluid Resuscitation – Back to BaSICS
The age-old debate regarding the appropriate timing, volume, and type of fluid resuscitation for patients in septic shock rages on – or does it? In October 2021, the Surviving Sepsis Campaign published updated guidelines for the management of sepsis. One of the biggest changes from prior versions was downgrading the recommendation for an initial 30mL/kg bolus of IV crystalloid for the initial resuscitation of a patient in septic shock to a suggestion, based on dynamic measures to assess individual patients’ fluid balance (Evans, et al. Crit Care Med. 2021;49[11]:e1063-e1143).
Traditionally, 0.9% saline had been the resuscitative fluid of choice in sepsis. But it has a propensity to cause physiologic derangements such as hyperchloremic metabolic acidosis, renal afferent vasoconstriction, and reduced glomerular filtration rate – not to mention, can be a signal for possibly increased mortality, as seen in the SMART trial (Semler, et al. N Engl J Med. 2018;378[9]:829-839). Normal saline had subsequently fallen from grace in favor of balanced crystalloids such as Lactated Ringer’s and Plasma-Lyte. However, the recent PLUS and BaSICS trials showed no significant difference in 90-day mortality or secondary outcomes of acute kidney injury, need for renal replacement therapy, or ICU mortality (Finfer, et al. N Engl J Med. 2022;386[9]:815-826; Zampieri, et al. JAMA. 2021;326[9]:818-829). While these are large randomized controlled trials, a major weakness is the administration of uncontrolled resuscitative fluids prior to randomization and even postenrollment, which may have biased results.
Ultimately, does the choice between salt water or balanced crystalloids matter? Despite the limitations in the newest trials, probably less than the timely administration of antibiotics and pressors, unless your patient also has a traumatic TBI – then go with the saline. But, in the everlasting quest for medical excellence, choosing the balanced fluid that causes the least physiologic derangement seems to make the most sense.
LCDR Meredith Olsen, MD, USN
Ankita Agarwal, MD
The views expressed are those of the authors and do not reflect the official policy or position of the U.S. Navy, Department of Defense, or the U.S. Government.
Breaking the itch-scratch cycle with mindfulness
Apple A. Bodemer, MD, a dermatologist at the University of Wisconsin, Madison, teaches patients how to breathe mindfully. So does Kathy Farah, MD, an integrative family physician who practices in Roberts, Wis.
, they said at the annual Integrative Dermatology Symposium.
“As with any integrative modality, if it’s safe and effective, then let’s use it,” Dr. Farah said in a presentation on the mind-body approach to pain and itch.
“A breathwork session can literally take 1 minute,” said Dr. Bodemer, associate professor of dermatology at the University of Wisconsin and director of an integrative dermatology clinic. Dr. Bodemer, who completed a fellowship in integrative medicine at the Andrew Weil Center for Integrative Medicine at the University of Arizona and sits on the American Board of Integrative Medicine, spoke on a mindfulness panel at the meeting.
Her favorite breathing practice is the “4-7-8” breath taught by Andrew Weil, MD, founder and director of the center. This involves inhaling through the nose for a count of 4, holding for 7, and exhaling through the mouth for a count of 8. “It doesn’t matter how slow or fast, it’s the tempo that matters ... On exhale, squeeze your abs in to engage your core and get air out of your lungs as much as you can,” she said, advising a cycle of three at a time.
A technique known as “square breathing” (breath in 4, hold for 4, breath out for 4, hold for 4) is another helpful technique to “reset the nervous system” said Dr. Farah, who worked for many years in a children’s hospital. With children, she said, “I often do five finger breathing.”
For five finger breathing, the children spread their fingers apart in front of them or on the ground and use the pointer finger of the opposite hand to trace each finger, inhaling while tracing upward, and exhaling while tracing down.
Dr. Farah, associate clinical director of The Center for Mind-Body Medicine in Washington, DC, said her commitment to mindfulness was influenced by a “seminal” study published over 20 years ago showing that patients with moderate to severe psoriasis who used a meditation-based, audiotape-guided stress reduction intervention during phototherapy sessions had more rapid resolution of psoriatic lesions than did patients who didn’t use the mindfulness exercise.
Among more recent findings: A cross-sectional study of 120 adult dermatology patients, published in the British Journal of Dermatology in 2016, assessed skin shame, social anxiety, anxiety, depression, dermatological quality of life, and levels of mindfulness, and found that higher levels of mindfulness were associated with lower levels of psychosocial distress.
Another cross-sectional questionnaire study looked at mindfulness and “itch catastrophizing” in 155 adult patients with atopic dermatitis. Higher levels of a specific facet of mindfulness termed “acting with awareness” were associated with lower levels of itch catastrophizing, the researchers found. “Catastrophizing is a negative way of thinking, this itching will never stop,” Dr. Farah explained. The study shows that “mindfulness can actually help reduce some of the automatic scratching and response to itch. So it’s a great adjunct to pharmaceuticals.”
Affirmations – phrases and statements that are repeated to oneself to help challenge negative thoughts – can also help reverse itch catastrophizing. Statements such as “I can breathe through this feeling of itching,” or “I can move to feel comfortable and relaxed” encourage positive change, she said.
“I teach [mindfulness skills like breathing] a lot, without any expectations. I’ll say ‘give it a try and see what you think.’ If patients feel even a micron better, then they’re invested” and can then find numerous tools online, Dr. Farah said. “Can I do this [in a busy schedule] with every patient? Absolutely not. But can I do it with every 10th patient? Maybe.”
Dr. Bodemer’s experience has shown her that “breathing with your patient builds rapport,” she said. “There’s something very powerful in that in terms of building trust. ... I’ll just do it [during a visit, to show them] and almost always, patients start breathing with me, with an invitation or without.”
For her own health, 4-7-8 breathing has “been a gateway to meditation and deeper practices,” she said. “But even without going very deep, it has a long history of being able to modulate the stress response. It’s the parasympathetic-sympathetic rebalancing I’m interested in.”
Mindful breathing and other mind-body practices also can be helpful for parents of children with eczema, she and Dr. Farah said.
Dr. Bodemer and Dr. Farah reported no financial relationships to disclose.
Apple A. Bodemer, MD, a dermatologist at the University of Wisconsin, Madison, teaches patients how to breathe mindfully. So does Kathy Farah, MD, an integrative family physician who practices in Roberts, Wis.
, they said at the annual Integrative Dermatology Symposium.
“As with any integrative modality, if it’s safe and effective, then let’s use it,” Dr. Farah said in a presentation on the mind-body approach to pain and itch.
“A breathwork session can literally take 1 minute,” said Dr. Bodemer, associate professor of dermatology at the University of Wisconsin and director of an integrative dermatology clinic. Dr. Bodemer, who completed a fellowship in integrative medicine at the Andrew Weil Center for Integrative Medicine at the University of Arizona and sits on the American Board of Integrative Medicine, spoke on a mindfulness panel at the meeting.
Her favorite breathing practice is the “4-7-8” breath taught by Andrew Weil, MD, founder and director of the center. This involves inhaling through the nose for a count of 4, holding for 7, and exhaling through the mouth for a count of 8. “It doesn’t matter how slow or fast, it’s the tempo that matters ... On exhale, squeeze your abs in to engage your core and get air out of your lungs as much as you can,” she said, advising a cycle of three at a time.
A technique known as “square breathing” (breath in 4, hold for 4, breath out for 4, hold for 4) is another helpful technique to “reset the nervous system” said Dr. Farah, who worked for many years in a children’s hospital. With children, she said, “I often do five finger breathing.”
For five finger breathing, the children spread their fingers apart in front of them or on the ground and use the pointer finger of the opposite hand to trace each finger, inhaling while tracing upward, and exhaling while tracing down.
Dr. Farah, associate clinical director of The Center for Mind-Body Medicine in Washington, DC, said her commitment to mindfulness was influenced by a “seminal” study published over 20 years ago showing that patients with moderate to severe psoriasis who used a meditation-based, audiotape-guided stress reduction intervention during phototherapy sessions had more rapid resolution of psoriatic lesions than did patients who didn’t use the mindfulness exercise.
Among more recent findings: A cross-sectional study of 120 adult dermatology patients, published in the British Journal of Dermatology in 2016, assessed skin shame, social anxiety, anxiety, depression, dermatological quality of life, and levels of mindfulness, and found that higher levels of mindfulness were associated with lower levels of psychosocial distress.
Another cross-sectional questionnaire study looked at mindfulness and “itch catastrophizing” in 155 adult patients with atopic dermatitis. Higher levels of a specific facet of mindfulness termed “acting with awareness” were associated with lower levels of itch catastrophizing, the researchers found. “Catastrophizing is a negative way of thinking, this itching will never stop,” Dr. Farah explained. The study shows that “mindfulness can actually help reduce some of the automatic scratching and response to itch. So it’s a great adjunct to pharmaceuticals.”
Affirmations – phrases and statements that are repeated to oneself to help challenge negative thoughts – can also help reverse itch catastrophizing. Statements such as “I can breathe through this feeling of itching,” or “I can move to feel comfortable and relaxed” encourage positive change, she said.
“I teach [mindfulness skills like breathing] a lot, without any expectations. I’ll say ‘give it a try and see what you think.’ If patients feel even a micron better, then they’re invested” and can then find numerous tools online, Dr. Farah said. “Can I do this [in a busy schedule] with every patient? Absolutely not. But can I do it with every 10th patient? Maybe.”
Dr. Bodemer’s experience has shown her that “breathing with your patient builds rapport,” she said. “There’s something very powerful in that in terms of building trust. ... I’ll just do it [during a visit, to show them] and almost always, patients start breathing with me, with an invitation or without.”
For her own health, 4-7-8 breathing has “been a gateway to meditation and deeper practices,” she said. “But even without going very deep, it has a long history of being able to modulate the stress response. It’s the parasympathetic-sympathetic rebalancing I’m interested in.”
Mindful breathing and other mind-body practices also can be helpful for parents of children with eczema, she and Dr. Farah said.
Dr. Bodemer and Dr. Farah reported no financial relationships to disclose.
Apple A. Bodemer, MD, a dermatologist at the University of Wisconsin, Madison, teaches patients how to breathe mindfully. So does Kathy Farah, MD, an integrative family physician who practices in Roberts, Wis.
, they said at the annual Integrative Dermatology Symposium.
“As with any integrative modality, if it’s safe and effective, then let’s use it,” Dr. Farah said in a presentation on the mind-body approach to pain and itch.
“A breathwork session can literally take 1 minute,” said Dr. Bodemer, associate professor of dermatology at the University of Wisconsin and director of an integrative dermatology clinic. Dr. Bodemer, who completed a fellowship in integrative medicine at the Andrew Weil Center for Integrative Medicine at the University of Arizona and sits on the American Board of Integrative Medicine, spoke on a mindfulness panel at the meeting.
Her favorite breathing practice is the “4-7-8” breath taught by Andrew Weil, MD, founder and director of the center. This involves inhaling through the nose for a count of 4, holding for 7, and exhaling through the mouth for a count of 8. “It doesn’t matter how slow or fast, it’s the tempo that matters ... On exhale, squeeze your abs in to engage your core and get air out of your lungs as much as you can,” she said, advising a cycle of three at a time.
A technique known as “square breathing” (breath in 4, hold for 4, breath out for 4, hold for 4) is another helpful technique to “reset the nervous system” said Dr. Farah, who worked for many years in a children’s hospital. With children, she said, “I often do five finger breathing.”
For five finger breathing, the children spread their fingers apart in front of them or on the ground and use the pointer finger of the opposite hand to trace each finger, inhaling while tracing upward, and exhaling while tracing down.
Dr. Farah, associate clinical director of The Center for Mind-Body Medicine in Washington, DC, said her commitment to mindfulness was influenced by a “seminal” study published over 20 years ago showing that patients with moderate to severe psoriasis who used a meditation-based, audiotape-guided stress reduction intervention during phototherapy sessions had more rapid resolution of psoriatic lesions than did patients who didn’t use the mindfulness exercise.
Among more recent findings: A cross-sectional study of 120 adult dermatology patients, published in the British Journal of Dermatology in 2016, assessed skin shame, social anxiety, anxiety, depression, dermatological quality of life, and levels of mindfulness, and found that higher levels of mindfulness were associated with lower levels of psychosocial distress.
Another cross-sectional questionnaire study looked at mindfulness and “itch catastrophizing” in 155 adult patients with atopic dermatitis. Higher levels of a specific facet of mindfulness termed “acting with awareness” were associated with lower levels of itch catastrophizing, the researchers found. “Catastrophizing is a negative way of thinking, this itching will never stop,” Dr. Farah explained. The study shows that “mindfulness can actually help reduce some of the automatic scratching and response to itch. So it’s a great adjunct to pharmaceuticals.”
Affirmations – phrases and statements that are repeated to oneself to help challenge negative thoughts – can also help reverse itch catastrophizing. Statements such as “I can breathe through this feeling of itching,” or “I can move to feel comfortable and relaxed” encourage positive change, she said.
“I teach [mindfulness skills like breathing] a lot, without any expectations. I’ll say ‘give it a try and see what you think.’ If patients feel even a micron better, then they’re invested” and can then find numerous tools online, Dr. Farah said. “Can I do this [in a busy schedule] with every patient? Absolutely not. But can I do it with every 10th patient? Maybe.”
Dr. Bodemer’s experience has shown her that “breathing with your patient builds rapport,” she said. “There’s something very powerful in that in terms of building trust. ... I’ll just do it [during a visit, to show them] and almost always, patients start breathing with me, with an invitation or without.”
For her own health, 4-7-8 breathing has “been a gateway to meditation and deeper practices,” she said. “But even without going very deep, it has a long history of being able to modulate the stress response. It’s the parasympathetic-sympathetic rebalancing I’m interested in.”
Mindful breathing and other mind-body practices also can be helpful for parents of children with eczema, she and Dr. Farah said.
Dr. Bodemer and Dr. Farah reported no financial relationships to disclose.
FROM IDS 2022
Test strips ID fetal tissue in vaginal blood
A rapid test strip can accurately identify embryonic or fetal tissue in vaginal blood at the bedside, say authors of a paper published in Obstetrics and Gynecology.
The strip, called the ROM Plus test, can detect alpha-fetoprotein (AFP) and insulin-like growth factor–binding protein 1 (IGFBP-1) to identify the presence of the tissue, researchers say.
A positive test could help diagnose miscarriage and rule out ectopic pregnancy.
The ROM Plus test was originally created for diagnosing rupture of amniotic membranes and has been approved by the Food and Drug Administration. This study describes an off-label use of the test.
Lead author Michelle Volovsky, MD, of the department of obstetrics and gynecology at Maimonides Medical Center in Brooklyn, N.Y., said that in the current legal climate for abortion care, the test could have an additional use for women having vaginal bleeding.
“This test could be used as evidence to confirm that a miscarriage has occurred, and hence, a D&C (dilation and curettage) procedure in that case is not an induced abortion of a viable pregnancy,” Dr. Volovsky said.
Women in study
Three groups of reproductive-age women (totaling 90) were included in the study.
One was a negative control group consisting of nonpregnant women undergoing D&C or experiencing vaginal bleeding (n = 23). The positive control group of women had confirmed intrauterine pregnancy undergoing D&C (n = 31), and the third group was a study group of pregnant women with first-trimester bleeding (n = 36). Twelve women in the study group had confirmed ectopic pregnancies.
High sensitivity and specificity
Overall, 47 women had confirmed embryonic or fetal tissue in vaginal or uterine blood samples. The test strip was accurately positive in 45 of those 47 cases for a test sensitivity of 95.7%. The other 43 had confirmed absence of embryonic or fetal tissue in their vaginal or uterine blood samples.
The test had high specificity as well. “In the absence of embryonic or fetal tissue, such as vaginal blood sampled in cases of ectopic pregnancy, threatened or complete miscarriage, or nonpregnant individuals, the test strip had a specificity of 97.7% for obtaining a negative result,” the authors wrote.
The researchers noted that the high sensitivity and specificity were seen as all tests were performed in real-time, common clinical scenarios encountered in a high-volume, urban ob.gyn. unit.
First-trimester bleeding can be common
First-trimester bleeding occurs in 20%-40% of pregnancies and results in almost 500,000 emergency department visits in the United States every year, the authors wrote.
The most common causes include threatened miscarriage, but more serious etiologies include ectopic pregnancy.
Because criteria often are not met for ectopic pregnancy, many women are told they have a pregnancy of unknown location, which can lead to extensive and expensive follow-up.
“The current study was designed to offer a simple diagnostic alternative that does not require the use of an automated laboratory analyzer,” the authors wrote.
The test could be used by patients with confirmed intrauterine pregnancies at home – a highly desirable feature for people hesitant to come into medical offices or who live in remote areas, they noted.
Questions about test’s use
Lauren Thaxton, MD, assistant professor in the department of women’s health at the University of Texas at Austin, told this publication she sees the ease of use by patients at home as the biggest benefit of the test strips.
She said she’s not sure they would add much benefit otherwise because “we already have a pretty great way of identifying pregnancy tissue by floating the products of conception.”
She said the traditional “floating products” method is very inexpensive, involving a pan and strainer, and may be more comprehensive in that it can determine whether a miscarriage is finished.
She also wonders whether in the current legal climate of abortion laws, the test could be used not only to prove that an abortion didn’t happen but used as evidence the opposite way to criminalize abortion.
It’s unfortunate that we are evaluating new technology as ‘could this cause more harm than good?’ But I think it would be wrong not to recognize the long history of criminalization of abortion as well as the current reproductive health and policy climate,” Dr. Thaxton said.
Coauthors Amir Mor, MD, PhD, and Hugh Taylor, MD, hold U.S. patent rights related to the methods described in this article. Coauthor David Seifer, MD, received payment from the Women’s Integrated Network and Rutgers Medical School. In this article the authors describe off-label use of the ROM Plus test kit, produced by Laborie USA. This device was used to test vaginal blood for the presence of embryonic or fetal products. The other authors did not report any potential conflicts of interest. Dr. Thaxton reports no relevant financial relationships.
A rapid test strip can accurately identify embryonic or fetal tissue in vaginal blood at the bedside, say authors of a paper published in Obstetrics and Gynecology.
The strip, called the ROM Plus test, can detect alpha-fetoprotein (AFP) and insulin-like growth factor–binding protein 1 (IGFBP-1) to identify the presence of the tissue, researchers say.
A positive test could help diagnose miscarriage and rule out ectopic pregnancy.
The ROM Plus test was originally created for diagnosing rupture of amniotic membranes and has been approved by the Food and Drug Administration. This study describes an off-label use of the test.
Lead author Michelle Volovsky, MD, of the department of obstetrics and gynecology at Maimonides Medical Center in Brooklyn, N.Y., said that in the current legal climate for abortion care, the test could have an additional use for women having vaginal bleeding.
“This test could be used as evidence to confirm that a miscarriage has occurred, and hence, a D&C (dilation and curettage) procedure in that case is not an induced abortion of a viable pregnancy,” Dr. Volovsky said.
Women in study
Three groups of reproductive-age women (totaling 90) were included in the study.
One was a negative control group consisting of nonpregnant women undergoing D&C or experiencing vaginal bleeding (n = 23). The positive control group of women had confirmed intrauterine pregnancy undergoing D&C (n = 31), and the third group was a study group of pregnant women with first-trimester bleeding (n = 36). Twelve women in the study group had confirmed ectopic pregnancies.
High sensitivity and specificity
Overall, 47 women had confirmed embryonic or fetal tissue in vaginal or uterine blood samples. The test strip was accurately positive in 45 of those 47 cases for a test sensitivity of 95.7%. The other 43 had confirmed absence of embryonic or fetal tissue in their vaginal or uterine blood samples.
The test had high specificity as well. “In the absence of embryonic or fetal tissue, such as vaginal blood sampled in cases of ectopic pregnancy, threatened or complete miscarriage, or nonpregnant individuals, the test strip had a specificity of 97.7% for obtaining a negative result,” the authors wrote.
The researchers noted that the high sensitivity and specificity were seen as all tests were performed in real-time, common clinical scenarios encountered in a high-volume, urban ob.gyn. unit.
First-trimester bleeding can be common
First-trimester bleeding occurs in 20%-40% of pregnancies and results in almost 500,000 emergency department visits in the United States every year, the authors wrote.
The most common causes include threatened miscarriage, but more serious etiologies include ectopic pregnancy.
Because criteria often are not met for ectopic pregnancy, many women are told they have a pregnancy of unknown location, which can lead to extensive and expensive follow-up.
“The current study was designed to offer a simple diagnostic alternative that does not require the use of an automated laboratory analyzer,” the authors wrote.
The test could be used by patients with confirmed intrauterine pregnancies at home – a highly desirable feature for people hesitant to come into medical offices or who live in remote areas, they noted.
Questions about test’s use
Lauren Thaxton, MD, assistant professor in the department of women’s health at the University of Texas at Austin, told this publication she sees the ease of use by patients at home as the biggest benefit of the test strips.
She said she’s not sure they would add much benefit otherwise because “we already have a pretty great way of identifying pregnancy tissue by floating the products of conception.”
She said the traditional “floating products” method is very inexpensive, involving a pan and strainer, and may be more comprehensive in that it can determine whether a miscarriage is finished.
She also wonders whether in the current legal climate of abortion laws, the test could be used not only to prove that an abortion didn’t happen but used as evidence the opposite way to criminalize abortion.
It’s unfortunate that we are evaluating new technology as ‘could this cause more harm than good?’ But I think it would be wrong not to recognize the long history of criminalization of abortion as well as the current reproductive health and policy climate,” Dr. Thaxton said.
Coauthors Amir Mor, MD, PhD, and Hugh Taylor, MD, hold U.S. patent rights related to the methods described in this article. Coauthor David Seifer, MD, received payment from the Women’s Integrated Network and Rutgers Medical School. In this article the authors describe off-label use of the ROM Plus test kit, produced by Laborie USA. This device was used to test vaginal blood for the presence of embryonic or fetal products. The other authors did not report any potential conflicts of interest. Dr. Thaxton reports no relevant financial relationships.
A rapid test strip can accurately identify embryonic or fetal tissue in vaginal blood at the bedside, say authors of a paper published in Obstetrics and Gynecology.
The strip, called the ROM Plus test, can detect alpha-fetoprotein (AFP) and insulin-like growth factor–binding protein 1 (IGFBP-1) to identify the presence of the tissue, researchers say.
A positive test could help diagnose miscarriage and rule out ectopic pregnancy.
The ROM Plus test was originally created for diagnosing rupture of amniotic membranes and has been approved by the Food and Drug Administration. This study describes an off-label use of the test.
Lead author Michelle Volovsky, MD, of the department of obstetrics and gynecology at Maimonides Medical Center in Brooklyn, N.Y., said that in the current legal climate for abortion care, the test could have an additional use for women having vaginal bleeding.
“This test could be used as evidence to confirm that a miscarriage has occurred, and hence, a D&C (dilation and curettage) procedure in that case is not an induced abortion of a viable pregnancy,” Dr. Volovsky said.
Women in study
Three groups of reproductive-age women (totaling 90) were included in the study.
One was a negative control group consisting of nonpregnant women undergoing D&C or experiencing vaginal bleeding (n = 23). The positive control group of women had confirmed intrauterine pregnancy undergoing D&C (n = 31), and the third group was a study group of pregnant women with first-trimester bleeding (n = 36). Twelve women in the study group had confirmed ectopic pregnancies.
High sensitivity and specificity
Overall, 47 women had confirmed embryonic or fetal tissue in vaginal or uterine blood samples. The test strip was accurately positive in 45 of those 47 cases for a test sensitivity of 95.7%. The other 43 had confirmed absence of embryonic or fetal tissue in their vaginal or uterine blood samples.
The test had high specificity as well. “In the absence of embryonic or fetal tissue, such as vaginal blood sampled in cases of ectopic pregnancy, threatened or complete miscarriage, or nonpregnant individuals, the test strip had a specificity of 97.7% for obtaining a negative result,” the authors wrote.
The researchers noted that the high sensitivity and specificity were seen as all tests were performed in real-time, common clinical scenarios encountered in a high-volume, urban ob.gyn. unit.
First-trimester bleeding can be common
First-trimester bleeding occurs in 20%-40% of pregnancies and results in almost 500,000 emergency department visits in the United States every year, the authors wrote.
The most common causes include threatened miscarriage, but more serious etiologies include ectopic pregnancy.
Because criteria often are not met for ectopic pregnancy, many women are told they have a pregnancy of unknown location, which can lead to extensive and expensive follow-up.
“The current study was designed to offer a simple diagnostic alternative that does not require the use of an automated laboratory analyzer,” the authors wrote.
The test could be used by patients with confirmed intrauterine pregnancies at home – a highly desirable feature for people hesitant to come into medical offices or who live in remote areas, they noted.
Questions about test’s use
Lauren Thaxton, MD, assistant professor in the department of women’s health at the University of Texas at Austin, told this publication she sees the ease of use by patients at home as the biggest benefit of the test strips.
She said she’s not sure they would add much benefit otherwise because “we already have a pretty great way of identifying pregnancy tissue by floating the products of conception.”
She said the traditional “floating products” method is very inexpensive, involving a pan and strainer, and may be more comprehensive in that it can determine whether a miscarriage is finished.
She also wonders whether in the current legal climate of abortion laws, the test could be used not only to prove that an abortion didn’t happen but used as evidence the opposite way to criminalize abortion.
It’s unfortunate that we are evaluating new technology as ‘could this cause more harm than good?’ But I think it would be wrong not to recognize the long history of criminalization of abortion as well as the current reproductive health and policy climate,” Dr. Thaxton said.
Coauthors Amir Mor, MD, PhD, and Hugh Taylor, MD, hold U.S. patent rights related to the methods described in this article. Coauthor David Seifer, MD, received payment from the Women’s Integrated Network and Rutgers Medical School. In this article the authors describe off-label use of the ROM Plus test kit, produced by Laborie USA. This device was used to test vaginal blood for the presence of embryonic or fetal products. The other authors did not report any potential conflicts of interest. Dr. Thaxton reports no relevant financial relationships.
FROM OBSTETRICS AND GYNECOLOGY
Treating deadly disease in utero called ‘revolutionary’ advance
The successful treatment of Pompe disease in utero for the first time may be the start of a new chapter for fetal therapy, researchers said.
A report published online in the New England Journal of Medicine describes in utero enzyme-replacement therapy (ERT) for infantile-onset Pompe disease.
The patient, now a toddler, is thriving, according to the researchers. Her parents previously had children with the same disorder who died.
“This treatment expands the repertoire of fetal therapies in a new direction,” Tippi MacKenzie, MD, a pediatric surgeon with University of California, San Francisco, Benioff Children’s Hospitals and a coauthor of the report, said in a news release. “As new treatments become available for children with genetic conditions, we are developing protocols to apply them before birth.”
Dr. MacKenzie codirects the University of California, San Francisco’s center for maternal-fetal precision medicine and directs the Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research.
Pompe disease is caused by mutations in a gene that makes acid alpha-glucosidase. With limited amounts of this enzyme, dangerous amounts of glycogen accumulate in the body. Babies with infantile-onset disease typically have enlarged hearts and die by age 2 years.
The condition, which occurs in an estimated 1 in 40,000 births, is one of several early-onset lysosomal storage disorders. Patients with these diseases “are ideal candidates for prenatal therapy because organ damage starts in utero,” the researchers said.
Newborn screening can lead to early initiation of treatment with recombinant enzymes, “but this strategy does not completely prevent irreversible organ damage,” the authors said.
The patient in the new report received six prenatal ERT treatments at the Ottawa Hospital and is receiving postnatal enzyme therapy at CHEO, a pediatric hospital and research center in Ottawa.
Investigators administered alglucosidase alfa through the umbilical vein. They delivered the first infusion to the fetus at 24 weeks 5 days of gestation. They continued providing infusions at 2-week intervals through 34 weeks 5 days of gestation.
She is doing well at age 16 months, with normal cardiac and motor function, and is meeting developmental milestones, according to the news release.
The successful treatment involved collaboration among the University of California, San Francisco, where researchers are conducting a clinical trial of this treatment approach; CHEO and the Ottawa Hospital; and Duke University, Durham, N.C.
Under normal circumstances, the patient’s family would have traveled to Benioff Children’s Hospitals fetal treatment center to participate in the clinical trial, but COVID-19 restrictions led the researchers to deliver the therapy to Ottawa as part of the trial.
The University of California, San Francisco, has received U.S. Food and Drug Administration approval to treat Pompe disease and several other lysosomal storage disorders in utero as part of a phase 1 clinical trial with 10 patients. The other diseases are mucopolysaccharidosis types 1, 2, 4a, 6, and 7; Gaucher disease types 2 and 3; and Wolman disease.
Patients with Pompe disease might typically be diagnosed clinically at age 3-6 months, said study coauthor Paul Harmatz, MD, with the University of California, San Francisco. With newborn screening, the disease might be diagnosed at 1 week. But intervening before birth may be optimal, Dr. Harmatz said.
Fetal treatment appears to be “revolutionary at this point,” Dr. Harmatz said.
The research was supported by a grant from the National Institutes of Health. Sanofi Genzyme provided the enzyme for the patient.
A version of this article first appeared on Medscape.com.
The successful treatment of Pompe disease in utero for the first time may be the start of a new chapter for fetal therapy, researchers said.
A report published online in the New England Journal of Medicine describes in utero enzyme-replacement therapy (ERT) for infantile-onset Pompe disease.
The patient, now a toddler, is thriving, according to the researchers. Her parents previously had children with the same disorder who died.
“This treatment expands the repertoire of fetal therapies in a new direction,” Tippi MacKenzie, MD, a pediatric surgeon with University of California, San Francisco, Benioff Children’s Hospitals and a coauthor of the report, said in a news release. “As new treatments become available for children with genetic conditions, we are developing protocols to apply them before birth.”
Dr. MacKenzie codirects the University of California, San Francisco’s center for maternal-fetal precision medicine and directs the Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research.
Pompe disease is caused by mutations in a gene that makes acid alpha-glucosidase. With limited amounts of this enzyme, dangerous amounts of glycogen accumulate in the body. Babies with infantile-onset disease typically have enlarged hearts and die by age 2 years.
The condition, which occurs in an estimated 1 in 40,000 births, is one of several early-onset lysosomal storage disorders. Patients with these diseases “are ideal candidates for prenatal therapy because organ damage starts in utero,” the researchers said.
Newborn screening can lead to early initiation of treatment with recombinant enzymes, “but this strategy does not completely prevent irreversible organ damage,” the authors said.
The patient in the new report received six prenatal ERT treatments at the Ottawa Hospital and is receiving postnatal enzyme therapy at CHEO, a pediatric hospital and research center in Ottawa.
Investigators administered alglucosidase alfa through the umbilical vein. They delivered the first infusion to the fetus at 24 weeks 5 days of gestation. They continued providing infusions at 2-week intervals through 34 weeks 5 days of gestation.
She is doing well at age 16 months, with normal cardiac and motor function, and is meeting developmental milestones, according to the news release.
The successful treatment involved collaboration among the University of California, San Francisco, where researchers are conducting a clinical trial of this treatment approach; CHEO and the Ottawa Hospital; and Duke University, Durham, N.C.
Under normal circumstances, the patient’s family would have traveled to Benioff Children’s Hospitals fetal treatment center to participate in the clinical trial, but COVID-19 restrictions led the researchers to deliver the therapy to Ottawa as part of the trial.
The University of California, San Francisco, has received U.S. Food and Drug Administration approval to treat Pompe disease and several other lysosomal storage disorders in utero as part of a phase 1 clinical trial with 10 patients. The other diseases are mucopolysaccharidosis types 1, 2, 4a, 6, and 7; Gaucher disease types 2 and 3; and Wolman disease.
Patients with Pompe disease might typically be diagnosed clinically at age 3-6 months, said study coauthor Paul Harmatz, MD, with the University of California, San Francisco. With newborn screening, the disease might be diagnosed at 1 week. But intervening before birth may be optimal, Dr. Harmatz said.
Fetal treatment appears to be “revolutionary at this point,” Dr. Harmatz said.
The research was supported by a grant from the National Institutes of Health. Sanofi Genzyme provided the enzyme for the patient.
A version of this article first appeared on Medscape.com.
The successful treatment of Pompe disease in utero for the first time may be the start of a new chapter for fetal therapy, researchers said.
A report published online in the New England Journal of Medicine describes in utero enzyme-replacement therapy (ERT) for infantile-onset Pompe disease.
The patient, now a toddler, is thriving, according to the researchers. Her parents previously had children with the same disorder who died.
“This treatment expands the repertoire of fetal therapies in a new direction,” Tippi MacKenzie, MD, a pediatric surgeon with University of California, San Francisco, Benioff Children’s Hospitals and a coauthor of the report, said in a news release. “As new treatments become available for children with genetic conditions, we are developing protocols to apply them before birth.”
Dr. MacKenzie codirects the University of California, San Francisco’s center for maternal-fetal precision medicine and directs the Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research.
Pompe disease is caused by mutations in a gene that makes acid alpha-glucosidase. With limited amounts of this enzyme, dangerous amounts of glycogen accumulate in the body. Babies with infantile-onset disease typically have enlarged hearts and die by age 2 years.
The condition, which occurs in an estimated 1 in 40,000 births, is one of several early-onset lysosomal storage disorders. Patients with these diseases “are ideal candidates for prenatal therapy because organ damage starts in utero,” the researchers said.
Newborn screening can lead to early initiation of treatment with recombinant enzymes, “but this strategy does not completely prevent irreversible organ damage,” the authors said.
The patient in the new report received six prenatal ERT treatments at the Ottawa Hospital and is receiving postnatal enzyme therapy at CHEO, a pediatric hospital and research center in Ottawa.
Investigators administered alglucosidase alfa through the umbilical vein. They delivered the first infusion to the fetus at 24 weeks 5 days of gestation. They continued providing infusions at 2-week intervals through 34 weeks 5 days of gestation.
She is doing well at age 16 months, with normal cardiac and motor function, and is meeting developmental milestones, according to the news release.
The successful treatment involved collaboration among the University of California, San Francisco, where researchers are conducting a clinical trial of this treatment approach; CHEO and the Ottawa Hospital; and Duke University, Durham, N.C.
Under normal circumstances, the patient’s family would have traveled to Benioff Children’s Hospitals fetal treatment center to participate in the clinical trial, but COVID-19 restrictions led the researchers to deliver the therapy to Ottawa as part of the trial.
The University of California, San Francisco, has received U.S. Food and Drug Administration approval to treat Pompe disease and several other lysosomal storage disorders in utero as part of a phase 1 clinical trial with 10 patients. The other diseases are mucopolysaccharidosis types 1, 2, 4a, 6, and 7; Gaucher disease types 2 and 3; and Wolman disease.
Patients with Pompe disease might typically be diagnosed clinically at age 3-6 months, said study coauthor Paul Harmatz, MD, with the University of California, San Francisco. With newborn screening, the disease might be diagnosed at 1 week. But intervening before birth may be optimal, Dr. Harmatz said.
Fetal treatment appears to be “revolutionary at this point,” Dr. Harmatz said.
The research was supported by a grant from the National Institutes of Health. Sanofi Genzyme provided the enzyme for the patient.
A version of this article first appeared on Medscape.com.
Will Congress step up to save primary care?
Primary care and family physicians operate on the front lines of health care, working tirelessly to serve patients and their families. However, many primary care practices are operating on tight margins and cannot sustain additional financial hits. As we continue to navigate a pandemic that has altered our health care landscape, we traveled to Capitol Hill to urge Congress to act on two critical issues: Medicare payment reform and streamlining administrative burden for physicians.
The current Medicare system for compensating physicians jeopardizes access to primary care. Family physicians, along with other primary care clinicians, are facing significant cuts in payments and rising inflation that threaten our ability to care for patients.
Each of us has experienced the effects of this pincer in devastating ways – from the independent clinicians who have been forced to sell their practices to hospitals or large health systems, to the physicians who are retiring early, leaving their practices, or even closing them because they can’t afford to keep their doors open.
Practices also struggle to cover the rising costs of staff wages, leasing space, and purchasing supplies and equipment, leaving little room for innovation or investments to transition into new payment models. Meanwhile, hospitals, skilled nursing facilities, ambulatory surgery centers, and other Medicare providers receive annual payment increases to account for rising costs.
Insufficient Medicare payments also challenge practices that serve many publicly insured patients. If practices cannot cover their expenses, they may be forced to turn away new Medicare and Medicaid patients – something that goes against the core tenets of our health care system.
Fortunately, we have some solutions. We’re asking Congress to pass the Supporting Medicare Providers Act of 2022, which calls for a 4.42% positive adjustment to the Medicare Physician Fee Schedule (MPFS) conversion factor for 2023 to offset the statutory reduction triggered by budget neutrality rules.
We also are calling on lawmakers to end the statutory freeze on annual updates to the MPFS and enact a positive annual update to the conversion factor based on the Medicare Economic Index. This critical relief would stave off the most immediate cuts while giving us more time to work with Congress on comprehensive reforms to the Medicare physician payment system.
As many practices struggle to operate, burnout among primary care physicians has also increased, with research showing that 66% of primary care physicians reported frequent burnout symptoms in 2021. Streamlining prior authorizations – a cumbersome process that requires physicians to obtain preapproval for treatments or tests before providing care to patients, and can risk patients’ access to timely care – is one way to reduce burden and alleviate burnout.
According to the American Medical Association, 82% of physicians report that prior authorization can lead to patients abandoning care, and 93% believe that prior authorization delays access to necessary care.
All of us have had patients whose care has been affected by these delays, including difficulty in getting necessary medications filled or having medical procedures postponed. Moreover, primary care physicians and their staff spend hours each week completing paperwork and communicating with insurers to ensure that their patients can access the treatments and services they need.
That is why we’re urging the Senate to pass the Improving Seniors’ Timely Access to Care Act, which would streamline the prior authorization process in the Medicare Advantage program.
As family physicians, we are in a unique position to help improve our patients’ health and their quality of life. But we can’t do this alone. We need the support of policy makers to make patient health and primary care a national priority.
Dr. Iroku-Malize is a family physician in Long Island, New York, and President of the American Academy of Family Physicians. Dr. Ransone is a family physician in Deltaville, Va., and board chair, immediate past president of the AAFP. Dr. Furr is a family physician in Jackson, Ala., and President-elect of the AAFP. They reported no conflicts of interest.
A version of this article first appeared on Medscape.com.
Primary care and family physicians operate on the front lines of health care, working tirelessly to serve patients and their families. However, many primary care practices are operating on tight margins and cannot sustain additional financial hits. As we continue to navigate a pandemic that has altered our health care landscape, we traveled to Capitol Hill to urge Congress to act on two critical issues: Medicare payment reform and streamlining administrative burden for physicians.
The current Medicare system for compensating physicians jeopardizes access to primary care. Family physicians, along with other primary care clinicians, are facing significant cuts in payments and rising inflation that threaten our ability to care for patients.
Each of us has experienced the effects of this pincer in devastating ways – from the independent clinicians who have been forced to sell their practices to hospitals or large health systems, to the physicians who are retiring early, leaving their practices, or even closing them because they can’t afford to keep their doors open.
Practices also struggle to cover the rising costs of staff wages, leasing space, and purchasing supplies and equipment, leaving little room for innovation or investments to transition into new payment models. Meanwhile, hospitals, skilled nursing facilities, ambulatory surgery centers, and other Medicare providers receive annual payment increases to account for rising costs.
Insufficient Medicare payments also challenge practices that serve many publicly insured patients. If practices cannot cover their expenses, they may be forced to turn away new Medicare and Medicaid patients – something that goes against the core tenets of our health care system.
Fortunately, we have some solutions. We’re asking Congress to pass the Supporting Medicare Providers Act of 2022, which calls for a 4.42% positive adjustment to the Medicare Physician Fee Schedule (MPFS) conversion factor for 2023 to offset the statutory reduction triggered by budget neutrality rules.
We also are calling on lawmakers to end the statutory freeze on annual updates to the MPFS and enact a positive annual update to the conversion factor based on the Medicare Economic Index. This critical relief would stave off the most immediate cuts while giving us more time to work with Congress on comprehensive reforms to the Medicare physician payment system.
As many practices struggle to operate, burnout among primary care physicians has also increased, with research showing that 66% of primary care physicians reported frequent burnout symptoms in 2021. Streamlining prior authorizations – a cumbersome process that requires physicians to obtain preapproval for treatments or tests before providing care to patients, and can risk patients’ access to timely care – is one way to reduce burden and alleviate burnout.
According to the American Medical Association, 82% of physicians report that prior authorization can lead to patients abandoning care, and 93% believe that prior authorization delays access to necessary care.
All of us have had patients whose care has been affected by these delays, including difficulty in getting necessary medications filled or having medical procedures postponed. Moreover, primary care physicians and their staff spend hours each week completing paperwork and communicating with insurers to ensure that their patients can access the treatments and services they need.
That is why we’re urging the Senate to pass the Improving Seniors’ Timely Access to Care Act, which would streamline the prior authorization process in the Medicare Advantage program.
As family physicians, we are in a unique position to help improve our patients’ health and their quality of life. But we can’t do this alone. We need the support of policy makers to make patient health and primary care a national priority.
Dr. Iroku-Malize is a family physician in Long Island, New York, and President of the American Academy of Family Physicians. Dr. Ransone is a family physician in Deltaville, Va., and board chair, immediate past president of the AAFP. Dr. Furr is a family physician in Jackson, Ala., and President-elect of the AAFP. They reported no conflicts of interest.
A version of this article first appeared on Medscape.com.
Primary care and family physicians operate on the front lines of health care, working tirelessly to serve patients and their families. However, many primary care practices are operating on tight margins and cannot sustain additional financial hits. As we continue to navigate a pandemic that has altered our health care landscape, we traveled to Capitol Hill to urge Congress to act on two critical issues: Medicare payment reform and streamlining administrative burden for physicians.
The current Medicare system for compensating physicians jeopardizes access to primary care. Family physicians, along with other primary care clinicians, are facing significant cuts in payments and rising inflation that threaten our ability to care for patients.
Each of us has experienced the effects of this pincer in devastating ways – from the independent clinicians who have been forced to sell their practices to hospitals or large health systems, to the physicians who are retiring early, leaving their practices, or even closing them because they can’t afford to keep their doors open.
Practices also struggle to cover the rising costs of staff wages, leasing space, and purchasing supplies and equipment, leaving little room for innovation or investments to transition into new payment models. Meanwhile, hospitals, skilled nursing facilities, ambulatory surgery centers, and other Medicare providers receive annual payment increases to account for rising costs.
Insufficient Medicare payments also challenge practices that serve many publicly insured patients. If practices cannot cover their expenses, they may be forced to turn away new Medicare and Medicaid patients – something that goes against the core tenets of our health care system.
Fortunately, we have some solutions. We’re asking Congress to pass the Supporting Medicare Providers Act of 2022, which calls for a 4.42% positive adjustment to the Medicare Physician Fee Schedule (MPFS) conversion factor for 2023 to offset the statutory reduction triggered by budget neutrality rules.
We also are calling on lawmakers to end the statutory freeze on annual updates to the MPFS and enact a positive annual update to the conversion factor based on the Medicare Economic Index. This critical relief would stave off the most immediate cuts while giving us more time to work with Congress on comprehensive reforms to the Medicare physician payment system.
As many practices struggle to operate, burnout among primary care physicians has also increased, with research showing that 66% of primary care physicians reported frequent burnout symptoms in 2021. Streamlining prior authorizations – a cumbersome process that requires physicians to obtain preapproval for treatments or tests before providing care to patients, and can risk patients’ access to timely care – is one way to reduce burden and alleviate burnout.
According to the American Medical Association, 82% of physicians report that prior authorization can lead to patients abandoning care, and 93% believe that prior authorization delays access to necessary care.
All of us have had patients whose care has been affected by these delays, including difficulty in getting necessary medications filled or having medical procedures postponed. Moreover, primary care physicians and their staff spend hours each week completing paperwork and communicating with insurers to ensure that their patients can access the treatments and services they need.
That is why we’re urging the Senate to pass the Improving Seniors’ Timely Access to Care Act, which would streamline the prior authorization process in the Medicare Advantage program.
As family physicians, we are in a unique position to help improve our patients’ health and their quality of life. But we can’t do this alone. We need the support of policy makers to make patient health and primary care a national priority.
Dr. Iroku-Malize is a family physician in Long Island, New York, and President of the American Academy of Family Physicians. Dr. Ransone is a family physician in Deltaville, Va., and board chair, immediate past president of the AAFP. Dr. Furr is a family physician in Jackson, Ala., and President-elect of the AAFP. They reported no conflicts of interest.
A version of this article first appeared on Medscape.com.
First-line AFib ablation cuts risk of progression vs. drug therapy
CHICAGO – Early ablation of atrial fibrillation (AFib) reduces the risk of progression, compared with antiarrhythmic therapies, according to results of a multicenter, randomized trial called PROGRESSIVE-AF.
Over 36 months of follow-up, the trial linked early ablation with a reduced risk of persistent AFib (1.9% vs. 7.4%), and in addition, those in the ablation group were less likely to have recurrent atrial tachyarrhythmias of any kind (56.5% vs. 77.2%), reported Jason G. Andrade, MD, at the American Heart Association scientific sessions.
Serving as a long-term extension of the EARLY-AF trial published almost 2 years ago, this trial expands evidence that progressive AFib can be attenuated, a concept that has been debated.
“Can early AFib ablation stop progression?” asked Carina Blomström-Lindqvist, MD, PhD. The invited discussant for the PROGRESSION-AF trial, Dr. Blomström-Lundqvist concluded, “here is another set of data that suggests it can.”
By another set of data, Dr. Blomström-Lindqvist was referring to a previously published multinational study called ATTEST In this study, which involved 29 sites worldwide and compared radiofrequency ablation to antiarrhythmic drug therapy, early ablation also produced a lower risk of persistent AFib at the end of 3 years (2.4% vs. 17.5%; P = .0009).
In the previously published open-label EARLY-AF trial, 303 patients with paroxysmal, untreated AFib were randomized to cryoballoon ablation or antiarrhythmic drugs. The primary endpoint was the first documented recurrence of an atrial tachyarrhythmia between 91 and 365 days. The lower rate following ablation (42.9% vs. 67.8%) represented a more than 50% reduction in risk (hazard ratio, 0.48; P < .001) relative to antiarrhythmic therapy.
In PROGRESSIVE-AF, the same 303 patients were monitored continuously for an additional 24 months with an implanted cardiac monitor programmed with an AFib-detection algorithm. The data from the monitor were obtained daily. Over the final 2 years of the study, office visits were conducted every 6 months.
Tachyarrhythmias represent primary endpoint
In addition to persistent AFib, defined as lasting ≥ 7 days or lasting 48 hours to 7 days but requiring cardioversion for termination, patients in PROGRESSIVE-AF were also monitored for recurrent atrial tachyarrhythmias, AFib burden, quality of life (QOL), and health care utilization, and safety.
The average age was roughly 58 years. Although more than one-third had hypertension, most had no other comorbidities. The authors emphasized that the study population overall was relatively young and healthy.
Those randomized to antiarrhythmic therapy in EARLY-AF/PROGRESSIVE-AF received commonly prescribed therapies titrated to maximally tolerated doses using standardized protocols. At the start of EARLY-AF, flecainide, taken by 65% of patients, was the most commonly used agent, followed by sotalol, propafenone, dronedarone, and amiodarone.
At the end of PROGRESSIVE-AF, the order of the most common therapies did not change relative to EARLY-AF, but only 49% of patients were taking flecainide and 31% were no longer taking any antiarrhythmic therapy.
At the end of 3 years of follow-up in EARLY-AF/PROGRESSIVE-AF, the difference in persistent AFib represented a 75% reduction in favor of early ablation (HR, 0.25; 95% confidence interval, 0.09-0.70).
In those treated with ablation relative to those treated with antiarrhythmic therapy, the lower rate of atrial tachyarrhythmia lasting more than 7 days (1.9% vs. 6.0%) represented a 70% risk reduction (HR, 0.30; 95% CI 0.10-0.93). The protection from cardioversion for atrial tachyarrhythmia lasting between 2 and 7 days in duration (0.6% vs. 4.7%) translated into an 86% relative reduction (HR, 0.14; 95% CI, 0.02-0.85).
The impact on QOL for those randomized to ablation, which was measured with both AFib-specific and generic measures, was meaningful to patients, according to Dr. Andrade, director of the Cardiac Electrophysiology Laboratory, Vancouver General Hospital.
For example, the mean difference in the AF Quality of Life Survey (AFEQT), was 8.0 at 1 year and 7.4 at 3 years in favor of ablation. A change of 5 points in this score is considered to be a clinically meaningful difference, according to Dr. Andrade.
Numerically, the relative risk of emergency room visits and cardioversion were lower in the ablation group, but the differences did not reach statistical significance. However, the lower hazard ratio for hospitalization was significant (HR, 0.31; 95% CI, 0.15-0.66), supporting a reduction in consumption of health care resources.
Ablation found safer than drugs
The rate of adverse events of any kind (11.0% vs. 23.5%) and serious adverse events (4.5% vs. 10.1%) were lower in the ablation group.
There were no differences in major adverse cardiovascular events observed in this period of follow-up, but Dr. Andrade pointed out that follow-up was not long enough to expect differences in these events.
Impressed by the magnitude of the reduction in persistent AFib in a population of relatively young and healthy patients considered to be at a low risk of AFib progression, Dr. Blomström-Lindqvist, a professor of cardiology at the Institution of Medical Science, Uppsala, Sweden, indicated that the data support early ablation as a means to reduce risk of this outcome.
However, she did caution that progressive AFib was observed in a relatively small proportion of patients managed with antiarrhythmic therapy at 3 years, an outcome relevant when discussing treatment options with patients.
The results were published in New England Journal of Medicine simultaneously with Dr. Andrade’s presentation.
Dr. Andrade reports financial relationships with Bayer, Bayliss, Biosense, Bristol-Myers Squibb, Medtronic and Servier. The trial, funded largely by the Canadian government and Canadian professional societies, received additional funding from Bayliss and Medtronic. Dr. Blomström-Lundqvist reports financial relationships with Bayer, Boston Scientific, Cathprint, Medtronic, and Sanofi.
CHICAGO – Early ablation of atrial fibrillation (AFib) reduces the risk of progression, compared with antiarrhythmic therapies, according to results of a multicenter, randomized trial called PROGRESSIVE-AF.
Over 36 months of follow-up, the trial linked early ablation with a reduced risk of persistent AFib (1.9% vs. 7.4%), and in addition, those in the ablation group were less likely to have recurrent atrial tachyarrhythmias of any kind (56.5% vs. 77.2%), reported Jason G. Andrade, MD, at the American Heart Association scientific sessions.
Serving as a long-term extension of the EARLY-AF trial published almost 2 years ago, this trial expands evidence that progressive AFib can be attenuated, a concept that has been debated.
“Can early AFib ablation stop progression?” asked Carina Blomström-Lindqvist, MD, PhD. The invited discussant for the PROGRESSION-AF trial, Dr. Blomström-Lundqvist concluded, “here is another set of data that suggests it can.”
By another set of data, Dr. Blomström-Lindqvist was referring to a previously published multinational study called ATTEST In this study, which involved 29 sites worldwide and compared radiofrequency ablation to antiarrhythmic drug therapy, early ablation also produced a lower risk of persistent AFib at the end of 3 years (2.4% vs. 17.5%; P = .0009).
In the previously published open-label EARLY-AF trial, 303 patients with paroxysmal, untreated AFib were randomized to cryoballoon ablation or antiarrhythmic drugs. The primary endpoint was the first documented recurrence of an atrial tachyarrhythmia between 91 and 365 days. The lower rate following ablation (42.9% vs. 67.8%) represented a more than 50% reduction in risk (hazard ratio, 0.48; P < .001) relative to antiarrhythmic therapy.
In PROGRESSIVE-AF, the same 303 patients were monitored continuously for an additional 24 months with an implanted cardiac monitor programmed with an AFib-detection algorithm. The data from the monitor were obtained daily. Over the final 2 years of the study, office visits were conducted every 6 months.
Tachyarrhythmias represent primary endpoint
In addition to persistent AFib, defined as lasting ≥ 7 days or lasting 48 hours to 7 days but requiring cardioversion for termination, patients in PROGRESSIVE-AF were also monitored for recurrent atrial tachyarrhythmias, AFib burden, quality of life (QOL), and health care utilization, and safety.
The average age was roughly 58 years. Although more than one-third had hypertension, most had no other comorbidities. The authors emphasized that the study population overall was relatively young and healthy.
Those randomized to antiarrhythmic therapy in EARLY-AF/PROGRESSIVE-AF received commonly prescribed therapies titrated to maximally tolerated doses using standardized protocols. At the start of EARLY-AF, flecainide, taken by 65% of patients, was the most commonly used agent, followed by sotalol, propafenone, dronedarone, and amiodarone.
At the end of PROGRESSIVE-AF, the order of the most common therapies did not change relative to EARLY-AF, but only 49% of patients were taking flecainide and 31% were no longer taking any antiarrhythmic therapy.
At the end of 3 years of follow-up in EARLY-AF/PROGRESSIVE-AF, the difference in persistent AFib represented a 75% reduction in favor of early ablation (HR, 0.25; 95% confidence interval, 0.09-0.70).
In those treated with ablation relative to those treated with antiarrhythmic therapy, the lower rate of atrial tachyarrhythmia lasting more than 7 days (1.9% vs. 6.0%) represented a 70% risk reduction (HR, 0.30; 95% CI 0.10-0.93). The protection from cardioversion for atrial tachyarrhythmia lasting between 2 and 7 days in duration (0.6% vs. 4.7%) translated into an 86% relative reduction (HR, 0.14; 95% CI, 0.02-0.85).
The impact on QOL for those randomized to ablation, which was measured with both AFib-specific and generic measures, was meaningful to patients, according to Dr. Andrade, director of the Cardiac Electrophysiology Laboratory, Vancouver General Hospital.
For example, the mean difference in the AF Quality of Life Survey (AFEQT), was 8.0 at 1 year and 7.4 at 3 years in favor of ablation. A change of 5 points in this score is considered to be a clinically meaningful difference, according to Dr. Andrade.
Numerically, the relative risk of emergency room visits and cardioversion were lower in the ablation group, but the differences did not reach statistical significance. However, the lower hazard ratio for hospitalization was significant (HR, 0.31; 95% CI, 0.15-0.66), supporting a reduction in consumption of health care resources.
Ablation found safer than drugs
The rate of adverse events of any kind (11.0% vs. 23.5%) and serious adverse events (4.5% vs. 10.1%) were lower in the ablation group.
There were no differences in major adverse cardiovascular events observed in this period of follow-up, but Dr. Andrade pointed out that follow-up was not long enough to expect differences in these events.
Impressed by the magnitude of the reduction in persistent AFib in a population of relatively young and healthy patients considered to be at a low risk of AFib progression, Dr. Blomström-Lindqvist, a professor of cardiology at the Institution of Medical Science, Uppsala, Sweden, indicated that the data support early ablation as a means to reduce risk of this outcome.
However, she did caution that progressive AFib was observed in a relatively small proportion of patients managed with antiarrhythmic therapy at 3 years, an outcome relevant when discussing treatment options with patients.
The results were published in New England Journal of Medicine simultaneously with Dr. Andrade’s presentation.
Dr. Andrade reports financial relationships with Bayer, Bayliss, Biosense, Bristol-Myers Squibb, Medtronic and Servier. The trial, funded largely by the Canadian government and Canadian professional societies, received additional funding from Bayliss and Medtronic. Dr. Blomström-Lundqvist reports financial relationships with Bayer, Boston Scientific, Cathprint, Medtronic, and Sanofi.
CHICAGO – Early ablation of atrial fibrillation (AFib) reduces the risk of progression, compared with antiarrhythmic therapies, according to results of a multicenter, randomized trial called PROGRESSIVE-AF.
Over 36 months of follow-up, the trial linked early ablation with a reduced risk of persistent AFib (1.9% vs. 7.4%), and in addition, those in the ablation group were less likely to have recurrent atrial tachyarrhythmias of any kind (56.5% vs. 77.2%), reported Jason G. Andrade, MD, at the American Heart Association scientific sessions.
Serving as a long-term extension of the EARLY-AF trial published almost 2 years ago, this trial expands evidence that progressive AFib can be attenuated, a concept that has been debated.
“Can early AFib ablation stop progression?” asked Carina Blomström-Lindqvist, MD, PhD. The invited discussant for the PROGRESSION-AF trial, Dr. Blomström-Lundqvist concluded, “here is another set of data that suggests it can.”
By another set of data, Dr. Blomström-Lindqvist was referring to a previously published multinational study called ATTEST In this study, which involved 29 sites worldwide and compared radiofrequency ablation to antiarrhythmic drug therapy, early ablation also produced a lower risk of persistent AFib at the end of 3 years (2.4% vs. 17.5%; P = .0009).
In the previously published open-label EARLY-AF trial, 303 patients with paroxysmal, untreated AFib were randomized to cryoballoon ablation or antiarrhythmic drugs. The primary endpoint was the first documented recurrence of an atrial tachyarrhythmia between 91 and 365 days. The lower rate following ablation (42.9% vs. 67.8%) represented a more than 50% reduction in risk (hazard ratio, 0.48; P < .001) relative to antiarrhythmic therapy.
In PROGRESSIVE-AF, the same 303 patients were monitored continuously for an additional 24 months with an implanted cardiac monitor programmed with an AFib-detection algorithm. The data from the monitor were obtained daily. Over the final 2 years of the study, office visits were conducted every 6 months.
Tachyarrhythmias represent primary endpoint
In addition to persistent AFib, defined as lasting ≥ 7 days or lasting 48 hours to 7 days but requiring cardioversion for termination, patients in PROGRESSIVE-AF were also monitored for recurrent atrial tachyarrhythmias, AFib burden, quality of life (QOL), and health care utilization, and safety.
The average age was roughly 58 years. Although more than one-third had hypertension, most had no other comorbidities. The authors emphasized that the study population overall was relatively young and healthy.
Those randomized to antiarrhythmic therapy in EARLY-AF/PROGRESSIVE-AF received commonly prescribed therapies titrated to maximally tolerated doses using standardized protocols. At the start of EARLY-AF, flecainide, taken by 65% of patients, was the most commonly used agent, followed by sotalol, propafenone, dronedarone, and amiodarone.
At the end of PROGRESSIVE-AF, the order of the most common therapies did not change relative to EARLY-AF, but only 49% of patients were taking flecainide and 31% were no longer taking any antiarrhythmic therapy.
At the end of 3 years of follow-up in EARLY-AF/PROGRESSIVE-AF, the difference in persistent AFib represented a 75% reduction in favor of early ablation (HR, 0.25; 95% confidence interval, 0.09-0.70).
In those treated with ablation relative to those treated with antiarrhythmic therapy, the lower rate of atrial tachyarrhythmia lasting more than 7 days (1.9% vs. 6.0%) represented a 70% risk reduction (HR, 0.30; 95% CI 0.10-0.93). The protection from cardioversion for atrial tachyarrhythmia lasting between 2 and 7 days in duration (0.6% vs. 4.7%) translated into an 86% relative reduction (HR, 0.14; 95% CI, 0.02-0.85).
The impact on QOL for those randomized to ablation, which was measured with both AFib-specific and generic measures, was meaningful to patients, according to Dr. Andrade, director of the Cardiac Electrophysiology Laboratory, Vancouver General Hospital.
For example, the mean difference in the AF Quality of Life Survey (AFEQT), was 8.0 at 1 year and 7.4 at 3 years in favor of ablation. A change of 5 points in this score is considered to be a clinically meaningful difference, according to Dr. Andrade.
Numerically, the relative risk of emergency room visits and cardioversion were lower in the ablation group, but the differences did not reach statistical significance. However, the lower hazard ratio for hospitalization was significant (HR, 0.31; 95% CI, 0.15-0.66), supporting a reduction in consumption of health care resources.
Ablation found safer than drugs
The rate of adverse events of any kind (11.0% vs. 23.5%) and serious adverse events (4.5% vs. 10.1%) were lower in the ablation group.
There were no differences in major adverse cardiovascular events observed in this period of follow-up, but Dr. Andrade pointed out that follow-up was not long enough to expect differences in these events.
Impressed by the magnitude of the reduction in persistent AFib in a population of relatively young and healthy patients considered to be at a low risk of AFib progression, Dr. Blomström-Lindqvist, a professor of cardiology at the Institution of Medical Science, Uppsala, Sweden, indicated that the data support early ablation as a means to reduce risk of this outcome.
However, she did caution that progressive AFib was observed in a relatively small proportion of patients managed with antiarrhythmic therapy at 3 years, an outcome relevant when discussing treatment options with patients.
The results were published in New England Journal of Medicine simultaneously with Dr. Andrade’s presentation.
Dr. Andrade reports financial relationships with Bayer, Bayliss, Biosense, Bristol-Myers Squibb, Medtronic and Servier. The trial, funded largely by the Canadian government and Canadian professional societies, received additional funding from Bayliss and Medtronic. Dr. Blomström-Lundqvist reports financial relationships with Bayer, Boston Scientific, Cathprint, Medtronic, and Sanofi.
AT AHA 2022
Liver disease-related deaths rise during pandemic
according to new findings presented at the annual meeting of the American Association for the Study of Liver Diseases.
Between 2019 and 2021, ALD-related deaths increased by 17.6% and NAFLD-related deaths increased by 14.5%, Yee Hui Yeo, MD, a resident physician and hepatology-focused investigator at Cedars-Sinai Medical Center in Los Angeles, said at a preconference press briefing.
“Even before the pandemic, the mortality rates for these two diseases have been increasing, with NAFLD having an even steeper increasing trend,” he said. “During the pandemic, these two diseases had a significant surge.”
Recent U.S. liver disease death rates
Dr. Yeo and colleagues analyzed data from the Center for Disease Control and Prevention’s National Vital Statistic System to estimate the age-standardized mortality rates (ASMR) of liver disease between 2010 and 2021, including ALD, NAFLD, hepatitis B, and hepatitis C. Using prediction modeling analyses based on trends from 2010 to 2019, they predicted mortality rates for 2020-2021 and compared them with the observed rates to quantify the differences related to the pandemic.
Between 2010 and 2021, there were about 626,000 chronic liver disease–related deaths, including about 343,000 ALD-related deaths, 204,000 hepatitis C–related deaths, 58,000 NAFLD-related deaths, and 21,000 hepatitis B–related deaths.
For ALD-related deaths, the annual percentage change was 3.5% for 2010-2019 and 17.6% for 2019-2021. The observed ASMR in 2020 was significantly higher than predicted, at 15.7 deaths per 100,000 people versus 13.0 predicted from the 2010-2019 rate. The trend continued in 2021, with 17.4 deaths per 100,000 people versus 13.4 in the previous decade.
The highest numbers of ALD-related deaths during the COVID-19 pandemic occurred in Alaska, Montana, Wyoming, Colorado, New Mexico, and South Dakota.
For NAFLD-related deaths, the annual percentage change was 7.6% for 2010-2014, 11.8% for 2014-2019, and 14.5% for 2019-2021. The observed ASMR was also higher than predicted, at 3.1 deaths per 100,000 people versus 2.6 in 2020, as well as 3.4 versus 2.8 in 2021.
The highest numbers of NAFLD-related deaths during the COVID-19 pandemic occurred in Oklahoma, Indiana, Kentucky, Tennessee, and West Virginia.
Hepatitis B and C gains lost in pandemic
In contrast, the annual percentage change in was –1.9% for hepatitis B and –2.8% for hepatitis C. After new treatment for hepatitis C emerged in 2013-2014, mortality rates were –7.8% for 2014-2019, Dr. Yeo noted.
“However, during the pandemic, we saw that this decrease has become a nonsignificant change,” he said. “That means our progress of the past 5 or 6 years has already stopped during the pandemic.”
By race and ethnicity, the increase in ALD-related mortality was most pronounced in non-Hispanic White, non-Hispanic Black, and Alaska Native/American Indian populations, Dr. Yeo said. Alaska Natives and American Indians had the highest annual percentage change, at 18%, followed by non-Hispanic Whites at 11.7% and non-Hispanic Blacks at 10.8%. There were no significant differences in race and ethnicity for NAFLD-related deaths, although all groups had major increases in recent years.
Biggest rise in young adults
By age, the increase in ALD-related mortality was particularly severe for ages 25-44, with an annual percentage change of 34.6% in 2019-2021, as compared with 13.7% for ages 45-64 and 12.6% for ages 65 and older.
For NAFLD-related deaths, another major increase was observed among ages 25-44, with an annual percentage change of 28.1% for 2019-2021, as compared with 12% for ages 65 and older and 7.4% for ages 45-64.
By sex, the ASMR increase in NAFLD-related mortality was steady throughout 2010-2021 for both men and women. In contrast, ALD-related death increased sharply between 2019 and 2021, with an annual percentage change of 19.1% for women and 16.7% for men.
“The increasing trend in mortality rates for ALD and NAFLD has been quite alarming, with disparities in age, race, and ethnicity,” Dr. Yeo said.
The study received no funding support. Some authors disclosed research funding, advisory board roles, and consulting fees with various pharmaceutical companies.
according to new findings presented at the annual meeting of the American Association for the Study of Liver Diseases.
Between 2019 and 2021, ALD-related deaths increased by 17.6% and NAFLD-related deaths increased by 14.5%, Yee Hui Yeo, MD, a resident physician and hepatology-focused investigator at Cedars-Sinai Medical Center in Los Angeles, said at a preconference press briefing.
“Even before the pandemic, the mortality rates for these two diseases have been increasing, with NAFLD having an even steeper increasing trend,” he said. “During the pandemic, these two diseases had a significant surge.”
Recent U.S. liver disease death rates
Dr. Yeo and colleagues analyzed data from the Center for Disease Control and Prevention’s National Vital Statistic System to estimate the age-standardized mortality rates (ASMR) of liver disease between 2010 and 2021, including ALD, NAFLD, hepatitis B, and hepatitis C. Using prediction modeling analyses based on trends from 2010 to 2019, they predicted mortality rates for 2020-2021 and compared them with the observed rates to quantify the differences related to the pandemic.
Between 2010 and 2021, there were about 626,000 chronic liver disease–related deaths, including about 343,000 ALD-related deaths, 204,000 hepatitis C–related deaths, 58,000 NAFLD-related deaths, and 21,000 hepatitis B–related deaths.
For ALD-related deaths, the annual percentage change was 3.5% for 2010-2019 and 17.6% for 2019-2021. The observed ASMR in 2020 was significantly higher than predicted, at 15.7 deaths per 100,000 people versus 13.0 predicted from the 2010-2019 rate. The trend continued in 2021, with 17.4 deaths per 100,000 people versus 13.4 in the previous decade.
The highest numbers of ALD-related deaths during the COVID-19 pandemic occurred in Alaska, Montana, Wyoming, Colorado, New Mexico, and South Dakota.
For NAFLD-related deaths, the annual percentage change was 7.6% for 2010-2014, 11.8% for 2014-2019, and 14.5% for 2019-2021. The observed ASMR was also higher than predicted, at 3.1 deaths per 100,000 people versus 2.6 in 2020, as well as 3.4 versus 2.8 in 2021.
The highest numbers of NAFLD-related deaths during the COVID-19 pandemic occurred in Oklahoma, Indiana, Kentucky, Tennessee, and West Virginia.
Hepatitis B and C gains lost in pandemic
In contrast, the annual percentage change in was –1.9% for hepatitis B and –2.8% for hepatitis C. After new treatment for hepatitis C emerged in 2013-2014, mortality rates were –7.8% for 2014-2019, Dr. Yeo noted.
“However, during the pandemic, we saw that this decrease has become a nonsignificant change,” he said. “That means our progress of the past 5 or 6 years has already stopped during the pandemic.”
By race and ethnicity, the increase in ALD-related mortality was most pronounced in non-Hispanic White, non-Hispanic Black, and Alaska Native/American Indian populations, Dr. Yeo said. Alaska Natives and American Indians had the highest annual percentage change, at 18%, followed by non-Hispanic Whites at 11.7% and non-Hispanic Blacks at 10.8%. There were no significant differences in race and ethnicity for NAFLD-related deaths, although all groups had major increases in recent years.
Biggest rise in young adults
By age, the increase in ALD-related mortality was particularly severe for ages 25-44, with an annual percentage change of 34.6% in 2019-2021, as compared with 13.7% for ages 45-64 and 12.6% for ages 65 and older.
For NAFLD-related deaths, another major increase was observed among ages 25-44, with an annual percentage change of 28.1% for 2019-2021, as compared with 12% for ages 65 and older and 7.4% for ages 45-64.
By sex, the ASMR increase in NAFLD-related mortality was steady throughout 2010-2021 for both men and women. In contrast, ALD-related death increased sharply between 2019 and 2021, with an annual percentage change of 19.1% for women and 16.7% for men.
“The increasing trend in mortality rates for ALD and NAFLD has been quite alarming, with disparities in age, race, and ethnicity,” Dr. Yeo said.
The study received no funding support. Some authors disclosed research funding, advisory board roles, and consulting fees with various pharmaceutical companies.
according to new findings presented at the annual meeting of the American Association for the Study of Liver Diseases.
Between 2019 and 2021, ALD-related deaths increased by 17.6% and NAFLD-related deaths increased by 14.5%, Yee Hui Yeo, MD, a resident physician and hepatology-focused investigator at Cedars-Sinai Medical Center in Los Angeles, said at a preconference press briefing.
“Even before the pandemic, the mortality rates for these two diseases have been increasing, with NAFLD having an even steeper increasing trend,” he said. “During the pandemic, these two diseases had a significant surge.”
Recent U.S. liver disease death rates
Dr. Yeo and colleagues analyzed data from the Center for Disease Control and Prevention’s National Vital Statistic System to estimate the age-standardized mortality rates (ASMR) of liver disease between 2010 and 2021, including ALD, NAFLD, hepatitis B, and hepatitis C. Using prediction modeling analyses based on trends from 2010 to 2019, they predicted mortality rates for 2020-2021 and compared them with the observed rates to quantify the differences related to the pandemic.
Between 2010 and 2021, there were about 626,000 chronic liver disease–related deaths, including about 343,000 ALD-related deaths, 204,000 hepatitis C–related deaths, 58,000 NAFLD-related deaths, and 21,000 hepatitis B–related deaths.
For ALD-related deaths, the annual percentage change was 3.5% for 2010-2019 and 17.6% for 2019-2021. The observed ASMR in 2020 was significantly higher than predicted, at 15.7 deaths per 100,000 people versus 13.0 predicted from the 2010-2019 rate. The trend continued in 2021, with 17.4 deaths per 100,000 people versus 13.4 in the previous decade.
The highest numbers of ALD-related deaths during the COVID-19 pandemic occurred in Alaska, Montana, Wyoming, Colorado, New Mexico, and South Dakota.
For NAFLD-related deaths, the annual percentage change was 7.6% for 2010-2014, 11.8% for 2014-2019, and 14.5% for 2019-2021. The observed ASMR was also higher than predicted, at 3.1 deaths per 100,000 people versus 2.6 in 2020, as well as 3.4 versus 2.8 in 2021.
The highest numbers of NAFLD-related deaths during the COVID-19 pandemic occurred in Oklahoma, Indiana, Kentucky, Tennessee, and West Virginia.
Hepatitis B and C gains lost in pandemic
In contrast, the annual percentage change in was –1.9% for hepatitis B and –2.8% for hepatitis C. After new treatment for hepatitis C emerged in 2013-2014, mortality rates were –7.8% for 2014-2019, Dr. Yeo noted.
“However, during the pandemic, we saw that this decrease has become a nonsignificant change,” he said. “That means our progress of the past 5 or 6 years has already stopped during the pandemic.”
By race and ethnicity, the increase in ALD-related mortality was most pronounced in non-Hispanic White, non-Hispanic Black, and Alaska Native/American Indian populations, Dr. Yeo said. Alaska Natives and American Indians had the highest annual percentage change, at 18%, followed by non-Hispanic Whites at 11.7% and non-Hispanic Blacks at 10.8%. There were no significant differences in race and ethnicity for NAFLD-related deaths, although all groups had major increases in recent years.
Biggest rise in young adults
By age, the increase in ALD-related mortality was particularly severe for ages 25-44, with an annual percentage change of 34.6% in 2019-2021, as compared with 13.7% for ages 45-64 and 12.6% for ages 65 and older.
For NAFLD-related deaths, another major increase was observed among ages 25-44, with an annual percentage change of 28.1% for 2019-2021, as compared with 12% for ages 65 and older and 7.4% for ages 45-64.
By sex, the ASMR increase in NAFLD-related mortality was steady throughout 2010-2021 for both men and women. In contrast, ALD-related death increased sharply between 2019 and 2021, with an annual percentage change of 19.1% for women and 16.7% for men.
“The increasing trend in mortality rates for ALD and NAFLD has been quite alarming, with disparities in age, race, and ethnicity,” Dr. Yeo said.
The study received no funding support. Some authors disclosed research funding, advisory board roles, and consulting fees with various pharmaceutical companies.
FROM THE LIVER MEETING
ICD-10 code can identify patients with melasma for future study
To better understand melasma, it is important for researchers to find groups of patients with confirmed disease for future clinical study. A recent for researchers interested in conducting retrospective studies of this patient population.
“Overall, our results support the validity of using the ICD-10 code for melasma to identify patients with a diagnosis of melasma for future studies,” Nicholas Theodosakis, MD, PhD, of the department of dermatology at Massachusetts General Hospital, Boston, and colleagues wrote in their research letter. “Despite some variability in diagnostic confidence, most patients were ultimately classified as moderately or highly likely to have a true diagnosis of melasma.”
Dr. Theodosakis and colleagues evaluated data from 5,322 adult patients in the Mass General Brigham Research Patient Data Registry between October 2015 and January 2021 who had an encounter that used the ICD-10 code for melasma (L81.1). The researchers then validated the ICD-10 code by examining the medical records of 300 patients (5.6%), confirming that melasma was the clinician’s favored diagnosis and that the patient met secondary diagnostic criteria. Confidence was rated in categories of “low confidence,” “moderate confidence,” “high confidence,” and “maximum confidence” based on secondary criteria such as hyperpigmentation of the face and upper body, hormone-related therapy exposure before diagnosis, pregnancy history, and dermatologist-confirmed diagnosis.
The patients who had their medical records examined for confirmed melasma were primarily women (285 patients; 95.0%) and were a mean 48.4 years old at diagnosis.
Of those in the validation cohort, melasma was the preferred diagnosis for clinicians of 291 patients (97.0%), while 274 patients (91.3%) had secondary diagnostic criteria of hyperpigmentation of the face and upper body and 252 patients (84.0%) had received a diagnosis from a dermatologist. Other less common secondary diagnostic criteria of the patient group were a history of having received hormone-related therapy before a melasma diagnosis (148 patients; 49.3%) and a history of pregnancy (168 patients; 56.0%). Based on identification of secondary diagnostic criteria, confidence in melasma diagnosis was high for 208 patients (69.3%), moderate for 61 patients (20.3%), and low for 31 patients (10.3%).
Dr. Theodosakis and colleagues noted their study was limited by its retrospective nature and the presence of a small validation cohort. “Despite these limitations, our findings provide a framework for identifying cohorts to evaluate the clinical course and treatment of melasma,” the authors concluded.
One of the authors reported relationships with companies including AbbVie, Acom, Boehringer Ingelheim, Concert, Digital Diagnostics, and Eli Lilly in the form of personal fees, equity, royalties and/or licensing, or medical advisory board positions outside the submitted work; another author reported being an advisory board member and consultant for and receiving honoraria from Incyte, Castle Biosciences, Galderma, and Sanofi outside the submitted work. The other authors reported no relevant conflicts of interest.
To better understand melasma, it is important for researchers to find groups of patients with confirmed disease for future clinical study. A recent for researchers interested in conducting retrospective studies of this patient population.
“Overall, our results support the validity of using the ICD-10 code for melasma to identify patients with a diagnosis of melasma for future studies,” Nicholas Theodosakis, MD, PhD, of the department of dermatology at Massachusetts General Hospital, Boston, and colleagues wrote in their research letter. “Despite some variability in diagnostic confidence, most patients were ultimately classified as moderately or highly likely to have a true diagnosis of melasma.”
Dr. Theodosakis and colleagues evaluated data from 5,322 adult patients in the Mass General Brigham Research Patient Data Registry between October 2015 and January 2021 who had an encounter that used the ICD-10 code for melasma (L81.1). The researchers then validated the ICD-10 code by examining the medical records of 300 patients (5.6%), confirming that melasma was the clinician’s favored diagnosis and that the patient met secondary diagnostic criteria. Confidence was rated in categories of “low confidence,” “moderate confidence,” “high confidence,” and “maximum confidence” based on secondary criteria such as hyperpigmentation of the face and upper body, hormone-related therapy exposure before diagnosis, pregnancy history, and dermatologist-confirmed diagnosis.
The patients who had their medical records examined for confirmed melasma were primarily women (285 patients; 95.0%) and were a mean 48.4 years old at diagnosis.
Of those in the validation cohort, melasma was the preferred diagnosis for clinicians of 291 patients (97.0%), while 274 patients (91.3%) had secondary diagnostic criteria of hyperpigmentation of the face and upper body and 252 patients (84.0%) had received a diagnosis from a dermatologist. Other less common secondary diagnostic criteria of the patient group were a history of having received hormone-related therapy before a melasma diagnosis (148 patients; 49.3%) and a history of pregnancy (168 patients; 56.0%). Based on identification of secondary diagnostic criteria, confidence in melasma diagnosis was high for 208 patients (69.3%), moderate for 61 patients (20.3%), and low for 31 patients (10.3%).
Dr. Theodosakis and colleagues noted their study was limited by its retrospective nature and the presence of a small validation cohort. “Despite these limitations, our findings provide a framework for identifying cohorts to evaluate the clinical course and treatment of melasma,” the authors concluded.
One of the authors reported relationships with companies including AbbVie, Acom, Boehringer Ingelheim, Concert, Digital Diagnostics, and Eli Lilly in the form of personal fees, equity, royalties and/or licensing, or medical advisory board positions outside the submitted work; another author reported being an advisory board member and consultant for and receiving honoraria from Incyte, Castle Biosciences, Galderma, and Sanofi outside the submitted work. The other authors reported no relevant conflicts of interest.
To better understand melasma, it is important for researchers to find groups of patients with confirmed disease for future clinical study. A recent for researchers interested in conducting retrospective studies of this patient population.
“Overall, our results support the validity of using the ICD-10 code for melasma to identify patients with a diagnosis of melasma for future studies,” Nicholas Theodosakis, MD, PhD, of the department of dermatology at Massachusetts General Hospital, Boston, and colleagues wrote in their research letter. “Despite some variability in diagnostic confidence, most patients were ultimately classified as moderately or highly likely to have a true diagnosis of melasma.”
Dr. Theodosakis and colleagues evaluated data from 5,322 adult patients in the Mass General Brigham Research Patient Data Registry between October 2015 and January 2021 who had an encounter that used the ICD-10 code for melasma (L81.1). The researchers then validated the ICD-10 code by examining the medical records of 300 patients (5.6%), confirming that melasma was the clinician’s favored diagnosis and that the patient met secondary diagnostic criteria. Confidence was rated in categories of “low confidence,” “moderate confidence,” “high confidence,” and “maximum confidence” based on secondary criteria such as hyperpigmentation of the face and upper body, hormone-related therapy exposure before diagnosis, pregnancy history, and dermatologist-confirmed diagnosis.
The patients who had their medical records examined for confirmed melasma were primarily women (285 patients; 95.0%) and were a mean 48.4 years old at diagnosis.
Of those in the validation cohort, melasma was the preferred diagnosis for clinicians of 291 patients (97.0%), while 274 patients (91.3%) had secondary diagnostic criteria of hyperpigmentation of the face and upper body and 252 patients (84.0%) had received a diagnosis from a dermatologist. Other less common secondary diagnostic criteria of the patient group were a history of having received hormone-related therapy before a melasma diagnosis (148 patients; 49.3%) and a history of pregnancy (168 patients; 56.0%). Based on identification of secondary diagnostic criteria, confidence in melasma diagnosis was high for 208 patients (69.3%), moderate for 61 patients (20.3%), and low for 31 patients (10.3%).
Dr. Theodosakis and colleagues noted their study was limited by its retrospective nature and the presence of a small validation cohort. “Despite these limitations, our findings provide a framework for identifying cohorts to evaluate the clinical course and treatment of melasma,” the authors concluded.
One of the authors reported relationships with companies including AbbVie, Acom, Boehringer Ingelheim, Concert, Digital Diagnostics, and Eli Lilly in the form of personal fees, equity, royalties and/or licensing, or medical advisory board positions outside the submitted work; another author reported being an advisory board member and consultant for and receiving honoraria from Incyte, Castle Biosciences, Galderma, and Sanofi outside the submitted work. The other authors reported no relevant conflicts of interest.
FROM JAMA DERMATOLOGY