7 Clinical Trials for Various Conditions
There is strong evidence suggesting that endoplasmic reticulum stress contributes to neurogenic and vascular hypertension in various animal models, however this has never been explored in humans. Therefore, this project will fill this gap by performing a single-blind, placebo-controlled trial in humans with hypertension.
Normally, the hormone insulin works to help keep blood sugar normal. However, as a person gains weight, insulin does not work as well and blood sugar tends to be a little higher than normal. This is called "insulin resistance". Two investigational drugs (not approved by the Food and Drug Administration) for the treatment of high lipid levels or insulin resistance are being examined in this study: one drug is called tauroursodeoxycholic acid (TUDCA), the other is called sodium phenylbutyrate (PBA). This study is designed to test if TUDCA and/or PBA is effective in people who are obese with insulin resistance and high lipids. We hypothesize that pharmacologically-induced decreases in ER stress will improve insulin action and hepatic lipid metabolism in obese subjects.
Rates of cardiovascular disease and diabetes are more than 2-fold greater in HIV infected people than the general population. Protease inhibitor booster antiretroviral therapy (PI-ART) which is used by \~50% of HIV infected people in the USA is an established risk factor for diabetes. Tauroursodeoxycholic acid (TUDCA), a naturally occurring bile salt, improves insulin sensitivity in HIV uninfected subjects, although the mechanisms for these benefits are unclear. This study will explore the hypothesis that TUDCA will improve insulin action in people with HIV who are receiving PI-ART. Further, this project will clarify the molecular mechanisms responsible for these improvements potentially benefiting society, irrespective of HIV status.
The pilot study is designed to investigate the acute and chronic effects of the diet supplement tauroursodeoxycholic acid (TUDCA) on endothelial function in participants with type 2 diabetes mellitus.
In this study, the investigators hypothesize that studying monogenic variants with strong effect associated with severe insulin deficiency of Wolfram syndrome will provide important insights into the more complex type 1 and type 2 diabetes mellitus. Aim 1. Establish and maintain a registry of patients with Wolfram syndrome. An Internet based registry will be employed to enroll participants with the clinical diagnosis of Wolfram syndrome (insulin dependent DM and bilateral OA). Clinical information regarding age of diagnosis and progression of the disease will be collated and analyzed to better define its natural history, along with potential metabolic phenotypes such as glucose intolerance of heterozygous parents and unaffected sibs. If not already completed, blood for WFS1 sequence analysis will be obtained on the participants (parents and sibs also for control purposes) and sent to a CLIA certified lab to define the mutation. This information will benefit patient families and referring physicians by providing a genetic diagnosis and where indicated. The Wolfram Syndrome Registry will foster international collaborations to more efficiently and systematically collect Wolfram syndrome patients and their clinical and experimental data.
Wolfram syndrome is a rare genetic disorder characterized by juvenile-onset diabetes mellitus, diabetes insipidus, optic nerve atrophy, hearing loss, and neurodegeneration. The purpose of this study is to assess the safety and tolerability of dantrolene sodium in patients with Wolfram syndrome. In addition, we will assess the efficacy of dantrolene sodium on the cardinal manifestations of Wolfram syndrome, including visual acuity, remaining beta cell functions, and neurological functions. There is a screening period up to 56 days, a 6-month treatment period with an optional extension phase up to 24 months, and a 4-week safety follow-up period. Study assessments include medical \& medication history, physical exams, neurological exams, eye exams, endocrine exams, vital signs, height, weight, electrocardiograms, blood and urine tests, pregnancy test if applicable, and questionnaires.
Clinically, the ability to slow or prevent beta cell demise can prevent or improve the course of type 1 diabetes. The immune-mediated destruction of beta cells that is an apparent major pathological basis for the disease, has led to efforts to prevent or suppress this immune assault. Here the investigators propose to buttress the beta cell's capacity to withstand this assault by improving the function of the endoplasmic reticulum stress resolving mechanisms within these cells. The ability to do so could have a major impact on preventive and therapeutic strategies for type 1 diabetes (and possibly other types of diabetes). The type of endoplasmic reticulum stress relieving agent (TUDCA) proposed here could ultimately be applied on an anticipatory basis to individuals at high risk for type 1 diabetes.