This study aims to 1) develop a strength-building lifestyle-integrated intervention for sarcopenic CAD patients and to 2) examine the feasibility and 3) preliminary effects of this intervention on skeletal muscle mass, muscle strength, physical performance, cardiac-related functional status and health-related quality of life (HRQoL), psychological distress, major adverse cardiovascular and cerebral events (MACCE) and hospital readmission rates
Sarcopenia, a progressive and generalized skeletal muscle disorder characterized by accelerated loss of muscle mass and function, which is related to functional and physiological impairments.Individuals with sarcopenia are associated with profound adverse health outcomes, including increased incidents of falls and fractures, functional decline and increased all cause mortality. No study has been done to examine its effects on patients having the co-existence of sarcopenia and CAD, leaving a significant gap in the literature. Indeed, enabling this vulnerable cohort to adopt and maintain regular resistance exercise remains a great challenge. Assisting older adults to integrate exercise into daily activities can maximize the training benefits and overcome barriers to exercise, and thus improve exercise adoption and adherence. This study will include an assessor-blinded two-arm prospective pilot randomized controlled trial (RCT) and a qualitative study to determine the feasibility, acceptance and engagement experience of the participants in the strength-building lifestyle-integrated intervention with assessments measured at baseline, 3 months and 6 months after randomization. Patients will be allocated chronologically in a 1:1 ratio by using a computer-generated random sequence to determine the block size (4, 6 and 8) and respective study group allocation. Additional to the usual care provided by the primary healthcare providers (i.e. unstructured patient education on lifestyle modification without structured exercise training), the intervention group will participate in a 12-week strength-building intervention to be delivered by an exercise specialist who is required to have a Bachelor's degree in physical education, sports science, physiotherapy or equivalent, and at least 2 years of postgraduate experience.The control group will receive routine care that they currently receiving provided by their primary healthcare providers, which includes unstructured patient education on lifestyle modification. The usual care does not include structured exercise training. This study will be conducted in a patient mutual support organization Care for Your Heart. Muscle mass and strength, physical performance, cardiac-specific functional status, cardiac-specific HRQoL, psychological distress, MACCE and hospital readmission rate will be measured for outcome evaluation at baseline (T0), immediate postintervention (T1), and 3 months post-intervention (T2).Physical performance will be the primary outcome, while the remaining will be the secondary outcomes. This study aims to 1) develop a strength-building lifestyle-integrated intervention for sarcopenic CAD patients and to 2) examine the feasibility and 3) preliminary effects of this intervention on skeletal muscle mass, muscle strength, physical performance, cardiac-related functional status and health-related quality of life (HRQoL), psychological distress, major adverse cardiovascular and cerebral events (MACCE) and hospital readmission rates. The hypotheses for the first and third study aims are: 1. Patients with sarcopenia and coronary artery disease (CAD) receiving the intervention will present with increased skeletal muscle mass and strength compared with the control group at immediate post-intervention (T1), and 3 months post-intervention (T2). 2. Patients with sarcopenia and CAD receiving the intervention will present with improved physical performance, cardiac-related functional status, HRQoL and psychological distress compared to the control group at immediate postintervention (T1), and 3 months post-intervention (T2). 3. Patients with sarcopenia and CAD receiving the intervention will present with a lower rate of major adverse cardiovascular and cerebral events (MACCE) and hospital readmission compared to the control group at immediate post-intervention (T1), and 3 months post-intervention (T2). The second aim is exploratory and qualitative, thus, there is no hypothesis to be tested.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
40
The training schedule for supervised sessions (including community-based and home-based) will last for 60 minutes per session, two sessions per week. From Week 3 and 4, the exercise specialist will deliver supervised home-based training, with one in-person session via home visits and one session to be delivered remotely via an online platform (Zoom). Then the supervision will gradually tail off from Week 5 and onwards, from online supervised sessions, to unsupervised self-practice sessions. An in-person supervised home visit as a booster session will be given at Week 9, the beginning of the habituation phase. Telephone follow-ups will be arranged at Week 10 - 12 by the exercise specialist. All participants in the intervention group will be invited to take part in a qualitative interview to explore the feasibility and acceptability of the intervention.
The School of Nursing
Hong Kong, Hong Kong
Physical performance (measured by the Short Physical Performance Battery)
The Short Physical Performance Battery will be used to assess physical performance and is well validated and widely adopted in clinical and research settings. It is a brief performance-based assessment consisting of 3 timed-tasks, including standing balance, walking speed, and chair stand tests. The timed results will be rescaled to obtain a score ranging from 0 to 12, higher scores indicate better physical performance.
Time frame: Changes from Baseline at the 3 months (after the intervention) and 6 months (follow-up)
Muscle mass
The appendicular skeletal muscle mass (ASM) will be measured with the bioelectrical impedance analysis (In-Body). This is one of the gold-standard evaluation tools suggested by international guidelines for assessment of muscle mass. It is widely used in research and hospital setting for clients with sarcopenia.
Time frame: Changes from Baseline at the 3 months (after the intervention) and 6 months (follow-up)
Muscle strength
The muscle strength will be measured with a hydraulic dynamometer ("Jamar" Dynamometer). The standard protocol suggested by international guidelines will be followed, the maximum reading of at least 2 trials using the dominant hand in a maximum-effort isometric contraction will be recorded.
Time frame: Changes from Baseline at the 3 months (after the intervention) and 6 months (follow-up)
Cardiac-specific functional status
The Seattle Angina Questionnaire will be used to measure cardiac-related functional status. It has 19 items in 5 subscales: physical limitation, angina stability, angina frequency, treatment satisfaction and disease perception. It is scored on a 1-5 or 6 sequentially coded scale and subscale scores are transformed to a scale of 0-100, with higher scores indicating higher levels of functioning and fewer limitations. The Chinese version has been shown to be reliable, valid, and sensitive to clinical change.
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Time frame: Changes from Baseline at the 3 months (after the intervention) and 6 months (follow-up)
Cardiac-specific health-related quality of life (HRQoL)
The MacNew Heart Disease Health-related Quality of Life questionnaire (MacNew) will be used to measure cardiac-specific HRQoL. It has 27 items scored on a 1-7 scale, and then global score is calculated by summing the item scores, with higher scores representing better HRQoL. The global score ranges from 1 (low HRQoL) to 7 (high HRQoL). MacNew has good internal consistency, test-retest reliability, concurrent and discriminant validity.
Time frame: Changes from Baseline at the 3 months (after the intervention) and 6 months (follow-up)
Psychological distress
The Patient Health Questionnaire-4 (PHQ-4) will be used to measure psychological distress. It consists of 4 items assessing anxiety and depression, to be responded on a 4-point Likert scale. The composite total score ranges from 0 to 12, higher scores indicate greater level of anxiety and depression. It has good psychometric properties.
Time frame: Changes from Baseline at the 3 months (after the intervention) and 6 months (follow-up)
MACCE and hospital readmission rates
Major adverse cardiovascular and cerebral events (MACCE) and hospital readmission rates.
Time frame: Changes from Baseline at the 3 months (after the intervention) and 6 months (follow-up)