Impact of Time-Restricted Eating on Metabolic and Neuroendocrine Homeostasis, Inflammation and Oxidative Stress in Patients With Metabolic Syndrome: the TREMNIOS Pilot Clinical Trial
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Metabolic Syndrome
- Sponsor
- Nicolaus Copernicus University
- Enrollment
- 30
- Locations
- 1
- Primary Endpoint
- Change in fasting glucose concentration
- Status
- Active, not recruiting
- Last Updated
- 2 years ago
Overview
Brief Summary
The main purpose of the clinical trial is to determine the health impact of a dietary intervention known as time-restricted eating (TRE) in patients with metabolic syndrome (defined as the presence of elevated fasting plasma glucose and two or more of the following criteria: increased waist circumference, elevated fasting plasma triglycerides, reduced high-density lipoprotein-cholesterol, elevated blood pressure) and self-reported dietary intake of ≥14 hours per day. Participants will reduce the amount of time they eat to 10 hours per day over a 12-week monitored intervention followed by a 12-week self-directed intervention and will log their dietary intake using a smartphone application (myCircadianClock (mCC) app). Glucose homeostasis (blood glucose levels will be monitored continuously for 2 weeks at the baseline, at the end of the monitored intervention, and at the end of the self-directed intervention using a continuous glucose monitor), and other metabolic, neuroendocrine, inflammatory and oxidative stress/antioxidant defense biomarkers, body weight and composition, blood pressure, heart rate, sleep and activity (using mCC app), personal sense of wellness and dietary timing (using health questionnaires) will be evaluated at the baseline, at the end of the monitored intervention, and at the end of the self-directed intervention.
Detailed Description
Metabolic syndrome occurs in approximately 30% of adults and is associated with increased risk of cardiovascular disease and type 2 diabetes. Circadian rhythm disruption due to lifestyle including erratic eating patterns may lead to metabolic and neuroendocrine dysfunction, inflammation, oxidative stress, and cardiometabolic diseases. Maintaining a daily rhythm of eating and fasting cycles sustains a robust circadian rhythm which improves cellular bioenergetics and metabolism. Recent studies support the notion that restricting a period of food intake to 8-12 hours a day (time-restricted eating, TRE) can prevent and reverse obesity and metabolic dysfunction. The main purpose of the clinical trial is to determine the health impact of TRE in patients with metabolic syndrome (defined as the presence of elevated fasting plasma glucose and two or more of the following criteria: increased waist circumference, elevated fasting plasma triglycerides, reduced high-density lipoprotein-cholesterol, elevated blood pressure) and self-reported dietary intake of ≥14 hours per day. Participants will reduce the amount of time they eat to 10 hours per day over a 12-week monitored intervention followed by a 12-week self-directed intervention and will log their dietary intake using a smartphone application (myCircadianClock (mCC) app, developed by the Salk Institute for Biological Studies). The participants will select a 10-h eating window that best suits their lifestyle. All food/beverages except water must be consumed within the time-interval. No further dietary restrictions will be applied. The participants will be provided with behavioral nutritional counseling by a dietician. Glucose homeostasis (blood glucose levels will be monitored continuously for 2 weeks at the baseline, at the end of the monitored intervention, and at the end of the self-directed intervention using a continuous glucose monitor), and other metabolic, neuroendocrine, inflammatory and oxidative stress/antioxidant defense biomarkers, body weight and composition, blood pressure, heart rate, sleep and activity (using mCC app), personal sense of wellness and dietary timing (using health questionnaires) will be evaluated at the baseline, at the end of the monitored intervention, and at the end of the self-directed intervention. The investigators will assess for compliance with TRE using mCC app.
Investigators
Iwona Swiatkiewicz, MD, PhD, FESC
Professor of Medicine
Nicolaus Copernicus University
Eligibility Criteria
Inclusion Criteria
- •Metabolic syndrome, defined as the presence of elevated fasting plasma glucose ≥ 100 mg/dL and two or more of the following criteria:
- •Elevated waist circumference: ≥ 102 cm in men, ≥ 88 cm in women; Fasting plasma triglycerides ≥ 150 mg/dL (or on drug treatment for elevated triglycerides); Reduced High-density lipoprotein (HDL)-cholesterol \< 40 mg/dL in men, \< 50 mg/dL in women (or drug treatment for reduced HDL-cholesterol); Elevated blood pressure, Systolic blood pressure ≥ 130 mm Hg and/or diastolic blood pressure ≥ 85 mm Hg (or drug treatment for hypertension).
- •Duration of eating period ≥ 14 hours/day.
- •Own a Smartphone with Apple Operating System (OS) or Android OS.
Exclusion Criteria
- •Diagnosis of diabetes.
- •Pregnant or lactating women.
- •Active smoking or illicit drug use or history of treatment for alcohol abuse.
- •Shift work.
- •Caregivers for dependent requiring nocturnal care.
- •Planned travel over time zones during the study period.
- •History of major adverse cardiovascular event within the past 1 year (acute coronary syndrome, percutaneous coronary intervention, coronary artery bypass graft surgery, hospitalization for congestive heart failure, stroke/transient ischemic attack) or current uncontrolled arrhythmia.
- •Uncontrolled medical conditions due to rheumatologic, hematologic, oncologic, infectious, gastrointestinal, psychiatric, nephrological, or endocrine diseases.
- •Known history of an eating disorder.
- •Currently enrolled in a weight-loss or weight-management program.
Outcomes
Primary Outcomes
Change in fasting glucose concentration
Time Frame: Baseline and after 14 weeks
Fasting plasma glucose concentration (mg/dl)
Change in body weight
Time Frame: Baseline and after 14 weeks
Body weight (kg) as measured in fasted state on a digital scale
Secondary Outcomes
- Lipids(Changes from baseline. Measured in the blood in the fasted state at baseline, after 14 weeks, and after 26 weeks)
- HbA1c(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Mean glucose(Changes from baseline. Measured at baseline, after 14 weeks, and after 26 weeks)
- Body weight(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Fasting glucose(Changes from baseline. Measured at baseline, after 14 weeks, and after 26 weeks)
- Metabolic and neuroendocrine biomarkers(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Self-reported chronotype(Changes from baseline. Assessed at baseline, after 14 weeks, and after 26 weeks)
- Body mass index(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Heart rate(Changes from baseline. Measured at baseline, after 14 weeks, and after 26 weeks)
- Energy intake(Registered at baseline, after 14 weeks, and after 26 weeks)
- Inflammatory biomarkers(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Oxidative stress/antioxidant defense biomarkers(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Waist circumference(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Blood pressure(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Fat mass(Changes from baseline. Fasted state at baseline, after 14 weeks, and after 26 weeks)
- Timing of dietary intake(Changes from baseline. Registered at baseline, after 14 weeks, and after 26 weeks)
- Duration of eating period(Changes from baseline. Assessed at baseline, after 14 weeks, and after 26 weeks)
- Self-reported sleepiness(Changes from baseline. Assessed at baseline, after 14 weeks, and after 26 weeks)
- Self-reported sleep quality(Changes from baseline. Assessed at baseline, after 14 weeks, and after 26 weeks)
- Self-reported overall health and wellbeing(Changes from baseline. Assessed at baseline, after 14 weeks, and after 26 weeks)