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  • The lymphatic system regulates tissue fluid homeostasis, intestinal fat absorption, and immune cell trafficing. Lymphedema is soft tissue swelling secondary to lymphatic dysfunction, which results in the accumulation of tissue fluid in the interstitial space. This might occur as a primary disorder of the developing lymphatic system, or alternatively lymphedema might be an acquired disorder secondary to lymphatic injury. For example, secondary lymphedema is a common problem following cancer and cancer treatments such as lymph node surgery and radiotherapy, resulting in significant morbidity. Radiotherapy is an established risk factor for lymphedema, and in addition to causing direct injury to the lymphatic vessel, it is possible that alternative mechanisms might also contribute to radiation-induced lymphatic dysfunction, such as localized ischemia of the lymphatic wall. It is also likely that predisposing genetic risk factors are at play, as not all individuals exposed to the same risk factors will develop secondary lymphedema. Lipoedema is a different form of soft tissue swelling due to the abnormal accumulation of adipose tissue. Lipoedema and lymphatic dysfunction appear to be linked, as individuals frequently develop a degree of lymphedema, particularly as the condition progresses in severity, where it may be decribed as lipo-lymphedema. The cause of lipoedema and the genetic basis of the condition are currently unknown. This thesis aims to discover and define alternative mechanisms for lymphtic dysfunction in the context of secondary lymphedema, particularly focussing on the supply of oxygenated blood to the lymphatic vessel wall. We also aim to describe inheritance patterns and the genetic factors involved in lipoedema and lipo-lymphedema. Such knowledge might uncover therapeutic targets and facilitate the development of treatments for lymphedema and lipoedema, including gene therapy.

  • Background: Lipedema is a progressive condition involving excessive deposition of subcutaneous adipose tissue, predominantly in the lower limbs, which severely compromises quality of life. Despite the impact of lipedema, its molecular and genetic bases are poorly understood, making diagnosis and treatment difficult. Historical evaluation of individuals with lipedema indicates a positive family history in 60%-80% of cases; however, genetic investigation of larger family cohorts is required. Here, we report the largest family-based sequencing study to date, aimed at identifying genetic changes that contribute to lipedema. Methods and Results: DNA samples from 31 individuals from 9 lipedema families were analyzed to reveal genetic variants predicted to alter protein function, yielding candidate variants in 469 genes. We did not identify any individual genes that contained likely disease-causing variants across all participating families. However, gene ontology analysis highlighted vasopressin receptor activity, microfibril binding, and patched binding as statistically significantly overrepresented categories for the set of candidate variants. Conclusions: Our study suggests that lipedema is not caused by a single exomic genetic factor, providing support for the hypothesis of genetic heterogeneity in the etiology of lipedema. As the largest study of its kind in the lipedema field, the results advance our understanding of the disease and provide a roadmap for future research aimed at improving the lives of those affected by lipedema.

Last update from database: 12/21/24, 9:30 AM (UTC)

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