key: cord-330792-dxdpn46t
authors: Moulson, Nathaniel; Bewick, David; Selway, Tracy; Harris, Jennifer; Suskin, Nelville; Oh, Paul; Coutinho, Thais; Singh, Gurmeet; Chow, Chi-Ming; Clarke, Brian; Cowan, Simone; Fordyce, Christopher B.; Fournier, Anne; Gin, Kenneth; Gupta, Anil; Hardiman, Sean; Jackson, Simon; Lamarche, Yoan; Lau, Benny; Légaré, Jean-François; Leong-Poi, Howard; Mansour, Samer; Marelli, Ariane; Quraishi, Ata ur Rehman; Roifman, Idan; Ruel, Marc; Sapp, John; Small, Gary; Turgeon, Ricky; Wood, David A.; Zieroth, Shelley; Virani, Sean; Krahn, Andrew D.
title: Cardiac Rehabilitation during the COVID-19 Era: Guidance on Implementing Virtual Care
date: 2020-06-14
journal: Can J Cardiol
DOI: 10.1016/j.cjca.2020.06.006
sha: 
doc_id: 330792
cord_uid: dxdpn46t

Cardiac rehabilitation programs across Canada have suspended in-person services as a result of large-scale physical distancing recommendations designed to flatten the COVID-19 pandemic curve. Virtual cardiac rehabilitation (VCR) offers an alternate mechanism of care delivery, capable of providing similar patient outcomes and safety profiles compared to centre-based programs. In order to minimize care gaps, all centres should consider developing and implementing a VCR program. The process of this rapid implementation however can be daunting. Centres should initially focus on the collation, utilization and re-purposing of existing resources, equipment, and technology. Once established, programs should then focus on ensuring that quality indicators are met and care processes are protocolized. This should be followed by the development of sustainable VCR solutions to account for care gaps that existed prior to COVID-19, and to improve cardiac rehabilitation delivery moving forward. This article reviews the potential challenges and obstacles of this process and aims to provide pragmatic guidance to aid clinicians and administrators during this challenging time.

Cardiac rehabilitation programs across Canada have suspended in-person services as a result of large-scale physical distancing recommendations designed to flatten the COVID-19 pandemic curve. Virtual cardiac rehabilitation (VCR) offers an alternate mechanism of care delivery, capable of providing similar patient outcomes and safety profiles compared to centre-based programs. In order to minimize care gaps, all centres should consider developing and implementing a VCR program. The process of this rapid implementation however can be daunting. Centres should initially focus on the collation, utilization and re-purposing of existing resources, equipment, and technology. Once established, programs should then focus on ensuring that quality indicators are met and care processes are protocolized. This should be followed by the development of sustainable VCR solutions to account for care gaps that existed prior to COVID-19, and to improve cardiac rehabilitation delivery moving forward. This article reviews the potential challenges and obstacles of this process and aims to provide pragmatic guidance to aid clinicians and administrators during this challenging time.

Cardiac rehabilitation (CR) programs across Canada have suspended in-person, centre-based cardiac rehabilitation (CBCR) services as a result of large-scale physical distancing recommendations designed to flatten the COVID-19 pandemic curve. CBCR has unequivocally demonstrated reductions in hospital readmissions, secondary events, and mortality in cardiovascular disease patients. 1 Significant consequences of CBCR suspension may include short-and longer-term adverse events including increased rates of cardiac-related emergency department visits and hospital admissions and exposure of this vulnerable cardiac population to infection. This all places additional burdens on an already strained health care system. Prolonged closure of or reduced access to CBCR are likely to result in a significant waitlist expansion for this service, perpetuating in-person care delivery delay. In an effort to mitigate concerns related to the closure of CBCR programs during the pandemic, virtual CR (VCR) offers an alternate mechanism to CBCR, capable of delivering similar patient outcomes and safety profiles for low to moderate risk cardiac patients. 1, 2 VCR is home-based cardiac rehabilitation (HBCR) delivered by virtual mechanisms. Virtual care refers to any remotely occurring interaction between patients and their care providers that utilizes information and communication technologies to facilitate or maximize the quality and effectiveness of care. This includes telephone and video-conferencing communication, email, mail, text or other messaging solutions, smartphone applications, online platforms, and wearable devices.

The process of rapidly implementing a VCR however can be daunting, particularly for centres without previously established virtual care programs. Conversely, for centres where some home-based/virtual programs are already available, the conversion of all CR participation to VCR brings new challenges, largely around greater resource requirements, the risk-stratification process, and exercise delivery. A review of the challenges, limitations, and pragmatic guidance on the rapid transition to VCR is outlined in this article.

Prior to the COVID-19 pandemic, CR remained a significantly underutilized resource with up to 75-80% of eligible patients not participating. 1, 3 While the majority of Canadian CR care appears to have been delivered as CBCR, up to ~80% of programs offered an alternative to CBCR delivery as well. 3 This included home-based, community-based, or a hybrid model of initially supervised encounters transitioning to unsupervised settings. Smartphones, "apps," or text messaging have been employed to some degree in approximately ~30% of programs. The degree to which more extensive VCR programs exist in Canada has not been elicited Patient participation in VCR is determined by eligibility criteria based on risk stratification for cardiac events and patient factors such as access to required technology and self-motivation. The majority of VCR programs limit participation to low-moderate risk patients, with higher risk patients enrolled in CBCR. Graded-exercise testing (GXT) is used to inform the risk stratification process.

During the COVID-19 pandemic, up to 50% of all Canadian CR programs have ceased providing any care (unpublished data, personal communication, Dr. Paul Oh). Those that continued to provide care adapted by labour intensive telephone interviews in response to a lack of in-person intake assessments, a potential inability to perform routine GXT riskstratification, and a lack of in-person exercise monitoring for those deemed to be at "high-risk" of cardiac events. These programs have also innovated using a virtual model to deliver all other CR care components.

Several specific areas of concern surrounding the transition to, and the delivery of, VCR exist. These include challenges faced due to resource limitations, loss of in-person interactions, difficulties with risk stratification and supervision, and a lack of specific virtual cardiac rehabilitation delivery standards (see Supplementary Table S1 ). The notion of VCR safety requires greater scrutiny, particularly in older and frail cardiovascular patients with comorbid illnesses.

During the initial implementation phases of VCR, centres face possible CR staff redeployment due to COVID-19 related issues, a potential lack of centre and patient experience with virtual care delivery, and uncertain access to affordable, effective technologies. Limited access to technology and/or a lack of technology literacy has the potential to exacerbate care delivery gaps in vulnerable populations including the elderly, those of lower socioeconomic status, and those living in rural settings.

Furthermore, a lack of evidence exists for entirely virtual programs (i.e. without ANY access to in-person intake assessments, the absence of risk stratification by GXT, and the inclusion of high-risk patients). This makes the identification and enrollment of 'high-risk' patients particularly challenging as intake GXT followed by clinical and electrographic monitoring to provide safe and effective exercise therapy are mainstays of CR delivery for this population. Without an intake GXT, exercise prescription must rely on estimates and subjective measures, although the use of wearables may provide reasonable estimates on target heart rate guidance for exercise.

The protection of CR staff and patients from undue risk of nosocomial infection and the potential limited availability and utilization of personal protective equipment resources should remain primary considerations during all stages of the implementation process of VCR. Implementation should initially focus on the collation, utilization and re-purposing of existing resources, equipment, and technology over complex restructuring. This will allow for rapid delivery to mitigate the negative impact of a lack of CR in at-risk cardiovascular populations.

Programs Goals (Figure 1) Centres should initially prioritize 'Basic, safe and timely' care over 'complex and comprehensive' care, particularly for those with no previously established virtual program (Figure 1, Step 1) . Once a program is established, the focus should shift to ensuring that traditional CR care delivery standards are met, protocolized patient assessment and follow-up are defined, and workflow is optimized (Figure 1, Step 2) . Program evaluation should comprise at a minimum: referral reason, CR intake and discharge dates, and data elements to assess adherence to Canadian Association of Cardiovascular Prevention and Rehabilitation (CACPR) Quality Indicators. 4 Once the preliminary establishment and quality assurance mechanisms are in place, centres should seek appropriate resources and supportive technologies to enhance care delivery and should aim to develop robust and sustainable VCR solutions, not only to continue to provide high-quality care during the COVID-19 pandemic, but also to address care gaps that may have existed prior to the pandemic (Figure 1, Step 3).

All patients eligible for conventional CBCR should be considered for participation in VCR in some capacity and should ideally include a component of exercise training. This includes patients previously excluded from VCR programs prior to the COVID-19 pandemic. Examples include patients at "high-risk" of events, exercise-induced or otherwise, those with limited access to technology, vulnerable populations, the elderly, those of low socioeconomic status, and those in rural locations. Appropriate measures are required to ensure that the implementation of VCR does not widen gaps in care for these vulnerable populations. Programs with limited resources may require regular phone interactions and educational mail-outs if the required technology is not available. Individual programs may also consider purchasing tablets, smart phones or other electronic options for loan to participants to enhance a "one-on one" personalized experience. Enlisting family members to assist in effective communication for those who are "technologically disadvantaged" can be beneficial.

The risk of a severe exercise related cardiovascular event is extremely rare during CR. Current evidence would suggest similar safety profiles exist for VCR as compared to CBCR. 1 However, the evidence for those deemed at higher risk is more limited and therefore requires a cautious approach.

Risk stratification for CR participation has traditionally relied heavily on symptom-limited GXT to assess for the presence of 'high-risk' features such as abnormal hemodynamic responses, silent or residual ischemia, dysrhythmias, exercise-induced symptoms and low functional capacity. The presence of these GXT findings, or other clinical parameters such as a reduced left ventricular ejection fraction (<40%), would have previously precluded patients from at least initial participation in home or VCR programs (supplementary references). With the alternative however being no CR during the current pandemic, the risk of excluding these 'high-risk' patients compared to the accrued benefits of appropriately prescribed physical activity should be carefully balanced and a shared decision-making process undertaken. Therefore, given the important role of GXT, it should be performed under safe conditions when at all possible and clinically indicated, including for new patient intakes. When not available, increased emphasis should be placed on clinical assessment, and alternate methods of obtaining functional capacity (e.g. Duke Activity Status Index; self-administered 6 Minute Walk Test) 5 . This includes the potential use of smartphone applications and wearable technology (supplementary resources). While these methods cannot replace a GXT, they may provide a baseline metric of functional capacity and help to guide initial exercise prescription.

In the absence of standard risk stratification methods and available in-person monitoring, exercise prescriptions for home-based exercise should be conservative and titrated slowly, particularly for higher risk patients. The target should be the minimal level of physical activity required to obtain the required health benefit and exercise intensity should not exceed moderate levels of intensity. Patient education on symptom and intensity assessment is therefore paramount. Patient driven intensity assessment can be achieved by HR palpation, use of available wearable HR monitors, and the 'talk test' (supplementary resources). 

The COVID-19 pandemic is likely to result in varying degrees of care disruption for the foreseeable future. Once a VCR program has been established, centers should plan for an ebb and flow of care delivery restrictions that are likely to follow the COVID-19 pandemic trajectory. Programs should also embrace the development of sustainable VCR solutions to account for care gaps that existed prior to the COVID-19 pandemic by planning to utilize the virtual care skills and infrastructure acquired to implement hybrid CR models when physical distancing recommendations eventually ease.

Further guidance on planning for the different levels of restrictions on care is included in the online supplementary materials (Supplementary Figure S1 ).

Disclosures and Funding Sources: None to declare 

• Reduce "labour-intensive" 1-on-1 sessions when possible by providing group tele-/videoconferencing for educational sessions and patient support

• Formalize an evaluation process to assess the merits and efficacy of virtual care

• For rural and/or under resourced area, consider purchasing tablets, smart phones or other electronic options for loan to participants to enhance a "one-on one" personal experience

Home-Based Cardiac Rehabilitation: A Scientific Statement From the American Association of Cardiovascular and Pulmonary Rehabilitation, the American Heart Association, and the American College of Cardiology

COVID-19: A Time for Alternate Models in Cardiac Rehabilitation to Take Centre Stage

Ensuring Cardiac Rehabilitation Access for the Majority of Those in Need: A Call to Action for Canada

Pan-Canadian development of cardiac rehabilitation and secondary prevention quality indicators

Assessment of functional capacity in clinical and research settings: a scientific statement from the American Heart Association Committee on Exercise, Rehabilitation, and Prevention of the Council on