View clinical trials related to Williams Syndrome.
Filter by:Williams syndrome (WS) is a rare microdeletion genetic disorder that has a broad phenotype including many endocrine and metabolic abnormalities. Dr. Pober and colleagues at MGH have reported the following findings in adults with WS: abnormal body composition (excess body fat accumulation with a lipedema phenotype), decreased bone mineral density, abnormal glucose tolerance, and reduced lean mass. Despite the high prevalence and potential effect of metabolic abnormalities on the health of persons with WS, their full phenotypic range, potential causal factors (either genetic and/or hormonal) along with their impact on other aspects of health (such as risk of falls and fractures or interaction with emotional behavioral concerns) remain incompletely characterized. The purpose of the current study in a large cohort of subjects with WS is to: collect further information to characterize the timing of onset and distribution of body fat; better characterize hormonal status of WS subjects; and screen for genetic variation using single-nucleotide-polymorphism (SNP) analysis that could elucidate genetic contributors to the lipedema phenotype as well as the other observed metabolic and bone abnormalities.
It's well established in the literature that emotional events are more likely to be remembered than neutral events. Although this Emotional Enhancement of Memory (EEM) has been well demonstrated in the adult literature, little is known about EEM for typically developing children and children with Williams-Beuren syndrome (WBS). In this study, two investigations will be conducted concomitantly: one of EEM in typically developing children and the other of EEM in children with WBS. For this purpose, three behavioral experiments will be established to investigate EEM in this two populations, with the first experiment also including electroencephalography measures. Performances of typically developing children will be compared to young adults, and performances of children with WBS will be compared to control children matched for mental age. Finally, this study aims to bring new knowledge about the interactions between emotion and memory in children, and to better understand cognitive functioning in children with WBS.
Background: People with Williams Syndrome (WS) and supravalvular aortic stenosis (SVAS) have less elasticity in their blood vessels. This is called blood vessel stiffness. Blood vessels may have focal narrowings called stenoses or may just be globally more narrow. Objectives: Researchers want to see how blood vessel differences in people with Williams Syndrome and supravalvular aortic stenosis affect organs in the body including the heart, gut, kidneys, and brain. Eligibility: People ages 3-85 who have WS or SVAS Healthy volunteers ages 3-85 Design: - Participants will have yearly visits for up to 10 years. All participants will be offered the same tests. - Participants will give consent for the study team to review their medical records. If the participant is a child or an adult with WS, a parent or guardian will give the consent. - Participants will visit the NIH where they will have a physical exam and medical history. Based on their health history, participants will undergo a series of imaging tests and measures of blood vessel function over the course of 2-4 days. Tests of cognitive abilites will also be performed. Blood will be drawn and an IV may be placed for specific tests.
Williams syndrome is a rare genetic disorder occurring in 1:8000-12,000 individuals. It is caused by the deletion of 25-27 coding genes, including elastin (ELN) on the 7th human chromosome. Haploinsufficiency for these genes leads to the features of the condition, including: - Distinctive facial features; - Characteristic vascular problems including hypertension, focal vascular stenosis, (when present in the aorta this is referred to as SVAS), vascular stiffness and differences in heart rate variability; - Endocrine abnormalities including hypercalcemia, hypothyroidism, and early puberty; - Metabolic concerns with colic and failure to gain weight in infancy and obesity and early glucose intolerance in adulthood; - Characteristic neurocognitive profile comprised of cognitive impairment, high sociality with concurrent social awkwardness, difficulty with visual-spatial tasks, relative strengths in speech, and lack of social fear; - Anxiety and chronic pain in adulthood Most individuals with WS carry the same basic deletion on Chromosome 7q11.23. However, each feature may present as mild or more severe in any given individual. Variation in the presence and severity of these vascular phenotypes remains unexplained. The supravalvar aortic stenosis (SVAS) phenotype is caused by haploinsufficiency for elastin. This can come about due to the WS deletion (as above) or due to heterozygous variation in elastin (ELN) gene itself in this region. When this protein is reduced, connective tissues lose its strength, flexibility, and overall support. When this happens in the aorta, it may cause vascular narrowing that presents as shortness of breath, chest pain, and even heart failure if left untreated. Narrowing also occurs in other vessels especially the pulmonary and renal arteries. Changes in non-vascular elastic tissues such as the skin and lungs also occur. As in WBS, phenotypic variation also occurs in people with ELN gene changes--This variability remains unexplained despite all the on-going research. Most individuals with features of SVAS have either WS or an elastin variant. There are, however, a smaller number of individuals with the phenotypic features of the condition whose genetic underpinnings are yet to be defined (they are referred to as SVAS-like). Additionally, there are 26 other coding genes within the WS critical region that contribute to various other features of the condition Objective: 1. To collect historical information and to bank DNA, cells, and tissue from individuals with genetic alterations in the WS/ELN gene region, those with an SVAS -like phenotype and unaffected family members/controls to facilitate future research into the many phenotypes seen in these individuals. 2. Currently, we plan to use the collected samples to identify genetic and environmental factors that contribute to the variability in different phenotypes (vascular and non-vascular) in individuals with WS, SVAS and SVAS-like conditions, individuals with variation in WS genes other than elastin and unaffected family members and controls. For the non-vascular features of WS and SVAS-like conditions for which a specific gene has not been implicated in the disease, we would also like to identify causative genes as well as modifiers. Likewise, by evaluating people with variation in other WS region genes, we can determine what contribution those genes make to the studied phenotypes. Controls will be both used to assess the frequency of genetic features in people without the phenotype in question and to evaluate heritability, penetrance, and expressivity of relevant variants. Eligibility: People ages 0-85 with either WS, SVAS, and/or an SVAS-like condition, unaffected family members or adult unrelated controls. Design: This study is not a treatment protocol. This study will consist of: Collection of personal history (questionnaires) and medical record data (relevant physician notes, lab and diagnostic tests and studies) to study the natural history of these conditions, allow stratification of disease severity, and identification of environmental risk factors; Collection of blood, saliva, urine and surgical tissue waste to allow DNA and RNA preparation as well as study of tissues both in situ and through the generation of IPSCs; Expression studies on available tissues (lymphocytes, IPSCs, vascular, skin, other collected tissues) to look for differential regulation of target genes; Direct imaging of tissues (lymphocytes, IPSCs, vascular, skin, other collected tissues); Storage of collected data and specimens for future research; A questionnaire may be sent to participants or parent/guardian or LAR to respond on behalf of participant.
Background: Williams Syndrome (WS) is a genetic disorder. People with WS have less of a protein that allows parts of the body to stretch than other individuals. Researchers are interested in the stretchiness of the skin of people with WS and how it may relate to cardiovascular problems some people with WS develop. They are also interested in identifying exposures such as medications that may change the elasticity of the skin and vessels. Objective: To learn more about the skin and blood vessels in individuals with WS and how those tissues change over time. Eligibility: People ages 5-70 with WS. People ages 1-70 with a medical condition that affects connective tissue. Design: Participants will be screened with a review of their medical records. Participants will have 1 visit. Participants with WS may do so at a Williams Syndrome Association family meeting or camp, or at NIH. Other participants will be seen at NIH. During the visit, participants will have height, weight, and blood pressure measured. Researchers will listen to the participant s chest and abdomen. Participants skin will be examined. It may be photographed. Participants will have photos of their eyes and face taken. Researchers will use a DermaLab Suction Cup Probe. A small suction cup will be placed on the arm with a sticker. It will pull lightly on the skin. This allows a computer to measure skin flexibility. Researchers will use a SphygmoCor. A probe that looks like a dull pencil will be placed on the wrist, neck, and groin area. A computer will measure how fast the pulse is moving and will estimate blood vessel flexibility. Participants may be invited to have these procedures repeated at a later date (2 years from now or more).
The investigators will conduct a pilot study investigating the effectiveness of a computerized response inhibition training program at reducing the response inhibition difficulties often seen in children with Williams syndrome ages 10-17. The investigators hypothesize that after completing the training program, children with Williams syndrome will show improvement on computerized measures of response inhibition and on parent measures of impulsivity.
Williams Syndrome (WS) is a genetic syndrome with features that may include vascular stenoses, neuro-developmental changes, and a variety of endocrine and metabolic abnormalities, including impaired glucose metabolism and abnormal body composition. Approximately 75% of adults with WS have impaired glucose tolerance or diabetes on oral glucose tolerance testing (OGTT). In addition, clinical observations and preliminary data suggest increased overall body fat in these individuals, as well as a relative increase in fat deposition in the lower extremities. However, glucose and lipid metabolism in WS remain incompletely characterized. The purpose of the current study is to carefully describe glucose metabolism and lipid parameters in people with WS.
CoRDS, or the Coordination of Rare Diseases at Sanford, is based at Sanford Research in Sioux Falls, South Dakota. It provides researchers with a centralized, international patient registry for all rare diseases. This program allows patients and researchers to connect as easily as possible to help advance treatments and cures for rare diseases. The CoRDS team works with patient advocacy groups, individuals and researchers to help in the advancement of research in over 7,000 rare diseases. The registry is free for patients to enroll and researchers to access. Visit sanfordresearch.org/CoRDS to enroll.
Background: - Little is known about how the brain changes during childhood and adolescence, how genes affect this process, or how the brains of people with 7q11.23 genetic variation change during this period. Researchers are interested in using magnetic resonance imaging to study how the brain changes in healthy children and children with 7q11.23 genetic variation, including Williams syndrome and 7q11.23 duplication syndrome. Objectives: - To study developmental changes in the brains of healthy children and children who have been diagnosed with Williams syndrome,7q11.23 duplication syndrome, or other 7q11.23 genetic variation. Eligibility: - Healthy children and adolescents between 5 and 17 years of age. - Children and adolescents between 5 and 17 years of age who have been diagnosed with Williams syndrome, 7q11.23 duplication syndrome, or have other 7q11.23 genetic variation. Design: - Participants will have a brief physical examination and tests of memory, attention, concentration, and thinking. Parents will be asked about their child s personality, behavior characteristics, and social interaction and communication skills. - Both participants and their parents may be asked to complete additional questionnaires or take various tests as required for the study. - Participants will have approximately 10 hours of magnetic resonance imaging (MRI) scanning, usually over 4 to 5 days, within a one month period. Some of these tests will require the participants to do specific tasks while inside the MRI scanner. - Participants will be asked to return to the National Institutes of Health clinical center to repeat these procedures every 2 years thereafter until age 18.
The Williams-Beuren syndrome (WBS) is a sporadic congenital disorder characterized by a multisystem developmental impairment. This syndrome is caused by a microdeletion in chromosome 7q11.23 that encompasses loss of the elastin locus. Elastin, which is part of the extracellular matrix, controls proliferation of vascular smooth muscle cells (VSMCs) and stabilizes arterial structure. Loss of elastin gene in WBS patients has been claimed to provide a biological basis for the abnormal elastic fibre properties leading to cardiovascular abnormalities like supravalvular aortic stenosis (SVAS), hypertension, arteriosclerosis and stenosis in more than 50% of WBS children. These cardiovascular pathologies result in important consequences and neither curative nor preventive medicinal treatments exist at this time. Surgery is needed in more than half cases, while it is often leading to complications. Minoxidil is a well-known antihypertensive drug used in adults and children. Furthermore, according to animal studies, minoxidil seems to increase arterial elastin content by decreasing elastase activity in these tissues. Other data demonstrate that minoxidil specifically stimulate elastin synthesis. Working Hypothesis:If insufficient elastin synthesis leads to vascular complications and arterial hypertension in children with WBS, restoration of sufficient quantity of elastin should then result in prevention or inhibition of vascular malformations and improvement in arterial tension. Therefore, as a pharmacological agent capable to stimulate elastin expression, minoxidil might be a useful drug for the treatment of abnormal elastin metabolism in WBS children. Objective:To evaluate the efficacy of minoxidil on cardiovascular structure in children with Williams Beuren syndrome. Methodology: randomized controlled trial on two parallel group (23 patients in each arm) Main criterion:variation of carotid Intima-media thickness (IMT) before and after 12 months of treatment with Minoxidil versus placebo Secondary intermediate criteria of the vascular properties are arterial stiffness, cardiac and renal stenosis, arterial tension. Total study duration:30 months including a 12 month-recruitment period