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Can You Hear Me Now? Telemedicine in Rural America
Common themes run through rural communities and their health needs, yet the rurality of our nation is quite diverse. Approximately 97% of the United States is rural, and yet there is no silver bullet to resolve the health disparities that exist between urban and rural America. Differences in economic condition, infrastructure, education, racial diversity, health habits, and job opportunities contribute to the health disparities seen in rural communities.
In this issue of the Journal of Hospital Medicine, Gutierrez and colleagues1 evaluate the implementation and outcomes of a rural telehospitalist program. In a hub-and-spoke fashion, providers at a large tertiary care hospital utilized telemedicine to round on patients with an onsite advanced practice provider at a 10-bed critical access hospital. Outcomes were examined during pre- and postimplementation periods using quantitative metrics (length of stay [LOS], readmission rate, mortality, and satisfaction) and qualitative measures based on interviews with staff. LOS was reduced in the postimplementation period, with a lower but nonsignificant readmission rate and no difference in mortality. Overall satisfaction was high, although respondents noted significant communication and technology issues. This study helps broaden telemedicine research and opens the conversation on barriers in rural implementation.
As we increasingly focus on the provision and financing of care aimed at the health of populations, the diverse issues facing rural America remain insufficiently addressed. Probst and colleagues2 suggest that population-based health policies are biased toward large urban centers. Innovations to transcend this “structural urbanism” are still fraught with obstacles, as revealed during the 2020 public health emergency (PHE). Telemedicine, once thought the solution to rural health provider shortages, has not escaped structural urbanism. Prior to the PHE, Medicare did not cover many core services delivered via telehealth, including hospitalist service codes. Waivers during the PHE have temporarily opened up reimbursement pathways. Unlike most telehospitalist services, Gutierrez and colleagues did not face these payment barriers in their study. Without claims data to inform payors on the adequacy of such services, health systems remain unable to promote telemedicine as a solution to rural access and cost issues. For example, in 2018, Yu and colleagues3 described the state of telemedicine in Minnesota, again, without claims data to inform supply or demand for hospitalist services.
Beyond payment barriers, technology issues are a challenge to rural telemedicine. Access to affordable, simple, and reliable equipment and broadband internet is key to user satisfaction. In April 2020, the Federal Communications Commission estimated that 18 million Americans had insufficient access to broadband internet.4 This number points to the technological hurdles of rural telemedicine.
Medicine, a highly relationship-based “team sport,” is another barrier to successful implementation. Whether serving as supervisor or primary attending (as noted in the evaluation by JaKa and colleagues5), the telehospitalist must be “on stage” for both patients and remote spoke colleagues. In our experience, telehospitalists also practice in-person daytime hospital medicine at spoke sites; this further enhances their relationship and connection with the spoke community and likely contributes to high satisfaction by hub hospitalists and spoke patients and nurses.
These factors create a clear impetus for further evaluation of rural telemedicine programs. There is an extensive range of program structures to evaluate, from cross-coverage to a 24/7 virtual hospital. Satisfaction is also relative and must contextualize quantitative measurement to historic care models. The execution of a telehospitalist program should align with the goals and objectives of spoke hospitals, as satisfaction will reflect how well hub hospitalists are able to meet those needs. Thus, multicenter studies that examine commercial financial pressures and encompass a variety of patient populations are imperative.
A hub-and-spoke telemedicine program can be a crucial resource for rural hospitals. The foundation of this model revolves around key factors, including reliable financing, access to technology, seamless communication, and engendering satisfaction among providers, staff, and patients. Research must continue for these programs to overcome the financial and structural challenges to their success.
1. Gutierrez J, Moeckli J, Holcombe A, et al. Implementing a telehospitalist program between Veterans Health Administration hospitals: outcomes, acceptance, and barriers to implementation.
2. Probst J, Eberth JM, Crouch, E. Structural urbanism contributes to poorer health outcomes for rural America. Health Aff (Millwood). 2019;38(12):1976-1984. https://doi.org/10.1377/hlthaff.2019.00914
3. Yu J, Mink P, Huckfeldt PJ, Guildemeister S, Abraham JM. Population-level estimates of telemedicine service provision using an all-payer claims database. Health Aff (Millwood). 2018;37(12):1931-1939. https://doi.org/10.1377/hlthaff.2018.05116
4. Federal Communications Commission. (2020). 2020 Broadband Deployment Report. Washington, DC: Federal Communications Commission.
5. JaKa MM, Dinh JM, Ziegenfuss JY, et al. Patient and care team perspectives of telemedicine in critical access hospitals. J Hosp Med. 2020;15(6):345-348. https://doi.org/10.12788/jhm.3412
Common themes run through rural communities and their health needs, yet the rurality of our nation is quite diverse. Approximately 97% of the United States is rural, and yet there is no silver bullet to resolve the health disparities that exist between urban and rural America. Differences in economic condition, infrastructure, education, racial diversity, health habits, and job opportunities contribute to the health disparities seen in rural communities.
In this issue of the Journal of Hospital Medicine, Gutierrez and colleagues1 evaluate the implementation and outcomes of a rural telehospitalist program. In a hub-and-spoke fashion, providers at a large tertiary care hospital utilized telemedicine to round on patients with an onsite advanced practice provider at a 10-bed critical access hospital. Outcomes were examined during pre- and postimplementation periods using quantitative metrics (length of stay [LOS], readmission rate, mortality, and satisfaction) and qualitative measures based on interviews with staff. LOS was reduced in the postimplementation period, with a lower but nonsignificant readmission rate and no difference in mortality. Overall satisfaction was high, although respondents noted significant communication and technology issues. This study helps broaden telemedicine research and opens the conversation on barriers in rural implementation.
As we increasingly focus on the provision and financing of care aimed at the health of populations, the diverse issues facing rural America remain insufficiently addressed. Probst and colleagues2 suggest that population-based health policies are biased toward large urban centers. Innovations to transcend this “structural urbanism” are still fraught with obstacles, as revealed during the 2020 public health emergency (PHE). Telemedicine, once thought the solution to rural health provider shortages, has not escaped structural urbanism. Prior to the PHE, Medicare did not cover many core services delivered via telehealth, including hospitalist service codes. Waivers during the PHE have temporarily opened up reimbursement pathways. Unlike most telehospitalist services, Gutierrez and colleagues did not face these payment barriers in their study. Without claims data to inform payors on the adequacy of such services, health systems remain unable to promote telemedicine as a solution to rural access and cost issues. For example, in 2018, Yu and colleagues3 described the state of telemedicine in Minnesota, again, without claims data to inform supply or demand for hospitalist services.
Beyond payment barriers, technology issues are a challenge to rural telemedicine. Access to affordable, simple, and reliable equipment and broadband internet is key to user satisfaction. In April 2020, the Federal Communications Commission estimated that 18 million Americans had insufficient access to broadband internet.4 This number points to the technological hurdles of rural telemedicine.
Medicine, a highly relationship-based “team sport,” is another barrier to successful implementation. Whether serving as supervisor or primary attending (as noted in the evaluation by JaKa and colleagues5), the telehospitalist must be “on stage” for both patients and remote spoke colleagues. In our experience, telehospitalists also practice in-person daytime hospital medicine at spoke sites; this further enhances their relationship and connection with the spoke community and likely contributes to high satisfaction by hub hospitalists and spoke patients and nurses.
These factors create a clear impetus for further evaluation of rural telemedicine programs. There is an extensive range of program structures to evaluate, from cross-coverage to a 24/7 virtual hospital. Satisfaction is also relative and must contextualize quantitative measurement to historic care models. The execution of a telehospitalist program should align with the goals and objectives of spoke hospitals, as satisfaction will reflect how well hub hospitalists are able to meet those needs. Thus, multicenter studies that examine commercial financial pressures and encompass a variety of patient populations are imperative.
A hub-and-spoke telemedicine program can be a crucial resource for rural hospitals. The foundation of this model revolves around key factors, including reliable financing, access to technology, seamless communication, and engendering satisfaction among providers, staff, and patients. Research must continue for these programs to overcome the financial and structural challenges to their success.
Common themes run through rural communities and their health needs, yet the rurality of our nation is quite diverse. Approximately 97% of the United States is rural, and yet there is no silver bullet to resolve the health disparities that exist between urban and rural America. Differences in economic condition, infrastructure, education, racial diversity, health habits, and job opportunities contribute to the health disparities seen in rural communities.
In this issue of the Journal of Hospital Medicine, Gutierrez and colleagues1 evaluate the implementation and outcomes of a rural telehospitalist program. In a hub-and-spoke fashion, providers at a large tertiary care hospital utilized telemedicine to round on patients with an onsite advanced practice provider at a 10-bed critical access hospital. Outcomes were examined during pre- and postimplementation periods using quantitative metrics (length of stay [LOS], readmission rate, mortality, and satisfaction) and qualitative measures based on interviews with staff. LOS was reduced in the postimplementation period, with a lower but nonsignificant readmission rate and no difference in mortality. Overall satisfaction was high, although respondents noted significant communication and technology issues. This study helps broaden telemedicine research and opens the conversation on barriers in rural implementation.
As we increasingly focus on the provision and financing of care aimed at the health of populations, the diverse issues facing rural America remain insufficiently addressed. Probst and colleagues2 suggest that population-based health policies are biased toward large urban centers. Innovations to transcend this “structural urbanism” are still fraught with obstacles, as revealed during the 2020 public health emergency (PHE). Telemedicine, once thought the solution to rural health provider shortages, has not escaped structural urbanism. Prior to the PHE, Medicare did not cover many core services delivered via telehealth, including hospitalist service codes. Waivers during the PHE have temporarily opened up reimbursement pathways. Unlike most telehospitalist services, Gutierrez and colleagues did not face these payment barriers in their study. Without claims data to inform payors on the adequacy of such services, health systems remain unable to promote telemedicine as a solution to rural access and cost issues. For example, in 2018, Yu and colleagues3 described the state of telemedicine in Minnesota, again, without claims data to inform supply or demand for hospitalist services.
Beyond payment barriers, technology issues are a challenge to rural telemedicine. Access to affordable, simple, and reliable equipment and broadband internet is key to user satisfaction. In April 2020, the Federal Communications Commission estimated that 18 million Americans had insufficient access to broadband internet.4 This number points to the technological hurdles of rural telemedicine.
Medicine, a highly relationship-based “team sport,” is another barrier to successful implementation. Whether serving as supervisor or primary attending (as noted in the evaluation by JaKa and colleagues5), the telehospitalist must be “on stage” for both patients and remote spoke colleagues. In our experience, telehospitalists also practice in-person daytime hospital medicine at spoke sites; this further enhances their relationship and connection with the spoke community and likely contributes to high satisfaction by hub hospitalists and spoke patients and nurses.
These factors create a clear impetus for further evaluation of rural telemedicine programs. There is an extensive range of program structures to evaluate, from cross-coverage to a 24/7 virtual hospital. Satisfaction is also relative and must contextualize quantitative measurement to historic care models. The execution of a telehospitalist program should align with the goals and objectives of spoke hospitals, as satisfaction will reflect how well hub hospitalists are able to meet those needs. Thus, multicenter studies that examine commercial financial pressures and encompass a variety of patient populations are imperative.
A hub-and-spoke telemedicine program can be a crucial resource for rural hospitals. The foundation of this model revolves around key factors, including reliable financing, access to technology, seamless communication, and engendering satisfaction among providers, staff, and patients. Research must continue for these programs to overcome the financial and structural challenges to their success.
1. Gutierrez J, Moeckli J, Holcombe A, et al. Implementing a telehospitalist program between Veterans Health Administration hospitals: outcomes, acceptance, and barriers to implementation.
2. Probst J, Eberth JM, Crouch, E. Structural urbanism contributes to poorer health outcomes for rural America. Health Aff (Millwood). 2019;38(12):1976-1984. https://doi.org/10.1377/hlthaff.2019.00914
3. Yu J, Mink P, Huckfeldt PJ, Guildemeister S, Abraham JM. Population-level estimates of telemedicine service provision using an all-payer claims database. Health Aff (Millwood). 2018;37(12):1931-1939. https://doi.org/10.1377/hlthaff.2018.05116
4. Federal Communications Commission. (2020). 2020 Broadband Deployment Report. Washington, DC: Federal Communications Commission.
5. JaKa MM, Dinh JM, Ziegenfuss JY, et al. Patient and care team perspectives of telemedicine in critical access hospitals. J Hosp Med. 2020;15(6):345-348. https://doi.org/10.12788/jhm.3412
1. Gutierrez J, Moeckli J, Holcombe A, et al. Implementing a telehospitalist program between Veterans Health Administration hospitals: outcomes, acceptance, and barriers to implementation.
2. Probst J, Eberth JM, Crouch, E. Structural urbanism contributes to poorer health outcomes for rural America. Health Aff (Millwood). 2019;38(12):1976-1984. https://doi.org/10.1377/hlthaff.2019.00914
3. Yu J, Mink P, Huckfeldt PJ, Guildemeister S, Abraham JM. Population-level estimates of telemedicine service provision using an all-payer claims database. Health Aff (Millwood). 2018;37(12):1931-1939. https://doi.org/10.1377/hlthaff.2018.05116
4. Federal Communications Commission. (2020). 2020 Broadband Deployment Report. Washington, DC: Federal Communications Commission.
5. JaKa MM, Dinh JM, Ziegenfuss JY, et al. Patient and care team perspectives of telemedicine in critical access hospitals. J Hosp Med. 2020;15(6):345-348. https://doi.org/10.12788/jhm.3412
© 2021 Society of Hospital Medicine
Keep Calm and Log On: Telemedicine for COVID-19 Pandemic Response
The field of telemedicine, in which clinicians use remote evaluation and monitoring to diagnose and treat patients, has grown substantially over the past decade. Its roles in acute care medicine settings are diverse, including virtual intensive care unit (ICU) care, after-hours medical admissions, cross coverage, and, most aptly, disaster management.1
At HealthPartners, a large integrated healthcare delivery and financing system based in the Twin Cities region of Minnesota, we have used provider-initiated telemedicine in hospital medicine for more than 2 years, providing evening and nighttime hospitalist coverage to our rural hospitals. We additionally provide a 24/7 nurse practitioner-staffed virtual clinic called Virtuwell.2 Because we are now immersed in a global pandemic, we have taken steps to bolster our telemedicine infrastructure to meet increasing needs.
SARS-CoV-2, the causative agent of COVID-19, is a novel coronavirus with the capability to cause severe illness in roughly 14% of those infected.3 According to some estimates, the virus may infect up to 60% of the US population in the next year.4 As the pandemic looms over the country and the healthcare community, telemedicine can offer tools to help respond to this crisis. Healthcare systems leveraging telemedicine for patient care will gain several advantages, including workforce sustainability, reduction of provider burnout, limitation of provider exposure, and reduction of personal protective equipment (PPE) waste (Table). Telemedicine can also facilitate staffing of both large and small facilities that find themselves overwhelmed with pandemic-related patient overload (PRPO). Although telemedicine holds promise for pandemic response, this technology has limitations. It requires robust IT infrastructure, training of both nurses and physicians, and modifications to integrate within hospital workflows. In this article, we summarize key clinical needs that telemedicine can meet, implementation challenges, and important business considerations.
BACKGROUND
Our organization currently uses telemedicine to provide after-hours hospital medicine coverage from 6
APPLICATIONS
Patient Triage
Limiting exposure in the community and in the acute care setting is key to “flattening the curve” in pandemics.5 Triaging patients by telephone and online surveys is an important method to prevent high-risk patients from exposing others to infection. For example, since March 9, 2020, over 20,000 patients have called in weekly for COVID-19 screening. Although our organization introduced drive-up testing to reduce exposure, patients are still presenting to our clinics and emergency rooms in need of screening and testing. In several of our clinics, patients have been roomed alone to facilitate screening in the room by use of Google Duo, a free video chat product. Rooms with telemedicine capabilities allow patients with potentially communicable infections to be evaluated and observed while avoiding the risk of viral transmission. Additional considerations could include self-administered nasal swabs; although this has comparable efficacy to staff-administered swabs,6 it has not yet been implemented in our clinics.
Direct Care
Virtual care, specifically synchronous video and audio provider-initiated services, is a well-established modality to provide direct care to patients in acute care and ambulatory settings.7 Telemedicine can be deployed to care for hospitalized patients in most locations as long as they meet the operational requirements described below. With a bedside nurse or other facilitator, patients can be interviewed and examined using a high definition camera and digital peripherals, including stethoscopes, otoscopes, ophthalmoscopes, and dermatoscopes. COVID-19 patients or patients under investigation may be seen in this manner. In-person visits should remain part of patients’ care as an important part of the provider-patient relationship8; however, telemedicine could still be deployed to provide direct care and monitoring to these patients while minimizing exposure to healthcare personnel. Additionally, telemedicine can be used for specialist consultations that are likely in high demand with COVID-19, including infectious disease, cardiology, and pulmonology.
Exposure Reduction and Resource Allocation
Currently in the United States there are concerns for shortages of PPE including surgical masks and N95 respirators. Telemedicine can reduce provider exposure, increase provider efficiency, and curtail PPE utilization by minimizing the number and frequency of in-room visits while still allowing virtual visits for direct patient care. For instance, our nursing staff is currently using telemedicine to conduct hourly rounding and limit unnecessary in-room visits.
We recommend keeping telemedicine equipment within individual isolation rooms intended for COVID-19 patients in order to eliminate the need for repeated cleaning. For other patients, a mobile cart could be used. Most commercial video software can autoanswer calls to allow for staff-free history taking. For a thorough physical exam, a bedside facilitator is need for use of digital stethoscopes and similar peripherals.
Provider Shortages and Reducing Burnout
Because SARS-CoV-2 is a highly contagious pathogen that can spread prior to symptom presentation, current CDC guidelines recommend self-monitoring at home for health care workers who have a healthcare-related exposure to a COVID-19 patient.9 This can leave significant gaps in coverage for healthcare systems. For example, in Vacaville, California, one positive case resulted in over 200 health care workers unable to work on site.10
Large volumes of acutely ill patients, coupled with the risk of ill or quarantined providers, means provider shortages due to PRPO are likely to occur and threaten hospitals’ ability to care for patients with or without COVID-19. Furthermore, given increased patient loads, frontline staff are at exceptionally high risk of burnout in pandemic situations. Hospital medicine teams will need contingency plans to meet the needs. Using telemedicine to protect the workforce and maintain staffing levels will reduce that risk.
Telehospitalists can see and examine patients, write orders, and maintain patient service lines much like in-person providers. Recently, we have used it when providers are ill or self-monitoring. In multisite systems, telehospitalists who are privileged in multiple hospitals can be efficiently deployed to meet patient care needs and relieve overburdened providers across hundreds of miles or more.
Enabling patient rooms for telemedicine allows telehospitalists and other providers to see hospitalized patients. Furthermore, quarantined hospitalists can continue to work and support in-person clinical services during PRPO. Providers in high-risk groups (eg, older, immunosuppressed, pregnant) can also continue caring for patients with telemedicine while maintaining safety. As schools close, telemedicine can help providers navigate the challenge between patient care and childcare responsibilities.
OPERATIONAL REQUIREMENTS
The basic element of telemedicine involves a computer or monitor with an internet-connected camera and a HIPAA-compliant video application, but implementation can vary.
Recent changes have allowed the use of popular video chat software such as FaceTime, Skype, or Google Duo for patient interactions; with a tablet attached to a stand, organizations can easily create a mobile telemedicine workstation. Larger monitors or mounted screens can be used in patient areas where portability is not required. A strong network infrastructure and robust IT support are also necessary; as of 2016, 24 million Americans did not have broadband access, and even areas that do can struggle with wireless connectivity in hospitals with thick concrete walls and lack of wi-fi extenders.11
With the addition of a digital stethoscope, hospitalists can perform a thorough history and physical with the aid of bedside staff. This requires dedicated training for all members of the care team in order to optimize the virtual hospitalist’s “telepresence” and create a seamless patient experience. Provider education is imperative: Creating a virtual telepresence is essential in building a strong provider-patient relationship. We have used simulation training to prepare new telehospitalists.
An overlooked, but important, operational requirement is patient education and awareness. In the absence of introduction and onboarding, telemedicine can be viewed by patients as impersonal; however, with proper implementation, high patient satisfaction has been demonstrated in other virtual care experiences.12
FINANCIAL CONSIDERATIONS
Though several health systems offer “tele-ICU” services, the number of hospital medicine programs is more limited. The cost of building a program can be significant, with outlays for equipment, IT support, provider salaries, and training. While all 50 states and the District of Columbia cover some form of fee-for-service live video with Medicaid, only 40, along with DC, have parity laws with commercial payors. Medicare has historically had more restrictions, limiting covered services to specific types of originating sites in certain geographic areas. Furthermore, growth of telehospitalist programs has been hampered by the lack of reimbursement for “primary care services.”13
With passage of the Coronavirus Preparedness and Response Supplemental Appropriations Act of 2020, geographic and site restrictions have been waived for Medicare reimbursement.14 Providers must still demonstrate a prior relationship with patients, which requires at least one encounter with the patient in the past 3 years by the same provider or one with a similar tax identification number (TIN). All hospitalists within our group are identified with a common TIN, which helps to meet this requirement for patient with recent admissions. However, clear guidance on reimbursement for primary care services by acute care providers is still lacking. As the utility of telemedicine is demonstrated in the hospital setting, we hope further changes may be enacted.
Organizations must properly credential and privilege telehospitalists. Telemedicine services may fall under either core or “delegated” privileges depending on the individual hospital. Additionally, while malpractice insurance does typically cover telemedicine services, each organization should verify this with their particular carrier.
SUMMARY
The COVID-19 pandemic has created a systemic challenge for healthcare systems across the nation. As hospitalists continue to be on the front lines, organizations can leverage telemedicine to support their patients, protect their clinicians, and conserve scarce resources. Building out a virtual care program is intricate and requires significant operational support. Laying the groundwork now can prepare institutions to provide necessary care for patients, not just in the current pandemic, but in numerous emergency health care situations in the future.
1. Lurie N, Carr BG. The role of telehealth in the medical response to disasters. JAMA Intern Med. 2018;178(6):745-74. https://doi.org/10.1001/jamainternmed.2018.1314.
2. Virtuwell. HealthPartners. 2020. https://www.virtuwell.com.
3. Wu Z, McGoogan JM. Characteristics of and important lessons from the coronavirus disease 2019 (COVID-19) outbreak in China: summary of a report of 72,314 cases from the Chinese Center for Disease Control and Prevention. JAMA. 2020. https://doi.org/10.1001/jama.2020.2648.
4. Powell A. Coronavirus screening may miss two-thirds of infected travelers entering U.S. The Harvard Gazette. 2020. https://news.harvard.edu/gazette/story/2020/03/hundreds-of-u-s-coronavirus-cases-may-have-slipped-through-screenings/. Accessed March 13, 2020.
5. Hatchett RJ, Mecher CE, Lipsitch M. Public health interventions and epidemic intensity during the 1918 influenza pandemic. Proc Natl Acad Sci U S A. 2007:104(18);7582-7587. https://doi.org/10.1073/pnas.0610941104.
6. Akmatov MK, Gatzemeier A, Schughart, K, Pessler F. Equivalence of self- and staff-collected nasal swabs for the detection of viral respiratory pathogens. PLoS One. 2012:7(11);e48508. https://doi.org/10.1371/journal.pone.0048508.
7. Centers for Medicare & Medicaid Services. Telehealth Services. 2019. https://www.cms.gov/Outreach-and-Education/Medicare-Learning-Network-MLN/MLNProducts/Downloads/Telehealth Srvcsfctsht.pdf. Accessed March 14, 2020.
8. Daniel H, Sulmasy LS. Policy recommendations to guide the use of telemedicine in primary care settings: an American College of Physicians position paper. Ann Intern Med. 2015;163(10):787-789. https://doi.org/10.7326/M15-0498.
9. Centers for Disease Control and Prevention. Healthcare Personnel with Potential Exposure to COVID-19. 2020. https://www.cdc.gov/coronavirus/2019-ncov/hcp/guidance-risk-assesment-hcp.html. Accessed March 13, 2020.
10. Gold J. Surging Health Care Worker Quarantines Raise Concerns as Coronavirus Spreads. Kaiser Health News. 2020. https://khn.org/news/surging-health-care-worker-quarantines-raise-concerns-as-coronavirus-spreads/. Accessed March 12, 2020.
11. Federal Communications Commission. 2018 Broadband Deployment Report. 2018. https://www.fcc.gov/reports-research/reports/broadband-progress-reports/2018-broadband-deployment-report. Accessed March 13, 2020.
12. Martinez KA, Rood M, Jhangiani N, et al. Patterns of use and correlates of patient satisfaction with a large nationwide direct to consumer telemedicine service. J Gen Intern Med. 2018;33(10):1768-1773. https://doi.org/10.1007/s11606-018-4621-5.
13. Centers for Medicare & Medicaid Services. List of Telehealth Services. 2019. https://www.cms.gov/Medicare/Medicare-General-Information/Telehealth/Telehealth-Codes. Accessed March 13, 2020.
14. Coronavirus Preparedness and Response Supplemental Appropriations Act, 2020, H.R. 6074, 116th Cong. 2020. https://congress.gov/bill/116th-congress/house-bill/6074/. Accessed March 13, 2020.
The field of telemedicine, in which clinicians use remote evaluation and monitoring to diagnose and treat patients, has grown substantially over the past decade. Its roles in acute care medicine settings are diverse, including virtual intensive care unit (ICU) care, after-hours medical admissions, cross coverage, and, most aptly, disaster management.1
At HealthPartners, a large integrated healthcare delivery and financing system based in the Twin Cities region of Minnesota, we have used provider-initiated telemedicine in hospital medicine for more than 2 years, providing evening and nighttime hospitalist coverage to our rural hospitals. We additionally provide a 24/7 nurse practitioner-staffed virtual clinic called Virtuwell.2 Because we are now immersed in a global pandemic, we have taken steps to bolster our telemedicine infrastructure to meet increasing needs.
SARS-CoV-2, the causative agent of COVID-19, is a novel coronavirus with the capability to cause severe illness in roughly 14% of those infected.3 According to some estimates, the virus may infect up to 60% of the US population in the next year.4 As the pandemic looms over the country and the healthcare community, telemedicine can offer tools to help respond to this crisis. Healthcare systems leveraging telemedicine for patient care will gain several advantages, including workforce sustainability, reduction of provider burnout, limitation of provider exposure, and reduction of personal protective equipment (PPE) waste (Table). Telemedicine can also facilitate staffing of both large and small facilities that find themselves overwhelmed with pandemic-related patient overload (PRPO). Although telemedicine holds promise for pandemic response, this technology has limitations. It requires robust IT infrastructure, training of both nurses and physicians, and modifications to integrate within hospital workflows. In this article, we summarize key clinical needs that telemedicine can meet, implementation challenges, and important business considerations.
BACKGROUND
Our organization currently uses telemedicine to provide after-hours hospital medicine coverage from 6
APPLICATIONS
Patient Triage
Limiting exposure in the community and in the acute care setting is key to “flattening the curve” in pandemics.5 Triaging patients by telephone and online surveys is an important method to prevent high-risk patients from exposing others to infection. For example, since March 9, 2020, over 20,000 patients have called in weekly for COVID-19 screening. Although our organization introduced drive-up testing to reduce exposure, patients are still presenting to our clinics and emergency rooms in need of screening and testing. In several of our clinics, patients have been roomed alone to facilitate screening in the room by use of Google Duo, a free video chat product. Rooms with telemedicine capabilities allow patients with potentially communicable infections to be evaluated and observed while avoiding the risk of viral transmission. Additional considerations could include self-administered nasal swabs; although this has comparable efficacy to staff-administered swabs,6 it has not yet been implemented in our clinics.
Direct Care
Virtual care, specifically synchronous video and audio provider-initiated services, is a well-established modality to provide direct care to patients in acute care and ambulatory settings.7 Telemedicine can be deployed to care for hospitalized patients in most locations as long as they meet the operational requirements described below. With a bedside nurse or other facilitator, patients can be interviewed and examined using a high definition camera and digital peripherals, including stethoscopes, otoscopes, ophthalmoscopes, and dermatoscopes. COVID-19 patients or patients under investigation may be seen in this manner. In-person visits should remain part of patients’ care as an important part of the provider-patient relationship8; however, telemedicine could still be deployed to provide direct care and monitoring to these patients while minimizing exposure to healthcare personnel. Additionally, telemedicine can be used for specialist consultations that are likely in high demand with COVID-19, including infectious disease, cardiology, and pulmonology.
Exposure Reduction and Resource Allocation
Currently in the United States there are concerns for shortages of PPE including surgical masks and N95 respirators. Telemedicine can reduce provider exposure, increase provider efficiency, and curtail PPE utilization by minimizing the number and frequency of in-room visits while still allowing virtual visits for direct patient care. For instance, our nursing staff is currently using telemedicine to conduct hourly rounding and limit unnecessary in-room visits.
We recommend keeping telemedicine equipment within individual isolation rooms intended for COVID-19 patients in order to eliminate the need for repeated cleaning. For other patients, a mobile cart could be used. Most commercial video software can autoanswer calls to allow for staff-free history taking. For a thorough physical exam, a bedside facilitator is need for use of digital stethoscopes and similar peripherals.
Provider Shortages and Reducing Burnout
Because SARS-CoV-2 is a highly contagious pathogen that can spread prior to symptom presentation, current CDC guidelines recommend self-monitoring at home for health care workers who have a healthcare-related exposure to a COVID-19 patient.9 This can leave significant gaps in coverage for healthcare systems. For example, in Vacaville, California, one positive case resulted in over 200 health care workers unable to work on site.10
Large volumes of acutely ill patients, coupled with the risk of ill or quarantined providers, means provider shortages due to PRPO are likely to occur and threaten hospitals’ ability to care for patients with or without COVID-19. Furthermore, given increased patient loads, frontline staff are at exceptionally high risk of burnout in pandemic situations. Hospital medicine teams will need contingency plans to meet the needs. Using telemedicine to protect the workforce and maintain staffing levels will reduce that risk.
Telehospitalists can see and examine patients, write orders, and maintain patient service lines much like in-person providers. Recently, we have used it when providers are ill or self-monitoring. In multisite systems, telehospitalists who are privileged in multiple hospitals can be efficiently deployed to meet patient care needs and relieve overburdened providers across hundreds of miles or more.
Enabling patient rooms for telemedicine allows telehospitalists and other providers to see hospitalized patients. Furthermore, quarantined hospitalists can continue to work and support in-person clinical services during PRPO. Providers in high-risk groups (eg, older, immunosuppressed, pregnant) can also continue caring for patients with telemedicine while maintaining safety. As schools close, telemedicine can help providers navigate the challenge between patient care and childcare responsibilities.
OPERATIONAL REQUIREMENTS
The basic element of telemedicine involves a computer or monitor with an internet-connected camera and a HIPAA-compliant video application, but implementation can vary.
Recent changes have allowed the use of popular video chat software such as FaceTime, Skype, or Google Duo for patient interactions; with a tablet attached to a stand, organizations can easily create a mobile telemedicine workstation. Larger monitors or mounted screens can be used in patient areas where portability is not required. A strong network infrastructure and robust IT support are also necessary; as of 2016, 24 million Americans did not have broadband access, and even areas that do can struggle with wireless connectivity in hospitals with thick concrete walls and lack of wi-fi extenders.11
With the addition of a digital stethoscope, hospitalists can perform a thorough history and physical with the aid of bedside staff. This requires dedicated training for all members of the care team in order to optimize the virtual hospitalist’s “telepresence” and create a seamless patient experience. Provider education is imperative: Creating a virtual telepresence is essential in building a strong provider-patient relationship. We have used simulation training to prepare new telehospitalists.
An overlooked, but important, operational requirement is patient education and awareness. In the absence of introduction and onboarding, telemedicine can be viewed by patients as impersonal; however, with proper implementation, high patient satisfaction has been demonstrated in other virtual care experiences.12
FINANCIAL CONSIDERATIONS
Though several health systems offer “tele-ICU” services, the number of hospital medicine programs is more limited. The cost of building a program can be significant, with outlays for equipment, IT support, provider salaries, and training. While all 50 states and the District of Columbia cover some form of fee-for-service live video with Medicaid, only 40, along with DC, have parity laws with commercial payors. Medicare has historically had more restrictions, limiting covered services to specific types of originating sites in certain geographic areas. Furthermore, growth of telehospitalist programs has been hampered by the lack of reimbursement for “primary care services.”13
With passage of the Coronavirus Preparedness and Response Supplemental Appropriations Act of 2020, geographic and site restrictions have been waived for Medicare reimbursement.14 Providers must still demonstrate a prior relationship with patients, which requires at least one encounter with the patient in the past 3 years by the same provider or one with a similar tax identification number (TIN). All hospitalists within our group are identified with a common TIN, which helps to meet this requirement for patient with recent admissions. However, clear guidance on reimbursement for primary care services by acute care providers is still lacking. As the utility of telemedicine is demonstrated in the hospital setting, we hope further changes may be enacted.
Organizations must properly credential and privilege telehospitalists. Telemedicine services may fall under either core or “delegated” privileges depending on the individual hospital. Additionally, while malpractice insurance does typically cover telemedicine services, each organization should verify this with their particular carrier.
SUMMARY
The COVID-19 pandemic has created a systemic challenge for healthcare systems across the nation. As hospitalists continue to be on the front lines, organizations can leverage telemedicine to support their patients, protect their clinicians, and conserve scarce resources. Building out a virtual care program is intricate and requires significant operational support. Laying the groundwork now can prepare institutions to provide necessary care for patients, not just in the current pandemic, but in numerous emergency health care situations in the future.
The field of telemedicine, in which clinicians use remote evaluation and monitoring to diagnose and treat patients, has grown substantially over the past decade. Its roles in acute care medicine settings are diverse, including virtual intensive care unit (ICU) care, after-hours medical admissions, cross coverage, and, most aptly, disaster management.1
At HealthPartners, a large integrated healthcare delivery and financing system based in the Twin Cities region of Minnesota, we have used provider-initiated telemedicine in hospital medicine for more than 2 years, providing evening and nighttime hospitalist coverage to our rural hospitals. We additionally provide a 24/7 nurse practitioner-staffed virtual clinic called Virtuwell.2 Because we are now immersed in a global pandemic, we have taken steps to bolster our telemedicine infrastructure to meet increasing needs.
SARS-CoV-2, the causative agent of COVID-19, is a novel coronavirus with the capability to cause severe illness in roughly 14% of those infected.3 According to some estimates, the virus may infect up to 60% of the US population in the next year.4 As the pandemic looms over the country and the healthcare community, telemedicine can offer tools to help respond to this crisis. Healthcare systems leveraging telemedicine for patient care will gain several advantages, including workforce sustainability, reduction of provider burnout, limitation of provider exposure, and reduction of personal protective equipment (PPE) waste (Table). Telemedicine can also facilitate staffing of both large and small facilities that find themselves overwhelmed with pandemic-related patient overload (PRPO). Although telemedicine holds promise for pandemic response, this technology has limitations. It requires robust IT infrastructure, training of both nurses and physicians, and modifications to integrate within hospital workflows. In this article, we summarize key clinical needs that telemedicine can meet, implementation challenges, and important business considerations.
BACKGROUND
Our organization currently uses telemedicine to provide after-hours hospital medicine coverage from 6
APPLICATIONS
Patient Triage
Limiting exposure in the community and in the acute care setting is key to “flattening the curve” in pandemics.5 Triaging patients by telephone and online surveys is an important method to prevent high-risk patients from exposing others to infection. For example, since March 9, 2020, over 20,000 patients have called in weekly for COVID-19 screening. Although our organization introduced drive-up testing to reduce exposure, patients are still presenting to our clinics and emergency rooms in need of screening and testing. In several of our clinics, patients have been roomed alone to facilitate screening in the room by use of Google Duo, a free video chat product. Rooms with telemedicine capabilities allow patients with potentially communicable infections to be evaluated and observed while avoiding the risk of viral transmission. Additional considerations could include self-administered nasal swabs; although this has comparable efficacy to staff-administered swabs,6 it has not yet been implemented in our clinics.
Direct Care
Virtual care, specifically synchronous video and audio provider-initiated services, is a well-established modality to provide direct care to patients in acute care and ambulatory settings.7 Telemedicine can be deployed to care for hospitalized patients in most locations as long as they meet the operational requirements described below. With a bedside nurse or other facilitator, patients can be interviewed and examined using a high definition camera and digital peripherals, including stethoscopes, otoscopes, ophthalmoscopes, and dermatoscopes. COVID-19 patients or patients under investigation may be seen in this manner. In-person visits should remain part of patients’ care as an important part of the provider-patient relationship8; however, telemedicine could still be deployed to provide direct care and monitoring to these patients while minimizing exposure to healthcare personnel. Additionally, telemedicine can be used for specialist consultations that are likely in high demand with COVID-19, including infectious disease, cardiology, and pulmonology.
Exposure Reduction and Resource Allocation
Currently in the United States there are concerns for shortages of PPE including surgical masks and N95 respirators. Telemedicine can reduce provider exposure, increase provider efficiency, and curtail PPE utilization by minimizing the number and frequency of in-room visits while still allowing virtual visits for direct patient care. For instance, our nursing staff is currently using telemedicine to conduct hourly rounding and limit unnecessary in-room visits.
We recommend keeping telemedicine equipment within individual isolation rooms intended for COVID-19 patients in order to eliminate the need for repeated cleaning. For other patients, a mobile cart could be used. Most commercial video software can autoanswer calls to allow for staff-free history taking. For a thorough physical exam, a bedside facilitator is need for use of digital stethoscopes and similar peripherals.
Provider Shortages and Reducing Burnout
Because SARS-CoV-2 is a highly contagious pathogen that can spread prior to symptom presentation, current CDC guidelines recommend self-monitoring at home for health care workers who have a healthcare-related exposure to a COVID-19 patient.9 This can leave significant gaps in coverage for healthcare systems. For example, in Vacaville, California, one positive case resulted in over 200 health care workers unable to work on site.10
Large volumes of acutely ill patients, coupled with the risk of ill or quarantined providers, means provider shortages due to PRPO are likely to occur and threaten hospitals’ ability to care for patients with or without COVID-19. Furthermore, given increased patient loads, frontline staff are at exceptionally high risk of burnout in pandemic situations. Hospital medicine teams will need contingency plans to meet the needs. Using telemedicine to protect the workforce and maintain staffing levels will reduce that risk.
Telehospitalists can see and examine patients, write orders, and maintain patient service lines much like in-person providers. Recently, we have used it when providers are ill or self-monitoring. In multisite systems, telehospitalists who are privileged in multiple hospitals can be efficiently deployed to meet patient care needs and relieve overburdened providers across hundreds of miles or more.
Enabling patient rooms for telemedicine allows telehospitalists and other providers to see hospitalized patients. Furthermore, quarantined hospitalists can continue to work and support in-person clinical services during PRPO. Providers in high-risk groups (eg, older, immunosuppressed, pregnant) can also continue caring for patients with telemedicine while maintaining safety. As schools close, telemedicine can help providers navigate the challenge between patient care and childcare responsibilities.
OPERATIONAL REQUIREMENTS
The basic element of telemedicine involves a computer or monitor with an internet-connected camera and a HIPAA-compliant video application, but implementation can vary.
Recent changes have allowed the use of popular video chat software such as FaceTime, Skype, or Google Duo for patient interactions; with a tablet attached to a stand, organizations can easily create a mobile telemedicine workstation. Larger monitors or mounted screens can be used in patient areas where portability is not required. A strong network infrastructure and robust IT support are also necessary; as of 2016, 24 million Americans did not have broadband access, and even areas that do can struggle with wireless connectivity in hospitals with thick concrete walls and lack of wi-fi extenders.11
With the addition of a digital stethoscope, hospitalists can perform a thorough history and physical with the aid of bedside staff. This requires dedicated training for all members of the care team in order to optimize the virtual hospitalist’s “telepresence” and create a seamless patient experience. Provider education is imperative: Creating a virtual telepresence is essential in building a strong provider-patient relationship. We have used simulation training to prepare new telehospitalists.
An overlooked, but important, operational requirement is patient education and awareness. In the absence of introduction and onboarding, telemedicine can be viewed by patients as impersonal; however, with proper implementation, high patient satisfaction has been demonstrated in other virtual care experiences.12
FINANCIAL CONSIDERATIONS
Though several health systems offer “tele-ICU” services, the number of hospital medicine programs is more limited. The cost of building a program can be significant, with outlays for equipment, IT support, provider salaries, and training. While all 50 states and the District of Columbia cover some form of fee-for-service live video with Medicaid, only 40, along with DC, have parity laws with commercial payors. Medicare has historically had more restrictions, limiting covered services to specific types of originating sites in certain geographic areas. Furthermore, growth of telehospitalist programs has been hampered by the lack of reimbursement for “primary care services.”13
With passage of the Coronavirus Preparedness and Response Supplemental Appropriations Act of 2020, geographic and site restrictions have been waived for Medicare reimbursement.14 Providers must still demonstrate a prior relationship with patients, which requires at least one encounter with the patient in the past 3 years by the same provider or one with a similar tax identification number (TIN). All hospitalists within our group are identified with a common TIN, which helps to meet this requirement for patient with recent admissions. However, clear guidance on reimbursement for primary care services by acute care providers is still lacking. As the utility of telemedicine is demonstrated in the hospital setting, we hope further changes may be enacted.
Organizations must properly credential and privilege telehospitalists. Telemedicine services may fall under either core or “delegated” privileges depending on the individual hospital. Additionally, while malpractice insurance does typically cover telemedicine services, each organization should verify this with their particular carrier.
SUMMARY
The COVID-19 pandemic has created a systemic challenge for healthcare systems across the nation. As hospitalists continue to be on the front lines, organizations can leverage telemedicine to support their patients, protect their clinicians, and conserve scarce resources. Building out a virtual care program is intricate and requires significant operational support. Laying the groundwork now can prepare institutions to provide necessary care for patients, not just in the current pandemic, but in numerous emergency health care situations in the future.
1. Lurie N, Carr BG. The role of telehealth in the medical response to disasters. JAMA Intern Med. 2018;178(6):745-74. https://doi.org/10.1001/jamainternmed.2018.1314.
2. Virtuwell. HealthPartners. 2020. https://www.virtuwell.com.
3. Wu Z, McGoogan JM. Characteristics of and important lessons from the coronavirus disease 2019 (COVID-19) outbreak in China: summary of a report of 72,314 cases from the Chinese Center for Disease Control and Prevention. JAMA. 2020. https://doi.org/10.1001/jama.2020.2648.
4. Powell A. Coronavirus screening may miss two-thirds of infected travelers entering U.S. The Harvard Gazette. 2020. https://news.harvard.edu/gazette/story/2020/03/hundreds-of-u-s-coronavirus-cases-may-have-slipped-through-screenings/. Accessed March 13, 2020.
5. Hatchett RJ, Mecher CE, Lipsitch M. Public health interventions and epidemic intensity during the 1918 influenza pandemic. Proc Natl Acad Sci U S A. 2007:104(18);7582-7587. https://doi.org/10.1073/pnas.0610941104.
6. Akmatov MK, Gatzemeier A, Schughart, K, Pessler F. Equivalence of self- and staff-collected nasal swabs for the detection of viral respiratory pathogens. PLoS One. 2012:7(11);e48508. https://doi.org/10.1371/journal.pone.0048508.
7. Centers for Medicare & Medicaid Services. Telehealth Services. 2019. https://www.cms.gov/Outreach-and-Education/Medicare-Learning-Network-MLN/MLNProducts/Downloads/Telehealth Srvcsfctsht.pdf. Accessed March 14, 2020.
8. Daniel H, Sulmasy LS. Policy recommendations to guide the use of telemedicine in primary care settings: an American College of Physicians position paper. Ann Intern Med. 2015;163(10):787-789. https://doi.org/10.7326/M15-0498.
9. Centers for Disease Control and Prevention. Healthcare Personnel with Potential Exposure to COVID-19. 2020. https://www.cdc.gov/coronavirus/2019-ncov/hcp/guidance-risk-assesment-hcp.html. Accessed March 13, 2020.
10. Gold J. Surging Health Care Worker Quarantines Raise Concerns as Coronavirus Spreads. Kaiser Health News. 2020. https://khn.org/news/surging-health-care-worker-quarantines-raise-concerns-as-coronavirus-spreads/. Accessed March 12, 2020.
11. Federal Communications Commission. 2018 Broadband Deployment Report. 2018. https://www.fcc.gov/reports-research/reports/broadband-progress-reports/2018-broadband-deployment-report. Accessed March 13, 2020.
12. Martinez KA, Rood M, Jhangiani N, et al. Patterns of use and correlates of patient satisfaction with a large nationwide direct to consumer telemedicine service. J Gen Intern Med. 2018;33(10):1768-1773. https://doi.org/10.1007/s11606-018-4621-5.
13. Centers for Medicare & Medicaid Services. List of Telehealth Services. 2019. https://www.cms.gov/Medicare/Medicare-General-Information/Telehealth/Telehealth-Codes. Accessed March 13, 2020.
14. Coronavirus Preparedness and Response Supplemental Appropriations Act, 2020, H.R. 6074, 116th Cong. 2020. https://congress.gov/bill/116th-congress/house-bill/6074/. Accessed March 13, 2020.
1. Lurie N, Carr BG. The role of telehealth in the medical response to disasters. JAMA Intern Med. 2018;178(6):745-74. https://doi.org/10.1001/jamainternmed.2018.1314.
2. Virtuwell. HealthPartners. 2020. https://www.virtuwell.com.
3. Wu Z, McGoogan JM. Characteristics of and important lessons from the coronavirus disease 2019 (COVID-19) outbreak in China: summary of a report of 72,314 cases from the Chinese Center for Disease Control and Prevention. JAMA. 2020. https://doi.org/10.1001/jama.2020.2648.
4. Powell A. Coronavirus screening may miss two-thirds of infected travelers entering U.S. The Harvard Gazette. 2020. https://news.harvard.edu/gazette/story/2020/03/hundreds-of-u-s-coronavirus-cases-may-have-slipped-through-screenings/. Accessed March 13, 2020.
5. Hatchett RJ, Mecher CE, Lipsitch M. Public health interventions and epidemic intensity during the 1918 influenza pandemic. Proc Natl Acad Sci U S A. 2007:104(18);7582-7587. https://doi.org/10.1073/pnas.0610941104.
6. Akmatov MK, Gatzemeier A, Schughart, K, Pessler F. Equivalence of self- and staff-collected nasal swabs for the detection of viral respiratory pathogens. PLoS One. 2012:7(11);e48508. https://doi.org/10.1371/journal.pone.0048508.
7. Centers for Medicare & Medicaid Services. Telehealth Services. 2019. https://www.cms.gov/Outreach-and-Education/Medicare-Learning-Network-MLN/MLNProducts/Downloads/Telehealth Srvcsfctsht.pdf. Accessed March 14, 2020.
8. Daniel H, Sulmasy LS. Policy recommendations to guide the use of telemedicine in primary care settings: an American College of Physicians position paper. Ann Intern Med. 2015;163(10):787-789. https://doi.org/10.7326/M15-0498.
9. Centers for Disease Control and Prevention. Healthcare Personnel with Potential Exposure to COVID-19. 2020. https://www.cdc.gov/coronavirus/2019-ncov/hcp/guidance-risk-assesment-hcp.html. Accessed March 13, 2020.
10. Gold J. Surging Health Care Worker Quarantines Raise Concerns as Coronavirus Spreads. Kaiser Health News. 2020. https://khn.org/news/surging-health-care-worker-quarantines-raise-concerns-as-coronavirus-spreads/. Accessed March 12, 2020.
11. Federal Communications Commission. 2018 Broadband Deployment Report. 2018. https://www.fcc.gov/reports-research/reports/broadband-progress-reports/2018-broadband-deployment-report. Accessed March 13, 2020.
12. Martinez KA, Rood M, Jhangiani N, et al. Patterns of use and correlates of patient satisfaction with a large nationwide direct to consumer telemedicine service. J Gen Intern Med. 2018;33(10):1768-1773. https://doi.org/10.1007/s11606-018-4621-5.
13. Centers for Medicare & Medicaid Services. List of Telehealth Services. 2019. https://www.cms.gov/Medicare/Medicare-General-Information/Telehealth/Telehealth-Codes. Accessed March 13, 2020.
14. Coronavirus Preparedness and Response Supplemental Appropriations Act, 2020, H.R. 6074, 116th Cong. 2020. https://congress.gov/bill/116th-congress/house-bill/6074/. Accessed March 13, 2020.
© 2020 Society of Hospital Medicine