Ischemic cardiomyopathy, defined by a deficiency in oxygenation of the myocardium due to a narrowing of the coronary arteries, is a major problem for public health. Medicinally-treated or re-vascularized cardiovascular rehabilitation following myocardial infarction has shown undeniable benefits in decreasing the overall mortality rate (13-26%), cardiovascular mortality (26-36%) and morbidity, by controlling cardiovascular risk factors and improving tolerance to effort and consequently improving the quality of life. Since the integration of physical exercise into the rehabilitation programs of patients suffering from coronary disease in the mid-90s, and throughout the following decade, the exercise training program has mainly relied on moderately intense continuous exercises (CONT) the aim of which is to improve the aerobic capacity. These efforts typically consist of performing a submaximal exercise with an intensity of 50 to 80% of the maximum capacity for effort (established according to studies depending on the maximum or reserve heart rate or even peak power, measured when performing a first test, then a progressive and maximum test), and a constant duration (about 20 to 60 minutes). In the 2000s, under the aegis of Scandinavian teams, the intermittent mode (IT) appeared, characterized by alternating high intensity efforts of a short duration with active recuperation phases (Rognmo et al., 2004). Superiority of the IT mode over the CONT mode is generally observed on aerobic capacity for effort, usually gauged via the maximal oxygen consumption peak measured during a graded and maximum effort test. An important methodological bias in the comparison of the two modalities, within meta-analyses or even in the same randomized controlled trial, is the absence of control/pairing on the overall volume of training. At the present time, and to the best of our knowledge, there have been no studies to compare the effects of CONT versus IT modes on the systolic or diastolic function of the myocardial region by 2D-strain following myocardial infarction. The aim of our study was to compare the outcomes of 2D strain scans upon inclusion and after 8 weeks of cardiovascular physiotherapy for 2 groups of patients benefiting from a CONT or IT program.
This is a bi-centric randomised comparative superiority trial, blinded to the evaluator for 2 parallel groups (interventional intermittent training group "IT" vs a continuous training control group "CONT") with a 1:1 ratio. Patients admitted for care at the cardiology departments of Nîmes University Hospital and the cardiology department of Avignon hospital for a first myocardial infarction dating back to less than 6 weeks will be pre-selected. The patients will receive both written and oral information about the study. Patients are then referred to the Physical Medicine and Cardiac Rehabilitation departments at Nîmes University Hospital for the Nîmes site and the Lavarin Cardio Rehabilitation Center for the Avignon site for the inclusion visit at which the information about the study is given. Patients will be included in the study after signing a consent form. The investigators then proceed with a maximal aerobic exercise test to evaluate cardiovascular endurance capacities and the suitability of the cardiovascular training program. Cardiac ultrasound is also performed, questionnaires about the quality of life are administered and biological doses are measured. Then a stratified randomisation on the patient's age and sex will be performed to assign the subject either to the "IT intermittent training group" group, the experimental group, or to the "CONT continuous training" group, the control group which corresponds to the general care usually given. Comparison of these two groups constitutes the methodological framework for this research. In the "IT intermittent training group (the experimental group), the patient benefits from a retraining program according to intermittent mode for 8 weeks, with three 45-minute sessions per week. In the "CONT continuous training" group (the control group), the patient benefits from a retraining program according to the continuous mode for 8 weeks, with three 40-minute sessions per week. At the end of the retraining program, at 8 weeks, an exercise test and a 2D Strain scan are performed, biological doses are taken and quality of life questionnaires are handed out. Each patient will be followed 2 months after inclusion. The duration of inclusion period will be 18 months. The total duration of the test will be 24 months.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
SINGLE
Enrollment
100
Patient benefits from an intermittent retraining program for 8 weeks, with three 45-minute sessions per week.
Nîmes University Hospital
Nîmes, Gard, France
Clinique Lavarin, Centre de Rééducation Cardiaque,1 Rue Mère Térésa,
Avignon, Vaucluse, France
Longitudinal systolic strain on Day 0.
All patients, whatever group they have been assigned to, will undergo a 2D Strain scan at the inclusion visit, before starting continuous (CONT) or intermittent (IT) cardiovascular rehabilitation.The overall longitudinal systolic strain (s-1) of the left ventricle will be measured (%) by echocardiography.
Time frame: Day 0
Longitudinal systolic strain at Week 8.
All patients whatever group they have been assigned to will undergo a 2D Strain scan after undergoing 8 weeks continuous (CONT) or intermittent (IT) of cardiovascular physiotherapy.The overall longitudinal strain (s-1) of the left ventricle will be measured (%) by echocardiography.
Time frame: Week 8
Longitudinal diastolic strain on Day 0
Longitudinal diastolic strain (s-1) will be measured by echocardiography before undergoing CONT or IT cardiovascular rehabilitation.
Time frame: D0
Longitudinal diastolic strain at Week 8
Longitudinal diastolic strain (s-1) will be measured by echocardiography after 8 weeks of CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Circumferential strain on Day 0
Circumferential strain (s-1) will be measured by echocardiography before beginning CONT or IT cardiovascular rehabilitation.
Time frame: Day 0
Circumferential strain at Week 8
Circumferential strain (s-1) will be measured by echocardiography after undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Systolic radial strain on Day 0
Systolic radial strain (%) will be measured by echocardiography before beginning CONT or IT cardiovascular rehabilitation.
Time frame: Day 0
Systolic radial strain at Week 8
Systolic radial strain (%) will be measured by echocardiography after undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Diastolic radial strain on Day 0
Diastolic radial strain (s-1) will be measured by echocardiography before beginning CONT or IT cardiovascular rehabilitation.
Time frame: Day 0
Diastolic radial strain at Week 8
Diastolic radial strain (S-1) will be measured by echocardiography after undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Systolic circumferential strain on Day 0
Systolic circumferential strain (s-1) will be measured before undergoing CONT or IT cardiovascular rehabilitation.
Time frame: D0
Systolic circumferential strain at Week 8
Systolic circumferential radial strain (s-1) will be measured after undergoing 8 weeks of CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Diastolic circumferential strain on Day 0
Diastolic circumferential strain (s-1) will be measured before undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Day 0
Diastolic circumferential strain at Week 8
Diastolic circumferential strain (s-1) will be measured after undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Apical rotation on Day 0
Apical rotation (°) will be measured before undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Day 0
Apical rotation at Week 8
Apical rotation (°) will be measured after undergoing 8 weeks of CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Basal rotation on Day 0
Basal rotation (°) will be measured before undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Day 0
Basal rotation at Week 8
Basal rotation (°) will be measured after undergoing 8 weeks of CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Ventricular torsion on Day 0
Ventricular torsion (°) will be measured before undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Day 0
Ventricular torsion at Week 8
Ventricular torsion (°) will be measured after undergoing 8 weeks of CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Intraventricular asynchrony on Day 0
Intraventricular asynchrony (ms) will be measured before undergoing CONT or IT cardiovascular rehabilitation.
Time frame: Day 0
Intraventricular asynchrony at Week 8
Intraventricular asynchrony (ms) will be measured after undergoing 8 weeks of CONT or IT cardiovascular rehabilitation.
Time frame: Week 8
Cardiac morphology : Telesystolic volume on Day 0
Telesystolic volume wil be measured (mL) before starting cardiac rehabilitation.
Time frame: D0
Cardiac morphology : Telesystolic volume at Week 8
Telesystolic volume wil be measured (mL) after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : Telediastolic volume on Day 0
Telediastolic volume will be measured (mL) before starting cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : Telediastolic volume at Week 8
Telediastolic volume will be measured (mL) after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : Left ventricle mass on Day 0
Left ventricle mass will be measured (g/m²) before starting cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : Left ventricle mass at Week 8
Left ventricle mass will be measured (g/m²) after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : FEVG at Day 0
FEVG will be measured (%) before cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : FEVG at Week 8
FEVG will be measured (%) after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : S' wave on Day 0
S' wave will be measured (%) before cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : S' wave at Week 8
S' wave will be measured (%) after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : E/A ratio on Day 0
E/A ratio will be measured before cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : E/A ratio at Week 8
E/A ratio will be measured after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : E' wave at Day 0
E' wave will be measured cm/s) before cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : E' wave at Week 8
E' wave will be measured (cm/s) after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : A' wave on Day 0
A' wave will be measured (cm/s) before cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : A' wave at Week 8
A' wave will be measured (cm/s) after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : E/E' ratio on Day 0
E/E' ratio will be measured before cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : E/E' ratio at Week 8
E/E' ratio will be measured after cardiac rehabilitation.
Time frame: Week 8
Cardiac morphology : Systolic ejection volume on Day 0
Systolic ejection volume will be measured before cardiac rehabilitation.
Time frame: Day 0
Cardiac morphology : Systolic ejection volume at Week 8
Systolic ejection volume will be measured after cardiac rehabilitation.
Time frame: Week 8
Aerobic capacity: VO2max on Day 0
VO2max (mL/min/kg) is measured with a Jaeger Oxycon Pro ergospirometer before starting cardiac rehabilitation.
Time frame: Day 0
Aerobic capacity: VO2max at Week 8
VO2max (mL/min/kg) is measured with a Jaeger Oxycon Pro ergospirometer after undergoing 8 weeks of cardiac rehabilitation.
Time frame: Week 8
Aerobic capacity: Maximal aerobic power (MAP) on Day 0
MAP (watts) is measured with a Jaeger Oxycon Pro ergospirometer before starting cardiac rehabilitation .
Time frame: Day 0
Aerobic capacity : Maximal aerobic power (MAP) at Week 8
MAP (watts) is measured with a Jaeger Oxycon Pro ergospirometer after undergoing 8 weeks of cardiac rehabilitation .
Time frame: Week 8
Aerobic capacity: ventilation threshold (mL/min/kg) on Day 0
The ventilation threshold VT1 (mL/min/kg) is measured with a Jaeger Oxycon Pro before starting cardiac rehabilitation.
Time frame: Day 0
Aerobic capacity: ventilation threshold (mL/min/kg) at Week 8
The ventilation threshold VT1 (mL/min/kg) is measured with a Jaeger Oxycon Pro ergospirometer after undergoing 8 weeks of cardiac rehabilitation.
Time frame: Week 8
Aerobic capacity: walking on Day 0
Performance at a 6-minute (m) walk is measured with a Jaeger Oxycon Pro ergospirometer before starting cardiac rehabilitation.
Time frame: Day 0
Aerobic capacity: walking at Week 8
Performance at a 6-minute (m) walk is measured with a Jaeger Oxycon Pro ergospirometer after undergoing 8 weeks of cardiac rehabilitation.
Time frame: Week 8
Weight on Day 0
The patient's weight will be measured in kilograms before beginning cardiac rehabilitation.
Time frame: Day 0
Weight at Week 8
The patient's weight will be measured in kilograms after undergoing 8 weeks of cardiac rehabilitation.
Time frame: Week 8
Height on Day 0
The patient's height will be measured in centimeters before beginning cardiac rehabilitation.
Time frame: Day 0
Height at Week 8
The patient's height will be measured in centimeters after undergoing 8 weeks of cardiac rehabilitation.
Time frame: Week 8
Waist measurement on Day 0
The patient's waist measurement will be noted in centimeters before beginning cardiac rehabilitation.
Time frame: Day 0
Waist measurement at Week 8
The patient's waist measurement will be noted in centimeters after undergoing 8 weeks of cardiac rehabilitation.
Time frame: Week 8
Body Mass Index on Day 0
The patient's Body Mass Index will be calculated in kg/m2 before beginning cardiac rehabilitation.
Time frame: Day 0
Body Mass Index at Week 8
The patient's Body Mass Index will be calculated in in kg/m2 after undergoing 8 weeks of cardiac rehabilitation.
Time frame: Week 8
Medicinal treatment on Day 0
Any medicinal treatment that the patient may be following will be noted before beginning cardiac rehabilitation.
Time frame: Day 0
Medicinal treatment at Week 8
Any medicinal treatment that the patient may be following will be noted after undergoing 8 weeks of cardiac rehabilitation.
Time frame: Week 8
Hemoglobin in g/dL on Day 0
A blood sample will be taken before beginning cardiac rehabilitation and Hemoglobin will be measured in g/dL.
Time frame: Day 0
Hemoglobin in g/dL at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and Hemoglobin will be measured in g/dL.
Time frame: Week 8
Percentage volume of Hematocrit on Day 0
A blood sample will be taken before beginning cardiac rehabilitation and Hematocrit will be measured as a percentage.
Time frame: Day 0
Percentage volume of Hematocrit at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and Hematocrit will be measured as a percentage.
Time frame: Week 8
Mean Corpuscular Volume in femtoliters on Day 0
A blood sample will be taken before starting cardiac rehabilitation and Mean Corpuscular Volume will be measured in fL.
Time frame: Day 0
Mean Corpuscular Volume in femtoliters at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and Mean Corpuscular Volume will be measured in fL.
Time frame: Week 8
Platelets in G/L on Day 0
A blood sample will be taken before starting cardiac rehabilitation and platelets will be measured in G/L.
Time frame: Day 0
Platelets in G/L at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and platelets will be measured in G/L.
Time frame: Week 8
Leukocytes in G/L on Day 0
A blood sample will be taken before starting cardiac rehabilitation and leukocytes will be measured in G/L.
Time frame: Day 0
Leukocytes in G/L at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and leukocytes will be measured in G/L.
Time frame: Week 8
C-reactive Protein on Day 0
A blood sample will be taken before beginning cardiac rehabilitation and C-reactive Protein will be measured in mg/L.
Time frame: Day 0
C-reactive Protein at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and C-reactive Protein will be measured in mg/L.
Time frame: Week 8
Potassium in millimoles per liter on Day 0
A blood sample will be taken before starting cardiac rehabilitation and potassium will be measured in mmol/l.
Time frame: Day 0
Potassium in millimoles per liter at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and potassium will be measured in mmol/l.
Time frame: Week 8
Sodium in millimoles per liter on Day 0
A blood sample will be taken before starting cardiac rehabilitation and sodium will be measured in mmol/l.
Time frame: Day 0
Sodium in millimoles per liter at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and sodium will be measured in mmol/l.
Time frame: Week 8
Urea on Day 0
A blood sample will be taken before starting cardiac rehabilitation and urea will be measured in milligrams per deciliter.
Time frame: Day 0
Urea at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and urea will be measured in milligrams per deciliter.
Time frame: Week 8
Creatinine on Day 0
A blood sample will be taken before starting cardiac rehabilitation and creatinine will be measured in milligrams per deciliter.
Time frame: Day 0
Creatinine at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and creatinine will be measured in milligrams per deciliter.
Time frame: Week 8
Fasting glucose on Day 0
A blood sample will be taken before starting cardiac rehabilitation and fasting glucose will be measured in milligrams per deciliter.
Time frame: Day 0
Fasting glucose at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and creatinine will be measured in milligrams per deciliter.
Time frame: Week 8
HbA1c on Day 0
A blood sample will be taken before starting cardiac rehabilitation and HbA1c will be measured as a percentage.
Time frame: Day 0
HbA1c at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and HbA1c will be measured as a percentage.
Time frame: Week 8
Aspartate Aminotransferase on Day 0
A blood sample will be taken before starting cardiac rehabilitation and Aspartate Aminotransferase will be measured in units per liter.
Time frame: Day 0
Aspartate Aminotransferase at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and Aspartate Aminotransferase will be measured in units per liter.
Time frame: Week 8
Alanine Aminotransferase on Day 0
A blood sample will be taken before starting cardiac rehabilitation and Alanine Aminotransferase will be measured in units per liter.
Time frame: Day 0
Alanine Aminotransferase at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and Alanine Aminotransferase will be measured in units per liter.
Time frame: Week 8
Alkaline phosphatase on Day 0
A blood sample will be taken before starting cardiac rehabilitation and Alkaline phosphatase will be measured in units per liter.
Time frame: Day 0
Alkaline phosphatase at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and Alkaline phosphatase will be measured in units per liter. , bilirubin,Gamma-glutamyltransferase, total cholesterol, Low Density Lipoprotein-cholesterol, High Density Lipoprotein-cholesterol, triglycerides, NT-proB-type Natriuretic Peptides, micro-RNA (miRNA-22, miRNA208-a and miRNA 423-5p).
Time frame: Week 8
Creatine phosphokinase on Day 0
A blood sample will be taken before starting cardiac rehabilitation Creatine phosphokinase will be measured in units per liter.
Time frame: Day 0
Creatine phosphokinase at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and Creatine phosphokinase will be measured in units per liter.
Time frame: Week 8
Bilirubin on Day 0
A blood sample will be taken before starting cardiac rehabilitation and bilirubin will be measured in milligrams per deciliter.
Time frame: Day 0
Bilirubin at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and bilirubin will be measured in milligrams per deciliter.
Time frame: Week 8
Gamma-glutamyltransferase on Day 0
A blood sample will be taken before starting cardiac rehabilitation and gamma-glutamyltransferase will be measured in units per liter.
Time frame: Day 0
Gamma-glutamyltransferase at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and Gamma-glutamyltransferase will be measured in units per liter.
Time frame: Week 8
Total cholesterol on Day 0
A blood sample will be taken before starting cardiac rehabilitation and total cholesterol will be measured in milligrams per deciliter.
Time frame: Day 0
Total cholesterol at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and bilirubin will be measured in milligrams per deciliter.
Time frame: Week 8
Low Density Lipoprotein-cholesterol on Day 0
A blood sample will be taken before starting cardiac rehabilitation and low density lipoprotein-cholesterol will be measured in milligrams per deciliter.
Time frame: Day 0
Low Density Lipoprotein-cholesterol at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and low density lipoprotein-cholesterol will be measured in milligrams per deciliter.
Time frame: Week 8
High Density Lipoprotein-cholesterol on Day 0
A blood sample will be taken before starting cardiac rehabilitation and high density lipoprotein-cholesterol will be measured in milligrams per deciliter.
Time frame: Day 0
High Density Lipoprotein-cholesterol at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and high density lipoprotein-cholesterol will be measured in milligrams per deciliter.
Time frame: Week 8
Triglycerides on Day 0
A blood sample will be taken before starting cardiac rehabilitation and triglycerides will be measured in milligrams per deciliter.
Time frame: Day 0
Triglycerides at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and triglycerides will be measured in milligrams per deciliter.
Time frame: Week 8
NT-proB-type Natriuretic Peptides on Day 0
A blood sample will be taken before starting cardiac rehabilitation and NT-proB-type natriuretic peptides will be measured in picograms per milliliter.
Time frame: Day 0
NT-proB-type Natriuretic Peptides at Week 8
A blood sample will be taken after undergoing cardiac rehabilitation for 8 weeks and NT-proB-type natriuretic peptides will be measured in picograms per milliliter.
Time frame: Week 8
Micro-RNA dosage (miRNA22, miRNA122, miRNA150, miRNA208 a/b and miRNA 423-5p) on Day 0
Micro-RNAs (including, notably, miRNA22, miRNA122, miRNA150, miRNA208 a/b and miRNA 423-5p) dosed via reverse-transcriptase quantitative polymerase chain reaction (PCR). PCR consists of an organic extraction stage followed by immobilization of RNA on an apparatus to purify it before elution. PCR provides numerous copies of a chosen DNA sequence. Real time quantitative PCR provides the quantity of DNA at each amplification cycle thanks to SYBR® Green, an intercalating fluorescent DNA agent, which emits a quantity of fluorescence for each amplicon produced. Fluorescence is thus directly proportional to the quantity of DNA in the sample. RNA extractions will be made from 200 μL of plasma collected before the patient starts cardiac rehabilitation and analyzed by researchers at Aix-Marseille University - INSERM, UMR 1260 C2VN Center for Cardiovascular and Nutrition research. Frozen samples will be shipped from Nîmes and Avignon to Marseille by Cryoglobe package.
Time frame: Day 0
Micro-RNA dosage (miRNA22, miRNA122, miRNA150, miRNA208 a/b and miRNA 423-5p) at Week 8
Micro-RNAs (including, notably, miRNA22, miRNA122, miRNA150, miRNA208 a/b and miRNA 423-5p) dosed via reverse-transcriptase quantitative polymerase chain reaction (PCR). PCR consists of an organic extraction stage followed by immobilization of RNA on an apparatus to purify it before elution. PCR provides numerous copies of a chosen DNA sequence. Real time quantitative PCR provides the quantity of DNA at each amplification cycle thanks to SYBR® Green, an intercalating fluorescent DNA agent, which emits a quantity of fluorescence for each amplicon produced. Fluorescence is thus directly proportional to the quantity of DNA in the sample. RNA extractions will be made from 200 μL of plasma collected after the patient has had 8 weeks of cardiac rehabilitation and analyzed by researchers at Aix-Marseille University - INSERM, UMR 1260 C2VN Center for Cardiovascular and Nutrition research. Frozen samples will be shipped from Nîmes and Avignon to Marseille by Cryoglobe package.
Time frame: Week 8
Quality of life according to the WHOQOL-BREF Questionnaire on Day 0
Before starting cardiac rehabilitation, the patient's quality of life is measured with the WHOQOL-BREF, a short version of the WHOQOL-100 quality of life assessment developed by the WHOQOL group with fifteen international field centres, simultaneously (Orley \& Kuyken, 1994; Szabo, 1996; WHOQOL Group 1994a, 1994b, 1995). The WHOQOL-BREF questionnaire contains two items from the Overall QOL and General Health and 24 items of satisfaction divided into four domains: Physical health with 7 items (DOM1), psychological health with 6 items (DOM2), social relationships with 3 items (DOM3) and environmental health with 8 items (DOM4). Each item is rated on a 5-point Likert scale.The four domain scores denote an individual's perception of quality of life in each particular domain. Domain scores are scaled in a positive direction (i.e. higher scores denote higher quality of life). The mean score of items within each domain is used to calculate the domain score.
Time frame: Day 0
Quality of life according to the WHOQOL-BREF Questionnaire at Week 8
After undergoing cardiac rehabilitation for 8 weeks, the patient's quality of life is measured with the WHOQOL-BREF, a short version of the WHOQOL-100 quality of life assessment developed by the WHOQOL group with fifteen international field centres, simultaneously (Orley \& Kuyken, 1994; Szabo, 1996; WHOQOL Group 1994a, 1994b, 1995). The WHOQOL-BREF questionnaire contains two items from the Overall QOL and General Health and 24 items of satisfaction divided into four domains: Physical health with 7 items (DOM1), psychological health with 6 items (DOM2), social relationships with 3 items (DOM3) and environmental health with 8 items (DOM4). Each item is rated on a 5-point Likert scale.The four domain scores denote an individual's perception of quality of life in each particular domain. Domain scores are scaled in a positive direction (i.e. higher scores denote higher quality of life). The mean score of items within each domain is used to calculate the domain score.
Time frame: Week 8
Quality of life according to the MacNew Questionnaire at Day 0
Before starting cardiac rehabilitation, the patient's quality of life is measured with the MacNew Questionnaire, which is a self-administered modified version of the original QLMI instrument. The MacNew is designed to assess the patient's feelings about how Myocardial Infarction affects daily functioning and contains 27 items with a global Health-Related Quality of Life (HRQoL) score and subscales regarding physical limitation, emotional, and social function. There are 5 items that inquire about symptoms: angina/chest pain, shortness of breath, fatigue, dizziness, and aching legs.The items and scales are scored from 1 (low HRQoL) to 7 (high HRQoL), and the minimal important difference on each MacNew scale is 0.50 points. The time frame for the MacNew is the previous two weeks.
Time frame: Day 0
Quality of life according to the MacNew Questionnaire at Week 8
After undergoing cardiac rehabilitation for 8 weeks, the patient's quality of life is measured with the MacNew Questionnaire, which is a self-administered modified version of the original QLMI instrument.The MacNew is designed to assess the patient's feelings about how Myocardial Infarction affects daily functioning and contains 27 items with a global Health-Related Quality of Life (HRQoL) score and subscales regarding physical limitation, emotional, and social function. There are 5 items that inquire about symptoms: angina/chest pain, shortness of breath, fatigue, dizziness, and aching legs. The items and scales are scored from 1 (low HRQoL) to 7 (high HRQoL), and the minimal important difference on each MacNew scale is 0.50 points. The time frame for the MacNew is the previous two weeks.
Time frame: Week 8
Observance of the rehabilitation program
An attendance sheet must be filled in by all patients, each time they attend their rehabilitation session whether they are assigned to the the control group (CONT) with three 40-minute sessions per week or the experimental group doing intermittent training (IT) with three 45-minute sessions per week.
Time frame: Day 0 to Week 8
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