Sleep apnoea affects more than 20% of people over 65 years and is largely underdiagnosed. It does multiply tenfold the occurrence of vascular events, particularly stroke. While Continuous Positive Airway Pressure (CPAP) is currently the Gold standard treatment to prevent cerebrovascular and cardiovascular events, with a major clinical benefit, long term adherence to CPAP is a significant problem and search for alternative treatment is essential.
In the previous EXESAS study (NCT02463890) the investigators compare evolution of Apnea Hypopnea Index (AHI) in an exercise trained group performed through in a national based non-profit organization (Fédération Française d'éducation Physique et de Gymnastique Volontaire (FFEPGV)) using a medical established program (NeuroGyV) during nine months against a control group receiving only standard dietetic and physical activity counseling. The first partial observations of the study EXESAS seem encouraging in the term of 3 months of training. However, in the longer term, there is not a coverage in the treatment of the moderate Sleep Apnea: Obstructive Syndrome (SAOS). Thus they can logically expect that the possible therapeutic effect of the exercise is not maintained in the long term after the stop of the training. This nex study suggests studying the profit of the exercise on sleep apneas for the patients who were initially in the control group in the EXESAS study and to observe if the preservation of a regular physical activity for the group which was trained in EXESAS study is associated with a preservation of the AHI after the additional year of follow-up without additional intervention
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
NONE
Enrollment
79
CHU de Saint-Etienne
Saint-Etienne, France
the AHI (number of Apnea+Hypopnea per hour) through polysomnography assessment after twelve months of follow-up in the training and the control groups
Apnea-Hypopnea Index (AHI)
Time frame: 12 months
Percentage of patients with AHI<15 through polysomnography assessment after twelve months of follow-up in the training and the control groups.
Time frame: 12 months
Percentage of patients with AHI>30 through polysomnography assessment after twelve months of follow-up in the training and the control groups.
Time frame: 12 months
Change in high frequency (HF) of spectral analysis of heart rate variability (parasympathetic index) at 12 months of follow-up in the 2 groups
Time frame: 12 months
Maximal aerobic capacity (VO2Max)
Correlation between the change in VO2max during stress test, walking distance during 6 minutes and AHI in the two groups
Time frame: 12 months
Population Physical Activity questionnaire (POPAQ)
Correlation between the change in daily physical activity energy expenditure (estimated by the POPAQ questionnaire) and AHI in the two groups
Time frame: 12 months
Daily physical activity energy expenditure
Correlation between the daily physical activity energy expenditure (estimated directly by an actimetry sensor for 7 days) and AHI in the two groups
Time frame: 12 months
Epworth sleepiness Scale
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Comparison of the variation of Epworth Sleepiness Scale (ESS) after 12 months follow-up for the two groups
Time frame: 12 months
Pittsburgh questionnaire
Comparison of the variation of Pittsburgh questionnaire after 12 months follow-up for the two groups
Time frame: 12 months
Berlin questionnaire
Comparison of the variation of Berlin questionnaire after 12 months follow-up for the two groups
Time frame: 12 months
Changes in blood pressure - Baroreflex
Measure of autonomic function (parasympathetic activity) - quantified via changes in blood pressure
Time frame: 12 months