Coronary Artery Disease Clinical Trial
Official title:
Domain-specific Aerobic Exercise Training in Coronary Artery Disease
Exercise training in cardiac rehabilitation (rehab) is a key part of managing a patient with heart disease. It has been shown that cardiac patients who increase their aerobic ("cardio") fitness by exercise training live longer, have better quality of life, and stay out of hospitals more than patients who do not improve their aerobic fitness. The more a patient improves their aerobic fitness the greater the benefit. But it has been shown that more than half of patients do not improve their aerobic fitness even after participating in cardiac rehab. This may be related to how hard patients are asked to train (their training "intensity"). The way intensity is chosen in current programs is commonly based on a "one-size fits all" method that may not consider that different patients have different abilities. There are more personalized methods to determine training intensity that exist, but these have never been used in cardiac rehab. One method divides intensity into three zones (zone 1 = moderate intensity; zone 2 = heavy intensity; zone 3 = very high intensity) that are based on when an individuals' biological responses to exercise change. The purpose of this study is to see if this approach gives better results in terms of changes in aerobic fitness and if training in the different zones makes a difference. Three groups of patients will be asked to train for 3 months in one of the three intensity zones. Aerobic fitness before and after exercise training will be compared to see which intensity zone results in the largest change.
105 patients with coronary artery disease will randomized at a ratio of 1:1:1 to three months of personalized domain-based and work-matched training in the: 1) moderate-; 2) heavy-; and 3) severe-intensity domains. Age and sex-balance between groups will be achieved by stratified-block randomization After randomization, the protocol is split in two. The "Testing" portion includes physiological, health, and anthropometric assessments acquired at baseline (i.e., week 0) and at weeks 7 and 14. The "Training" portion includes aerobic exercise training 3x per week on a cycle ergometer Testing Testing at weeks 0, 7, and 14 will be identical and completed over two days (Days 1 and 2). On Day 1, blood will be drawn and analysed for resting plasma glucose, cholesterol, and lipid profiles. Next, participants will perform a "step-ramp-step" test that includes in series: a 6-min constant work rate bout at a low-intensity exercise (i.e., ~25 W) followed by a symptom-limited ramp-incremental test (~5-15 W·min-1); and, after 30 min of recovery, a 12-min constant-work rate bout of heavy-intensity exercise (i.e., above gas exchange threshold [GET] but below the respiratory compensation point [RCP], ~40% of peak power output). This protocol will provide measures of cardiorespiratory fitness (V̇O2peak, GET, RCP) and be used to identify and establish the work rate ranges associated with the moderate, heavy, and severe-intensity domains. Throughout the exercise protocol, participants will wear a 12-lead ECG and facemask from which respired gas fractions, flows, and volumes will be measured. Week 7 tests will be used to adjust training intensity. Day 2 experiments will run 48-96 hours later. First, participants' body composition will be measured by Dual X-ray Absorptiometry. Next, participants will perform a step-incremental cycle test at 3 individual-specific work rates within each of the moderate-, heavy-, and severe-intensity domains. After a 4 min 10 W baseline, participants will complete 10 min of constant-work rate exercise at 85%GET (i.e., moderate), then 10 min of constant-work rate at 70% of the difference between GET and RCP (i.e., heavy), and then cycle for as long as they can at 115%RCP (i.e., severe; ~4-6 minutes). At select time points during the protocol, arterialized-venous blood will be sampled from a heated dorsal hand vein and immediately analyzed for blood gas and metabolite concentration using a blood gas analyzer. After each blood draw, participants' cardiac output (Q̇) will be measured non-invasively by open-circuit acetylene breathing. Following exercise, participants will be rested supine in a reclining chair and undergo carbon monoxide rebreathing to measure hemoglobin mass and calculate intravascular volumes. Training Total training duration is 12 weeks (weeks 1-6 and 8-13). All aerobic exercise training will be conducted at Western University. Gas exchange measurements obtained from the "Testing" Day 1 will be used to identify each patients' target training work rate(s). Exercise prescription for the 3 groups will be work-matched (i.e., equal in kJ) relative to moderate-intensity training and prescribed as follows: i) moderate (constant work rate for 50 min at 85%GET; MOD); ii) heavy (constant work rate for 25-35 min at ∆70; HVY); and iii) severe (intervals; 4 x 4 min on at 115% RCP - 3 min off at 50-70%GET; HIIT). After the training target is established, patients will train 3x per week on cycle ergometer in groups as large as 5. Analyses An ANCOVA with sex and baseline fitness as covariates will be used to compare post-training outcome variables of the RCT. The primary outcome measure is V̇O2peak; secondary outcomes measures include V̇O2 at GET and RCP; and tertiary outcome measures include: fasting blood lipids and glucose, adiposity, hematological variables, and submaximal and maximal alveolar and deadspace ventilation, Q̇, stroke volume, and a-vO2diff. Initial primary analysis will be according to randomization, regardless of adherence, for those who complete post-testing (intent-to-treat). However, to assess physiological effects of training intensities, a per-protocol analysis will be used in those who meet training adherence criteria. ;
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