Ignite Creation Date:
2025-12-24 @ 11:29 PM
Ignite Modification Date:
2026-03-01 @ 12:05 PM
Study NCT ID:
NCT02999256
Status:
COMPLETED
Last Update Posted:
2016-12-21
First Post:
2016-12-07
Is NOT Gene Therapy:
True
Has Adverse Events:
False
Brief Title:
Effect of Cherry Juice on Fat Oxidation and Cardio-metabolic Markers
Sponsor:
University of Hertfordshire
Organization:
Study Overview
Official Title:
The Effect of Tart Cherry Juice Supplementation on Fat Oxidation, Body Composition and Cardio-Metabolic Markers With Cycling Exercise
Status:
COMPLETED
Status Verified Date:
2016-12
Last Known Status:
None
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
None
Brief Summary:
The present study examined the effect of Montmorency tart cherry juice and FATMAX (intensity eliciting maximal fat oxidation) exercise on fat oxidation rates, body composition and blood-based cardio-metabolic markers. Participants received both Montmorency tart cherry juice and placebo in a random counterbalanced order for 20 days. Outcome variables were measured immediately pre- and post-supplementation and 10 days after the onset of supplementation. It was hypothesised that Montmorency tart cherry juice would increase fat oxidation during exercise, reduce body fat percentage and improve cardio-metabolic markers.
Detailed Description:
Aims: (1) Examine whether tart cherry juice supplementation with cycling exercise augments fat oxidation rate and therefore plays a role in weight management in healthy active human participants. (2) To extrapolate findings from this study to future biomedical health and disease research.
Methods: Random counterbalanced, within-group, double-blind study design. Participants were randomly allocated into consuming either cherry juice first or placebo. Eleven recreationally active male and female participants were recruited. Participants consumed 30ml Montmorency tart cherry juice concentrate mixed with 100ml water, twice daily for 20 days. Participants underwent a 14 day washout period between trials. All participants were instructed to keep to their habitual intake of polyphenols and anthocyanins. Twenty-four hours before each exercise testing session, participants consumed similar meals at the same times. Diet adherence was monitored through food diaries.
Participants attended each testing session following an overnight fast, with the testing being completed at the same time in the morning to avoid circadian variation. Preliminary testing was conducted to ascertain VO2max and individual FATMAX, 4 days before the one hour pre-supplementation exercise test. VO2max was re-assessed 4 days before the one hour post-supplementation exercise test to determine if any changes in training status affected results.
Testing will occur at baseline, 10 days after the onset of supplementation and after 20 days supplementation. Exercise protocol consisted of 60min cycling at pre-determined individual FATMAX. Continuous gas analysis and heart rate were monitored throughout. Substrate oxidation rates and energy expenditure were calculated using stoichiometric equations (Jeukendrup and Wallis, 2005). During each testing session blood pressure and body composition (impedance) measurements were taken at baseline and pre-exercise during all testing sessions. Resting metabolic rate (indirect calorimetry) was assessed at baseline and pre-exercise during all testing sessions.
Serum blood samples were obtained from participants at the following time points: baseline, pre-exercise and post-exercise for one hour submaximal exercise tests, in both trials. The following markers were analysed: Glucose, Lactate, Triglycerides, HDL, Total Cholesterol and Total Antioxidant Status.
Methods: Random counterbalanced, within-group, double-blind study design. Participants were randomly allocated into consuming either cherry juice first or placebo. Eleven recreationally active male and female participants were recruited. Participants consumed 30ml Montmorency tart cherry juice concentrate mixed with 100ml water, twice daily for 20 days. Participants underwent a 14 day washout period between trials. All participants were instructed to keep to their habitual intake of polyphenols and anthocyanins. Twenty-four hours before each exercise testing session, participants consumed similar meals at the same times. Diet adherence was monitored through food diaries.
Participants attended each testing session following an overnight fast, with the testing being completed at the same time in the morning to avoid circadian variation. Preliminary testing was conducted to ascertain VO2max and individual FATMAX, 4 days before the one hour pre-supplementation exercise test. VO2max was re-assessed 4 days before the one hour post-supplementation exercise test to determine if any changes in training status affected results.
Testing will occur at baseline, 10 days after the onset of supplementation and after 20 days supplementation. Exercise protocol consisted of 60min cycling at pre-determined individual FATMAX. Continuous gas analysis and heart rate were monitored throughout. Substrate oxidation rates and energy expenditure were calculated using stoichiometric equations (Jeukendrup and Wallis, 2005). During each testing session blood pressure and body composition (impedance) measurements were taken at baseline and pre-exercise during all testing sessions. Resting metabolic rate (indirect calorimetry) was assessed at baseline and pre-exercise during all testing sessions.
Serum blood samples were obtained from participants at the following time points: baseline, pre-exercise and post-exercise for one hour submaximal exercise tests, in both trials. The following markers were analysed: Glucose, Lactate, Triglycerides, HDL, Total Cholesterol and Total Antioxidant Status.
Study Oversight
Has Oversight DMC:
False
Is a FDA Regulated Drug?:
None
Is a FDA Regulated Device?:
None
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?: