ESPE Abstracts

ESPE Abstracts

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hrp0095rfc4.6 | Fat, Metabolism and Obesity | ESPE2022

European Consortium of Lipodystrophies Registry, 2022

von Schnurbein Julia , Gambinieri Alessandra , Fernández-Pombo Antia , Akinci Baris , Vatier Camille , Cecchetti Carolina , Adiyaman Cem , Vigoroux Corrine , Araujo-Vilar David , Savage David , Gilio Donatella , Bismuth Elise , Sorkina Ekaterina , Vorona Elena , Santos Silva Ermelinda , Nobecourt Estelle , Csajbok Eva , Santini Ferrucio , Prodam Flavia , Nagel Gabriele , Aimaretti Gianluca , Latanzi Giovanna , Ceccarini Giovanni , Novelli Giuseppe , Yildirim Simsir Ilgin , Jeru Isabelle , Štotl Iztok , Carel Jean-Claude , Writzl Karin , Heldt Katrin , Miehle Konstanze , Kleinendorst Lotte , D’Apice Maria-Rosaria , Beghini Mariana , Vantyghem Marie-Christine , Broekema Marjoleine , Faßhauer Mathias , Stumvoll Michael , Sbraccia Paolo , Ozen Samim , Magno Silvia , Scherer Thomas , Daffara Thomaso , Pekkolay Zafer , Wabitsch Martin

Background: Lipodystrophy syndromes comprise a large group of extremely rare diseases characterized by loss or dysfunction of adipose tissue. Due to their extreme rarity and variability, research in the field of lipodystrophy is difficult for single centres warranting larger co-operations.Methods: Therefore, the European Consortium of Lipodystrophies decided to found an international registry in 2016. This registry is ba...
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hrp0084p3-732 | Diabetes | ESPE2015

Severe Insulin Resistance and Dyslipidaemia with Unremarkable Fat Distribution in an Adolescent Girl due to Mutation in the PPARG Gene (Familial Partial Lipodystrophy Type 3)

Doing Carsten , Kummer Sebastian , Savage David , Salgin Burak , Sample Robert , Mayatepek Ertan , Meissner Thomas

Background: Mutations in the PPARG gene, encoding peroxisome proliferator-activated receptor-gamma (PPARG) are associated with Familial lipodystrophy type 3. PPARG regulates fatty acid storage and glucose metabolism. The genes activated by PPARG stimulate lipid uptake and adipogenese by fat cells. In cases of lipodystrophy and defects of adipogenesis lipoid accumulates ectopically in the liver, skeletal muscle, pancreas and cardiovascular tissues and impairs the function of th...
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hrp0094p2-182 | Fat, metabolism and obesity | ESPE2021

Describing the Natural History of Clinical, Biochemical and Radiological outcomes of children with Familial Partial Lipodystrophy type 2 (FPLD2) attending a National Service for Severe Insulin Resistance: a Retrospective Cohort Study

Xuan Zhong Zhu , Stears Anna , Harris Julie , Wilber Ellen , Savage David , O’Rahilly Stephen , Williams Rachel ,

Background: FPLD2 results from autosomal dominant mutations in the LMNA gene. The physical appearance develops through adolescence where subcutaneous fat deposits of the limbs, trunk, buttocks and legs do not develop resulting in a muscular appearance. The metabolic phenotype includes elevations in triglyceride concentrations and hepatosteatosis with resultant insulin resistance. Co-morbidities that may manifest during young adulthood include early-onset diabe...
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