High-intensity interval training and sleep regulation on glucose homeostasis and growth hormone in girls with sleep disorders
Phase 3
Recruiting
- Conditions
- Sleep disorders.Sleep disorder, unspecifiedG47.9
- Registration Number
- IRCT20180503039517N11
- Lead Sponsor
- Islamic Azad University
- Brief Summary
Not available
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- Recruiting
- Sex
- Female
- Target Recruitment
- 80
Inclusion Criteria
Having sleep disorders using the Pittsburgh Questionnaire scales
Regular menstrual cycle
No special diet
Exclusion Criteria
Use of sleeping drugs
History of mental illness and hormonal disorders
Two frequent or 3 consecutive sessions of absence in the training
Study & Design
- Study Type
- interventional
- Study Design
- Not specified
- Primary Outcome Measures
Name Time Method Glucose homeostasis. Timepoint: 48 hours before intervention and 48 hours after 12 weeks of intervention. Method of measurement: the evaluation method of homeostasis model (HOMA-IR) and measuring insulin and glucose (enzyme calorimetric kit of Pars-Azmoun company), fasting was estimated according to the following formula:[ HOMA-IR = insulin (MU × lit) × glucose (nmol / lit) ÷ 22/5].
- Secondary Outcome Measures
Name Time Method Aerobic power. Timepoint: 48 hours before intervention and 48 hours after 12 weeks of intervention. Method of measurement: Aerobic power in this study will be measured by a shuttle run test.;Reaction speed. Timepoint: 48 hours before intervention and 48 hours after 12 weeks of intervention. Method of measurement: A two-way general visual reaction time test will be used to measure the dynamic reaction time of the whole body.;Sleep quality. Timepoint: 48 hours before intervention and 48 hours after 12 weeks of intervention. Method of measurement: Pittsburgh Questionnaire.;Growth hormone. Timepoint: 48 hours before intervention and 48 hours after 12 weeks of intervention. Method of measurement: Dbc Canadiangoose Elisa kit.
Related Research Topics
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What molecular mechanisms link high-intensity interval training to glucose homeostasis in adolescents with sleep disorders?
How does sleep regulation compare to standard-of-care treatments for improving growth hormone levels in patients with G47.9 sleep disorders?
Which biomarkers correlate with improved sleep quality and cortisol reduction in adolescent girls undergoing high-intensity interval training?
What adverse events are associated with high-intensity interval training in adolescent populations with sleep disorders and how are they managed?
How do combination therapies of high-intensity interval training and sleep regulation impact lactate metabolism and aerobic power in G47.9 patients compared to monotherapies?