View clinical trials related to DiGeorge Syndrome.
Filter by:This study will test a computer-based treatment for youth with the genetic disorder velocardiofacial syndrome (VCFS) to help them improve skills in memory, attention, and executive functioning.
The purpose of the project is the determination of how the deletion of DNA from chromosome 22 at the q11.2 band causes the phenotypes observed in velo-cardio-facial syndrome (VCFS). In other words, the purpose remains genotype-to-phenotype matching. Current methods includes the use of whole genome chips and microarray analysis. Blood samples are collected for DNA from every patient who consents from the VCFS Center at Upstate Medical University. They are examined for phenotypic features consistent with our typical clinical evaluation. The information from these examinations will be entered anonymously into a database. Genomic information is then matched to clinical phenotype with appropriate statistical method applied.
Middle and inner ear malformations on two boys with velocardiofacial syndrome are discussed.Special attention should be given to the presence of hearing loss due to middle and inner ear malformations, in addition to frequent conductive hearing loss regarding mastoid and middle ear inflammatory processes.
The research purpose is to determine if thymus transplantation with immunosuppression is a safe and effective treatment for complete DiGeorge anomaly. The research includes studies to evaluate whether thymus transplantation results in complete DiGeorge anomaly subjects developing a normal immune system.
The study purpose is to determine if cultured thymus tissue implantation (CTTI) (previously described as transplantation) with tailored immunosuppression based on the recipient's pre-implantation T cell population is a safe and effective treatment for complete DiGeorge anomaly. This study will also evaluate whether cultured thymus tissue implantation and parathyroid transplantation with immunosuppression is a safe and effective treatment for complete DiGeorge anomaly and hypoparathyroidism.
One purpose of this study is to determine whether the amount of cultured thymus tissue implanted into DiGeorge anomaly infants has any effect on the immune outcome. Another purpose of this study is to determine whether parental parathyroid transplantation (in addition to cultured thymus tissue implantation (CTTI) can help both the immune and the calcium problems in DiGeorge infants with hypocalcemia. [Funding Source - FDA Office of Orphan Products Development (OOPD)]
The study purpose is to determine whether cultured thymus tissue implantation (CTTI) is effective in treating typical complete DiGeorge syndrome.
This study has three primary purposes: to assess parathyroid function after parathyroid transplantation in infants with Complete DiGeorge syndrome; to assess immune function development after transplantation; and, to assess safety and tolerability of the procedures. This is a Phase 1, single site, open, non-randomized clinical protocol. Enrollment is closed and study intervention is complete for all enrolled subjects; but subjects continue for observation and follow-up. Subjects under 2 years old with complete DiGeorge syndrome (atypical or typical) received thymus transplantation. Subjects received pre-transplant immune suppression with rabbit anti-human-thymocyte-globulin. Subjects with hypoparathyroidism and an eligible parental donor received thymus and parental parathyroid transplantation. A primary hypothesis: Thymus/Parathyroid transplant subjects will need less calcium and/or calcitriol supplementation at 1 year post-transplant as compared to historical controls.
Velocardiofacial syndrome, also known as 22q11.2 syndrome or DiGeorge syndrome, has been associated with many features such as a cleft palate, heart defects, and learning, speech and feeding problems. It is caused by the absence of a number of genes on chromosome 22, but the mechanism by which this inborn abnormality causes the clinical problems is not known. In this study by the National Institute of Mental Health and the Office of Rare Diseases, we are recruiting participants with 22q11.2 syndrome to come for a three-day stay to our main campus in Bethesda, MD, to participate in a study in which we will investigate the genetic makeup of their cells together with several studies of brain function with advanced research imaging. The goal of this study is to understand how the genes missing in 22q11.2 syndrome are related to the increased occurrence of psychiatric problems, such as psychosis, in this syndrome. Participants must be 18-50 years of age, have some high school education and not currently be taking antipsychotic medication. Travel costs to Bethesda for participants and an accompanying person will be paid, and participants are reimbursed for their time in participating in the study. A blood draw is required. All research procedures have been designated as "minimal risk" procedures.
OBJECTIVES: I. Investigate phenotype and genotype correlations in patients with Smith-Magenis syndrome (SMS) associated with del(17p11.2). II. Clinically evaluate SMS patients with unusual deletions or duplication of proximal 17p. III. Clinically evaluate patients with Williams syndrome with molecular characterization of 7q11.23. IV. Perform clinical studies of Prader-Willi, Angelman, DiGeorge, and Shprintzen syndrome patients with unique molecular findings in 15q11q13 or 22q11.2. V. Perform genotype and phenotype correlations in Prader-Willi patients, particularly those with loss of expression of only some of the imprinted transcripts in 15q11-q13. VI. Evaluate putative Angelman syndrome patients who do not have classic large deletion, uniparental disomy, or imprinting mutations, and perform molecular studies of the Angelman gene, UBE3A, and identify mutations of this gene. VII. Investigate phenotype and genotype correlations in patients with terminal deletions of chromosome 1p.