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Clinical Trial Details — Status: Withdrawn

Administrative data

NCT number NCT04056000
Other study ID # 258840
Secondary ID
Status Withdrawn
Phase N/A
First received
Last updated
Start date September 1, 2019
Est. completion date December 31, 2019

Study information

Verified date August 2021
Source University of Exeter
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Mandibular dysplasia with deafness and progeroid features (MDP) syndrome is a rare genetic metabolic disorder that causes lipodystrophy: the inability of the body to store subcutaneous adipose tissue (fat under the skin). This creates a unique scenario where any ingested fat is diverted to the abdomen and liver, often leading to diabetes. The investigators have an opportunity to study an individual with MDP who has competed in and won national para-cycling championships and is able to prevent/control his diabetes by regular bicycle training. He has approached us for advice on nutritional strategies to improve his cycling performance, and insight into how he uses fat during exercise. The investigators also wish to study a moderately-trained cyclist with Familial partial lipodystrophy (FPL). Those with FPL show a different pattern of lipodystrophy than those with MDP, allowing us to further increase the investigator's understanding of fat utilisation in those with lipodystrophy during exercise. The investigators know how subcutaneous fat is used during exercise, and how duration, nutrition, carbohydrate availability, and exercise intensity can affect this. The investigators aim to investigate these processes during exercise in MDP and FPL. This will potentially provide nutrition and performance advice to the individuals, and insight on fat use in lipodystrophy and diabetes.


Description:

During prolonged sub-maximal endurance exercise, both fat and carbohydrate are readily used substrates. The relative contribution and regulation of either is dependent on substrate availability (endogenous and exogenous), the duration of exercise, and the intensity of exercise. For example, exercising under fasted or caffeine supplemented conditions increases adipose tissue lipolysis, free fatty acid availability, and thus fat utilisation, whilst exercising under fed or carbohydrate loaded conditions increases glucose availability from elevated liver and muscle glycogen stores, and thus carbohydrate utilisation. This is important during prolonged sub-maximal exercise because when the limited endogenous carbohydrate stores are depleted, the body must rely more on fat. However, it is not known whether this regulation is present in conditions such as MDP and FPL where there is essentially no adipose tissue. The investigators have an opportunity to study an individual with MDP who has competed in and won national para-cycling championships. He has approached us for advice on nutritional strategies to improve his cycling performance, and insight into how he uses fat during exercise. Intriguingly, the individual has provided anecdotal evidence that exercising under fasted conditions severely impairs his performance but that the use of caffeine improves his performance. He also states that he uses carbohydrate feeding strategies before and during prolonged exercise but is unsure whether it helps or not. This raises two fundamental questions that should be answered before any nutritional advice should be given (e.g. should a pre-exercise fat feeding or low glycemic index carbohydrate strategy be adopted?): 1. Do fasting and caffeine stimulate lipolysis in lipodystrophy and, if so, where is the fat coming from? 2. Does carbohydrate feeding before exercise impair lipolysis in lipodystrophy? In order to answer these questions, the investigators need to directly measure rates of fat and carbohydrate utilisation from the circulation and muscle stores during exercise in the individual and a control participant using a stable isotope infusion approach. As well as providing results of significant scientific interest to the lipodystrophy field (researchers, clinicians, patients) and answering fundamental exercise physiology questions on substrate availability, the investigators hope that the outcomes will offer a substantial platform for improving the participant's knowledge of exercise nutrition and exercise performance.


Recruitment information / eligibility

Status Withdrawn
Enrollment 0
Est. completion date December 31, 2019
Est. primary completion date December 31, 2019
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Male
Age group 18 Years to 35 Years
Eligibility SUBJECT WITH FPL Inclusion: • Already known to researchers. Male, 29 years old. CONTROL SUBJECT 1 Inclusion: - Highly trained, elite-level cyclist (VO2max > 80 ml/kg/min) - Registered with, and racing under the jurisdiction of, British Cycling - ~< 10% of body fat - Male - 18 - 35 years old Exclusion: - Any diagnosed metabolic impairment, as this may affect normal metabolism. - Any diagnosed cardiovascular disease or hypertension to avoid any complications associated with heavy exercise. - Chronic use of any prescribed or over-the-counter pharmaceuticals. CONTROL SUBJECT 2 Inclusion: - Recreationally active, preferably with experience of cycling training. - Similar (± 5 ml·kg-1·min-1) VO2max¬ to that of the participant with MDP Exclusion: - Any diagnosed metabolic impairment, as this may affect normal metabolism. - Any diagnosed cardiovascular disease or hypertension to avoid any complications associated with heavy exercise. - Chronic use of any prescribed or over-the-counter pharmaceuticals. SUBJECT WITH FPL Inclusion: - Recreationally active, preferably with experience of cycling training. - Similar (± 5 ml·kg-1·min-1) VO2max¬ to that of the participant with MDP - Diagnosis with FPL Exclusion: - Female - Any diagnosed cardiovascular disease or hypertension to avoid any complications associated with heavy exercise.

Study Design


Related Conditions & MeSH terms


Intervention

Dietary Supplement:
Caffeine
200 mg of caffeine, 60 minutes before exercise
High-carbohdyrate breakfast
Ingestion of a high-carbohydrate breakfast 60 minutes before exercise
Behavioral:
60-minutes of steady state exercise
See intervention name

Locations

Country Name City State
United Kingdom School of Sport and Health Sciences Exeter Devon

Sponsors (1)

Lead Sponsor Collaborator
University of Exeter

Country where clinical trial is conducted

United Kingdom, 

Outcome

Type Measure Description Time frame Safety issue
Primary Substrate utilisation n..b. Please be aware that the below is a single, composite measure, wherein no single outcome measure cannot exist without the other. As such, it is presented as is, below.
How carbohydrate and caffeine ingestion can affect the contribution to energy expenditure during 1 hour of exercise at 55%Wmax from:
Plasma free fatty acids
Plasma glucose
Muscle glycogen
Fat from other sources (predominantly muscle)
This will be calculated from
Plasma free fatty acid oxidation: Production of breath 13CO2 from a continuous infusion of [U-13C]palmitate
Plasma glucose oxidation: The rate of disappearance of labelled [6, 6-2H2] glucose from a continuous infusion
Muscle glycogen = Total carbohydrate oxidation - plasma glucose oxidation
Fat from other sources = total fat oxidation - plasma free fatty acid oxidation
Throughout the 60 minute cycle
Secondary Heart rate Heart rate will be measured throughout with the use of a heart rate monitor. Throughout the 60 minute cycle
Secondary Plasma glucose concentrations A cannula will be used to draw blood from subjects at several time points. Whole blood samples will be analysed immediately for plasma glucose. Throughout the 60 minute cycle
Secondary Plasma lactate concentrations A cannula will be used to draw blood from subjects at several time points. Whole blood samples will be analysed immediately for plasma lactate. Throughout the 60 minute cycle
Secondary Plasma NEFA concentrations A cannula will be used to draw blood from subjects at several time points. At the end of the trial, plasma samples will be moved to a -80°C freezer for later analysis for NEFA. Throughout the 60 minute cycle
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