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This study will include a comprehensive retrospective chart review and a longitudinal prospective observational natural history study to characterize the phenotypic spectrum of GEMIN5-Related Neurodevelopmental Disorder. We aim to define the trajectory of this ultra-rare disease, core clinical features, characteristics at disease onset and diagnosis, neurological symptomatology, and neuroimaging findings over time. In this study, biological specimens (serum) will also be collected in a biorepository for translational research purposes.
The purpose of this study is to systematically evaluate the results of medical investigations to identify symptom and biological patterns and common etiologies of neurodevelopmental disorders.
The study involves up to 5 visits for a fasting blood draw, behavioral assessments, and/or questionnaires. Other samples may be collected when appropriate. This study is currently recruiting. There is no cost for visits or study-related exams.
ADNP, also known as Activity Dependent Neuroprotective Protein, is a rare neurodevelopmental disorder caused by mutations encompassing the ADNP gene on chromosome 20. Clinically, ADNP syndrome is characterized by intellectual disability and global developmental delay. This study seeks to characterize ADNP-related neurodevelopmental disorders using a number of genetic, medical and neuropsychological measures.
FOXP1, also known as Forkhead-box Protein P1, is a transcription factor protein belonging to the FOX gene family. Disruptions in the FOXP1 gene cause a phenotype characterized by global developmental delay, speech deficits, mild dysmorphic features, and traits of autism spectrum disorder. This study seeks to characterize FOXP1-related neurodevelopmental disorders using a number of genetic, medical and neuropsychological measures.
DDX3X syndrome is a genetic cause of intellectual disability and other neurologic features including, in some cases, autism. Variants in the DDX3X gene are thought to account for 1-3% of unexplained intellectual disability in females, making it one of the more common causes of intellectual disability.This study seeks to characterize DDX3X-related neurodevelopmental disorders using a number of genetic, medical and neuropsychological measures.
Background: People show changes in brain activity when they watch other people do actions. This may be part of early social and communication skills. Researchers want to understand the stages of normal development of motor observation and imitation in people and how it relates to social development in infants and toddlers. Objective: To study the nature of brain activity that underlies typical brain functioning in infants, toddlers, and adults. Eligibility: Infants ages 8 12 months Healthy adults ages 18 65 Design: Adult participants will have one visit. They will: Answer questions about their family, like its size and ethnicity. Answer questions about their own behavior and do a simple motor task. Have EEG/fNIRS. A damp elastic cap with small sensors will be placed on the head. Participants will observe stimuli, either on a video screen or of a live person. The sensors will be connected to a computer. That will record the participant s brain activity while watching pictures on a screen. Infant participants will have 2 visits. Their parents will answer questions about their family. The parents will fill out forms about their child s development. These will be mailed to them before each visit. Parents will stay with their infant while study staff does an assessment of the child s communication, motor, and thinking skills. Infants will have EEG/fNIRS. Infants who are at risk for developmental delays will come back for another visit when they are about 2 years old. This will repeat the infant visits but it will not include EEG/fNIRS. Some questionnaires and assessments will be videotaped.
The goal of this observational study is to learn about the impact of the diabetes drug glibenclamide (glyburide) on neurodevelopment in individuals with iDEND (developmental delay, epilepsy and neonatal diabetes) due to the V59M mutation in the KCNJ11 gene. The main question it aims to answer is whether initiating sulphonylurea (SU) therapy in the first year of life results in better neurodevelopmental outcomes in affected individuals, in comparison to starting therapy later than 12 months of age. Participants will undergo a neurodevelopmental assessment comprising parental and teacher completion of standardised questionnaires, and where possible face to face neuropsychological testing. Researchers will compare the outcomes of these standardised tests in the individuals who started SU therapy \<12 months of age in comparison to those who started \>12 months of age.
The purpose of this study is to analyze patterns in individuals with hnRNP (and other) genetic variants, including their neurological comorbidities, other medical problems and any treatment. The investigators will maintain an ongoing database of medical data that is otherwise being collected for routine medical care. The investigators will also collect data prospectively in the form of questionnaires, neuropsychological assessments, motor assessments, and electroencephalography to examine the landscape of deleterious variants in these genes.
The purpose of this research study is to evaluate the feasibility in conducting advanced MRI sequences in a pediatric clinical setting. The study will be observational in nature, and will only evaluate the studies of pediatric patients who have already been prescribed an advanced MRI for clinical neurological purposes. The only difference for the subject in participating in this study is that the data and information about their scan can be used and disclosed for research purposes, i.e. understanding if the time of the scan, patient comfort, and quality of the data are feasible. Standard MRI's have been extremely beneficial in the diagnosis and assessment of disease, injury, and anomalies throughout the body. Adding advanced MRI sequences to the arsenal of current standard MRI sequences, as well as analyzing the clinical significance of the data, may improve the benefits of MRI in the future. Within this scope, the study will be looking at the following factors: 1. The total time of the scan, including: * Patient arrival time/lateness * Patient preparation time * Time scanner is being occupied * Patient compliance (is the patient continually stopping the study for breaks, fear, movement, etc.) 2. Patient dropout rate, including: * Change of mind * Cost of study is too much * Failure to finish the scan 3. Usability of data, including: * Movement artifact * Patient requiring re-scan for any reason The scan will consist of two to five advanced MRI sequences that will average between 7-15 minutes each, in addition to a routine 5 minute standard MRI sequence. The variability in the number of advanced sequences depends on the prescription and patient history. All sequences are performed using a 1.5 Tesla Siemens MRI scanner at Westwood Open MRI, a 3 Tesla GE scanner at Tower Saint John's Imaging, or a 3 Tesla Siemens MRI scanner at Resolution Imaging. All scanners are FDA-approved.