key: cord-0963226-ad80l0j1 authors: Vilendrer, Stacie; Sackeyfio, Sarah; Akinbami, Eliel; Ghosh, Roy; Luu, Jacklyn Ha; Pathak, Divya; Shimada, Masahiro; Williamson, Emmanuelle Elise; Shieh, Lisa title: Patient Perspectives of Inpatient Telemedicine During the COVID-19 Pandemic: Qualitative Assessment date: 2022-03-30 journal: JMIR Form Res DOI: 10.2196/32933 sha: 7c8b8f9ac8031431b3003a39c2df44289473b4de doc_id: 963226 cord_uid: ad80l0j1 BACKGROUND: Telemedicine has been adopted in the inpatient setting to facilitate clinical interactions between on-site clinicians and isolated hospitalized patients. Such remote interactions have the potential to reduce pathogen exposure and use of personal protective equipment but may also pose new safety concerns given prior evidence that isolated patients can receive suboptimal care. Formal evaluations of the use and practical acceptance of inpatient telemedicine among hospitalized patients are lacking. OBJECTIVE: We aimed to evaluate the experience of patients hospitalized for COVID-19 with inpatient telemedicine introduced as an infection control measure during the pandemic. METHODS: We conducted a qualitative evaluation in a COVID-19 designated non–intensive care hospital unit at a large academic health center (Stanford Health Care) from October 2020 through January 2021. Semistructured qualitative interviews focused on patient experience, impact on quality of care, communication, and mental health. Purposive sampling was used to recruit participants representing diversity across varying demographics until thematic saturation was reached. Interview transcripts were qualitatively analyzed using an inductive-deductive approach. RESULTS: Interviews with 20 hospitalized patients suggested that nonemergency clinical care and bridging to in-person care comprised the majority of inpatient telemedicine use. Nurses were reported to enter the room and call on the tablet far more frequently than physicians, who typically entered the room at least daily. Patients reported broad acceptance of the technology, citing improved convenience and reduced anxiety, but preferred in-person care where possible. Quality of care was believed to be similar to in-person care with the exception of a few patients who wanted more frequent in-person examinations. Ongoing challenges included low audio volume, shifting tablet location, and inconsistent verbal introductions from the clinical team. CONCLUSIONS: Patient experiences with inpatient telemedicine were largely favorable. Although most patients expressed a preference for in-person care, telemedicine was acceptable given the circumstances associated with the COVID-19 pandemic. Improvements in technical and care team use may enhance acceptability. Further evaluation is needed to understand the impact of inpatient telemedicine and the optimal balance between in-person and virtual care in the hospital setting. The COVID-19 pandemic created an unprecedented challenge for health systems to provide high-quality care to potentially contagious patients while simultaneously keeping their workforce and uninfected patients safe [1] . In response, telemedicine was widely adopted worldwide in outpatient settings [2] . Some further adopted "inpatient telemedicine" in acute care settings to facilitate clinical interactions between on-site clinicians and isolated inpatients for the purpose of infection control and to reduce the use of personal protective equipment (PPE) [3] [4] [5] [6] [7] . Early evidence points to the feasibility of inpatient telemedicine as an infection control measure [3] [4] [5] , but formal evaluations into their use and practical acceptance among stakeholders, particularly patients, are limited. In the outpatient setting, robust literature suggests overall patient satisfaction with telemedicine, including in general medicine [8] , urgent care [9] , and specialized settings [10] [11] [12] . Factors driving increased patient satisfaction include improved outcomes, decreased travel time, and improved communication [13] . Adequate training of the staff providing telemedicine services can also improve patient satisfaction [14] . Patient acceptance of telemedicine has persisted through the pandemic [15] [16] [17] [18] , with the highest levels of adoption observed among young patients [19] . However, high rates of patient satisfaction with telemedicine in the outpatient setting do not necessarily translate to the inpatient setting, given significant differences in the clinical environment, acuity of disease, frequency of clinical interactions, and the multidisciplinary team required to care for the patient. Prior to the COVID-19 pandemic, the use of telemedicine in inpatient settings was limited to connecting rural areas with remote expertise [20, 21] , particularly specialty care [14, [22] [23] [24] . The COVID-19 pandemic removed traditional barriers to telemedicine adoption, including staff resistance to change, and lack of reimbursement [13] . Since the pandemic, hospitalists [3, 5] , intensivists [4, 6] , and specialists [25, 26] have used inpatient telemedicine to continue their clinical duties while minimizing pathogen spread. This novel use of inpatient telemedicine is still being explored: in one academic medical setting, the technology was broadly accepted by clinicians and staff but required nurses to drastically alter their workflow practices [27] . In another setting, in-room video technology saw the greatest adoption among patients who used it to communicate with their loved ones [28] . Little else is formally known about how patients perceive inpatient telemedicine, particularly under isolation conditions that a COVID-19 diagnosis necessitates. This is unfortunate, as the patient perspective is integral to ensuring robust patient-provider communication, the lack of which can propagate diagnostic errors and adverse patient outcomes [29] [30] [31] . Isolated patients may be more likely to receive substandard care, particularly related to patient safety [32] and staff responsiveness to time-sensitive needs [33, 34] . Further, patients hospitalized under isolation precautions face unique challenges, including negative feelings associated with loneliness, stigma, and fear [31] [32] [33] [34] [35] [36] [37] . Incorporating patient insights into the design of technological solutions within the patient environment is needed to support patient autonomy, human connection, and a sense familiarity that is otherwise lost during isolation [36] [37] [38] . We therefore aim to understand patient experience as it relates to clinical use and patient acceptance of inpatient telemedicine for infection control in order to optimize technical setup and clinical workflows. We conducted a qualitative evaluation of inpatient telemedicine use on a COVID-19 designated inpatient unit at a large academic medical center. We analyzed qualitative interviews with stable patients hospitalized for COVID-19 to understand the implementation outcomes related to the practical use and acceptance of the inpatient telemedicine solution from the patients' perspective. In March 2020, a large academic health center (Stanford Health Care) designated an inpatient non-intensive care unit to care for admitted patients with confirmed or suspected COVID-19. Each patient received a tablet (iPad; Apple Inc) set up to automatically receive web conference calls (Zoom Video Communications, Inc) from one of two desktops in private workrooms on the unit, all with dual audio and video functionality. Other setting details have been previously described [3] and can be found in Multimedia Appendix 1. The target population included stable patients who were admitted to the non-intensive care COVID-19 unit. Purposive sampling methods were used to recruit participants representing diversity across age, sex, race and ethnicity, and language until thematic saturation was reached [39] . The semistructured patient interview protocol, analysis, and presentation of findings were informed through deductive themes drawn from prior qualitative work [27] and the Implementation Outcomes Framework (Multimedia Appendix 1) [40] . Interview transcripts were reviewed independently by the lead author (SV), and key themes and inductive coding that emerged were then validated using a consensus approach that included the analytic (DP, MS, JHL, and RG) and interview (SS, EA, and EEW) teams. The Stanford Institutional Review Board determined that this project did not qualify as human subjects research (protocol 55927). All participants provided verbal consent to proceed and were informed their participation was voluntary and confidential. A total of 20 interviews were conducted with inpatients undergoing treatment for COVID-19 without intensive care needs. Participants tended to be male (11/20, 55%); aged 50-69 years (15/20, 75%); Latino, White, or Asian, Indian, or Pacific Islander (6/20, 30% each), and spoke primarily English (16/20, 80%) (Multimedia Appendix 1). Telemedicine use varied on the basis of the clinical context and the type of clinician providing care, though it was broadly accepted by patients given the COVID-19-related isolation precautions (Table 1) . Predominant use included nonemergency clinical care and bridging to in-person care-such as when a patient triggered the bedside alert button. In this setting, one nurse was reported to initiate a telemedicine encounter to visually connect with the patient while another donned PPE to evaluate the patient in person. Typical frequency of virtual encounters ranged from 1 to 3 times a day, though one patient reported being contacted up to 10 times per day via the tablet device and 10 times per day in person. Nurses were reported to both enter the room and call on the tablet more frequently than physicians. However, most patients reported at least one in-person encounter daily from their doctor, with a few reporting multiple in-person encounters when their needs were greater. A few patients reported their physician primarily communicated via the tablet device, and a minority perceived there were some days on which they did not speak with their doctor either in person or via the tablet device. Patients generally accepted the use of inpatient telemedicine given their circumstances requiring isolation precautions. A desire to prevent infection transmission was recognized by several patients: "It's helpful that I can talk to multiple doctors without having to expose them to COVID" [Patient 9]. Some felt that telemedicine offered superior convenience, and the visual component was seen as adding value beyond an audio-only telephone encounter. The virtual interactions provided reassurance, which was reported to positively impact patient mood and mental health: "I love to hear from my doctors, it brought such great comfort for them to be updating me" [Patient 6]. Patients broadly reported that the quality of care they received with the integration of telemedicine into their hospitalization was similar to what they might have received without it. However, some were in favor of an in-person encounter in accordance with the concern that some aspects of their care could be missed, particularly related to the in-person examination and human connection. Some felt that telemedicine changed the way they communicated with their care team: "In person is better…I can have a more in-depth dialogue, ask questions…When they're physically here, they can be there for me" [Patient 18]. Older patients, in particular, seemed to prefer in-person encounters. Only a handful of patients felt telemedicine did not compromise their connection with their care team. Table 1 . Patient perspectives on the use and acceptance of inpatient telemedicine in the context of the COVID-19 pandemic. Used primarily for nonemergency care and as a bridge to in-person care In general, the technology was reportedly "very simple to use" [Patient 5]. However, certain technical setup considerations impacted patient acceptability, including audio volume, tablet position both within the room and in relation to the patient, and the automatic turn-on feature. Several patients remarked that despite turning the tablet volume up to its maximum capacity, they still had difficulty hearing the clinical team, particularly if someone was speaking further away from the source microphone. Furthermore, the tablet location and angle relative to the patient sometimes posed challenges. The tablet device was reportedly moved frequently to allow space for nurses doing their clinical work. This lack of a stable location worsened the experience for some patients: There was not a clear consensus on where the tablet should be placed within the room, as another patient preferred it near the feet to optimize the visual component of the encounter. Finally, patients were asked to comment on the automatic turn-on feature of the tablet device, which did not allow them to screen calls. Nearly all were comfortable with this feature, likening it to standard hospital care in which a clinician would simply walk into the room, only sometimes following a quick knock. The one patient in his 20s, who expressed some concern over privacy, devised his own solution to turn the camera toward the wall temporarily while he showered. The clinical team's use of the technology also impacted patient acceptance, specifically around patient orientation to technology, clinician etiquette regarding encounter introductions and use, and visual connection with each speaker. Patients described minimal or no orientation to the tablet. "They never told me about the iPad; I noticed when they came on--'Hello hello hello'" [Patient 10]. Where an orientation was reported to take place, it was minimal: "They pointed it out to me and said…this is the [tablet] for nurses and doctors to call you" [Patient 11]. While this brief orientation would have been preferred, it did not bother most patients. A preference for an orientation was more prevalent among patients who did not have prior familiarity with using tablet devices or web conferencing technology. Opportunities were also noted for improved etiquette around introducing each member of the team and positioning the tablet toward the speaker: This concern was not prevalent among all patients but may have improved acceptability among the few patients who voiced it. Patients' experience with telemedicine during an inpatient admission for COVID-19 was largely favorable. While most patients expressed a preference for in-person care where possible, telemedicine was an acceptable alternative given COVID-19 isolation precautions. Both nurses and physicians regularly used the technology to communicate with patients, thus validating past work [27] in which the balance of in-person versus telemedicine workflows was guided by acuity of clinical need. Telemedicine appeared to serve as a supplementary point of contact between in-person encounters, which patients primarily saw as a benefit to their overall experience and mental health. The technology reportedly played a meaningful role in mitigating the fear and anxiety associated with isolation precautions [31] [32] [33] [34] [35] [36] [37] , though additional evaluation is needed to quantify this impact. Finally, with the exception of a desire by some patients for more hands-on examination and in-person interaction, patients felt their quality of care was no different as a result of inpatient telemedicine. Direct and implied recommendations to improve inpatient telemedicine include increasing audio volume, allowing for a digital "knock" to serve as a warning prior to automatic turn-on, establishing an unobtrusive stable location for the tablet, adding a call-out button to the nursing team, increasing focus on physical touch, improving clinical team introductions, and standardizing patient orientation to the technology (Table 2) . These data are consistent with the past literature, which suggests that providers may overestimate their communication ability [41] . Given that a physician is required to evaluate each inpatient at least once per day, the frequency of physician encounters less than once per day reported by some patient suggests suboptimal communication and role confusion. A strong introduction includes the name, role, and responsibilities of each member of the care team, information that is often not shared even in nondigital clinical settings [42, 43] . Training related to the importance of verbal introductions [44, 45] and best practices to foster the patient-provider connection in the virtual setting may help mitigate the challenge of role confusion [46] . Clear badges or face cards [38, 43, 47, 48] can also help, but these tools are not available in the digital setting. Instead, facial recognition technology is being explored to solve other problems in health care [49, 50] and could be used to automatically display a virtual name badge. Some patients were also concerned that aspects of their care may be missed owing to the lack of a hands-on examination. The importance of a hands-on physical examination-both for diagnostic and therapeutic purposes-is evidenced in the literature [51, 52] , but how to best adapt these learnings to patients are under isolation precautions remains an open question. Nurses were reported to use telemedicine more frequently than physicians, while also maintaining a frequent physical presence within the room, which is perhaps unsurprising given that nurses spend approximately 6-fold more time at the patient bedside than physicians in non-COVID-19 settings [53, 54] . These COVID-19 data further validate past qualitative work, which suggests that nurses use telemedicine as a bridge to in-person care and "batch" care activities, such that physical assessment, medication delivery, meal delivery, and sanitation protocols all occur in a single room entry [27, 55] . The impact of this shift, alongside the reported reduction in in-person physician assessments, on clinical outcomes is an area for future research. To this end, inpatient telemedicine risks exacerbating pre-existing clinician reliance on technology over hands-on examination. Substitutes for an in-person examination, such as directing patients toward a self-examination with a digital stethoscope [56] , pulse oximeter, or other technologies capable of remote transmission of data, even if appropriate from a diagnostic perspective [57] , may be less acceptable to patients in the inpatient setting. Additional evaluation is therefore needed to determine the optimal ratio of in-person to virtual encounters. Table 2 . Implied technical and protocol recommendations to improve inpatient telemedicine in accordance with patient interviews. Telemedicine technical setup • Improve the audio with more powerful provider-side microphone and patient-side speaker technology Tablet position is suboptimally angled or too far from the patient • Stable, unobtrusive "home" for the tablet device within the patient room at an optimal distance and angle; standardized within all patient rooms with telemedicine capabilities Tablet device automatically turns on without warning • Announcement of an incoming call with a digital "knock" and a visual and audible countdown prior to automatic web conference turn-on or "entry" into a room Insights from this evaluation are drawn from a small sample of patients within a single institution and therefore cannot be more broadly generalized. These exploratory interviews provide insight into an otherwise difficult-to-reach patient population with currently limited available data, though future work will benefit from expansion to diverse institutions and patient populations. Including patients who required intensive care may be particularly informative; safety and feasibility constraints limited our ability to capture these perspectives in this assessment. In addition, we purposefully sought a diverse set of voices in our sampling protocol, and our final sample overrepresented non-White participants on the basis of local demographics [58] . Increasing sample diversity in terms of languages spoken, given the predominance of English speakers in this sample, may benefit future work. Finally, these qualitative data may also complement and inform ongoing and future quantitative work that explores the impact of inpatient telemedicine on clinician workflows and, by extension, infection control and resource use [59] . Inpatient telemedicine adopted for the purposes of infection control during the COVID-19 pandemic presents a novel use case of the technology, and our understanding of its impact on clinical workflows, patient outcomes, and the patient experience continues to evolve. This qualitative evaluation suggests that while patients still prefer in-person interactions in the hospital setting, inpatient telemedicine is broadly accepted given the need for COVID-19 isolation precautions. Perceived benefits include increased access to the clinical team and reduced anxiety, yet challenges around the technical setup, clinical team introductions, and physical examination remain. Further evaluation is needed to understand the impact on clinical outcomes and the optimal balance between in-person and virtual care in the hospital setting. Virtually perfect? Telemedicine for Covid-19 Global telemedicine implementation and integration within health systems to fight the COVID-19 pandemic: a call to action. JMIR Public Health Surveill Rapid deployment of inpatient telemedicine in response to COVID-19 across three health systems In-hospital telehealth supports care for neonatal patients in strict isolation Medical undistancing through telemedicine: a model enabling rapid telemedicine deployment in an academic health center during the COVID-19 pandemic Telemedicine implementation in COVID-19 ICU: balancing physical and virtual forms of visibility Telehealth transformation: COVID-19 and the rise of virtual care Patients' satisfaction with and preference for telehealth visits Can telemedicine improve triage and patient satisfaction in urgent care settings? Successful implementation of a telemedicine-based counseling program for high-risk patients with breast cancer The use of telemedicine for penicillin allergy skin testing Administering a telemedicine program Telehealth and patient satisfaction: a systematic review and narrative analysis Telemedicine in Parkinson's disease: A patient perspective at a tertiary care centre Telemedicine during the COVID-19 pandemic: experiences from Western China Exploring the adoption of telemedicine and virtual software for care of outpatients during and after COVID-19 pandemic Evaluating the telehealth experience of patients with COVID-19 symptoms: recommendations on best practices Patient satisfaction with telemedicine during the COVID-19 pandemic: retrospective cohort study COVID-19 transforms health care through telemedicine: Evidence from the field Perceived need and potential applications of a telehospitalist service in rural areas Telemedicine for the care of children in the hospital setting Are patients willing to engage in telemedicine for their care: a survey of preuse perceptions and acceptance of remote video visits in a urological patient population Telemedicine and emerging technologies for health care in allergy/immunology Inpatient teledermatology: Diagnostic and therapeutic concordance among a hospitalist, dermatologist, and teledermatologist using store-and-forward teledermatology Orthopaedic surgical selection and inpatient paradigms during the coronavirus (COVID-19) pandemic The importance of implementing inpatient virtual coverage in an endocrinology practice: lessons learned thus far from the COVID-19 pandemic Inpatient telemedicine implementation as an infection control response to COVID-19: qualitative process evaluation study The impact of inpatient telemedicine on personal protective equipment savings during the COVID-19 pandemic: cross-sectional study Human factors in primary care telemedicine encounters Information gathering and integration as sources of error in diagnostic decision making Patient experience of source isolation: lessons for clinical practice Adverse effects of isolation in hospitalised patients: a systematic review Patient isolation for infection control and patient experience Patient care experience with utilization of isolation precautions: systematic literature review and meta-analysis Qualitative study of the psychological experience of COVID-19 patients during hospitalization The hospitalised patients' experience of being in protective/source isolation: A systematic review of qualitative evidence Needs and concerns of patients in isolation care units -learnings from COVID-19: A reflection PPE portraits-a way to humanize personal protective equipment Qualitative Inquiry and Research Design Choosing Among Five Approaches Outcomes for implementation research: conceptual distinctions, measurement challenges, and research agenda Doctor-Patient Communication: An Overview. In: Communication Skills in Clinical Practice (Doctor-Patient Communication) Care team identification in the electronic health record: A critical first step for patient-centered communication The interpretability of doctor identification badges in UK hospitals: a survey of nurses and patients Health literacy and clear bedside communication: a curricular intervention for internal medicine physicians and medicine nurses Strategies for improving family engagement during family-centered rounds Virtual care, telemedicine visits, and real connection in the era of COVID-19: unforeseen opportunity in the face of adversity Judging a book by its cover: descriptive survey of patients' preferences for doctors' appearance and mode of address Improving inpatients' identification of their doctors: use of FACE cards Predicting Obesity Using Facial Pictures during COVID-19 Pandemic Automatic detection of confusion in elderly users of a web-based health instruction video Touch: knowledge and considerations for nursing practice The doctor's touch: tactile communication in the doctor-patient relationship Assessment of a real-time locator system to identify physician and nurse work locations Hourly rounding to improve nursing responsiveness: a systematic review Nursing perspectives on care delivery during the early stages of the covid-19 pandemic: A qualitative study Development of digital stethoscope for telemedicine Telemedicine is as effective as in-person visits for patients with asthma Using a real-time locating system to evaluate the impact of telemedicine in an emergency department during COVID-19: observational study Abbreviations PPE: personal protective equipment Edited by A Mavragani Shieh L Patient Perspectives of Inpatient Telemedicine During the COVID-19 Pandemic This is an open-access article distributed under the terms of the Creative Commons Attribution License JMIR Form Res which permits unrestricted use, distribution, and reproduction in any medium, provided the original work, first published in JMIR Formative Research, is properly cited. The complete bibliographic information We would like to acknowledge the Stanford Health Consulting Group course and associated course directors for their support in this study and evaluation. We would also like to thank Lauran Miklosey and the nursing team on hospital unit M7 for facilitating the interviews. None declared. Semi-structured patient interview protocol.[DOCX File , 19 KB-Multimedia Appendix 1]