Lipodystrophy and Fat Metabolism During Exercise
HealthyLipodystrophy1 moreMandibular 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.
Exploratory Study of the Relationships Between the Biomarkers of Inflammation, Lipidome and Insulin...
LipodystrophyDunnigan SyndromeThe objective of this work is to identify biomarkers of interest in patients with insulin resistance leading to early disorders of glycemic regulation. For this the investigators want to assay the insulin resistance marker Insulin Regulated Amino Peptidase serique (IRAPs), the plasma lipidome and inflammation markers in 2 populations of insulin-resistant subjects due to Dunnigan's inherited lipodystrophy or overweight/obesity and insulin-sensitive subjects with or without a glycemic regulation disorder objectified during an Oral induced hyperglycemia. The results of the IRAPs, lipidome and inflammation assays will be compared in insulin-resistant subjects, between normoglycemic, prediabetic and diabetic subjects. Correlations will be made between these markers and the deterioration of glycemic regulation as well as with known insulin resistance parameters (HOmeostasis Assessment Model (HOMA), Quantitative Insulin-sensitivity Check Index (QUICKI),Insulin Sensitivity Index (Isi) MATSUDA).
Expanded Access Metreleptin Study
Familial Partial LipodystrophyMetreleptin was approved in the United States as adjunct to diet as replacement therapy to treat the complications of leptin deficiency in patients with congenital or acquired generalized lipodystrophy in February 2014. The approval was based on results obtained in 2 open-label, investigator-sponsored studies (Studies 991265 and 20010769) conducted at the National Institutes of Health (NIH) to evaluate the safety and efficacy of metreleptin treatment in patients with lipodystrophy and 1 treatment IND (FHA101/MB002-002/MB002-002) conducted by Bristol-Myers Squibb on behalf of AstraZeneca (BMS/AZ) in patients with diabetes mellitus and/or hypertriglyceridemia related to lipodystrophy. These studies enrolled patients with lipodystrophy including both generalized and partial lipodystrophy. Although the marketing authorization restricted the indication to patients with generalized lipodystrophy, meaningful clinical benefit was achieved in a subset of patients with partial lipodystrophy, and these patients from FHA101/MB002-002 form the basis of the request for ongoing treatment under expanded access.