Speed of Glucose Absorption During Exercise

Not Applicable

Recruiting

Brief Summary: The purpose of this study is to look at how fast commercially available supplements containing carbohydrates can get into the bloodstream during repeated sprint cycles. This will build from a pervious study where we tested these supplements on healthy participants during a resting oral glucose tolerance trial. We will be testing three supplements, namely Voom Pocket Rocket, SIS Go Isotonic Energy Gel, and Maurten Gel 160. Each participant will complete all three conditions, consuming one of each supplement at random per condition. The study requires participation from male and female runners, cyclists and triathletes who are aged between 18-40.

Each visit will take approximately 1 hour, and three experimental visits per participant. The study will involve frequent blood sampling and the continuous monitoring of gas exchange (oxygen/carbon dioxide). Blood sampling via cannulation will be used to analyse the lactate, glucose, and electrolyte content of the blood. Gas exchange will measure the oxygen breathed in and carbon dioxide breathed out throughout the exercise.

The investigators plan to carry out the study on 10 participants who will be a mix of male and female runners, cyclists and triathletes.

Recruitment & Eligibility

Inclusion Criteria

Aged between 18-40 years
Male or female
Tier 2 athletes - local level representation, training ~ 3 times per week, training with a purpose to compete, identify with a specific sport, limited skill development (McKay et al., 2021)

Exclusion Criteria

Allergies to any listed ingredients on any supplements.
Diabetes (type 1 or 2)
Any medical conditions
Smokers
Any injury that would prevent them from exercising
Anyone using drugs or medication (not including contraception)
Anyone consuming alcohol within 24 hours of the study
Exercise must be restricted within 24 hours of the study
Caffeine must not be consumed within 24 hours of testing as it can significantly enhance carbohydrate oxidation rates (Yeo et al., 2005)
Diets including high-carbohydrate-low-fat (HCLF), low-carbohydrate-high-fat (LCHF), ketogenic, and/or glycogen manipulation diets (Rauch et al., 2022)

Primary Outcome Measures

Name	Time	Method
Blood Glucose	20 minutes	Frequent blood sampling for blood glucose (1ml after every stage of both sprint cycling and active recovery) followed by analysis in the Biosen Analyser
Blood Lactate	20 minutes	Frequent blood sampling for blood lactate (1ml after every stage of both sprint cycling and active recovery) followed by analysis in the Biosen Analyser
Gas Exchange	20 minutes	Gas exchange measured throughout each 20 minute exercise via a Cortex Metalyzer

Secondary Outcome Measures

Name	Time	Method
Blood electrolyte content	20 mins	Frequent blood sampling for electrolyte concentrations of the blood (sodium, potassium, chloride, calcium) (1ml after every stage of both sprint cycling and active recovery) followed by analysis in the Biosen Analyser
Rate of Percieved exertion (RPE)	20 minutes	Participants will report their RPE using the Borg Scale to report how hard they are finding the exercise. This will be done after the warm-up and after the final sprint.
Gastrointestinal (GI) Discomfort Questionnaire	25 minutes	Participants will complete a GI discomfort questionnaire 5 minutes before starting exercise and at the end of exercise

Locations (1): Lancaster University
🇬🇧
Lancaster, Lancashire, United Kingdom

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