Gut-muscle Axis: Exploring the Gut Microbiota Influences Host Energy Sources and Exercise Performance

Not Applicable

Not yet recruiting

• Conditions: Marathon Runner

• Registration Number: NCT06670742
• Lead Sponsor: National Taiwan Sport University

Brief Summary

Through training, the investigators can adjust the composition and functions of gut microbiota. Exercise also alters the body's energy metabolism pathways, which, in turn, impacts the gut microbiota and its metabolic products. Understanding how the body utilizes and regulates energy during exercise is essential for enhancing athletic performance. This study aims to explore the relationships among post-exercise energy metabolites, gut microbiota, and their metabolic products, applying omics technologies in the field of sports science.

This interdisciplinary research will contribute to fields such as exercise physiology, sports nutrition, exercise biochemistry, and sports medicine, providing innovative and practical research insights for advancing sports science in our country.

Detailed Description

The gut microbiota, which is comprised of trillions of microbes, is the collective term for the gut microbiota. It establishes a symbiotic relationship with the host and plays a vital role in maintaining host health. Through training, the investigators can adjust the composition and functions of gut microbiota. Exercise also alters the body's energy metabolism pathways, which, in turn, impacts the gut microbiota and its metabolic products. Understanding how the body utilizes and regulates energy during exercise is essential for enhancing athletic performance. This study aims to explore the relationships among post-exercise energy metabolites, gut microbiota, and their metabolic products, applying omics technologies in the field of sports science.

This interdisciplinary research will contribute to fields such as exercise physiology, sports nutrition, exercise biochemistry, and sports medicine, providing innovative and practical research insights for advancing sports science in our country.

Study Timeline

• Status Verified: 2024-10
• Study First Submitted: 2024-10-26
• Study First Submitted QC: 2024-10-31
• Last Update Submitted: 2024-10-31
• Study First Posted: 2024-11-01
• Last Update Posted: 2024-11-01
• Study Start: 2024-11-08
• Primary Completion: 2024-12-31
• Study Completion: 2024-12-31

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: Male
• Target Recruitment: 90

Inclusion Criteria

• Training frequency of at least 3 times per week in the past year, with each session involving at least 1 hour of running.
• Participation in at least 2 marathon events within the past 2 years, with a completion time of under 4 hours and 30 minutes for a full marathon, or under 2 hours and 15 minutes for a half marathon.

Exclusion Criteria

• Excludes individuals with cardiovascular diseases, hypertension, epilepsy, bronchitis, severe asthma, heart disease, inflammatory bowel disease, bacterial or viral infections, disabilities, or chronic bone diseases.
• Habitual smokers.
• Individuals with highly irregular eating habits or sleep patterns due to shift work or night work.
• History of chronic neuro-muscular injuries or disorders in the past 6 months.
• Individuals who have received antibiotic treatment or taken probiotic supplements in the past 6 months.

General Healthy Adult Group

Inclusion Criteria:

• Generally healthy, untrained individuals.

Exclusion Criteria:

• Excludes individuals with cardiovascular diseases, hypertension, epilepsy, bronchitis, severe asthma, heart disease, inflammatory bowel disease, bacterial or viral infections, disabilities, or chronic bone diseases.
• Habitual smokers.
• Individuals with highly irregular eating habits or sleep patterns due to shift work or night work.
• History of chronic neuro-muscular injuries or disorders in the past 6 months.
• Individuals who have received antibiotic treatment or taken probiotic supplements in the past 6 months.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
Concentration of lactate	The testing time points are set as follows: before exercise, at the 5-kilometer mark during exercise, immediately after exercise, and at 5, 15, 30, and 60 minutes post-exercise.	Measure changes in lactate concentration.
Concentration of creatine kinase	The testing time points are set as follows: before exercise, immediately after exercise, and 60 minutes post-exercise.	Measure changes in creatine kinase concentration.
Concentration of glucose	The testing time points are set as follows: before exercise, immediately after exercise, and 60 minutes post-exercise.	Measure changes in glucose concentration.
Concentration of creatinine	The testing time points are set as follows: before exercise, immediately after exercise, and 60 minutes post-exercise.	Measure changes in creatinine concentration.
Concentration of blood urea nitrogen	The testing time points are set as follows: before exercise, immediately after exercise, and 60 minutes post-exercise.	Measure changes in blood urea nitrogen concentration.
Concentration of lactate dehydrogenase	The testing time points are set as follows: before exercise, immediately after exercise, and 60 minutes post-exercise.	Measure changes in lactate dehydrogenase concentration.
Concentration of free fatty acid	The testing time points are set as follows: before exercise, immediately after exercise, and 60 minutes post-exercise.	Measure changes in free fatty acid concentration.
Concentration of cortisol	The testing time points are set as follows: before exercise, immediately after exercise, and 60 minutes post-exercise.	Measure changes in cortisol concentration.
ood frequency questionnaire(FFQ)	Before exercise	The participants' diets were assessed using a semiquantitative food frequency questionnaire(FFQ). The FFQ used in this study was validated in a previous study; the questionnaire exhibited reliability and validity for identifying major nutrients in the diets of Taiwanese vegetarians and omnivores.(Chiu TH et al., 2014) In this study, the nutrient analysis programme used to calculate the results of the FFQ was based on Taiwan's Food Composition Database. To assess the intake frequency of each food item, frequencies ranged from "never" or "\<1 time per month" to "more than 2 times per day.
Gut microbiota analysis	The testing time points are set as follows: before exercise, immediately after exercise, and at 24 and 48 hours post-exercise.	Collect participant stool samples for gut microbiota analysis.
Untargeted metabolome analysis	The testing time points are set as follows: before exercise, immediately after exercise, and at 24 and 48 hours post-exercise.	Collect participant stool samples for metabolome analysis.Metabolite identification aims to analyze the metabolome composition of biological samples, investigate the regulation of metabolic pathways, and explore biochemical mechanisms.

Secondary Outcome Measures

Name	Time	Method
Body composition	Before exercise	The investigators used the InBody 570 (In-body, Seoul, South Korea), the bioelectrical impedance analyzer (BIA) to measure body composition. The device can screen frequencies of 1, 5, 50, 260, 500 and 1000 kHz within 60 seconds. After cleaning the palms and soles of the feet, the subject stood vertically on the electrodes of the instrument, holding the sensing handle with both hands and keeping the arms away from the body at a 30° angle, and avoided talking or moving during the measurement. The device measured body weight (kg), BMI (kg/m²), fat mass (%), and lean mass (kg).
Rate of Perceived Exertion(RPE)	The testing time points are set as follows: before exercise, at the 5-kilometer mark during exercise, and immediately after exercise.	Assess perceived exercise intensity.
Heart rate	The testing time points are set as follows: before exercise, at the 5-kilometer mark during exercise, and immediately after exercise.	Assess changes in heart rate.