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NCT ID: NCT04998461 Not yet recruiting - Obesity Clinical Trials

Impact of Obesity, Chronic Kidney Disease and Type 2 Diabetes on Human Urinary Stem Cells

URISTEM
Start date: November 2021
Phase:
Study type: Observational

Obesity is at risk for the development of chronic kidney disease but the involved mechanisms are not known (Navarro et al. 2015). Establishing the link between obesity and kidney damage is difficult. Indeed, kidney function measurement lacks precision in obese people (Lemoine et al. 2014) and requires expensive methods such as measurement of 99mTc-DTPA clearance. Biopsies are too invasive for the detection of emerging kidney damage or for the following of the kidney function. Therefore new tools are required for the early identification of at risk individuals for the kidney damage complication. Mesenchymal stem cells may represent such a relevant tool. These cells are present in a large number of organs, including kidney (Costa et al. 2020). In addition to be differentiated cells progenitors (Dominici et al. 2006), they also support immunosuppressive, anti-fibrotic and pro-angiogenic functions that have been used for the treatment of kidney fibrosis (Usunier et al. 2014). Therefore, mesenchymal stem cells contribute to tissue homeostasis and their alterations may reflect organ dysfunctions. Indeed, mesenchymal stem cells from obese adipose tissue lose their immunosuppressive (Serena et al. 2016) and differentiation (Gustafson et al. 2009) functions and contribute to fibrosis (Keophiphath et al. 2009) and inflammation (Lee et al. 2010; Gustafson, Nerstedt, et Smith 2019). It is thus probable that kidney dysfunctions are associated with functional alterations of kidney mesenchymal stem cells. The collection of mesenchymal stem cells from kidney can easily be performed from urine and next cultivated for amplification. They are called urine stem cells (USC). From our experience with obese mouse adipose stem cells, we observed that functional changes of stem cells preceded adipose tissue dysfunctions. Functional signatures of mesenchymal stem cells are thus representative of changes occuring in the function of the tissue notably in answer to obesity. These features could be used to identify obese people presenting ongoing alterations of kidney function, before clinical manifestations of kidney dysfunction. Because kidney mesenchymal stem cells are easy to isolate from urine, their collection is compatible with the follow up of patients and can be applied to a large number of individuals, including the younger. USC could represent a valuable tool to detect progression towards kidney damage. In this project we plan to analyse USC alterations induced by obesity and to identify signatures associated with the progression towards kidney damage and type 2 diabetes. The goal is to evaluate USC as potential marker for the non invasive monitoring of patients in answer to a need that is not achieved by the present available approaches.

NCT ID: NCT03983902 Not yet recruiting - Stem Cells Clinical Trials

Placental Transfusion Methods and Stem Cells

Start date: July 1, 2019
Phase: N/A
Study type: Interventional

To measure the levels of endothelial progenitor cells and CD34+ hematopoietic stem cells levels, and placental residual volume by delayed cord clamping, umbilical cord milking or immediate cord clamping in newborns at different gestational weeks.

NCT ID: NCT03361631 Not yet recruiting - Clinical trials for Diabetes Mellitus, Type 1

Intracavernous Injection of Autologous Mesenchymal Stem Cells in the Treatment of Erectile Dysfunction Resistant to Oral Treatment in Patients With Type I Diabetes

MESERIC
Start date: June 30, 2018
Phase: Phase 1
Study type: Interventional

Diabetes is a major concern in public health because of its high frequency and its negative consequences. Erectile dysfunction (ED) is present, regardless of age, in 50 to 75% of men with diabetes. It is related to endothelial dysfunction and a decrease in smooth muscle and nerve cells. In type 1 diabetic patients, ED is part of the chronic complications of microangiopathy. Current therapies are exclusively symptomatic with moderate efficacy, estimated between 44 and 56%. The administration of culture-grown medullary mesenchymal stem cells (MSCs) would be a curative treatment and have the advantage of being single injection. However, the data in the literature do not allow to define the optimal dose of MSC in this indication. In addition, the feasibility of this procedure is not known at present. The aim of this study is to evaluate the tolerance and the efficacy of intracavernous injection of autologous MSC (bone marrow-derived MSCs) administered in a 4-dose-escalating design in patients from 18 to 50 years old with complicated type 1 diabetes mellitus and erectile dysfunction.