An Open-label Study of the Effects of Acetyl-L-Carnitine on Cardiovascular Outcomes in Friedreich's...
Friedreich's AtaxiaThe purpose of this study is to learn how treatment with acetyl-L-carnitine (ALCAR) will affect the hearts of patients with Friedreich's Ataxia as well as how it may affect other symptoms of Friedreich's Ataxia such as difficulties with balance, walking, or upper arm function.
Effect of Nicotinamide in Friedreich's Ataxia
Neurodegenerative DisordersThe purpose of the interventional study is to determine whether Nicotinamide is effective at upregulating the Frataxin (FXN) gene in patients with Friedreich's ataxia (FRDA) where this gene is abnormally 'switched off'. The purpose of the non-interventional study is to investigate the use of novel, highly-sensitive technology to capture clinical deficit and measure subtle changes in the activities of daily living and to correlate functional changes to levels of expression of Frataxin protein and the epigenetic structure of the Frataxin gene over a 9-12 month period without nicotinamide. Healthy volunteers will be included as comparators in this part of the study.
A Study to Characterize the Cardiac Phenotype of Individuals With Friedreich's Ataxia (CARFA Study)...
Friedreich's AtaxiaFriedreich's ataxia (FA) is an autosomal recessive disease with an incidence of 1/50,000 in the Caucasian population. The main manifestations of FA are progressive sensory and cerebellar ataxia and cardiomyopathy (CM). It is the most common form of inherited ataxia. A severe CM affects ~60% of FA patients, mostly young adults, and leads to cardiac failure then death. Currently, no therapy can change the course of this severe cardiomyopathy. This study is designed to characterize the cardiac manifestations of FA using cardiac magnetic resonance (CMR), echocardiography, serum cardiac biomarkers and evaluation of fatigue severity, in the context of the neurological disease.
A Study to Assess Variation in Potential Biomarkers in Friedreich Ataxia
Friedreich AtaxiaTo test the variability of specific ribonucleic acid (RNA) and proteins as well as frataxin levels in samples of blood and buccal cells taken directly from patients with Friedreich's ataxia (FRDA) in order to confirm potential new biomarkers of disease in patients with FRDA.
Early and Longitudinal Assessment of Neurodegeneration in the Brain and Spinal Cord in Friedreich's...
Friedreich AtaxiaFriedreich's ataxia is characterized by progressive alterations in the function of the cerebellum accompanied by an atrophy of the spinal cord. Although the genetic defect responsible for the disease has been identified more than 15 years ago, objective markers of the pathologic process (i.e., biomarkers) that would allow measuring the effects of potential therapies are still lacking. Moreover, it is still unclear how the malfunction of the cerebellum affects the rest of the brain, and understanding the connectivity and neurochemistry of the central nervous system might yield new insights in the understanding of the disease, in addition to providing potential markers. To address these needs, the investigators aim at utilizing the capabilities of Magnetic Resonance Imaging (MRI) and Spectroscopy (MRS). Using techniques called Diffusion Imaging, resting-state functional MRI, and Proton Spectroscopy (1H MRS), the investigators propose to determine the differences in the connectivity and neurochemistry of the spinal cord and the brain between patients affected by Friedreich's ataxia and healthy controls. The investigators plan on imaging both patients and control subjects using a 3T magnet, a system that although not yet available in all medical facilities, is becoming standard in most hospitals and clinics. The first aim is to scan patients already scanned last year (12-month follow-up). The second aim is to scan patients at an early stage of the disease.
Neurology Measures in FA Children
Friedreich AtaxiaThe purpose of this study is to identify ways to follow progression of Friedreich's Ataxia (FA) and be able to measure changes over time in children with FA. Participants will have biannual visits to observe how the disease progresses over time and determine the rate of progression. Funding Source- Food and Drug Administration Office of Orphan Products Development (FDA OOPD).
Longitudinal Analysis of Oral Communication in Friedreich's Ataxia
Friedreich AtaxiaFriedreich Ataxia (FA) is a hereditary neurological disease that is associated with a cerebellar syndrome and pyramidal symptoms. Clinical expression varies from one individual to another and throughout the evolution of the disease and is partially related to an abnormal expansion of the GAA triplet repeat in the frataxin gene. Dysarthria, a disorder in the motor production of speech, is always present in the clinical presentation of the disease (Schöls et al. 1997 ; Harding 1981 ; Dürr et al. 1996 ; Delatycki et al. 1999). It has been the subject of specific studies exploring the link between the evolution of dysarthria and disease progression (J. Folker et al. 2010; J. E. Folker et al. 2012; Rosen et al. 2012; Brendel et al. 2013). These studies allowed for the identification of markers for speech disintegration, specific to FA dysarthria, using perceptive voice measures, but also acoustics and objectives for qualifying voice and speech at the same time. The challenge is in finding measures sufficiently appropriate and sensitive to detect the evolution of these indicators throughout the course of the disease (Rosen et al. 2012). The neurological scales that take in to account all signs of a cerebellar syndrome are not sufficiently sensitive (Marelli et al. 2012). In addition, hearing difficulties develop during the course of the disease in addition to visual disturbances (gaze instability) which hinder communication. The ORFA study aims to evaluate oral communication in FA patients and identify appropriate measures that allow for the comparison of dysarthria pre and post-treatment in a clinical trial and can be used for the evaluation of efficacy.
Genetic and Environmental Determinants That Control Metabolism in Pulmonary Hypertension
Iron-sulfur Cluster DeficiencyPulmonary Hypertension1 moreThe investigators are performing this research study to determine whether having low iron-sulfur cluster levels can cause a disease known as pulmonary hypertension (PH). PH is defined as abnormally high blood pressure in the arteries of the lungs. Usually, small specialized structures inside each human cell called mitochondria are in charge of generating energy within lung arteries for normal function. During situations of disease or stress, lung arteries undergo a change in the function of mitochondria, resulting in the development of PH. In studies on mice, investigators have learned that alterations in the production of specific metal complexes called iron-sulfur clusters are responsible for these changes. This makes it more likely that mice will develop PH. In this study, the investigators want to find out if alteration of iron-sulfur cluster formation leads to increased likelihood of developing PH in humans.
Determine Range of Tissue Frataxin Concentrations and Other Potential Biomarkers
Friedreich AtaxiaHealthy VolunteersTo examine range of tissue frataxin (FXN) concentrations, specific ribonucleic acids, other proteins and specialized lipids in the buccal cells, blood, and skin cells of normal healthy volunteers without Friedreich's ataxia (FRDA).
Preliminary Study of the Scale To Assess Ataxia and Neurologic Dysfunction (STAND)
Spinocerebellar Ataxia - All Sub-typesFriedreich's AtaxiaThe objectives of this study are: To validate the inter-rater and intra-rater reliability of a new scale for the assessment of ataxia and neurologic dysfunction (STAND) To assess common constructs and correlation between STAND subscale items.