key: cord-0836715-mir4t0vl authors: Muehlensiepen, Felix; Knitza, Johannes; Marquardt, Wenke; May, Susann; Krusche, Martin; Hueber, Axel; Schwarz, Julian; Vuillerme, Nicolas; Heinze, Martin; Welcker, Martin title: Opportunities and Barriers of Telemedicine in Rheumatology: A Participatory, Mixed-Methods Study date: 2021-12-13 journal: Int J Environ Res Public Health DOI: 10.3390/ijerph182413127 sha: 9653a39e252a79cdfde71190867fad7ab06ef192 doc_id: 836715 cord_uid: mir4t0vl Despite all its promises, telemedicine is still not widely implemented in the care of rheumatic and musculoskeletal diseases (RMDs). The aim of this study is to investigate opportunities, barriers, acceptance, and preferences concerning telemedicine among RMD patients and professional stakeholders. From November 2017 to December 2019, a participatory, mixed-methods study was conducted, consisting of (1) expert interviews (n = 27) with RMD patients and professional stakeholders, (2) a national paper-based patient survey (n = 766), and (3) focus groups (n = 2) with patient representatives and rheumatologists. The qualitative findings indicate that patients equate personal contact with physical face-to-face contact, which could be reduced by implementing telemedicine, thus negatively influencing the patient–doctor relationship. Correspondingly “no personal contact with the doctor” is the main reason (64%) why 38% of the surveyed patients refuse to try telemedicine. Professional stakeholders expect telemedicine to contribute to the effective allocation of scarce resources in rheumatology care. The main barriers reported by stakeholders were the scarcity of time resources in RMD care, the absence of physical examinations, and organizational challenges associated with the implementation of telemedicine in RMD care. While the exact integration of telemedicine into routine care has yet to be found, the consequences on the patient-physician relationship must be permanently considered. The global burden of rheumatic and musculoskeletal diseases (RMDs) is rising [1] . While increasingly effective treatments are being developed, the number of newly registered rheumatologists is stagnating [2] and the global demand for rheumatologists is not being met [3] . The deficit of rheumatologists has led to diagnostic delays in many diseases [4] and a decline in treatment effectiveness [5] . In recent decades, information and communication technologies have entered health care [6] [7] [8] [9] [10] [11] with telemedicine as one promising field of application. "[T]he practice of medicine over a distance, in which interventions, diagnoses, therapeutic decisions, and subsequent treatment recommendations are based on patient data, documents and other information transmitted through telecommunication systems" [12] . Opportunities of telemedicine are numerous [13] and have been demonstrated in multiple medical domains [14] , an example of which is cardiology care: Telemedicine support may help to overcome diagnostic delays [15] and even reduce mortality in heart failure [16] . Furthermore, telemedicine can increase the efficiency of health care, shorten travel distances, facilitate access to health care services [17] , and thus might reduce socioeconomic barriers [18] -aspects that are also discussed as potentials of telemedicine in rheumatology care (telerheumatology) [19] [20] [21] [22] . Despite these promises, telemedicine is still not widely implemented in RMD care [23] . In Germany, infrastructural and regulatory barriers, in particular, have prevented the comprehensive implementation of telemedicine in rheumatology and beyond [21, 23] . To reduce these barriers and boost digital transformation, the German Bundestag passed the Digital Health Care Act in November 2019 [24] . Shortly after its release, COVID-19 hit health care systems worldwide, leading to dramatic changes in health care delivery. Telemedicine thus became a necessity to reduce the number of contacts and control transmission, leading to an upturn in the use [25] and acceptance of telemedicine services in Germany [21, 26] . This was initially reflected in a massive increase in the volume of telemedicine services billed by medical practices in Germany [27] . Since the beginning of 2021, however, these figures have been declining again [27] . Persistent barriers seem to hinder the sustainable implementation of telemedicine. The aim of this mixed-methods study was to investigate opportunities, barriers, acceptance, and preferences concerning telemedicine among patients with RMD and professional stakeholders involved in RMD patient management based on pre-COVID-19 data. To explore opportunities and barriers of telerheumatology implementation, an exploratory, participatory, mixed-methods study design [28] was used ( Figure 1 ). It consists of complementary data from (1) expert interviews with patients and professional stakeholders in rheumatology care, (2) a national, paper-based RMD patient survey, and (3) patient and rheumatologist focus groups. Data were collected, analyzed, and interrelated in an iterative process. The study was conducted in compliance with current data protection regulations and the Helsinki Declaration in its current form [29] . All study participants were informed about the research project. Participants of the qualitative research provided written consent. According to the ethics committee of Brandenburg Medical School, no written consent was required from the survey participants due to the non-interventional approach. To explore telemedicine concepts and perspectives and map the complexity of rheumatology care, expert interviews [30] were conducted. Participants were selected using purposive sampling criteria [31] . Inclusion criteria covered engagement in German rheumatology care-namely, patients (members of the patient organization Deutsche Rheuma-Liga), providers, digital health developers, or, in order to reflect regulative and administrative aspects, representatives of the German health insurance system. The exclusion criterion was no engagement in German rheumatology care. Interviewees were initially recruited via snowball sampling and later via direct approach by two health scientists (F.M. and W.M.). Eligibility was verified prior to the interview as part of the scheduling of the interview by telephone. The interview guide (Supplementary Table S1 ) was designed by F.M. and W.M. based on research literature and focused on challenges and potentials to improve RMD care, as well as perception and experience with telemedicine. In addition, socio-demographic data were collected on gender, age, and job position. The interview guide was piloted in two interviews. It was found that the guide was applicable and only minor editorial adjustments were necessary. Thus, the data from the pilot interviews (1 and 2) were included in the analysis The interviews were conducted face to face (n = 23) or via telephone (n = 4) in case of long distances. Interviews were conducted from November 2017 to July 2019 by F.M. and W.M. The study was conducted in compliance with current data protection regulations and the Helsinki Declaration in its current form [29] . All study participants were informed about the research project. Participants of the qualitative research provided written consent. According to the ethics committee of Brandenburg Medical School, no written consent was required from the survey participants due to the non-interventional approach. To explore telemedicine concepts and perspectives and map the complexity of rheumatology care, expert interviews [30] were conducted. Participants were selected using purposive sampling criteria [31] . Inclusion criteria covered engagement in German rheumatology care-namely, patients (members of the patient organization Deutsche Rheuma-Liga), providers, digital health developers, or, in order to reflect regulative and administrative aspects, representatives of the German health insurance system. The exclusion criterion was no engagement in German rheumatology care. Interviewees were initially recruited via snowball sampling and later via direct approach by two health scientists (F.M. and W.M.). Eligibility was verified prior to the interview as part of the scheduling of the interview by telephone. The interview guide (Supplementary File 1) was designed by F.M. and W.M. based on research literature and focused on challenges and potentials to improve RMD care, as well as perception and experience with telemedicine. In addition, socio-demographic data were collected on gender, age, and job position. The interview guide was piloted in two interviews. It was found that the guide was applicable and only minor editorial adjustments were necessary. Thus, the data from the pilot interviews (1 and 2) were included in the analysis The interviews were conducted face to face (n = 23) or via telephone (n = 4) in case of long distances. Interviews were conducted from November 2017 to July 2019 by F.M. and W.M. In the first step, two health care researchers (F.M. and W.M.) and two rheumatologists (M.W., J.K.) designed the first draft of the questionnaire based on the results of the expert interviews. In the second step, the draft was sent to the office of the German League against Rheumatism (Deutsche Rheuma-Liga, Landesvertretung Brandenburg e.V.) for review and modification. The comments of the patient representatives were discussed in a telephone conference and adopted. In the third step, the questionnaire was pretested on 30 RMD patients to gauge the need to refine wording and format and check whether predefined response options were exhaustive. Minor revisions were made accordingly. The final fivepage questionnaire comprised 24 questions, divided into 4 mandatory sections: (1) medical care; (2) technology usage; (3) telemedicine; (4) personal data. Response categories were nominal or ordinal. The questionnaire also contained open questions. The questionnaire was complemented by study information, including a definition of telemedicine with two examples: "Telemedicine refers to the use of information and communication technology in medical treatment to overcome spatial distances. Example 1: Video consultation with physician for visual joint check. Example 2: Phone call with the doctor to check the effectiveness of medication." (Translation from German). The inclusion criteria for the survey were being (1) a patient in rheumatology care; (2) ≥18 years; (3) in Germany. Sampling was based on a non-probability, voluntary approach by involving (1) working groups of the patient organization German League against Rheumatism; (2) outpatient rheumatology practices; (3) inpatient rheumatology wards. The questionnaires were administered to representatives of the aforementioned institutions, in order to hand out the questionnaires to potential participants who met the inclusion criteria. The survey was carried out between 1 September and 30 December 2019. Stamped envelopes were enclosed with the questionnaires for return to the study center, where the completed questionnaires were entered into SPSS Windows version 22.0 (IBM Corp., Armonk, NY, USA). The analysis included descriptive statistics: quantities, percentages, as well as median scores, and ranges for ordinal variables. Focus groups [32] were conducted on the topic "Telemedicine in Rheumatology". The aim of the two discussions was the joint interpretation, critical appraisal, and feedback on the survey results. The first focus group was held in September 2019 with rheumatologists of the Young Rheumatology Working Group of the German Society of Rheumatology (DGRh) in September 2019. The second focus group occurred in November 2019 with patient representatives of the German Rheumatism League. The inclusion criteria for the focus groups were being (1) in rheumatology care in Germany or (2) a practicing rheumatologist. Individuals who did not meet these criteria were excluded from the focus groups. The discussion was stimulated by presentation slides with survey results and the request to interpret the findings. The qualitative data, both the expert interviews and focus groups, were audio recorded and transcribed verbatim. Initially, data collection and analysis were performed iteratively by two health scientists (F.M. and W.M.) using Kuckartz's structured qualitative content analysis [33] supported by MAXQDA Plus for Windows version 2020 (VERBI GmbH, Berlin). Categories were developed both inductively and deductively, based on literature review and earlier research. The main categories applied to the entire qualitative material were challenges of, and potentials to improve, RMD care, as well as conceptualization, experiences, opportunities, and barriers in the use of telemedicine in rheumatology. The category system was applied to the entire interview material. At this stage, data collection had already been completed. To ensure traceability, the application of the category system was validated by a member check, where findings were shared and consolidated with the participants in an informal setting. After completion of the structured qualitative content analysis, F.M. and S.M. performed an additional scaled coding, in which opportunities and barriers of telemedicine served as major deductive categories [34] . Codes were scaled to the category "opportunities of telemedicine" if they contained clearly positive expressions (e.g., "this is a good thing", "great opportunity"), whereas codes were scaled as "barriers of telemedicine" if they expressed a clearly negative connotation (e.g., "a negative example would be"). If codes could not be assigned to the scaling categories "opportunities of telemedicine" or "barriers of telemedicine", they were not considered in further analysis. The presentation of the qualitative results focuses on the categories "conceptualization", "opportunities", and "barriers to telemedicine in rheumatology", with the views of patients and professional stakeholders reported separately, within a thematic, cross-categorical structure. For the presentation of the qualitative results, representative quotes were selected from the transcripts, translated verbatim, and included in the text. From November 2017 to December 2019, a participatory, mixed-methods study on telemedicine in rheumatology was conducted, consisting of (1) expert interviews (n = 27) with RMD patients and professional stakeholders, (2) a national, paper-based patient survey (n = 766), and (3) focus groups (n = 2) with patient representatives and rheumatologists. In total, 27 expert interviews (Table 1) were conducted with patients (n = 5), rheumatologists (n = 6), general practitioners (n = 5), a rheumatology assistant (n = 1), digital health developers (n = 6), statutory health insurance representatives (n = 2), and representatives of regional association of statutory health insurance physicians (n = 2). The expert interviews revealed that the term telemedicine is perceived as broad and non-specific, which can be filled with various meanings. "Telemedicine is comparable to the word digitalization. Everything and nothing. I think telemedicine starts where there is internet access. And I would understand telemedicine as using the technical conditions that we have as efficiently as possible for the benefit of all. And for me, telemedicine is not only the internet access in the medical practice, but also not necessarily the utmost... In other words, performing surgery between two hospitals via a monitor. It's more about using platforms like internet consultations, especially nowadays. So that, the insured also have the opportunity to work with a technical system. In other words, that smartphones are used appropriately. That's how I would actually define telemedicine-well, I think this is somehow wrong. Because telemedicine covers a whole lot of things. And I would say that if you put it very simply, you could actually start telemedicine with the electronic medical letter. This has nothing whatsoever to do with the patient himself, but people send things back and forth to each other without using paper. So I would actually say: Telemedicine is everything and nothing, but it definitely starts with the internet connection." (Interview 17, Professional Stakeholder: Health insurance representative, Pos. 19) Despite the lack of a consistent conceptualization of "telemedicine", the interviewed patients and professional stakeholders described specific opportunities and barriers of telemedicine in rheumatology, which are presented below. The loss of personal contact and the expected decline in the patient-provider relationship is a major concern of patients. It is a strong driver for acceptance toward telemedicine and has been discussed in various passages of the interview data. Participants emphasized the importance of personal contact, particularly physical-personal contact. Under the premise that physical-personal contact remains unaffected, patients described opportunities for the use of telemedicine in rheumatology. Interviewees highlighted the possibility to receive competent advice even between routine appointments, as well as overcoming travel distances, barriers, and waiting times. Professional stakeholders also underlined the importance of physical, face-to-face contact between physicians and patients, emphasizing that the role of telemedicine must be to support, not replace, existing health care services. "Well, at the end of the day, I consider it as something supportive. It cannot replace the direct contact, the complete direct contact between doctor and patient, it neither can nor should. Because I think I also have to touch, I also have to see personally in front of me, without that it doesn't work." (Interview 10, Professional stakeholder: Rheumatologist, Pos. 93) Under this premise, various opportunities of telemedicine in rheumatology, but also digital health in general, were mentioned by stakeholders. Yet, interview partners described obstacles that prevent the deployment of telemedicine use cases. One of these is access to adequate internet capacity. "It is a paradox, that patients who would be most affected by it [telemedicine], patients who live far away from the city, (...) still have white spots in their surroundings, for example areas, residential areas where ISDN is available. They don't even have DSL 2000, they don't have anything. And it doesn't matter whether they want to or not, they simply can't hold a video conference." (Interview 22, Professional stakeholder: General practitioner, Pos. 40) Another obstacle to the use of telemedicine reported by the interviewees was the reimbursement system for medical services in Germany, which does not yet adequately cover the use of telemedicine. The questionnaires were handed out in different settings of rheumatology care: (1) working groups of the patient organization German League against Rheumatism (n = 50); (2) outpatient rheumatology practices (n = 17); (3) inpatient rheumatology wards (n = 2). A total of 5000 questionnaires were distributed. Of those, 766 (15%) were returned. Of the 766 responses, 32 were excluded from further analysis because fewer than half the questions were answered. Most respondents (72%) were female. The mean age of the participants was 57 years. Most respondents reported that they were diagnosed with rheumatoid arthritis (46%), followed by osteoarthritis (24%), psoriasis arthritis (14%), or other conditions (free text form; 14%). Most respondents rated their own state of health as bad (40%) or very bad (7%) and 45% rated their own health as "okay". Most of the respondents located their place of residence in rural areas (34%) and provincial towns (25%), followed by towns (21%) and cities (20%). Participants indicated that they have to travel a median of 10-20 km to their rheumatology practice. The median reported distance to a general practitioner's office was up to 5 km. Most participants responded that they possess a telephone (86%), a personal computer (63%), a smartphone (57%), and a mobile phone (56%). Overall, 84% of the surveyed patients indicated that they have internet access at home. Further characteristics of the sample are illustrated in Supplementary Table S2 . Most survey participants have previously used their phone to contact their physician (79%); followed by e-mail (23%) or fax machine (7%, Figure 2 and Supplementary Table S3 ). Two respondents indicated that they had a video consultation with their physician. Almost two-thirds of the participants (66%) indicated that they had previously searched for information about their rheumatic disease on the internet. Most respondents (79%, Figure 3 ) indicated that they were very satisfied, satisfied, or somewhat satisfied with the information provided. A quarter of the respondents (25%) stated that they have previously visited the website of their rheumatology practice. Slightly more than half of the respondents (51%) reported that they had heard the term "telemedicine" previously before the survey. Further, 38% of the respondents indicated that they did not wish to try telemedicine (Figure 4) . Almost two-thirds of the participants (66%) indicated that they had previously searched for information about their rheumatic disease on the internet. Most respondents (79%, Figure 3 ) indicated that they were very satisfied, satisfied, or somewhat satisfied with the information provided. A quarter of the respondents (25%) stated that they have previously visited the website of their rheumatology practice. Slightly more than half of the respondents (51%) reported that they had heard the term "telemedicine" previously before the survey. Further, 38% of the respondents indicated that they did not wish to try telemedicine (Figure 4 ). 18 Almost two-thirds of the participants (66%) indicated that they had previously searched for information about their rheumatic disease on the internet. Most respondents (79%, Figure 3 ) indicated that they were very satisfied, satisfied, or somewhat satisfied with the information provided. A quarter of the respondents (25%) stated that they have previously visited the website of their rheumatology practice. Slightly more than half of the respondents (51%) reported that they had heard the term "telemedicine" previously before the survey. Further, 38% of the respondents indicated that they did not wish to try telemedicine (Figure 4 ). 18 The item "no personal contact with the doctor" was most frequently quoted as a reason (64%), followed by "data security" (28%, Figure 5 ). Less than one-third of the survey participants (30%, Figure 4 ) indicated that they wanted to try telemedicine. Among these popular use cases were telephone consultations (60%), followed by video consultation (35%), and health care applications (30%, Figure 6 ). Overall, 4% of the participants responded that they would be willing to pay privately for telemedicine (Table 2) , and 21% of the respondents wanted their rheumatologist to offer them telemedicine services. Moreover, 48% stated that they wanted their rheumatologist to give them recommendations on digital services. Participants were asked whether they documented their health status: 22% answered "yes, via paper", and 9% answered "yes, digitally". The item "no personal contact with the doctor" was most frequently quoted as a reason (64%), followed by "data security" (28%, Figure 5 ). Less than one-third of the survey participants (30%, Figure 4 ) indicated that they wanted to try telemedicine. Among these popular use cases were telephone consultations (60%), followed by video consultation (35%), and health care applications (30%, Figure 6 ). The item "no personal contact with the doctor" was most frequently quoted as a reason (64%), followed by "data security" (28%, Figure 5 ). Less than one-third of the survey participants (30%, Figure 4 ) indicated that they wanted to try telemedicine. Among these popular use cases were telephone consultations (60%), followed by video consultation (35%), and health care applications (30%, Figure 6 ). Two focus groups were held with 10 patient representatives of the German League against Rheumatism and 4 rheumatologists of Working Group Young Rheumatology of the German Society for Rheumatology (DGRh). Both focus groups revealed a homogeneous spectrum of opinions with participants confirming the survey results. Patient representatives underlined the high relevance of personal contact reported in the survey, which was equated by the discussants with physical-personal contact with the doctor. Overall, 4% of the participants responded that they would be willing to pay privately for telemedicine (Table 2) , and 21% of the respondents wanted their rheumatologist to offer them telemedicine services. Moreover, 48% stated that they wanted their rheumatologist to give them recommendations on digital services. Participants were asked whether they documented their health status: 22% answered "yes, via paper", and 9% answered "yes, digitally". Two focus groups were held with 10 patient representatives of the German League against Rheumatism and 4 rheumatologists of Working Group Young Rheumatology of the German Society for Rheumatology (DGRh). Both focus groups revealed a homogeneous spectrum of opinions with participants confirming the survey results. "What telemedicine approaches would you like to try?" (n=341) Figure 6 . What telemedicine approaches would you like to try? Patient representatives discussed the potentials and risks of telemedicine in their personal health care. Participants were particularly averse to the use of telemedicine services if they were not applied by their own doctor, on the basis of an existing patientdoctor relationship. "Then I also imagine an overload for the doctor. Because he now also has patients who he doesn't know. That would be irresponsible, because he doesn't see the whole person and so on. I don't want to imagine that at all. So at the very most, if you are under a doctor's care and he knows you, you may then also ask a question by phone or by video or by telemedicine. For a doctor who has never seen me or so, I would not actually agree with that. (Focus group 2, Patient representative, Pos. 178) A discussion point that complements the survey results is the organizational integration of telemedicine into medical routines in the context of scarce time resources. "I'm interested in the organizational side of things. When I make a phone call now, where do I actually end up? Is it a doctor who has office hours there, who only does telemedicine? Because when I arrive at my doctor's office, he doesn't have any time, he has to see his patients. He can't focus on me. I do not see it." (Focus group 2, Patient representative, Pos. 116) Rheumatologists expressed a positive attitude toward telemedicine in the focus group, highlighting the potential of telemedicine as a support of existing care structures. "Perhaps telemedicine can then be seen more or less as a digital safety or support network, so to speak. We as physicians are more or less automatically notified of potential problems thus we can react as promptly as possible in the consultation." (Focus group 1, Rheumatologists Pos. 40) Scarce time resources and practical integration of telemedicine into medical routines were also discussed in the focus group with the rheumatologists. As resources are already limited, telemedicine should not simply be appended to the existing medical tasks. Overall, the results of the different methodological study parts coincide and complement each other, with qualitative findings allowing deeper interpretation of the quantitative data. Table 3 lists the key findings on opportunities and barriers of telemedicine implementation in rheumatology from each workgroup. Table 3 . Key findings in opportunities and barriers of telemedicine in rheumatology. This mixed-methods study combines findings from expert interviews, a patient survey, and focus groups on telemedicine acceptance, barriers, and opportunities in rheumatology care, conducted shortly before the COVID-19 outbreak. The results of our survey indicate patients' heterogeneous opinions on telemedicine in RMD care-namely, the loss of personal contact with the doctor was the main reason for rejection, and telephone consultations were the most preferred telemedicine by patients. Furthermore, the results point to information needs regarding telemedicine implementation in RMD care. Qualitative findings substantiate these results, as interviewed patient representatives were generally amenable to the use of telemedicine and associate, for example, time savings or the reduction in travel distances to RMD care with telemedicine. However, according to the survey data, patient representatives identified major barriers as missing technical infrastructure, potential data insecurity, and, again, the loss of personal contact with the doctor, which, in the focus groups, was underlined to be meant as the physical-personal contact. Professional stakeholders who participated in the qualitative study modules considered telemedicine as a potential safety measure in RMD care delivery and a resource for achieving higher continuity of care. However, organizational challenges and the lack of digital equipment and infrastructure in Germany impede telemedicine implementation, according to the stakeholders. Plus, time resources to implement and use telemedicine in the first step are missing, which, combined with poor reimbursement modalities, leaves telemedical care unprofitable or, as one interviewed physician referred to it, "a hobby". Recommendations to overcome barriers to telemedicine implementation in rheumatology are illustrated in Supplementary Table S4 . Compared with German rheumatologists and general practitioners, our survey results illustrate that patients tend to be reluctant to use telemedicine [23] . Overall, 62% of the physicians surveyed stated that they wanted to try telemedicine, twice as much as the patients surveyed in this study. Physicians rated their own knowledge [23] and experience [35] in telemedicine as low. The results of the patient survey, however, indicate that patients wanted advice from their rheumatologists on digital health. To meet these expectations, further and specific training opportunities in the use of telemedicine and digital health are highly needed [36, 37] . The lack of face-to-face contact with physicians, often equated with physical contact, remains a key issue regarding telemedicine implementation for patients and professionals alike. Patients fear a deterioration of the patient-doctor relationship due to telemedicine. Physicians mentioned missing physical exams while using telemedicine. This raises the fundamental concern of poorer rheumatology care via telemedicine-despite existing evidence that telerheumatology can achieve similar outcomes as conventional care [38] and high satisfaction rates on patient-physician communication via telemedicine reported by patients [39] . Although the effectiveness of telerheumatology is gradually being demonstrated [20, 38, 40, 41] , the perspectives and concerns by potential users have to be continuously included in digital health care implementation. An example would be an individual assessment to determine which patients and providers are eligible for which model of telemedicine care, by reflecting predisposing, facilitating, and reinforcing factors [42] . Kulcsar et al. reported that a telemonitoring approach is appropriate to 81% of RMD patients and propose a triage mechanism to ensure that patients are appropriately paired to the proper visit type in the future [42] . Coincidingly, our results suggest that patients with a confirmed diagnosis, stable disease course, and having a close and trusting patient-doctor relationship are particularly suitable for telemedicine. Likewise, we believe a complementary, need-adapted, and personalized combined virtual/on-site care approach combines the best from two worlds. This allows the potential of telemedicine to be utilized but still preserves opportunities for physical examination and intervention in the event of miscommunication. Thus, the fact that telemedicine does not replace face-to-face care but complements it [37] might lead to an increase in acceptance and also enable previously skeptical persons to gain first experiences in the use of telerheumatology. Our survey data revealed that patients were mainly using the telephone for physician communication, and interestingly, only 2/714 indicated that they had a video consultation with their physician. More patients preferred the telephone to video consultation, consistent with previous studies that identified the telephone as the preferred means of contact with rheumatologists. [43, 44] . In contrast to a previous German survey with RMD patients (n = 193), conducted at an outpatient clinic of a major German university hospital in 2018/2019 [43] , significantly fewer RMD patients possessed a smartphone (57%). This lack of technical equipment was confirmed by patients and rheumatologists in the qualitative part as a barrier to telemedicine usage. Contrastingly, Kernder et al. recently reported that technical equipment represented only a minor barrier for German RMD patients and rheumatologists in the introduction of digital health applications (DHA) [26] . These authors identified the lack of information and evidence as the main barriers for DHA. The latter work was based on post-COVID 19 outbreak data derived from a web-based survey, likely introducing a selection bias. Our survey participants were on average 8 years older. Nevertheless, the majority of patients stated to have an internet connection at home. Similar to previous work [37, 43] , we identified the increased flexibility, especially concerning time and location, as the main advantages of telerheumatology. Plus, patients emphasized the reduction in unnecessary routine, face-to-face appointments as a potential of telemedicine in rheumatology. In line with Kernder's study, the majority of rheumatologists and patients agreed on implementing virtual visits for follow-up appointments in stable disease conditions [26] . Importantly, a randomized, controlled trial showed that telemedicine follow-up can achieve similar disease control to a conventional outpatient follow-up [38] . All data reported in this study were collected shortly before the COVID-19 outbreak. The pandemic, infection control measures, and changes in traditional health care delivery, however, have impacted patient and professional stakeholder perspectives on telemedicine globally [45] , locally [25] , and specifically in rheumatology care as well [26, 46] , resulting in massive uptake of telemedicine and digital health care. The necessity of using telemedicine to reduce contacts and infection transmission may have led many to their first experiences with telemedicine and might have contributed to the increased acceptance of telemedicine. Since the beginning of 2021, however, these figures have been declining again [27] . Lacking digital infrastructure in Germany, concerns related to patient-doctor relationship and data security, scarce time resources to implement telemedicine, and even regulatory barriers are aspects that remain unchanged. However, these must be targeted to yield sustainable telemedicine use, in order to alleviate resources of health care practitioners to provide appropriate care for rising numbers of RMD patients [47] . The results of this study should serve as a reference for comparable studies, as further research, especially a replication of our research to capture the impact of COVID-19 and measure the progress of digital transformation in rheumatology, is highly needed. There are limitations to our study. Following an exploratory, participatory, mixedmethods approach, we deliberately defined telemedicine broadly in order to explore telemedicine concepts in rheumatology from the user perspectives. However, this also may have led to reduced comparability of the qualitative results. In consultation with the patient organization, we aimed to provide a questionnaire that was understandable for all potential participants-digitally skilled or not. In consequence, the general acceptance of patients toward telemedicine in rheumatology is well covered in the survey results. However, developmental and treatment-related issues of telemedicine use, such as mode (asynchronous vs. synchronous) or specific telemedicine approaches, were only outlined in the qualitative data and need to be examined in subsequent studies. In addition, the study information sent with the questionnaire could be a source of learning bias [48] . It included a definition of telemedicine with two examples of telemedicine use cases (video and telephone consultation) and thus might have influenced the responses. Interviews were conducted over a 21-month period (November 2017-July 2019). The response rate to the patient survey was comparatively low, at 15% [49] , with a higher response among inpatient facilities (96%/33% of the total questionnaires) than among outpatient providers (11%/54% of the total questionnaires) or patient organization workgroups (14%/13% of the total questionnaires). This is attributable to the distribution strategy and potentially could have been positively influenced by reminders or incentives. The low and uneven response may also be associated with several types of bias: nonresponse bias, selection bias, and social desirability bias. To overcome an additional selection bias, we chose a paper-based survey in favor of an electronic approach [49] . No definite recruitment strategy (e.g., maximum variation sampling) was pursued to collect the qualitative data. This could be associated with self-selection bias. The two focus groups were attended exclusively by patient representatives or rheumatologists. This resulted in homogeneous responses. Diversification might have provided further insights. We decided against this to reduce social desirability bias. To the best of our knowledge, we performed the first participatory, multi-perspective, mixed-methods study on telemedicine in adult rheumatology. To ensure a representative sample, patient representatives were also involved at all stages and patient inclusion was extensive (patient organization, outpatient, inpatient setting). The mixed-methods approach provides comprehensive insights into the perspective of RMD patients and key stakeholders in rheumatology care. The results of our study demonstrate the great importance of trustful patient-physician relationships in rheumatology, based on physical-personal contacts, which might be complemented but not replaced by telemedicine. Our findings also revealed RMD patient demands for further information and knowledge on digital health that rheumatologists must meet as their discipline faces ongoing digital transformation. Based on pre-COVID data, we identified barriers and opportunities to further support the design and implementation of telemedicine in rheumatology care. RMD patients value the physical-personal contact with their rheumatologists and fear a negative impact on the patient-doctor relationship with the introduction of telemedicine to their personal health care. Thus, many RMD patients reject the use of telemedicine. On the other hand, participants perceive immediacy of care, overcoming distances, and efficient allocation of scarce resources as opportunities for telemedicine. Both the qualitative and the survey data revealed that organizational and infrastructural barriers have to be overcome, and information needs have to be met in order to implement telemedicine effectively and sustainably in rheumatology care. The world-wide burden of musculoskeletal diseases: A systematic analysis of the World Health Organization Burden of Diseases Database The global challenges and opportunities in the practice of rheumatology: White paper by the World Forum on Rheumatic and Musculoskeletal Diseases Diagnostic delay in patients with rheumatoid arthritis, psoriatic arthritis and ankylosing spondylitis: Results from the Danish nationwide DANBIO registry Window of opportunity in early rheumatoid arthritis: Possibility of altering the disease process with early intervention Telemedicine in paediatric emergency care: A systematic review The Benefits of Telemedicine in Personalized Prevention of Cardiovascular Diseases (CVD): A Systematic Review E-Health Practices and Technologies: A Systematic Review from Challenges in current nursing home care in rural Germany and how they can be reduced by telehealth-An exploratory qualitative pre-post study Telemedicine interventions for CPAP adherence in obstructive sleep apnea patients: Systematic review and meta-analysis The efficacy, challenges, and facilitators of telemedicine in post-treatment cancer survivorship care: An overview of systematic reviews The clinical effectiveness of telehealth: A systematic review of meta-analyses from 2010 to 2019 Diagnostic performance and system delay using telemedicine for prehospital diagnosis in triaging and treatment of STEMI Efficacy of telemedical interventional management in patients with heart failure (TIM-HF2): A randomised, controlled, parallel-group, unmasked trial An Analysis of Cost and Time Savings Addressing cost and time barriers in chronic disease management through telemedicine: An exploratory research in select low-and middle-income countries How Critical is Tele-Medicine to the Rheumatology Workforce? Rheumatology Care Using Telemedicine Digitalization in rheumatological practice EULAR points to consider for the development, evaluation and implementation of mobile health applications aiding selfmanagement in people living with rheumatic and musculoskeletal diseases Acceptance of Telerheumatology by Rheumatologists and General Practitioners in Germany: Nationwide Cross-sectional Survey Study DVG-A Summary of Germany's New Law for Digital Health Applications The impact of the COVID-19 pandemic on professional practice and patient volume in medical practices: A survey among German physicians and psychotherapists Digital rheumatology in the era of COVID-19: Results of a national patient and physician survey Another Significant Decline in Outpatient Treatment Cases // Physician Practices with Vaccination Record against Influenza and Pneumococci Research Design: Qualitative, Quantitative, and Mixed Methods Approaches World Medical Association Declaration of Helsinki: Ethical principles for medical research involving human subjects Sampling in Interview-Based Qualitative Research: A Theoretical and Practical Guide Focus Groups: A Practical Guide for Applied Research Hospital end-of-life care: Families' free-text notes Rheumatology Clinicians' Perceptions of Telerheumatology Within the Veterans Health Administration: A National Survey Study A Digitally Competent Health Workforce: Scoping Review of Educational Frameworks Tele-Health Followup Strategy for Tight Control of Disease Activity in Rheumatoid Arthritis: Results of a Randomized Controlled Trial Patient satisfaction with physician-patient communication during telemedicine Telemedicine for patients with rheumatic diseases: Systematic review and proposal for research agenda Telerheumatology: A Systematic Review Telerheumatology: A technology appropriate for virtually all Mobile Health Usage, Preferences, Barriers, and eHealth Literacy in Rheumatology: Patient Survey Study Are people with chronic diseases interested in using telehealth? A cross-sectional postal survey Telemedicine Across the Globe-Position Paper From the COVID-19 Pandemic Health System Resilience PROGRAM (REPROGRAM) International Consortium (Part 1). Front Impact of COVID-19 on vulnerable patients with rheumatic disease: Results of a worldwide survey Addressing the rheumatology workforce shortage: A multifaceted approach A catalog of biases in questionnaires Web-based versus traditional paper questionnaires: A mixed-mode survey with a Nordic perspective We acknowledge funding by the MHB Open Access Publication Fund supported by the German Research Association (DFG). We would like to thank the participants and supporters of TeleRheumaBB. We especially thank the Deutsche Rheuma Liga Landesvertretung Brandenburg for their support in the development and distribution of the questionnaire. We also owe special gratitude to KV Consult-und Managementgesellschaft mbH, which initiated the study. The present work is part of the PhD theses of F.M. (AGEIS, Université Grenoble Alpes, Grenoble, France). The following are available online at https://www.mdpi.com/article/ 10.3390/ijerph182413127/s1, Table S1: Qualitative Interviews: Interview guide-translated from German, Table S2 : Survey sample characteristics, Table S3 : Technology use in health care, Table S4 : Recommendations to overcome barriers to telemedicine implementation in rheumatology. Funding: Financial support was provided by Novartis Pharma GmbH. Novartis had no role in the study design or in the collection, analysis, or interpretation of the data; the writing of the manuscript; or the decision to submit the manuscript for publication. Publication of this article was not contingent upon approval by Novartis. Publication funding was provided by the MHB Open Access Publication Fund supported by the German Research Association (DFG). The ethics committee of the Brandenburg Medical School stated that no ethical approval consent was necessary due to the non-interventional study design. There was no risk involved in participating in this study. All study activities were conducted according to the guidelines of the Declaration of Helsinki. Interview and focus group participants provided written consent. Survey participants were informed with a cover letter and agreed to the use of their data by returning the questionnaires. All data relevant to the study are included in the article. For further questions regarding the reuse of data, please contact the corresponding author (felix.muehlensiepen@mhbfontane.de).