View clinical trials related to Fabry Disease.
Filter by:The objective of this study is to increase the understanding surrounding the choices presented to patients and families impacted by Fabry disease.
This project is a randomized controlled trial to use a mobile health journal, called Zamplo (formerly known as MyHealthJournal or ZoeInsights), to record patient reported outcomes (PROM) in patients with metabolic disorders. The objective of the study is to assess the feasibility, acceptability and potential effectiveness of the Zamplo. The primary hypothesis is as follows: The Zamplo platform will significantly increase patient activation at 6 months post-baseline, defined as an individual's knowledge, skill, and confidence for managing their health and health care. The primary outcome is as follows: Patient activation following the use of Zamplo will serve as the primary outcome of interest and will be measured by the Patient Activation Measure (PAM) 13. The PAM 13 shows the degree of the patient's ability to manage their health with confidence by providing a total patient activation score. Brief Background: This project is a randomized controlled trial to use a mobile health journal, called Zamplo, to record patient reported outcomes (PROM) in patients with metabolic disorders. Zamplo is a software as a service (SaaS) digital platform on both iOS and Android platforms that allows real-time entry of patient symptoms and response to medications. It provides the patients with an interface to see their progress, store questions that they will ask at the next clinic visit, record their health data and use their data to engage in their health outcomes. MAGIC Clinic Ltd., which is the largest clinic in Alberta that manages metabolic disorders such as Fabry disease, Pompe disease, and Gaucher disease, will provide access to Zamplo to patients free-of-charge to evaluate its utility in managing the symptoms of their disease. Brief Study Design: The study is a two-armed randomized controlled design with 1:1 allocation to treatment (Zamplo app group) or control (usual care) arms, with assessments at four time points: baseline, 1 month, 3 months (primary outcome), 6 months and 12 months follow-up post-baseline. This is an open-label trial. The investigators intend to recruit 150 participants in this study, with 75 of them being controls. Inclusion Criteria: Adult patients with a diagnosis of metabolic disease Access to a smartphone with data connection Willingness to devote 10-15 mins of time in a day to log medications and notes Able to speak and write English sufficiently to complete questionnaires. Exclusion Criteria: Insufficient cognitive function to participate in the study The use of any electronic application requires some competency with the software on a cellphone, downloading the application and entering the data. Some patients who are elderly may not be familiar with this technology and would be excluded.
In Fabry disease (FD), α-galactosidase A deficiency leads to the accumulation of globotriaosylceramide (Lyso-Gb3 and Gb3), triggering a pathologic cascade that causes progressive damage to multiple organs, including the heart. The heart is one of the organs that is very sensitive to the deficiency of α-galactosidase A. There is a subgroup of patients with significant residual α-galactosidase activity and a phenotype with primary cardiac involvement, occasionally referred as "cardiac variant." The manifestations of cardiac involvement in FD are left ventricular hypertrophy (LVH), diastolic dysfunction, microvascular angina. Cardiac hypertrophy is the most common cardiac pathology and cause of death in patients with FD. The elevation of the inflammatory markers strongly demonstrates that chronic inflammation drives the cardiovascular pathophysiology in FD. Moreover, plasma TNF, TNFR2, Il-6 specifically elevated in FD patients with cardio hypertrophy. The chronic inflammation in combination with elevated Lyso-Gb3 further drives the FD progression even under therapy. The expression of the endothelial-cardiomyocyte growth factors will change in response to chronic inflammation during the development of cardiac hypertrophy. This is a clinical observational study designed to identify the role of inflammatory signaling markers and secreted growth factors in the progression of cardiac pathology in FD
Fabry disease is a rare lysosomal storage disorder characterised by a genetic deficiency in the α-galactosidase enzyme. This deficiency leads to a progressive accumulation of a fatty substance, called glycosphingolipids within a specific part of our cells called the lysosome. This lysosomal accumulation can have devastating effects on patients with Fabry disease, affecting multiple organs. Heart involvement is particularly feared because it is the leading cause of death in Fabry disease. Cardiovascular magnetic resonance imaging (cardiac MRI) is a relatively new heart imaging technique. A cardiac MRI technique called T1 mapping can measure the magnetic relaxation properties of heart tissue. T1 mapping is important in Fabry disease because glycosphingolipids have distinct magnetic relaxation properties. The abnormal build up of glycosphingolipid within the heart may be detectable using T1 mapping. This accumulation of glycosphingolipid could identify an earlier form of Fabry disease. Moreover, it is postulated that T1 mapping may inform prognosis and response to therapy. Whilst promising, further investigation and development of this innovative technique in Fabry disease is required. This study aims to find out more about T1 mapping in Fabry disease. Patients referred for clinical cardiac MRI scanning will also undergo T1 mapping. T1 mapping results will be correlated with other markers of disease severity. This will allow heart muscle T1 to be determined in a larger population of Fabry patients than currently exists in the literature and T1 to be characterised across a wider range of Fabry disease severity than currently exists in the literature.
This is an observational study. No treatment or intervention will be assigned to the subjects. All patients will receive full standard of care concomitant medication for the treatment of their cardiac condition. 20 patients with genetically confirmed Anderson-Fabry disease who have a plan to start Migalastat will undergo 2D strain, diastolic stress echocardiography, LV vortex flow analysis, and CMR at baseline and after 2 year of treatment with Migalastat for follow-up.
This is a noninterventional cohort study to evaluate the effects of migalastat, on long-term safety, effectiveness, and quality of life (QOL) in patients with Fabry disease.
We hypothesize that Fabry disease - FD is associated with elevated vascular resistance induced by cerebral small-vessel disease, indicating increased distal resistance to blood flow. The findings of this study may be used as a precursor for neuroimaging manifestations related to stroke in FD patients.
The objective of this treatment protocol is to provide guidance to Treating Physicians who seek access to pegunigalsidase alfa for Fabry patients whose clinical condition, in the opinion of the Treating Physician, requires treatment with enzyme replacement therapy (ERT) with pegunigalsidase alfa and a) cannot be adequately treated with currently approved FDA products and/or b) are not able or willing to participate in any of the on-going clinical trials in the United States.
This is a prospective multicenter, open-label, dose-escalation trial to assess the safety, tolerability, and pharmacodynamics of 4D-310 following a single IV administration. The study population is comprised of adult males and females with Fabry Disease.
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.