key: cord-0798625-yzqz8pjh
authors: Satyamurthy, Akhila; Prabhu, Nivedita; Padmakumar, Ramachandran; Babu, Abraham Samuel
title: Feasibility of an exercise-based cardiac rehabilitation algorithm in patients following percutaneous coronary intervention for acute coronary syndrome
date: 2020-07-17
journal: Indian Heart J
DOI: 10.1016/j.ihj.2020.07.011
sha: 1be21bbc868e1608a3ecd235d5a041dd902d29d0
doc_id: 798625
cord_uid: yzqz8pjh

Cardiac rehabilitation (CR) is underutilised across the world and India. The use of simple algorithms is one way to facilitate CR, however, these algorithms need to be feasible to use across low resource settings. The objectives were to assess the feasibility of a CR algorithm following percutaneous coronary intervention (PCI) for acute coronary syndrome (ACS). A single group, pre-post study on 50 participants undergoing PCI for ACS found significant improvement in various feasibility metrics at discharge and 30-days, with no major adverse events. The proposed CR algorithm was safe and feasible for low and moderate risk patients with ACS undergoing PCI.

The rising trend of cardiovascular diseases (CVD) in India accounts for about a fifth of the world's cardiovascular deaths, with fatality rates at 17%. 1e3 Despite this, there is an inverse relation between the existing disease burden and the availability and utilization of cardiac rehabilitation (CR), i.e., CR density not just around the world but also in India. 2e4 In India, the CR density (i.e., number of incident ischemic heart disease cases per year per CR spot) was 360, which ranked it at 71/86 globally. 3 Thus, in a country like India where both resources and CR centers are limited, assessing feasibility and outcomes of such low-cost models are paramount and crucial to the implementation to clinical practice.

To augment CR availability and utilisation, a low-cost model has recently been formulated for patients with acute coronary syndrome (ACS) undergoing percutaneous coronary intervention (PCI) ( Supplementary Fig. 1 ). 5 This algorithm was formulated based on the available guidelines, established evidence and the active input of a multi-disciplinary team of cardiac rehabilitation professionals. Furthermore, it has not been tested in large scientific studies. Considering the poor CR density in India and simplicity of the CR algorithm, this study was designed to assess the feasibility of this low-resource CR algorithm for patients with ACS undergoing PCI.

A single group, pre-post study was carried out in a tertiary care, University teaching hospital in South India following Institutional Ethics Committee approval (IEC no. 169/2018) and trial registration (CTRI/2018/07/014,713).

50 patients were recruited through purposive sampling, between August 2018 and February 2019. Patients were screened for inclusion (primary and/or interval PCI for ACS) and excluded if clinically and haemodynamically unstable, with symptoms of heart failure and/or neuromuscular conditions limiting rehabilitation. Written informed consent was obtained prior to enrolment.

Information of eligible participants were obtained, and the CR algorithm was administered by the physiotherapist (Supplemental Fig. 1 ). 5 During the delivery of the algorithm, treatment time and level achieved on the algorithm were recorded. At the time of discharge, choice of CR was offered (i.e., supervised or home-based) as recommended. 5 Weekly telephonic follow-up for a month following discharge was also implemented.

This algorithm was assessed using the feasibility metrics and its sub-components, measured at various time points (Supplemental Table 1 ). 6 At 30-day follow up, major adverse cardiovascular events (re-hospitalisation, angina and mortality) and scientific metrics were re-assessed.

The results were analysed using Statistical Package for the Social Sciences (SPSS) version 16.0: Descriptive statistics were used to report demographic variables and the metrics except for scientific metrics, which was analysed using the Student's t-test. Repeated measures of analysis of variance was used to analyze the differences in treatment time. Exploratory analysis using binary logistic regression with backward stepwise reduction was performed to identify factors predicting cardiac self-efficacy at 30 days. Statistical significance was considered when p 0.05.

Of 64 referred participants, 50 were administered exercisebased CR using the algorithm with 42opting for home-based CR (Supplemental Fig. 2 ) at discharge and 35 were followed-up and analysed at 30 days (Supplemental Fig. 3 ). Characteristics of all the participants and between those attending and not attending home based CR are provided in Table 1 and Supplemental Table 2 , respectively. Characteristics of the non-attendees were similar in all aspects except for age and risk categorisation. Table 1 also describes process and resource metrics; projecting the refusal rate, completion rate and drop-out rate (utilisation of CR) and management metrics reflecting its safety. Six sessions of phase 1 CR saw a significant reduction in treatment time (p < 0.001,

Scientific metrics showed clinically and statistically significant functional and psychological improvements except for cardiac selfefficacy which showed a significant reduction (Table 1) , of moderate effect size (0.559e1.13). Further exploration did not identify any significant factors predicting self-efficacy at 30 days.

This algorithm is feasible, meeting three out the four predefined feasibility criteria: refusal rate ¼ 25%, time ¼ 30 min for each session, adverse events ¼ 1% and significant improvements in scientific metrics. The CR algorithm was safe, effective and achievable (100% completion of the algorithm) with 78.12% acceptance amongst low and moderate risk PCI group. 

The individual variation in attaining level 3could be related to the length of hospital stay and clinical condition. Therefore, subdividing level 3 into two components: 3a (without stair climbing) and 3 b (with stair climbing) could be considered ( Table 2 ).

In the present study, the refusal rate was lower than that reported for a subset of PCI patients 48.6% (18/37). 8 The refusal rate in our study truly reflects the patient's willingness to participate in an exercise-based CR, as the physician played a neutral role in the decision making of the participants.

Patients are important stakeholders of any intervention and are key players who impact its implementation. 9 Therefore, to understand the reasons behind refusal to participate in CR, the patients (n ¼ 14) were asked to state the reasons as well. Among those not willing to enrol into the study, five were not interested and four of them felt they were independent enough and did not require any exercise. Furthermore, they thought it could hinder their discharge (n ¼ 5/12).

The length of hospital stay and the safety of CR were similar to other studies. 9,10 Significant reduction in treatment time could be attributed to the low risk status and better cardiac function which enabled them to exercise with limited supervision. Patient compliance and volume of exercise were, however, not assessed.

The drop-out rate in our study was lower than that observed by Mikkelsen T et al. 7 [21% (37/176)] and by Vos D et al [40.5% (15/ 37)]. 8 The non-attendees in this study were similar in all aspects except that they were older and in the lower risk category, in comparison with those who attended CR (Supplemental Table 2 ) which is in contrast to the study by Mikkelsen et al. 7 where they were mainly in a younger age group. The reason for this finding could be attributed to the fact that the participants in our study were of lower risk, in spite of being older, which could have promoted a faster attainment of independence when compared to the group of attendees.

Participants presented with lower 6MWD than those with ACS(373.12 m v/s 470 m). 11 The psychological findings were similar to other studies, except for kinesiophobia, which was higher in our study. 12e14 However, the varying time points of kinesiophobia assessment (i.e., 6 months after diagnosis v/s 3e5 days after diagnosis), suggests that chronicity of the disease could influence this finding. 12 

The functional and psychological benefits were similar to previous studies, despite the short duration of phase 2 CR. 11e15 Except self-efficacy, which was contrary to the study that assessed cardiac self-efficacy in CAD population. 14 This could be attributed to the over-protective behaviour of relatives in the Indian context, previous physical activity behaviour and timing of assessment. 14 Quality of life saw an improvement across all the domains, which was higher than those reported by Manjunath K et al. 15 This is one of the first studies to assess the feasibility of this low cost and contextually relevant CR algorithm. Nevertheless, it is not without limitations. Lack of blinding, the short duration of phase 2 CR, lack of detailed echocardiographic evaluations and treatment, are some of them. Despite these, the study opens possibilities for future research focusing on long term follow up, addition of control groups and recruitment of high-risk patients. In addition, effects of technology driven CR for home-based delivery could be assessed in future trials. 16 To conclude, this CR algorithm is feasible among low and moderate -risk ACS patients undergoing PCI. A minor modification to the existing algorithm could facilitate better delivery of exercisebased CR while in-hospital.

None.

None. 

This low cost cardiac rehabilitation algorithm is feasible among those with ACS of low to moderate risk undergoing PCI in a low resource setting, with an additional benefit of reduction in kinesiophobia.

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Cardiac rehabilitation in India: results from the international council of cardiovascular prevention and rehabilitation's global audit of cardiac rehabilitation

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Important considerations for feasibility studies in physical activity research involving persons with multiple sclerosis: a scoping systematic review and case study. Pilot and Feasibility Stud

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Effect of pre-discharge cardiopulmonary fitness on outcomes in patients with ST-elevation myocardial infarction after percutaneous coronary intervention

Protocol-guided phase-1 cardiac rehabilitation in patients with ST-Elevation myocardial infarction in a rural hospital

The impact on kinesiophobia (fear of movement) by clinical variables for patients with coronary artery disease

Innovative application of a home-based and remote sensing cardiac rehabilitation protocol in Chinese patients after percutaneous coronary intervention

Self-efficacy and in-patient cardiac rehabilitation

Quality of life of a patient with type 2 diabetes: a cross-sectional study in Rural South India

COVID-19: a time for alternate models in cardiac rehabilitation to take centre stage

The authors would like to thank the staff for their contribution and assistance and also the participants of the study.

Supplementary data to this article can be found online at https://doi.org/10.1016/j.ihj.2020.07.011.