key: cord-0935541-stru7pxu authors: Scherrenberg, Martijn; Wilhelm, Matthias; Hansen, Dominique; Völler, Heinz; Cornelissen, Véronique; Frederix, Ines; Kemps, Hareld; Dendale, Paul title: The future is now: a call for action for cardiac telerehabilitation in the COVID-19 pandemic from the secondary prevention and rehabilitation section of the European Association of Preventive Cardiology date: 2020-07-03 journal: Eur J Prev Cardiol DOI: 10.1177/2047487320939671 sha: c19e7624d6b5b3ed371e3ebd63548414bb285905 doc_id: 935541 cord_uid: stru7pxu The role of comprehensive cardiac rehabilitation is well established in the secondary prevention of cardiovascular diseases such as coronary artery disease and heart failure. Numerous trials have demonstrated both the effectiveness as well as the cost-effectiveness of comprehensive cardiac rehabilitation in improving exercise capacity and quality of life, and in reducing cardiovascular mortality and morbidity. However, the current COVID-19 pandemic has led to closure of many cardiac rehabilitation centres in Europe resulting in many eligible patients unable to participate in the optimisation of secondary prevention and physical performance. This elicits an even louder call for alternatives such as cardiac telerehabilitation to maintain the delivery of the core components of cardiac rehabilitation to cardiovascular disease patients. The present call for action paper gives an update of recent cardiac telerehabilitation studies and provides a practical guide for the setup of a comprehensive cardiac telerehabilitation intervention during the COVID-19 pandemic. This set up could also be relevant to any cardiovascular disease patient not able to visit cardiac rehabilitation centres regularly after the COVID-19 pandemic ceases. cent of major coronary events occur in patients with known coronary artery disease (CAD). 3 Furthermore, one-fifth of patients admitted for heart failure (HF) are rehospitalised within one year due to a HF exacerbation. 4 The improved survival following a cardiac event results in a growing number of patients living with a heart disease. 5 Therefore, there is need for optimal lifelong secondary prevention. 6 Secondary prevention for CVD consists of three pillars: guideline-directed medical therapy (GDMT), adopting a healthy lifestyle, and patient education to increase health literacy. [5] [6] [7] [8] [9] The goal of GDMT is prescribed, either to obtain clinically stabilisation of patients or to add preventive medications to secondary prevention strategies. 8 It is usually carried out in phase I; however, it can be adapted during phase II. The first step of secondary prevention is often multidisciplinary cardiac rehabilitation (CR). The goals of CR programmes are to reverse the physiological and psychological effects of CVD, to obtain clinical stabilisation (leading to significant reductions in hospitalisations, adverse cardiovascular events and premature death), to optimise cardiovascular risk management, and to enhance the psychosocial and vocational status of participating patients. 5, 8 Although exercise training is the cornerstone of CR programmes, optimally, CR programmes are comprehensive and comprise all core components such as patient assessment, management and control of cardiovascular risk factors, physical activity counselling and exercise training, patient education, prescription of GDMT, dietary advice, psychosocial management, occupational therapy and vocational support. 8 Indeed, multimodal interventions have been shown to elicit greater survival benefits when compared with exercise-only interventions. 9 ,10 CR typically consist of three phases. Phase 1 is the inhospital phase in the first days of hospitalisation after a cardiac event. This phase is important for patient assessment, education and support and to motivate patients to participate in the centre-based CR programme. The core components are routinely delivered during the phase II of CR. This phase II can be provided as an inpatient, outpatient or even home-based service. 8 Phase III is the maintenance phase, with the aim of sustaining lifestyle changes. Although the core components and the effectiveness of secondary prevention and CR are well established, rehospitalisation rates for HF and recurrent events for CAD patients remain disappointingly high. 3, 4 Important causes are the low uptake of CR and poorer long-term adoption of secondary prevention measures, as shown recently in the EuroAspire audits. 1, 11 An array of factors contributes to these low participation rates. Neubeck et al. 12 divided the barriers into three levels. The first level barriers are related to the service and healthcare system such as lack of referral by health professionals, the costs of CR and the local reimbursement policies. Furthermore, most CR programmes are not personalised to the preferences of individual patients or subpopulations. This can lead, for example, to lower participation of women in centre-based CR programmes because women often prefer a more personal and social approach. 13 The second level barriers consist of practical issues. Patients choose not to attend CR due to lack of access to transport, time and scheduling constraints often associated with returning to work. 12 Thirdly, there are patient barriers such as low health literacy, low motivation, lack of belief that they have the ability to control their CVD, lack of time, ill-health and vocational or caregiving responsibilities. 12 What is new, however, and of major impact is the COVID-19 pandemic. Figure 1 gives an overview of common barriers for CR. The COVID-19 pandemic started in December 2019 in Wuhan and quickly spread throughout the world. COVID-19 infection is a mild viral illness in the vast majority of patients (80%), but may cause severe pneumonia (with subsequent complications) and cardiac complications such as myocarditis with substantial mortality rates in the elderly and individuals with underlying diseases. 14 The cause is a novel coronavirus, designated severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2), which is transmitted mainly by respiratory droplets expelled from the nose or mouth. 14 In particular the elderly and patients with comorbidities are at risk of serious complications. 15, 16 The high infectivity of COVID-19 infections has led in many countries to self-quarantine, the closure of educational settings, non-essential stores and companies. In hospitals all non-urgent outpatient appointments, day cases, inpatient and diagnostic work have been put on hold. This also includes centre-based CR programmes in the majority of European countries. As a result, traditional centre-based CR is impossible in countries with strict lockdown policies. One could argue that patients can enrol in CR after the peak of the pandemic has been achieved, yet available capacity then becomes a major issue. Moreover, there is compelling evidence that delaying the start of CR after a cardiac event is associated with less improvement in cardiopulmonary fitness, and poorer uptake, attendance and completion rates of CR programmes. 17, 18 Hence, many centres are now exploring feasible options for the remote delivery of personalised CR services to a large and heterogeneous group of patients. The aims of this paper are to: (a) to call for action to start with the remote delivery of CR services in times of the COVID-19 pandemic; (b) to summarise recent cardiac telerehabilitation trials; and (c) to provide a practical guide on how to set up a remote CR programme. This information will also be of benefit to any CVD patient not able to visit outpatient rehabilitation clinics regularly after the COVID-19 pandemic ceases. Remote delivery of CR has already been studied for several decades as an alternative intervention or adjunct intervention to overcome common barriers to CR participation such as distance, transport or scheduling constraints. 19, 20 A meta-analysis by Anderson et al., 21 which included 23 studies with 2890 patients, investigated the effectiveness of home-based CR in comparison with centre-based CR. The authors concluded that home-based CR was equally effective in improving clinical and health-related QoL outcomes. 22 Recent advances in information and communication technologies have facilitated the provision, monitoring and guidance of home-based CR. The use of these technological innovations to deliver CR from a distance is called telerehabilitation or home-based CR. 19 Homebased CR and telerehabilitation programmes can overcome many of the practical barriers to CR participation and support long-term adherence to a healthy lifestyle. However, there is up to now no evidence that telerehabilitation can improve participation rates. Telerehabilitation enables the provision of objective feedback and allows patients to track their own progress. This could enhance patients' self-management skills and, subsequently support more sustainable behavioural change. Figure 2 gives an overview of the advantages and limitations of current telerehabilitation interventions. During the past decade, different formats of telerehabilitation have been tested, yet implementation in clinical practice and in our healthcare systems has remained disappointingly low. 22 Furthermore, most telerehabilitation trials have only focussed on the exercise training and physical activity component, whereas ideally telerehabilitation should address all core components of CR tailored to the risk profile of the individual patient. 23 At present, a comprehensive telerehabilitation intervention could be used as an alternative mode of CR now the centrebased CR programmes are closed due to the COVID-19 pandemic. Telerehabilitation interventions could be used both in phase II CR as well as in supporting long-term adherence to the physical activity recommendations in phase III CR. The TELEREHAB III trial by Frederix et al., 24 published in 2015, applied accelerometer monitoring in combination with text messaging to deliver telerehabilitation as an add-on to standard CR. The authors found that a 6-month telerehabilitation programme led to a greater improvement in physical fitness and QoL. Moreover, Frederix et al. 25 this intervention (CR plus telerehabilitation) induced persistent health benefits and remained cost-effective up to 2 years after the intervention. The TeleRehabilitation in Coronary Heart disease (TRiCH) study compared the effectiveness of a short home-based phase III exercise programme with telemonitoring guidance to a prolonged centre-based phase III programme in CAD patients and to a control group. 26 Patients were asked to use a smart watch to record their physical activities and to upload these data to an online web application. Based on the data in the web application, therapists provided feedback by telephone or email. 26 Avila et al. 26 concluded that the home-based exercise intervention was as effective as prolonged centre-based training and resulted in equal levels of exercise capacity and physical activity. Furthermore, Piotrowicz et al. 27 carried out the TELEREH-HF trial, which has been the largest telerehabilitation study for HF patients yet. The authors concluded that the telerehabilitation intervention was effective at 9 weeks, with significantly improving peak oxygen consumption and QoL and it was well tolerated, with no serious adverse events during exercise. 27 However, the telerehabilitation intervention was not associated with an increase in the percentage of days alive and out of the hospital and did not reduce mortality and hospitalisation rate over a follow-up period of 14-26 months in comparison with usual care. 27 Other studies directly compared centre-based exercise training with home-based exercise training in phase II CR. The randomised controlled Fit@Home trial was conducted in 2014 with 90 CAD patients. 28 The trial investigated the effects of a 12-week home-based exercise programme with telemonitoring guidance on exercise capacity and health-related QoL in comparison with a traditional centre-based training programme. Patients in the home-based exercise programme were asked to upload their physical activity data recorded with a wearable heart rate monitor to the internet. The patient's progress was discussed with their therapist during weekly telephone calls. 28 Kraal et al. 28 found equal efficacy of the home-based intervention with telemonitoring and the centre-based training on physical fitness, physical activity level or healthrelated QoL. However, the home-based exercise training resulted in greater patient satisfaction and appeared to be more cost-effective than centre-based training. 29 An innovative trial assessing the effectiveness of a smartphone-based exercise programme for CAD patients was conducted in 2019. Maddison et al. 30 performed a randomised controlled telerehabilitation trial in 2019 which comprised a smartphone and chest-worn sensor to monitor and educate patients. The authors demonstrated that the intervention was an effective and cost-effective delivery model that could potentially improve overall CR utilisation rates by increasing reach and satisfying unique participant preferences. 30 Current evidence suggests that home-based exercise training interventions are effective alternatives or additions for CAD and HF patients that cannot participate in centre-based CR programmes. 31 It is important to look critically at these trials. Most trials reveal comparable results in exercise capacity and QoL between centre-based CR and telerehabilitation. These endpoints are prone to spontaneous recovery and do not reflect the three pillars of secondary prevention (e.g. healthy nutrition, adherence to medication, smoking cessation, body composition). 26 Only a few trials have investigated the effect of telerehabilitation on recurrent events, rehospitalisations and mortality in HF and CAD patients. 25, 27 Furthermore, no studies have evaluated the effects of telerehabilitation implementation on participation rates of CR. Table 1 gives an overview of the most recent cardiac telerehabilitation studies for CAD. 25, 26, 28, 30, 31 Important to mention is the fact that more telerehabilitation research is still needed because studies up to now are limited and recent, conducted on selected and stabilised cardiac patients and all trials have been performed in northern Europe. Research in other parts of Europe should be encouraged to make sure that all findings can be generalised. Furthermore, all trials included in Table 1 focus on phase II or phase III CR. To our knowledge telerehabilitation studies are rarely focused on phase I. Smoking is a major modifiable risk factor that should be targeted as part of every primary and secondary CVD programme. 32 All European guidelines recommend that smokers should be professionally motivated to stop smoking permanently. [33] [34] [35] [36] [37] A stepwise strategy is recommended: follow-up, referral to special multidisciplinary programmes and pharmacotherapy. 6 Numerous technologies are available to provide remote smoking cessation guidance such as telephone counselling, video consultation, internet-based interventions, text messaging or mobile applications. An extensive meta-analysis researching the effect of telephone counselling for smoking cessation was conducted in 2019. 38 The meta-analysis, which included 104 trials totalling 111,653 patients, found moderate certainty evidence that proactive telephone counselling can increase quit rates in smokers. 38 The effects of telephone counselling appear more evident when it is provided in combination with print-based self-help materials, or brief face-to-face advice, and is less pronounced when provided as an adjunct to pharmacotherapy. 38 Another medium to provide smoking cessation is video consultation. A meta-analysis conducted in 2019 by Tzelepis et al. 39 included two randomised controlled trials (RCTs) with in total 615 patients. The results of the two RCTs do not suggest a significant difference between video counselling and telephone counselling for assisting people to quit smoking. 40, 41 Both included studies had several methodological limitations so cautious interpretation of the results is needed. 39 Internet and email-based interventions are another approach to provide remote smoking cessation guidance. A recent meta-analysis report by McCrabb et al. 42 in 2019 on the effectiveness of an internet-based smoking cessation intervention stated that these interventions improved the probability of cessation by 29% in the short term and by 19% in the long term when compared with comparison groups. The Cochrane Review of Taylor et al. 43 in 2017 concluded that interactive and tailored internet-based interventions with or without additional behavioural support are moderately more effective than non-active controls at 6 months or longer; however there was no evidence that these interventions were better than other active smoking treatments. The use of text messages is an alternative novel way to increase abstinence rates. Numerous studies have showed a beneficial effect of text messaging in adolescents, pregnant women and veterans as a smoking cessation intervention. [44] [45] [46] This conclusion was confirmed by a RCT with 8000 Chinese patients 47 and in two meta-analyses. 48, 49 A meta-analysis conducted in 2019 by Whittaker et al. 50 concluded that there is moderate certainty evidence that automated text message-based smoking cessation interventions result in greater quit rates than minimal smoking cessation support. There is also moderate certainty evidence for the benefit of text messaging interventions in addition to other smoking cessation support in comparison with smoking cessation support alone. Finally, smartphone applications can also be used for remote smoking cessation guidance. In 2019, Masaki et al. 51 demonstrated that a smartphone application (CureApp smoking cessation) intervention resulted in high long-term continuous abstinence rates, high patient retention rates and improvements in cessation-related symptoms. This suggests that smoking cessation applications have a high potential for delivering effective remote smoking cessation, although a recent meta-analysis of Whittaker et al. 50 demonstrated that more RCTs are needed to confirm the effectiveness of these interventions. In conclusion, effective methods for remote smoking cessation guidance include internet-based, text messagingbased, video consultation and mobile application-based interventions. In particular, text messaging shows great potential. Furthermore, it is a feasible approach for rapid set-up during the COVID-19 pandemic. Arterial hypertension is also one of the main modifiable risk factors for a wide spectrum of CVDs. 32 Blood pressure (BP) is characterised by dynamic fluctuations as a result of the interplay between emotional, physical and environmental factors. 52 Therefore, multiple readings are needed to obtain an idea of the average BP. BP telemonitoring is the most popular way to collect various BP readings to diagnose arterial hypertension or to follow-up recent treatment changes. 53 These data can be either sent automatically to the health professionals or can be transmitted by the patient via telephone, email, text messaging or via a smartphone application. 53 Health professionals can use these BP data to monitor the evolution remotely, to give advice or to suggest treatment changes. 53 Two metaanalyses of RCTs revealed that home BP telemonitoring was associated with greater reductions in both office as well as 24-hour ambulatory BP. 54, 55 One explanation could be that medication adherence is higher in BP telemonitoring. A meta-analysis by Omboni et al. 54 demonstrated that the improved BP control obtained with BP telemonitoring was associated with an increased use of antihypertensive medications. Furthermore, BP telemonitoring possibly accelerates the delivery of guideline-directed care because it allows the assessment of real-time data. 53 Text messaging and mobile applications are alternatives for the remote management or self-management of arterial hypertension. Text messaging could be used for reminders, education, positive reinforcements and feedback. 56 A RCT by Bobrow et al. 56 included 1372 patients and demonstrated that a text messaging intervention could elicit a small reduction in systolic BP control compared with usual care at 12 months. Mobile applications can be used for BP monitoring, reminders, lifestyle coaching and education, and patient-directed feedback. 53 A recent systematic review in 2018 assessed the effectiveness of mobile applications for hypertension management. 57 Ten of the 14 studies reporting the effectiveness of mobile applications in lowering BP demonstrated that the usage of mobile applications could result in a significant decrease in BP. The same systematic review also revealed that mobile applications for BP management were generally very well accepted by participants. 57 The same conclusions were drawn in a systematic review by Mohammadi et al. 58 Better medication adherence following a mobile application intervention seemed to be the most important effect to lower BP. 59 In conclusion, current evidence demonstrates that BP telemonitoring is an effective intervention. There are numerous ways to organise BP telemonitoring such as telephone consultation, text messaging or via a smartphone application. Current evidence suggests that mobile applications are effective in improving BP and medication compliance; however, these studies had only small sample sizes and short durations.53 Type 2 diabetes mellitus (T2DM) is associated with an increased risk of CAD and HF. 60, 61 Therefore, intensive management of T2DM is required to prevent future or recurrent cardiac events. 9,62 Remote technology-based T2DM management may allow real-time monitoring of blood glucose and help to improve medication adherence in comparison with traditional centre-based T2DM management. 63 Remote T2DM management could also be provided with various technologies such as telephone follow-up, video consultation, text-messaging or mobile applications. A meta-analysis by Wu et al. 64 in 2010 revealed that simple telephone follow-up interventions delivered only a limited benefit in terms of glycaemic control. However, more interactive approaches including case management, motivational interviewing and more focus on a psychological approach seemed more effective. 64 Another meta-analysis conducted in 2014 even concluded that a telephone follow-up intervention was no more effective than standard clinical care. 65 Video consultation counselling is a more interactive approach than telephone follow-up. Numerous trials have suggested that interactive video consultations could improve glycaemic control. [66] [67] [68] Video consultations can be used to monitor glycaemic levels, medication adjustments and potentially even for real-time teleophthalmology. 69, 70 Text messaging interventions could also have a place in the remote management of T2DM. Text messaging could potentially help to improve therapy adherence with the use of reminders and could contain motivational and educational messages to improve healthy lifestyle choices. Two metaanalyses published in 2019 revealed that messaging results in decreased haemoglobin A1c (HbA1c) and improved blood glucose control. Moreover, it is considered as a low-cost initiative to motivate T2DM patients to adhere to a healthier lifestyle. 71, 72 Finally, smartphone applications can facilitate remote management of T2DM and promote self-management by providing patients with educational content, selfmonitoring and direct communication with health professionals. 73 Two recent trials suggest the great potential of smartphone application in T2DM care; however, it seems that a remote management application can support a more sustained glycaemic control than solely using a self-management application. 74, 75 Unfortunately, firm conclusions cannot be drawn in view of the relatively small trial sample size. A metaanalysis conducted in 2018 reported a reduction in the HbA1c level of 0.57% for T2DM patients using smartphone applications. 76 In conclusion, different technology-based interventions seem effective for the remote management of T2DM. Moreover, remote interactive management with a focus on casemanagement and motivational interviewing seems to be more effective than solely self-management. Both overweight and obesity are modifiable risk factors for most CVDs. 32 The European guidelines recommend that weight loss programmes consist of physical activity and exercise training, dietary advice and behaviour modification. 6 Dietary advice is often incorporated in weight loss interventions but healthy diet choices also contribute to lower cholesterol, BP and glucose levels. 77 Internet-based weight loss and diet interventions have been evaluated in multiple studies. Harden et al. 78 revealed in 2015 that an internetbased worksite weight loss programme resulted in clinically significant weight loss (5% weight loss) in 22% of the patients. Other trials confirmed the positive effects of internet-based weight loss interventions on diet choices, physical activity or weight. 79, 80 A metaanalysis by Beleigoli et al. 81 demonstrated that internet-based digital interventions led to greater short-term (mean short-term weight loss was 2.13 kg) but not long-term weight loss (mean long-term weight loss was 0.17 kg) than offline interventions in overweight and obese adults. The value of text messaging interventions for weight loss remains controversial. Two meta-analyses showed a small effect of text messaging interventions in short-term weight loss. 82, 83 However, a lack of long-term results indicates that further long-term studies are necessary. Goldstein et al. 84 and Muralidharan et al. 85 demonstrated in 2019 that mobile applications can help to accomplish a moderate short-term weight loss. The short-term efficacy of smartphone-based interventions was confirmed in two recent meta-analyses. 86, 87 However, all of the included RCTs had relatively small sample sizes (between 100 and 833 patients). Nutritional counselling is also a core component of CR. Two studies demonstrated that telephone-based nutritional counselling was effective in improving at least 50% of dietary outcomes. 88, 89 Moreover, a meta-analysis demonstrated that dietary mobile applications could be effective self-monitoring tools. The meta-analysis concluded that mobile applications can result in positive effects on measured nutritional outcomes in chronic diseases, especially weight loss. 90 In conclusion, numerous studies have demonstrated that remote weight and diet management interventions could be an effective alternative for centre-based weight loss programmes. In particular, internet-based interventions and mobile applications seemed to be effective. This suggests that these interventions could be good alternatives when participation in a centre-based programme is not achievable. Modern CR programmes increasingly focus on psychosocial counselling and vocational support. Multimodal behavioural interventions, integrating health education, exercise training and psychological therapy are recommended by the European guidelines because of their importance in affecting cardiovascular prognosis, treatment adherence and QoL. [33] [34] [35] [36] [37] At this moment, there is limited evidence of remotely delivered psychosocial or vocational support interventions for patients with CVD. However, there are well established digital treatments for depression and most of the anxiety disorders, and for problems such as insomnia for the general population. 91 Most digital delivered psychosocial interventions are forms of cognitive behavioural therapy and are based on existing face-to-face treatments. 92 Therefore, telephone and video seem the most suitable approaches to deliver remote face-to-face interventions. Less timeconsuming alternatives for health professionals could be learning exercises, self-monitoring tools, progress reports, downloadable documents, audio and video files, audio and video feedback, avatars, quizzes and games that are delivered to the patient by email, text messaging or even social media. 93 The education of patients about their heart disease is an essential part of secondary prevention and CR programmes. A recent scientific statement from the American Heart Association 7 highlighted that limited health literacy is strongly associated with patient morbidity, mortality, healthcare use and costs. Numerous studies have demonstrated that low health literacy is associated with poorer overall health status and an increased likelihood of rehospitalisation and mortality. [94] [95] [96] This underlines the importance of patient education in CVD patients. Educational interventions in comprehensive CR programmes may reduce fatal and non-fatal cardiovascular events and improve healthrelated QoL. 97 In centre-based CR, patient education is often organised in group sessions where different lifestyle and disease-related topics are discussed. One of the disadvantages of this approach is that it is one size fits all. Remotely delivered education could be delivered by telephone, email, text messaging, social media or video consultation. The advantage of this approach is that it is easy and quick so the health professional can regularly share small amounts of tailored information with the patient. A meta-analysis by Kotb et al. 98 revealed that telephone support interventions during CR may help reduce feelings of anxiety and depression as well as improve BP and smoking cessation. In 2003, Southard and team 99 developed and tested an internet-based programme that allows nurse case managers to deliver risk factor management training and education to patients with CAD. The authors demonstrated that this was a cost-effective approach. 99 Desteghe et al. 100 tested an online education platform for patients with atrial fibrillation (AF). They concluded that it was an effective strategy to improve AF knowledge. Chow et al. 101 demonstrated that a lifestyle-focused text messaging service resulted in improvements in various CVD risk factors in CAD patients. Furthermore, Nundy et al. 102 reported that a text-message intervention in HF patients is feasible and could possibly lead to improved HF selfmanagement. Multiple strategies can be used for remote education. In particular, telephone counselling and text messaging seem feasible approaches for a quick set-up. A comprehensive telerehabilitation service requires multiple steps such as patient assessment and patient selection based on contraindications for remote exercise training, patient follow-up and monitoring, and patient direct feedback. The set-up of all these steps is even more difficult in times of the COVID-19 pandemic. Currently, there are four scenarios in Europe: 103 (a) totally operating CR centres; (b) partially operating CR centres (reduction of settings and/or programmes); (c) closed CR centres with staff maintenance; (d) closed CR centres with staff redeployment. In all temporarily closed CR centres, initial face-to-face contact for exercise testing and health and risk factor assessment was not possible. Now, exercise testing is possible if local hygienic rules are followed. Moreover, it is also more difficult to follow-up the progress of patients because exercise testing, laboratory testing and conducting patient consultations and questionnaires became challenging. However, in temporarily closed CR centres with staff maintenance remote patient assessment and delivery of telerehabilitation interventions is still possible. Furthermore, it is important still to organise multidisciplinary team meetings. These meetings can be virtual in times of the COVID-19 pandemic by using, for example, video calling. Important to note, these recommendations do not only apply to the most acute phase of the COVID-19 pandemic but will remain relevant in the chronic phase of this pandemic, which will probably last until a vaccination is available. Almost all centre-based CR and telerehabilitation interventions start with a face-to-face consultation for patient assessment. 8 This is an important moment to determine the risk profile of the patient, to estimate exercise capacity, to evaluate psychosocial factors, to set rehabilitation goals and especially for prescribing safe exercise. Many components of patient assessment can be done remotely by careful assessment of the electronic medical records, self-monitoring and multidisciplinary telephone or video consultations. The lack of exercise testing results makes taking safety decisions and training in heart rate zones difficult. There are some studies reporting remote 6-minute walking test for the assessment of (submaximal) exercise capacity. [104] [105] [106] However, all these studies used selfdeveloped applications which makes it difficult to implement these quickly in all in European centrebased CR. Exercise capacity could be roughly estimated on the basis of the remote consultation with a physical therapist, physical activity questionnaires or non-exercise prediction models such as an assessment tool derived from the HUNT study. 107 The HUNT study tool consists of a model that gives a rough assessment of cardiorespiratory fitness in an outpatient setting. 107 However, careful interpretation of these results and starting with low-intensity training and resistance training seems advisable. Moreover, patients with acute COVID-19 infections should not perform exercise testing or training. They may gradually increase physical activity after being at least 2 days afebrile. Quarantine times should be respected prior to centre-based visits for risk assessment. Asymptomatic patients may perform exercise training adapted to their cardiovascular risk assessment. Precautions such as social distancing between patients and with health professionals and the use of protective equipment should be taken during centre-based risk assessment to avoid virus spread from asymptomatic carriers. Table 2 gives an overview of remote alternatives for patient assessment in times of the COVID-19 pandemic. [108] [109] [110] [111] [112] [113] [114] [115] [116] [117] [118] [119] [120] [121] Patient selection Safety assessment is important even though the frequency of major cardiovascular complications during supervised exercise training for CVD patients is low: about one per 50,000 patient-hours of exercise training. 122, 123 For a large CR centre including 500-1000 patients per year, this would translate into approximately one major event per year. For home-based CR and telerehabilitation safety assessment is important because patients will exercise without the supervision of health professionals. During the COVID-19 pandemic, cardiologists can only make a decision on the safety of exercise based on the medical history of the patient, latest electrocardiogram, results of the revascularisation procedure and the left ventricular function on latest echocardiography, as well as personal contact by phone or video call. Screening tools for exercise training such as physical activity anamnesis could aid cardiologists or physical therapists in the decision. 124, 125 Without exercise testing, extra caution is mainly needed in high-risk patients. It seems reasonable to start with remote low-intensity exercise training for all cardiovascular training in combination with resistance and flexibility exercises. For very high-risk patients, focus only on other core components of comprehensive CR can be an alternative. In this very high-risk population, the presence of a family member or friend during the training could be a reasonable safety measure, eventually with direct supervision of the training session by video link with the rehabilitation centre, so that close control and rapid intervention is possible in case of problems. There are many telecommunication media that can be used for comprehensive telerehabilitation interventions such as telephones, video consultation, the internet, smartphone applications, text messaging, email and social media. All can be used for bidirectional communication between health professionals and patients. All of them except for self-developed smartphone applications and internet-based interventions are very feasible and can be quickly adopted in every CR centre. Telephone and video consultations are good ways to have remote one-to-one talks with patients to discuss psychosocial topics, medical problems or any questions that patients have. In particular, video consultations have the advantage that patients and health professionals can see each other, which allows non-verbal communication and can potentially improve the trust bond and reduce anxiety and the feeling of being left alone in difficult times. Furthermore, video consultations can also be used for group sessions. For example, health professionals giving a presentation about an educational topic to several patients or a physiotherapist demonstrating exercises. When organising online group sessions, it is important to ensure the privacy of participating patients towards other patients (or to get prior consent) but also to the companies providing the video calling services if applicable. It is therefore preferred to use a general data protection regulation (GDPR) proof system and/or to provide patients with an anonymous account. On top of direct contact, asynchronous telerehabilitation can also be used, sharing commented presentations, films or written material via social media, the website of the hospital or email. This approach can minimise privacy issues but should be combined with moments of interaction between patients and health professionals. Text messaging and email can be used for short educational and motivational messages or to provide quick feedback. Health professionals can share educational and motivational messages and exercise or educational videos via social media. Trustworthy educational resources from national heart foundations or the European Association of Preventive Cardiology (EAPC) (www.healthy-heart. org) can be shared in addition. Remote monitoring of the clinical status and progress of patients is needed to be able to tailor the rehabilitation content better and to adapt the exercise programme to the progression of the patient and to provide objective feedback to patients to improve their self-management skills. Patients can monitor several important parameters at home, such as BP, weight, heart rate, glycaemia, which can be transferred and discussed with the rehabilitation team members. Using short online quizzes or questionnaires, knowledge of the underlying disease or psychosocial status can be assessed, and health professionals can provide feedback, advice and education based on these results. Pictures of patients' meals, 24-hour food recall questionnaires or diet scores can be used to follow-up healthy diet choices and to tailor the advice based on these tools. Finally, the monitoring of exercise training can be done in multiple ways: self-reporting, interactive training sessions via video consultation, pre-recorded Telephone or video intake consultation with psychologist e.g. PHQ-9 118 BDI-II 119 CAQ 120 MSPSS 121 Anxiety Social support Vocational support EMR: electronic medical record; ECG: electrocardiogram; CPET: cardiopulmonary exercise testing; 6MWT: 6-minute walking test; SPPB: short physical performance battery; BP: blood pressure; MD: medical doctor; CR: cardiac rehabilitation; RAPA: rapid assessment of physical activity; TAPA: telephone assessment of physical activity; IPAQ: international physical activity questionnaire; MNA-SF: mini nutritional assessment; PHQ-9: patient health questionnaire-9; BDI-II: Beck depression inventory; CAQ: cardiac anxiety questionnaire; MSPSS: multidimensional scale of perceived social support. training sessions using the BORG scale, 126 or step count measurements. Steps per day can be used for phenotyping of habitual physical activity and for defining physical activity goals (e.g. 5000 steps per day indicate a sedentary lifestyle, 7000-10,000 steps per day are values for healthy adults aged 20 to 65þ years). There is a strong relationship between cadence and intensity. Despite some interindividual variation, 100 steps per minute represents a reasonable value indicative of moderate intensity physical activity. 127, 128 Devices that assess both accelerometry and heart rate are more accurate and have the advantage that they take into account other activity modes. 129 Up-stair steps are included in the daily step count measurements. Figure 3 gives an overview of the devices that can be used and the CR parameters that can be remotely monitored. Blood and urinary testing can be performed in collaboration with the general practitioner. The results can be reported to the CR centre by the patient or general practitioner. Table 3 gives an overview of the currently available telerehabilitation services provided in the EAPC accredited centre-based CR programmes. Due to the closure of CR centres during the COVID-19 pandemic the centre-based patient assessment part of following telerehabilitation services was not possible. It is obvious that digital tools and remote management of patients will play a central role in current and future cardiac care. The use of these tools goes hand in hand with the collection of enormous amounts of data. It is important to be aware that collecting these patient data via telerehabilitation interventions such as text messaging, internet-based interventions or mobile applications also brings a great responsibility to healthcare professionals. 22 It is crucial that CR centres are aware of the data management of the self-developed or existing commercial mobile applications they want to use. Furthermore, health professionals must be aware that there are health and safety risks related to commercial mobile applications that need to be handled with regard to their clinical evidence, claims on purpose and functions, testing and validation of their performance. 22 The National Institute for Health and Care Excellence (NICE) has therefore developed a framework to stratify mobile applications in evidence tiers based on their potential risk for the user. The evidence level needed for each tier is proportionate to the potential risk to users presented by the mobile applications in that tier. 130 When starting a telerehabilitation intervention, it is mandatory to inform the patient about the potential data breach risks of selfdeveloped or commercial applications used in telerehabilitation interventions and to obtain an informed consent of the patient. 131 The past decade's telerehabilitation has been investigated in the search for an alternative for centre-based programmes or to support the effectiveness of CR in the longer term. Yet, the COVID-19 pandemic has created the need for cardiac telerehabilitation, as the only possible intervention due to the temporary closure of centre-based CR programmes, limited centre resources, restricted patient travel and limited infrastructure for safe group interventions. Even after the reopening of the CR centres, it will take time before everything goes back to normal. As many centre-based CR is now exploring options to keep delivering the essential core components of CR to their patients we aimed to provide some tools and guidance on how this can be achieved. Considering the fact that many centres do not have a ready to implement internet-based or mobile-based intervention at their disposal, they have to be creative. Text messaging, telephone and video consultation, and social media are simple and affordable ways to deliver the core components of CR to the patient. This offers the possibilities to get experience with these digital interventions among a large and heterogeneous group of patients across Europe, which could support the future study and implementation of telerehabilitation in standard care. MS, MW, DH, HV and PD contributed to the conception or design of the work. All authors drafted the manuscript. All authors critically revised the manuscript. 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