Description Module

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Description Module

The Description Module contains narrative descriptions of the clinical trial, including a brief summary and detailed description. These descriptions provide important information about the study's purpose, methodology, and key details in language accessible to both researchers and the general public.

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Description Module

Ignite Creation Date: 2025-12-25 @ 12:36 AM
Ignite Modification Date: 2025-12-25 @ 12:36 AM
NCT ID: NCT05099367
Brief Summary: Prospective, monocentric, pathophysiological study, comparing 3 parallel groups: healthy controls; patients with diabetes and without DFU; patients with diabetes and with DFU. To address secondary objectives, samples from a fourth group will be collected.
Detailed Description: Diabetic foot ulcers (DFUs) are a common and serious complication of diabetes mellitus, and associated with major morbidity. Indeed, diabetes is the primary cause of non-traumatic lower-limb amputation, and the rise in the prevalence of type 2 diabetes worldwide increases the global burden of DFUs. The treatment of DFUs is particularly challenging. Besides etiologic measures, local therapy of foot ulcers mainly relies on debridement of the wound and dressings. Essential complementary measures include pressure off-loading and infection control. However, despite these treatments, complications are frequent, stressing the need for new treatments. The microcirculation has a key role in tissue survival, and several classical pathways explain how hyperglycemia damages the microvessels. There is growing evidence that the PGI2 pathway is dysregulated in diabetes, which contributes to microvascular dysfunction. Besides its vasodilator effect, recent data has revealed the major role of PGI2 in angiogenesis. In the skin, such effect on healing might be enhanced by the role of PGI2 in the regulation of fibroblast and keratinocytes migration and proliferation. In the past few decades, studies in diabetic patients with ulcers have shown numerous structural and functional abnormalities of the cutaneous microcirculation, supporting its critical role in the pathophysiology of DFUs. However, the detailed mechanisms underlying endothelial dysfunction in the skin of diabetic patients remain largely unexplored in vivo. A better understanding of the specificities of microvascular changes in the diabetic foot is essential to developing new treatments for this pressing clinical need. Objectives are * to explore the role of the PGI2 pathway in skin microvascular reactivity, in healthy subjects and in diabetic patients with and without DFU * To determine the involvement of COX-1 and COX-2 in cutaneous current-induced vasodilation (CIV), in healthy subjects and in diabetic patients with and without DFU. * To determine the involvement of sensory nerves in cutaneous CIV, in healthy subjects and in diabetic patients with and without DFU. * To compare the function of the IP receptor between healthy subjects and diabetic patients with and without DFU. * To determine the involvement of the nitric oxide (NO) and epoxyeicosatrienoic acids (EETs) pathway in cutaneous CIV, in healthy subjects and in diabetic patients with and without DFU. * To assess cutaneous expression of the different components of the PGI2 pathway in the skin of healthy subjects and of diabetic patients with and without DFU. * To assess the role of the PGI2 pathway on cell migration in vitro
Study: NCT05099367
Study Brief:
Protocol Section: NCT05099367