View clinical trials related to Wolfram Syndrome.
Filter by:This study is an open label Phase II study to evaluate the safety and efficacy of AMX0035 in adults with Wolfram syndrome.
Wolfram syndrome (WFS:OMIM 222300) is a group of inherited disorders that usually appear in childhood and cause diabetes, optic atrophy leading to loss of vision, deafness and often diabetes insipidus. Wolfram syndrome affected no more than 0.2 in 10,000 people in the European Union. There is no cure and no treatment that will arrest or delay the progress of the disease. The gene responsible for WS1 is WFS1, it encodes for wolframin, a transmembrane glycoprotein involved in the regulation of the unfolded protein response. Recently, drug repurposing has been hypothesized from others and us as being useful for WS1 therapy. More specifically, GLP-1 receptor agonists were suggested as a promising class of anti- diabetic drugs having the potential to delay or even reverse disease progression based on their ability to reduce elevated ER stress in vitro and in vivo. The objective of this project is to create a model of precision-medicine oriented Rare Diabetes Clinic, which will be specifically dedicated to the treatment and follow-up of complex patients with Wolfram Syndrome. A team of clinicians and researchers specialized in diabetes and/or optic neuropathy and with experience in the subset of monogenic forms will make available a cohort of subjects with Wolfram Syndrome prospectively followed in an interventional protocol on the use of tirzepatide (a dual glucose-dependent insulinotropic polypeptide and glucagon-like peptide-1 receptor agonist). It will be a prospective phase 2, non-randomized, single group assignment, intervention trial to determine the efficacy of tirzepatide (GIP/GLP-1 receptor agonist) in increasing endogenous insulin production and correcting glycemic lability in patients with Wolfram syndrome type 1 (WS1). The expected outcomes of this study are 1) to provide a therapeutic option for a devastating orphan disease; 2) to confirm the efficacy of a repurposed drug able to reduce elevated endoplasmic reticulum (ER) stress in a disease that represents a model of ER disease; 3) to confirm the efficacy of the disease modeling based on iPSC to predict the response to treatment; 4) to develop a disease-specific multidisciplinary follow-up.
Open label, phase II study non randomized single group assignment of 20 evaluable patients 13 years and older, over 37,5 kg body-weight, with sensorineural hearing loss of at least 20 dB at 8 kHz in high frequency average (HFA), and with documented genetic mutations in the WFS1 gene and with at least one other major documented clinical symptom pertaining to Wolfram syndrome (i.e. diabetes mellitus, diabetes insipidus, optic atrophy). Every patients will receive over three years a treatment by VPA (Depakine chrono).
The study has two aims: 1. To (1a) determine the frequency of monogenic diabetes misdiagnosed as type 1 diabetes (T1D) and (2) to define an algorithm for case selection. 2. To discover novel genes whose mutations cause monogenic diabetes misdiagnosed as T1D.
Wolfram syndrome (WFS; OMIM #222300) is a rare autosomal recessive disease clinically defined in 1938 as the combination of childhood-onset insulin dependent diabetes, optic nerve atrophy, diabetes insipidus and deafness. Based on early descriptions, neurological features were thought to appear later in the disease with death occurring in middle adulthood. Importantly, the major causative gene (WFS1) was identified in 1998. This discovery allowed researchers to determine that the WFS1 gene encodes the protein wolframin, which helps protect cells from endoplasmic reticulum (ER) stress-mediated apoptosis, potentially via intracellular calcium homeostasis. Pathogenic mutations in WFS1 can result in death or dysfunction of cells that are under high ER stress, such as insulin-producing pancreatic β cells, causing insulin dependent diabetes. In addition, knowing the causative gene has allowed researchers to identify patients by their WFS1 mutation rather than the classic set of symptoms, leading to the increasing realization that the WFS1-related phenotype (including neurologic symptoms) is much more variable than previously understood. The first iteration of this grant (HD070855 "Tracking Neurodegeneration in Early Wolfram Syndrome") contributed to this shift in understanding. In this time, the research team has built a successful annual research clinic for WFS, that has met or exceeded recruitment goals for patients and controls, validated a clinical severity rating scale for WFS, described an unexpectedly early neurophenotype of reduced balance, smell identification and ventral pons volume, identified alterations in traditional diffusion tensor imaging (DTI) metrics that suggest hypomyelination as a pervasive neuropathological feature of WFS and provided justification for the selection of two primary outcomes (visual acuity and ventral pons volume) in a newly funded clinical efficacy study in WFS (Barrett, PI).
This trial aims to investigate the efficacy, safety and tolerability of sodium valproate in the treatment of patients with Wolfram syndrome. 70 paediatric and adult patients were initially planned to be randomised 2:1 to receive either sodium valproate or placebo at 6 international centres. 63 patients were recruited when a decision was made to stop the study recruitment in November 2022.
Patients who are genetically diagnosed with the recently reported and rare Wolfram syndrome type 2 ( WFS2) and have the degenerative and symptomatic disease including signs such as diabetes, platelet aggregation defect or visual problems will be asked to participate in this study. Knowing the pathomechanism of WFS2 with rapid cell death, after doing baseline investigations to asses the severity of their disease, the participants will be offered a chelator therapy with in addition to the antioxidant Acetylcystein, in diabetic patients an Incertin (GLP-1 ) therapy will be offered as well. The baseline investigations will be repeated after 2 months and after 5 months of therapy in order to asses the progression of the disease and to show if the chelator and anti oxidant therapy and in diabetic patients the GLP-1 therapy could stop the progression of the disease.
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.
The goal of this study is to determine the pattern of early neurodegenerative changes in WFS (Wolfram Syndrome). The investigator will perform cross-sectional and longitudinal assessments of youth with WFS, targeting sensitive neural systems with quantified neuroimaging and behavioral measures. In addition, the investigator will establish the utility of a WFS severity rating scale (WFS Unified Rating Scale or WURS). Preliminary data support the feasibility of this approach and its potential to generate important new information about neurodevelopmental and neurodegenerative patterns in WFS. This work is necessary to position the field for future clinical trials to test interventions for WFS neurodegeneration. Ultimately, a better understanding of the trajectory of neurodegeneration in WFS and the development of effective interventions may be relevant to other more common neurodegenerative and endocrine (Type 1 and Type 2 diabetes) diseases in which ER stress has been implicated.