Pilot Randomized Clinical Trial of Live-streamed Cardiovascular Rehabilitation

Not Applicable

Terminated

• Conditions: Cardiac Disease

• Registration Number: NCT05157568
• Lead Sponsor: Ottawa Heart Institute Research Corporation

Brief Summary

Cardiovascular Rehabilitation (CR) programs are designed to help people recover following a heart attack, heart surgery, or diagnosis of heart disease. Counseling, education, risk factor management, and efforts to increase levels of MVPA constitute the largest components of CR programs. Technological advances in video-conferencing and video-streaming are affording new opportunities to increase access to CR services and supervised exercise sessions for patients who are social distancing, or who face access issues (e.g., time, mobility, transportation etc.). Comfort with these technologies for CR staff and patients has been accelerated by the current pandemic. Technology-enabled interactions between patients and providers is a significant opportunity to help mitigate these effects. We developed a new model for delivery of group exercise training for people with heart disease. Our model delivers all the core components of CR (i.e. counseling, education, risk factor management) but also includes live-streaming of CR exercise classes. Two versions of these classes are available: one that does not require any exercise equipment; and one that relies on a stationary exercise bike and exercise band delivered and installed in patients' homes. The new model has performed well in proof-of-concept testing, but now needs to be rigorously evaluated.

Detailed Description

Heart diseases affect an estimated 2 million Canadians each year; they are chronic conditions that require patients to manage their health on a daily basis. Moderate-to-vigorous intensity aerobic exercise (e.g. walking, running, cycling) is a key self-management strategy for people living with heart disease and those who accumulate at least 150 minutes of moderate-to-vigorous intensity physical activity (MVPA) each week improve critical patient-relevant outcomes like cardiorespiratory fitness, symptoms of anxiety and depression, quality of life, rehospitalization, and mortality.

Cardiovascular Rehabilitation (CR) programs are designed to help people recover following a heart attack, heart surgery, or diagnosis of heart disease. Counseling, education, risk factor management, and efforts to increase levels of MVPA constitute the largest components of CR programs. In Canada, many patients with heart disease do not access CR programs. Estimates of the proportion of patients with heart disease that attend CR range from 22-52% and a majority of them are men. Long travel distance to CR centres, severe weather, work and caregiving responsibilities, other time constraints, and the costs for parking while attending CR programs consistently top patient-related barriers to participation. In addition, the current COVID-19 pandemic has forced CR programs to limit participation in on-site activities, significantly impacting the ability to provide exercise testing and supervised exercise training sessions, therapies known to improve outcomes. Many CR programs have switched to virtual care, a case-managed approach that is delivered by phone, email and/or the Internet. Participant feedback indicates drawbacks to home-based programming, including: a lack of social support (compared to on-site group exercise); a lack of instruction and feedback on exercise performance; a lack of appropriate home exercise equipment; and, a lack of structure for completing daily exercise sessions.

Technological advances in video-conferencing and video-streaming are affording new opportunities to increase access to CR services and supervised exercise sessions for patients who are social distancing, or who face access issues (e.g., time, mobility, transportation etc.). Comfort with these technologies for CR staff and patients has been accelerated by the current pandemic. Current and future pandemics are likely to feature waves of infection necessitating frequent and long periods of physical distancing, isolation, and healthcare disruption, particularly for vulnerable populations, such as those with heart disease. This will result in progressively poorer physical and mental health for people living with these conditions. Technology-enabled interactions between patients and providers is a significant opportunity to help mitigate these effects.

Few randomized controlled trials (RCT) of real-time, video-conferencing-based exercise rehabilitation have been conducted. A scoping review of digital cardiology applications did not include any video-conference-based supervised exercise interventions. We conducted literature searches using the terms 'video-conference,' 'randomized trial,' and 'exercise' and identified only 2 published studies. Tsai and colleagues randomized 37 patients with COPD to either a supervised, home-based tele-rehabilitation group that received exercise training via videoconference 3 times/week for 8 weeks, or a control group that received usual care without exercise training. After 8 weeks, participants in the intervention group showed a significant increase in endurance shuttle walk test time compared to participants in the control group (between group difference = 340 s; P \<.0001) (7). Duruturk and Oskoslu randomized 50 participants with type 2 diabetes to treatment or control. Participants in the treatment group performed breathing and calisthenic exercises, three times a week, for 6 weeks, at home by Internet-based video conferences. HbA1c (P \<.01), 6 min walking distance (P \<.01), and depression levels (P \<.01) changed significantly in the treatment versus the control group.

The incremental value of installing specific forms of home exercise equipment is also an important question. Proper equipment may allow people to increase the volume and intensity of their workouts, important drivers of adaptation to exercise and improvements in cardiorespiratory and functional fitness. We were able to locate only one RCT in patients with chronic illness that used provision of home exercise equipment as an independent variable. Jakicic et al examined the effects of home exercise equipment in 148 overweight women (9). Participants who had a treadmill installed in their home achieved greater weight loss (-7.4 kg vs. -3.7 kg; P \<.05) and completed more exercise sessions each week in follow-up compared to participants receiving exercise coaching only (6.6 vs. 4.3 sessions per week; P \<.05). Of note, the pandemic has accelerated adoption of home exercise equipment and exercise class streaming among healthy adults (e.g. Peloton, Mirror); none of these applications are designed to meet the needs of people with heart disease.

We developed a new model for delivery of group exercise training for people with heart disease. Our model delivers all the core components of CR (i.e. counseling, education, risk factor management) but also includes live-streaming of CR exercise classes. Two versions of these classes are available: one that does not require any exercise equipment; and one that relies on a stationary exercise bike and exercise band delivered and installed in patients' homes. The new model has performed well in proof-of-concept testing, but now needs to be rigorously evaluated.

Study Timeline

• Study First Submitted: 2021-12-01
• Study First Submitted QC: 2021-12-01
• Study First Posted: 2021-12-15
• Study Start: 2022-09-20
• Primary Completion: 2023-02-24
• Study Completion: 2023-09-01
• Status Verified: 2023-11
• Last Update Submitted: 2023-11-08
• Last Update Posted: 2023-11-13

Recruitment & Eligibility

• Status: TERMINATED
• Sex: All
• Target Recruitment: 2

Inclusion Criteria

1. Patient was discharged from hospitalized at UOHI within the last 12 weeks;
2. Patient has stable CHD or repaired valvular disease;
3. Patient has been referred to CR and is a candidate an offsite program;
4. Patient is able to completed a cardiopulmonary exercise test;
5. Patient has access to and regularly uses a smart phone, tablet or computer with Internet access;
6. Patient is ≥ 18 years of age (the age of consent in Ontario);
7. Patient is able to provide informed consent

Exclusion Criteria

1. Patient was hospitalized for heart failure, congenital heart disease, transplant or arrhythmia within the last 6 months;
2. Patient, in the opinion of the medical advisor (Dr. Andrew Pipe/Dr. Hassan Mir), manifests illness or disease that would preclude participation in the interventions (e.g. cognitive impairment, active drug or alcohol dependence, unresolved cardiac symptoms).

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
Eligibility	8 weeks	What proportion of patients referred to CR are eligible to participate based on the inclusion and exclusion criteria?
Feasibility of recruitment	8 weeks	What proportion of eligible patients accept the invitation to participate in the research and agree to be randomized to treatment?
Feasibility of equipment delivery	8 weeks	Are the interventions acceptable in terms of completion of delivery and set-up of home exercise equipment (ES+E group only), scheduled coaching contacts, and exercise training class attendance (ES and ES+E groups)?
Retention	8 weeks	How many patients will complete of follow-up assessments at the end of intervention (8 weeks)?

Trial Locations

Locations (1)

The University of Ottawa Heart Institute; 🇨🇦 Ottawa, Ontario, Canada