View clinical trials related to Lysosomal Storage Diseases.
Filter by:Fabry disease is a rare, X-linked inborn error of glycosphingolipid metabolism caused by an abnormal gene encoding the α-galactosidase A (αGLA) enzyme. The αGLA enzyme is ubiquitously expressed throughout the body and is responsible for the breakdown of glycosphingolipids, deficiency of which results in the accumulation of specific glycosphingolipids that are associated with the pathophysiology of the disease. Current treatment for Fabry disease is limited to the symptomatic management of pain, conventional management of complications, and methods to increase the availability of functional αGLA. This clinical study aims to investigate the long-term safety and durability of αGLA in patients who have been dosed with a new gene therapy product (FLT190) in earlier clinical studies.
The purpose of this study is to obtain information pertaining to the occurrence of antibodies to investigational SPK-3006 capsid and GAA, GAA activity and GAA antigen levels in the usual care setting of Late-Onset Pompe Disease (LOPD) participants on an enzyme replacement regimen. Additionally, a careful evaluation of laboratory and functional testing in patients with LOPD may provide information to better understand the disease features and better drive the design of a future interventional investigational gene therapy trial. An understanding of the underlying status of liver and muscle health in individuals with LOPD may also inform best surveillance during the conduct of gene therapy trials.
International, multicenter, epidemiological study to demonstrate the correlation and predictive value of lyso-Gb1 concentration with the clinical severity of naïve, initially non-ERT/SRT Gaucher disease type 1 and during the study ERT/SRT-newly started Gaucher type 1 patients and to correlate lyso-Gb1 concentration with the clinical improvement of ERT or SRT treated Gaucher type 1 and the clinical course of non-treated patients based on GD-DS3
This study examines the effects of individualized diet and exercise plans on muscle strength, quality of life and respiratory function in Pompe disease. Subjects will be given a diet and exercise plan based on their individual needs, which will be followed for 16 weeks. Participants will also be provided with an activity tracker in order to track their exercise activities, access to an app that will allow them to input their daily food intake, and they will also come to the University of Florida for exercise tests, respiratory tests and questionnaires.
Hypothesis: Children diagnosed with a lysosomal disease will exhibit developmental, adaptive, and behavioral strengths and difficulties depending upon 1) biomedical risk factors (i.e. the specific genetic disorder responsible for the illness); 2) available modifying interventions, whether medical or behavioral; and 3) social risks in the children's families, neighborhoods and communities. A valid and reliable telephone-based surveillance system can successfully collect the data required to elucidate these developmental, adaptive and behavioral strengths and difficulties.
This study is designed to test the ability to achieve donor hematopoietic engraftment while maintaining low rates of transplant-related mortality (TRM) in patients with high-risk lysosomal and peroxisomal disorders using a novel conditioning regimen for hematopoietic cell transplantation (HCT). After a reduced-intensity conditioning regimen using volumetric-modulated arc therapy (VMAT)-delivered low-dose total body irradiation (TBI) with highly conformal marrow boosting, patients will be transplanted using either a related or unrelated allograft. The cell source may be marrow, peripheral blood or cord blood based on donor availability.
The late infantile form of galactosialidosis is potentially amenable to treatment by gene transfer with an adeno-associated viral vector encoding Protective Protein Cathepsin A (PPCA) or by infusion of purified protein. The published literature contains limited descriptions of the disease nor is it known how many patients with the disorder are potentially available for protocol enrollment. This preliminary study is designed to define the demographics and clinical characteristics of the patient population with galactosialidosis. Individuals for whom DNA diagnosis has been performed at St. Jude Children's Research Hospital (SJCRH) will be contacted telephonically to learn their current status. In addition, a letter requesting information regarding patients with galactosialidosis will be sent to all pediatric geneticists throughout the United States. Selected physicians with expertise in lysosomal storage diseases throughout the world will also be contacted. Foundations and Associations for the lysosomal storage disorders will also be contacted in an effort to identify additional potential patients with galactosialidosis. The information to be collected in this preliminary study will facilitate development of specific eligibility criteria for future therapeutic studies.
This is a 24-month study of the use of laronidase administered into the spinal fluid to treat cognitive decline in mucopolysaccharidosis I (MPS I). MPS I is a rare genetic condition due to deficiency of the enzyme alpha-l-iduronidase. Laronidase is the manufactured form of the enzyme alpha-l-iduronidase. MPS I is a heterogeneous disease with several clinical phenotypes ranging from the most severe, Hurler syndrome, to the attenuated forms, Hurler-Scheie and Scheie. Although patients with milder forms of MPS I may not have grossly observable problems with cognition, these patients do have learning difficulties that are apparent in school and with neuropsychological testing. The goal of this study is to evaluate whether intrathecal recombinant human alpha-l-iduronidase (rhIDU) injections can stabilize or improve cognitive decline in individuals with MPS I.
The primary objective is to determine the feasibility of attaining acceptable rates of donor cell engraftment (>25% donor chimerism at 180 days) following reduced intensity conditioning (RIC) regimens in pediatric patients < 21 years receiving cord blood transplantation for non-malignant disorders.
Transcranial Magnetic Stimulation (TMS) is a non-invasive technique to gather information about brain function. It is very useful when studying the areas of the brain related to motor activity (motor cortex, corticospinal tract, spinal cord and nerve roots). The procedure is conducted by transmitting a magnetic signal into the brain to stimulate an area of the body. Electrodes (small pieces of metal taped to areas of the body) are used in order to measure electrical activity. A magnetic signal is sent from a metal instrument held close to the patient's head, to an area of the brain responsible for motor activity of a certain area of the body. The electrodes pick up and record the electrical activity in the muscles. This study will employ the use of TMS to diagnose neurological disorders that affect the motor cortex or the corticospinal tract. Normal subjects are sometimes studied to investigate normal activity of the nervous system and to train doctors in clinical neurophysiology and electrodiagnostic medicine at the National Institutes of Health (NIH).