This research project has as objective the elaboration and analysis of a new cardiac risk stratification protocol based on clinical and physical variables to predict the occurrence of signs and symptoms during a cardiac rehabilitation program. To this aim, the study will be developed in three stages. The first stage consists of a prospective longitudinal observational study, in which participants of exercise-based cardiac rehabilitation will undergo a physiotherapy evaluation in terms of physical and clinical aspects. After this initial assessment, participants will be followed for 2 months of rehabilitation, when the occurrence of signs and symptoms (chest pain, fatigue, dizziness, arrhythmias, and other minor events) during exercise will be recorded. Based on the data from the initial assessment and the occurrence of signs and symptoms a new cardiac risk stratification protocol will be developed. The second stage of this project consists of another prospective longitudinal observational study in which a new sample of individuals attending cardiac rehabilitation programs will be assessed and stratified for the risk of the occurrence of signs and symptoms during exercise by the new protocol developed. After the risk stratification, this sample will be followed for 2 months and the occurrence of signs and symptoms will be recorded. With this data, the reproducibility and efficacy of the protocol will be evaluated. The third stage of this project consists of a cross-sectional observational study, in which a new sample of participants will be evaluated by two independent physiotherapists for clinical and physical variables, and based on these data will be stratified by the new protocol by the same evaluators independently. After these procedures, the protocol´s agreement between evaluators will be analyzed.
Study Type
OBSERVATIONAL
Enrollment
120
In Stage 1 the volunteers will perform 24 sessions of exercise-based cardiac rehabilitation. The rehabilitation session is composed of the following activities: I. Initial rest (where the vital signs are evaluated); II. Warming-up (composed of 15 minutes of stretching and global exercises); III. Aerobic exercise (composed of 30 minutes of treadmill or cycle ergometer exercise, the intensity established varies from 40 to 70% of the heart rate reserve for those diagnosed with cardiovascular diseases and from 60 to 80% of the heart rate reserve for those with only cardiac risk factors); IV. Cooldown (composed of 5 minutes of slow walking).
In Stage 2, the volunteers will perform 24 sessions of exercise-based cardiac rehabilitation. The rehabilitation session is composed of the following activities: I. Initial rest; II. Warming-up; III. Aerobic exercise (these three activities are the same as stage 1); IV. Resistance training (composed of 15 minutes of individualized resistance exercises); V. Cooldown.
Universidade Estadual Paulista Júlio de Mesquita Filho
Presidente Prudente, São Paulo, Brazil
Signs and symptoms
The occurrence rate of signs and symptoms will be evaluated during the exercise performed in cardiac rehabilitation programs. The signs and symptoms considered are: arrhythmia, the elevation of systolic and diastolic blood pressure, tachypnea, pallor, angina, cramp, muscle pain, fatigue, and nausea.
Time frame: Baseline assessment
Resting heart rate
Evaluated through a heart rate monitor during a resting period of 20 minutes. The mean heart rate obtained between the 5th and 20th minutes will be considered.
Time frame: Baseline assessment
Blood pressure
Evaluated indirectly by an experienced physiotherapist using a stethoscope and a sphygmomanometer. The blood pressure will be evaluated three times after a resting period of 15 minutes. The mean value of the last 2 measures will be considered.
Time frame: Baseline assessment
Maximum inspiratory pressure
Evaluated through a manovacuometer. This assessment will be evaluated three times and the value considered will be the mean of all measures.
Time frame: Baseline assessment
Maximum expiratory pressure
Evaluated through a manovacuometer. This assessment will be evaluated three times and the value considered will be the mean of all measures.
Time frame: Baseline assessment
Peak expiratory flow
Evaluated through the spirometric examination performed by an experienced physiotherapist.
Time frame: Baseline assessment
Forced expiratory volume in the first second
Evaluated through the spirometric examination performed by an experienced physiotherapist.
Time frame: Baseline assessment
Forced vital capacity
Evaluated through the spirometric examination performed by an experienced physiotherapist.
Time frame: Baseline assessment
Cardiac autonomic modulation - RMSSD index
The data for this evaluation will be collected using a heart rate monitor that registers the heart rate beat by beat and provides information regarding the RR intervals. To obtain the RR intervals time series, the volunteer will rest for 30 minutes in spontaneous breathing. Will be considered 1000 consecutive RR intervals recorded between the 5th and 30th minutes of rest. The RMSSD index corresponds to the root-mean square of differences between adjacent normal RR intervals in a time interval, expressed in milliseconds.
Time frame: Baseline assessment
Cardiac autonomic modulation - SDNN index
The data for this evaluation will be collected using a heart rate monitor that registers the heart rate beat by beat and provides information regarding the RR intervals. To obtain the RR intervals time series, the volunteer will rest for 30 minutes in spontaneous breathing. Will be considered 1000 consecutive RR intervals recorded between the 5th and 30th minutes of rest. The SDNN index corresponds to the standard deviation of all normal RR intervals recorded in a time interval, expressed in milliseconds.
Time frame: Baseline assessment
Cardiac autonomic modulation - LF index (ms²)
The data for this evaluation will be collected using a heart rate monitor that registers the heart rate beat by beat and provides information regarding the RR intervals. To obtain the RR intervals time series, the volunteer will rest for 30 minutes in spontaneous breathing. Will be considered 1000 consecutive RR intervals recorded between the 5th and 30th minutes of rest. The LF index is the low-frequency component of the oscillatory components of heart rate variability, and ranges from 0.04 to 0.15 Hz.
Time frame: Baseline assessment
Cardiac autonomic modulation - HF index (ms²)
The data for this evaluation will be collected using a heart rate monitor that registers the heart rate beat by beat and provides information regarding the RR intervals. To obtain the RR intervals time series, the volunteer will rest for 30 minutes in spontaneous breathing. Will be considered 1000 consecutive RR intervals recorded between the 5th and 30th minutes of rest. The HF index is the high-frequency component of the oscillatory components of heart rate variability, and ranges from 0.15 to 0.4 Hz.
Time frame: Baseline assessment
Cardiac autonomic modulation - LF index (nu)
The LF index expressed in normalizefd units (nu) is obtained by dividing the power in milliseconds by the total power spectrum, minus the very low frequency component and multiplied by 100.
Time frame: Baseline assessment
Cardiac autonomic modulation - HF index (nu)
The HF index expressed in normalizefd units (nu) is obtained by dividing the power in milliseconds by the total power spectrum, minus the very low frequency component and multiplied by 100.
Time frame: Baseline assessment
Cardiac autonomic modulation - LF/HF ratio
This index is obtained by dividing the LF (ms²) value by the HF (ms²) value.
Time frame: Baseline assessment
Cardiac autonomic modulation - SD1 index
The data for this evaluation will be collected using a heart rate monitor that registers the heart rate beat by beat and provides information regarding the RR intervals. To obtain the RR intervals time series, the volunteer will rest for 30 minutes in spontaneous breathing. Will be considered 1000 consecutive RR intervals recorded between the 5th and 30th minutes of rest. The SD1 index corresponds to the dispersion of points perpendicular to the line of identity of the ellipse obtained from the Poincaré plot. Expressed in milliseconds.
Time frame: Baseline assessment
Cardiac autonomic modulation - SD2 index
The data for this evaluation will be collected using a heart rate monitor that registers the heart rate beat by beat and provides information regarding the RR intervals. To obtain the RR intervals time series, the volunteer will rest for 30 minutes in spontaneous breathing. Will be considered 1000 consecutive RR intervals recorded between the 5th and 30th minutes of rest. The SD1 index corresponds to the dispersion of points along the line of identity of the ellipse obtained from the Poincaré plot. Expressed in milliseconds.
Time frame: Baseline assessment
Cardiac autonomic modulation - SD1/SD2 ratio
This index is obtained by dividing the SD1 value by the SD2 value.
Time frame: Baseline assessment
Quadriceps muscle strength
Evaluated through a digital dynamometer. The volunteer will perform three maximal isometric contractions of quadriceps with a duration of 5 seconds. The value considered will be the higher one among the three contractions.
Time frame: Baseline assessment
Submaximal functional capacity
Evaluated by the 6-minute walk test. The values considered will be the distance covered and the % of the predicted value reached.
Time frame: Baseline assessment
Body mass index
Calculated using the data of body mass assessed by a digital scale and height evaluated through a stadiometer.
Time frame: Baseline assessment
Waist circumference
Measured with an inelastic measuring tape at the lower abdominal perimeter. Three measurements will be taken and the average of the values obtained will be considered.
Time frame: Baseline assessment
Abdominal circumference
Measured with an inelastic measuring tape at the umbilical scar line. Three measurements will be taken and the average of the values obtained will be considered.
Time frame: Baseline assessment
Hip circumference
Measured with an inelastic measuring tape at the largest perimeter in the gluteal region. Three measurements will be taken and the average of the values obtained will be considered.
Time frame: Baseline assessment
Arm circumference
Measured with an inelastic measuring tape at the midpoint between the acromion and the olecranon with the upper limb relaxed. Three measurements will be taken and the average of the values obtained will be considered.
Time frame: Baseline assessment
Calf circumference
Measured with an inelastic measuring tape at the largest circumference in the region of the right calf with the lower limb relaxed without receiving weight. Three measurements will be taken and the average of the values obtained will be considered.
Time frame: Baseline assessment
Basal metabolic rate (cal/day)
Evaluated through a tetrapolar electrical bioimpedance examination.
Time frame: Baseline assessment
Total body water (%)
Evaluated through a tetrapolar electrical bioimpedance examination.
Time frame: Baseline assessment
Total water in the lean mass (%)
Evaluated through a tetrapolar electrical bioimpedance examination.
Time frame: Baseline assessment
Resistance (Ohms)
Evaluated through a tetrapolar electrical bioimpedance examination.
Time frame: Baseline assessment
Reactance (Ohms)
Evaluated through a tetrapolar electrical bioimpedance examination.
Time frame: Baseline assessment
Body fat (%)
Evaluated through a tetrapolar electrical bioimpedance examination.
Time frame: Baseline assessment
Body fat (Kg)
Evaluated through a tetrapolar electrical bioimpedance examination.
Time frame: Baseline assessment
Total lean mass (Kg)
Evaluated through a tetrapolar electrical bioimpedance examination.
Time frame: Baseline assessment
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