View clinical trials related to Fragile X Syndrome.
Filter by:This Phase 2 study described herein will evaluate the safety, efficacy, tolerability, pharmacokinetics and pharmacodynamics of SPG601 in adult men with Fragile X syndrome.
This is a single dose, placebo-controlled study. Male subjects aged 18 to 40 years (inclusive) with a diagnosis of FXS. Eligible subjects may enroll in this study comprised of two in home and two in clinic visits each 14 days apart, for a total of four visits. Subjects will be given single dose gaboxadol (10 mg) or matched placebo at each of these visits to take orally. Thus, all enrolled subjects will receive placebo at home and in clinic and receive gaboxadol at home and in clinic in a blinded fashion.
The objective of this project is to explore the potential of functional near- infrared spectroscopy (fNIRS) as innovative functional biomarker for clinical trial readiness in Fragile X Syndrome (FXS) that is still without cure. The limited availability of objective and quantitative biomarkers to monitor brain function poses challenges to advancing therapeutic research. With clinical trials on the horizon, the need for precise measurement to evaluate treatment efficacy is pressing. The investigators seek to address this gap by assessing the prognostic reliability of both resting and task- evoked fNIRS. The primary objectives of this pilot study are: 1. to determine the feasibility of fNIRS in individuals with FXS; 2. to collect pilot data on individuals with FXS to determine the patterns of cerebral oxygen consumption as measured by fNIRS; 3. to compare cerebral oxygen consumption changes at rest and from visual/auditory tasks in affected individuals versus age-appropriate healthy volunteers. The secondary objectives of this study are: 1. to correlate cerebral oxygen consumption changes from visual/auditory task in affected individuals to other measures of disease state (e.g., neuropsychological assessment, disease- specific severity rating scales); 2. to examine test-retest reliability of our fNIRS measures in both affected individuals and healthy controls.
The primary objective of this clinical trial is to evaluate efficacy of probiotic mixture which contains Lactobacillus casei, Lactobacillus salivarius and Bifidobacterium breve, in children with Fragile X aged 3-18 years. Specifically, links between microbiome modifications by probiotic mixture and behavioral manifestations and brain processing (eye tracker, EEG analysis) will be assessed. Exploratory objects of this trial are analyses of microbiome composition and assessment of its alterations and modifications (by probiotic mixture) that may lead to clinical improvement and prediction which patients with FXS may be likely to benefit from probiotics treatment. This is open label trial without masking, where each participant receives probiotic for 3 months (12 weeks). It will be single group assignment. The study plans to enroll 15 participants with FXS, aged 3-18 years, both sexes, during 1-year period and complete all study-related activities by January 2025. During the 3-month study period, subjects will attend three visits (screening/baseline, 6-week, and 3-month visits) to the Fragile X Clinic at the Special Hospital for Cerebral Palsy and Developmental Neurology, Belgrade, Serbia. The primary outcome measureswill be Vineland Adaptive Behavior Scales-Third Edition (VABS-III) and eye tracking measures (social gaze and pupillometry). Exploratory endpoint will be microbiome analyses. Secondary outcome measures will be: CGI-S and CGI-I scores, ABC-CFX score, quality of life, sleep habits and EEG analyses.
Fragile X Syndrome (FXS) is a complex neurodevelopmental disorder caused by a mutation on the X chromosome. Scientists have investigated FXS extensively in both humans and animals. Thus far, phenotypic rescue in animal models has not resulted in treatment breakthroughs in humans, though some important discoveries have been made. Research has shown that individuals with FXS process sounds differently than those in the typical population, and they also show baseline differences in brain activity, including high gamma activity, increased theta activity, and decreased alpha activity. The investigators' central hypothesis is that these alterations in brain activity (specifically alpha and gamma activity) impair the brain's ability to process new information, thereby impeding cognitive functioning and increasing sensory sensitivity. The investigators propose that auditory entrainment, a technique that involves playing special sounds through headphones, will normalize brain activity in individuals with FXS and lead to increased cognitive function and decreased sensory hypersensitivity.
Individuals with Fragile X Syndrome show differences in how they understand and learn language from infancy. They frequently have lifelong delays in speech and language as well. In addition, they experience other auditory symptoms, including being very sensitive to certain sounds as well as being more sensitive than others to loud sounds. The underlying brain activity for sound perception and speech learning in Fragile X is not well understood, especially in the infant and toddler years. This study uses behavioral assessment of speech and language abilities, neuroimaging, and hearing tests to understand how speech and hearing are different in children with Fragile X Syndrome.
The aim of this study is to utilize neurophysiologic assessments, behavioral measures and clinical measures to assess how much deficits associated with Fragile X Syndrome from pre-dose to post-dose using pharmacology.
A Randomized, Double-blind, Placebo-controlled, Parallel Group Study of BPN14770 in Male Adults (Aged 18 to 45) with Fragile X Syndrome
The purpose of this research use only (RUO) study is to detect genomic structural variants (SVs) in human DNA by Optical Genome Mapping (OGM) using the Bionano Genomics Saphyr system. SVs are a type of genetic alternation that includes deletions, duplications, and both balanced and unbalanced rearrangements (ex: inversions or translocations), as well as specific repeat expansions and contractions. The results of OGM analysis will be compared to prior clinical genetic test results to determine how OGM compares to current standard of care (SOC) clinical test methods such as chromosomal microarray analysis (CMA), karyotyping, Southern blot analysis, polymerase chain reaction (PCR), fluorescence in situ hybridization (FISH), and/or next generation sequencing (NGS), etc.
This is a 2-part study, with each part having a unique set of objectives for male adolescents aged 9 to < 18 years with fragile X syndrome (FXS). Part 1 is an open-label, single-dose, pharmacokinetics (PK) assessment of BPN14770 25 mg and 50 mg, while Part 2 is double-blind (DB) and randomized between two treatment groups (Study Drug and Placebo).