452 Clinical Trials for Various Conditions
This study is being done to see if outcomes for both a premature infant's parents and the infant born prematurely who have spent time in the neonatal intensive care unit (NICU) can be improved through parent cognitive behavioral therapy (CBT) sessions.
Background: Smith-Lemli-Opitz Syndrome (SLOS) is a genetic disorder. It can cause birth defects and developmental delays. There is no cure for SLOS or other inherited diseases related to cholesterol production or storage. The data gained in this study may help researchers find ways to measure how well future treatments work. Objective: To learn more about SLOS and related disorders and how these diseases affect participants and relatives. Eligibility: People of any age who have or are suspected to have SLOS or another inherited disease related to cholesterol production or storage. Relatives are also needed. Design: Participants will be screened with a medical record review. Participants will have visits every 6 to 12 months. They will have a physical exam. They will fill out a survey about their medical and behavioral history. They may have an eye exam. They may have a neurodevelopmental assessment. They may have a hearing test. Their outer and middle ears may be examined. Their ability to speak, understand speech, eat, and swallow may be assessed. They may get X-rays while they chew and swallow. Their functional ability and needs for adaptive devices or braces may be assessed. They may have a lumbar puncture. Photographs may be taken of their face and body. Participants who cannot visit the NIH and relatives will have a virtual visit once a year. They will talk about their medical history and symptoms. They give blood, urine, and skin samples at a lab near their home. They will fill out a survey about their medical and behavioral history. Participation will last for several years.
This study will investigate the cause and medical problems associated with a group of genetic disorders known as inborn errors of cholesterol synthesis, in which the body does not produce cholesterol. People with this disorder may have birth defects and learning and behavioral problems. People with an inborn error of cholesterol synthesis and related disorders, including Smith-Lemli-Opitz syndrome, lathosterolosis, desmosterolosis, X-linked dominant chondrodysplasia, CHILD syndrome, Greenberg dysplasia, and some cases of Antley-Bixler syndrome, may be eligible for this study. People who are carriers of the disorders also may enroll. Participants and family members will provide blood and urine samples, as well as other tissue samples collected during medically indicated procedures such as biopsy or surgery. These tissues may include, for example, gallstones, cataracts, cerebrospinal fluid, amniotic fluid, lymph tissue, and DNA samples. In rare instances, a skin biopsy may be requested to aid in establishing a diagnosis. Medical information will also be gathered from medical records, photographs, and X-rays.
The study objective is to compare neurodevelopmental (ND) and behavioral outcomes between children with Down syndrome (DS) who had complete atrioventricular septal defect (CAVSD) repair and children from the same clinical sites with DS without major congenital heart disease (CHD) requiring previous or planned CHD surgery.
In March 2020, children exposed to the virus that causes the COVID-19 illness, SARS-CoV-2, presented with fever and significant inflammation about a month after exposure to the virus. Some children were sick enough to require care in the intensive care unit for what came to be known as Multisystem Inflammatory Syndrome-Children (MIS-C).The clinical presentation shared many features with Kawasaki disease (KD), a self-limited inflammation that can cause ballooning of the arteries of the heart. Thus, physicians reached for many of the therapies used to treat children with KD. Despite the surge of COVID-19 cases and children continuing to present with MIS-C, there are no data that guide the choice of therapy. Thus, the investigators have designed a study to determine which combination of therapies is most effective in helping children with MIS-C recover quickly.
The long-term study goal is to experimentally evaluate the components (and likely active ingredients) of early language interventions for young children with Down syndrome (DS). The overall objective is to determine how single-word and telegraphic simplification affects real-time language processing and word learning in young children with DS (relative to full, grammatical utterances). The proposed project will investigate three specific aims: 1) Determine how single-word and telegraphic simplification affects language processing. 2) Determine how single-word and telegraphic simplification affects word learning. 3) Evaluate child characteristics that may moderate the effects of linguistic simplification on language processing and word learning. Aim 1 will test the hypothesis that children with DS will process grammatical utterances faster and more accurately than telegraphic or single-word utterances. Aim 2 will test the hypothesis that overall, children will demonstrate better word learning in the grammatical compared to the single-word and telegraphic conditions. Aim 3 will test the hypothesis that receptive language and nonverbal cognitive abilities will be significant moderators, such that children with stronger linguistic and cognitive skills will show the greatest benefit from grammatical input but children with lower linguistic and cognitive scores will perform similarly across conditions.
The purpose of this basket study in children with Turner syndrome, SHOX deficiency, and Noonan syndrome is to evaluate the effect of 3 doses of vosoritide versus hGH on growth as measured by AGV after 6 months of treatment. The long-term efficacy and safety of vosoritide at the therapeutic dose will be evaluated up to FAH.
Dravet syndrome is a genetic epilepsy associated with pathogenic variants in SCN1A that codes for Nav1.1, a protein necessary for sodium channels. Children with Dravet syndrome classically present in the first year of life with prolonged seizures, often hemiclonic and in the setting of fever or temperature changes such as getting in or out of bath water. Many anti-seizure medications are sodium channel blockers and exacerbate seizures in this patient population. This creates some limitations in medication choices for this patient population. Recently fenfluramine was approved for use in Dravet syndrome for people 2 years and older. Randomized studies demonstrated a 74.9% reduction of convulsive motor seizures compared to 19.2% in the placebo group. Additionally, 16% of children treated with fenfluramine were seizure free. Fenfluramine is likely to be as effective in children under the age of 2 years. The current study has proposed a treatment protocol to allow access to fenfluramine for children under 24 months of age.
The purpose of this study is to determine efficacy of guanfacine immediate release (GIR) for the treatment of hyperactivity/impulsivity and inattention in children 6-12 years of age with Down syndrome (DS) after 8 weeks of treatment.
The goal of this clinical trial is to learn about baclofen in pediatric patients with rumination syndrome. The main question it aims to answer is whether baclofen is effective in treating children with rumination syndrome. Participants will be asked to take baclofen or placebo for 4 weeks and fill out surveys regarding symptoms.
This is an open-label study of the combination of atomoxetine and oxybutynin (ato-oxy) in children with Down syndrome and obstructive sleep apnea (OSA) documented by polysomnography (PSG). Participants will receive ato-oxy for 6 months. Ato-oxy dose will be 5 mg oxybutynin and 0.5mg/kg/day (max 40 mg) atomoxetine. Dosing of the study treatment will occur approximately 30 minutes prior to bedtime. Participants who withdraw from the study will not be replaced. Study participants will undergo eligibility screening that will include an initial screening to determine whether non- PSG enrollment criteria are met, followed by a 1 night in-lab PSG and health-related quality of life (HRQOL) and cognitive assessment for participants who qualify based on non-PSG criteria. For participants who are eligible and enroll in the study, the screening PSG night will serve as the baseline measure for apnea hypopnea index (AHI) and other PSG endpoints. On the final night of dosing for ato-oxy participants will return for inpatient PSG and health-related quality of life assessment and cognitive assessment. The primary efficacy endpoint is the change in obstructive AHI from baseline.
The goal of this interventional study is to test a hemostasis screening protocol and cardiac peri-procedural and post-operative hemostasis pathway to improving bleeding complications and improve patient survival for children with Alagille syndrome and complex cardiac conditions. The main questions it aims to answer are: * Are children with Alagille syndrome with cardiac anomalies more likely to have acquired von Willebrand syndrome (a condition that causes increased bleeding) * Does implementation of a novel screening protocol to detect pre-operative bleeding conditions decrease intra-operative and/or post-operative bleeding complications and mortality risk? * Does implementation of a novel screening protocol to detect and treat bleeding conditions cause thrombotic complications? Participants will undergo additional hematology and bleeding disorder screening prior to cardiac surgery. They will additionally undergo a detailed family screening for a history of bleeding by a genetic counselor. Researchers will compare these findings with children who have similar complex cardiac conditions requiring surgery, but who do not have Alagille syndrome to see if bleeding conditions and complications are more or less common in children with Alagille syndrome.
As the HGT-HIT-046 (NCT01506141) and SHP609-302 (NCT02412787) studies will be closed, this post-trial access (PTA) program provides TAK-609 to participants in these studies for whom the benefit:risk ratio of continued treatment with idursulfase-IT remains positive.
In this study, investigators will study the impact of a 1:1 caregiver coaching intervention using the JASPER (Joint Attention, Symbolic Play, Engagement, Regulation) behavioral therapy curriculum compared to a psychoeducational curriculum that will be provided to caregivers for self-directed learning. Investigators want to determine the impact of both interventions on the child's development and behavior, and caregiver implementation of strategies.
The overall objective of this randomized clinical trial is to test the effectiveness of a personalized approach to the surgical treatment of OSA in children with Down syndrome (DS).The estimated prevalence of obstructive sleep apnea (OSA) in children with DS ranges from 45-83%, compared to 1-6% in the general pediatric population. Untreated OSA in children has been associated with daytime sleepiness, cognitive or behavioral problems, and cardiovascular complications, all which are common in children with DS. Adenotonsillectomy (AT) is the first line treatment for OSA in children, however, most large studies of AT outcomes have excluded children with DS. Available evidence demonstrates that AT is far less effective in children with DS than in the general pediatric population, with 48 to 95% of children with DS having persistent OSA after AT. Medical treatments such as positive airway pressure (PAP) therapy are frequently inadequate or poorly tolerated in this population, so many children with DS and OSA remain untreated. Drug-induced sleep endoscopy (DISE) enables direct observation of the sites and patterns of obstruction during sedated sleep using a flexible endoscope passed through the nose into the pharynx. DISE was developed to guide surgical decisions in adult OSA, and in recent years has also been used to design personalized surgical interventions in children. Using this DISE Rating Scale, the investigators have demonstrated that children with DS are more prone to tongue base and supraglottic obstruction than non-DS children, suggesting the need for more personalized surgical treatments that are tailored to the common sources of obstruction in this population. Several small case series demonstrate that DISE-directed surgery can be effective in treating OSA in children with DS. However, because there have been few prospective studies and no randomized trials comparing different treatment options in this population, there remains uncertainty about whether such a personalized approach leads to superior outcomes compared to the first line AT. It is the investigators' hypothesis that personalized DISE-directed surgery that uses existing procedures to address specific fixed and dynamic anatomic features causing obstruction in each child with DS will be superior to the current first line approach of AT. This novel approach may improve OSA outcomes and reduce the burden of unnecessary AT or secondary surgery for persistent OSA after an ineffective AT.
Enhancing independence and quality of life are key modifiable outcomes that are short- and long-term goals for children with Down syndrome (DS) and for their parents. The study investigated the efficacy of assistive technology in improving children with Down Syndrome's independence and quality of life. Using a commercially available assistive technology, the MapHabit system, the investigators implemented the software with participants' families for 4 weeks. The investigators hypothesized that the assistive technology will improve adaptive behavioral skills and overall quality of life.
Multi-system Inflammatory Syndrome in Children (MIS-C) is a new condition related to COVID-19, the study investigators are still learning about its causes, effects, and long-term impact. "Long-Term Outcomes after the Multisystem Inflammatory Syndrome In Children", the Coronavirus MUSIC Study, is a research study funded by NIH and the National Heart, Lung, and Blood Institute. The study investigators hope to enroll at least 900 young people with MIS-C at children's medical centers in the U.S. and Canada. This research study will help us learn more about MIS-C and its effects on the long-term health of children.
This is a prospective, multicenter, cross-sectional study to evaluate prevalence of vascular risk factors in children with Down Syndrome and to determine the association between vascular disease risk factors and objective markers of early atherosclerosis.
Children generally undergo induction of anesthesia by inhalation of sevoflurane. Children with Down Syndrome experience bradycardia with induction of anesthesia using sevoflurane. It is unknown if this bradycardia is isolate or results in hypotension, thus requiring treatment. Isolate bradycardia without hypotension does not require treatment and should be avoided as many of these patients have underlying cardiac anomalies.
Beginning in mid-March 2020, pediatricians in communities in Western Europe, the UK, and the Eastern U.S. that had been severely affected by the Covid-19 pandemic noted an increased number of children presenting with fever and evidence of severe inflammation who required admission to intensive care. The syndrome was branded by the CDC in the U.S. as Multisystem Inflammatory Syndrome in Children (MIS-C). The most severely affected children presented with heart failure leading to shock and the absence of significant pulmonary disease. The clinical presentation in these patients shared many features with Kawasaki disease (KD), a self-limited pediatric vasculitis that can result in coronary artery aneurysms.The inflammatory markers, however, were much higher even than KD shock syndrome, a variant of KD presenting with distributive shock and requiring inotropic and vasoactive support in the ICU. Some patients were polymerase chain reaction (PCR)+ for SARS-CoV-2 while most were virus-negative but had detectable antibody suggesting that MIS-C was an immune-mediated reaction to antecedent exposure to the virus. While patients were being diagnosed with shock and MIS-C, children with a milder version of MIS-C that shared many features of KD were being diagnosed in these same regions.
Investigators propose a cross-sectional, observational pilot study to examine the contribution of stress, family dynamics, and peer relationships to quality of life (QOL) in adolescents with Tourette syndrome (TS). Investigators will recruit two groups of participants: 1) adolescents aged 13-17 years of age with TS and 2) adolescents aged 13-17 without any neurologic or psychiatric diagnoses. Participants and one of their parents/caregivers will complete a series of questionnaires screening for and quantifying the extent of stress and mental health symptoms, including anxiety, depression, obsessive compulsive disorder (OCD), attention deficit hyperactivity disorder (ADHD). Participants will also complete instruments characterizing family interactions and peer relationships. Adolescents with TS will also undergo a semi-structured interview assessing the severity of their tics.
The goal of the study is to learn more about tests that can assess lung health in children with Down syndrome.
This is a Phase 2A, single dose, open-label study to evaluate the safety, tolerability, and efficacy of a low-dose, 40-minute infusion into the veins (intravenous infusion or "IV") of ketamine in children with ADNP syndrome (Activity-Dependent Neuroprotective Protein). The study team will enroll 10 participants, ages 5 to 12, at Mount Sinai. The study participation is expected to last 4 weeks and will include 5 scheduled clinic visits in order to complete safety monitoring, clinical assessments, and biomarker collection. At the conclusion of this study, the study team expects to demonstrate the safety and tolerability of low-dose ketamine in children with ADNP syndrome. Additionally, the study team anticipates identifying meaningful signals of efficacy in clinical outcome measures using RNA and DNA sequencing to analyze ADNP protein expression and DNA methylation profiles, a natural process by which methyl groups are added to the DNA to change its activity, in order to assess sensitivity to change with low-dose ketamine treatment and inform future phase 3 studies. Ketamine is not currently approved by the Food and Drug Administration to treat this syndrome, but it is approved for use in children in other situations, for example in anesthesia.
The primary objective of the study is to evaluate the safety and tolerability of multiple-ascending doses of GTX-102 administered by intrathecal (IT) injection to participants with Angelman Syndrome (AS).
Children with Down syndrome (DS) have a 3-5 time greater prevalence of Attention Deficit Hyperactivity Disorder (ADHD) than typically developing (TD) children. Despite this higher risk of ADHD, rates of stimulant medication treatment are disproportionately low in children with DS+ADHD, even though stimulants are the most efficacious ADHD treatment and are recommended by consensus guidelines for use in children with intellectual disability and ADHD. The investigators propose the first randomized clinical trial (RCT) of stimulant medication in children with DS+ADHD. This RCT may provide evidence regarding the short- and long-term safety and efficacy of stimulant use in children with DS+ADHD, both with and without CHD. All children enrolled in the study will complete a comprehensive assessment battery evaluating ADHD diagnostic criteria, as well as behavioral, cognitive, academic, and functional impairments.
This is a randomized, double blind, cross-over study of the combination of atomoxetine and oxybutynin (ato-oxy) in children with DS and OSA documented by polysomnography (PSG). Participants will receive high dose ato-oxy for four weeks as well as low dose ato-oxy for four weeks in random order. During the high dose ato-oxy period, participants will take 5 mg oxybutynin and 0.5mg/kg/day (max 40 mg) atomoxetine nightly for one week. Atomoxetine dose will then be increased to 1.2 mg/kg/day (max 80 mg). During the low dose ato-oxy period, participants will take 5 mg oxybutynin and 0.5mg/kg/day (max 40 mg) atomoxetine. Dosing of the study treatment will occur approximately 30 minutes prior to bedtime. Participants who withdraw from the study will not be replaced. Study participants will undergo eligibility screening that will include an initial screening to determine whether non- PSG enrollment criteria are met, followed by a 1 night in-lab PSG and health-related quality of life assessment for participants who qualify based on non-PSG criteria. For participants who are eligible and enroll in the study, the screening PSG night will serve as the baseline measure for apnea hypopnea index (AHI) and other PSG endpoints. On the final night of dosing for both high dose ato-oxy and low-dose ato-oxy, participants will return for inpatient PSG and health-related quality of life assessment. The primary efficacy endpoint is the change in obstructive AHI from baseline (high dose ato-oxy vs. low dose ato-oxy).
This study was an international, multicenter, open-label, long term extension study evaluating the safety of ecopipam tablets for the treatment of children and adolescent subjects with Tourette Syndrome.
This study evaluates the effect of ecopipam tablets in children and adolescents in the treatment of Tourette's Syndrome (TS). Half of the participants will receive ecopipam tablets, while the other half will receive matching placebo tablets
Two-arm, parallel design with children between the ages of 10 - 18 with obesity and metabolic syndrome randomized (15 per group) to reduced-carbohydrate diet or a reduced-fat diet for 8 weeks.
Children with Down syndrome (DS) are at risk for significant language and communication impairments. Enhancing the service delivery of early intervention for children with DS is a key research and policy issue given the prevalence and detrimental effects of persistent language impairments. Using a telemedicine approach allows clinicians to provide evidence-based treatment to families from a wide geographic area in Oregon who may not otherwise have access to a language intervention specialized for children with DS. Our innovative project involves the creation of a new treatment optimized for children with DS, as it will be the first study that translates an existing evidence-based language intervention-Enhanced Milieu Teaching (EMT) into a telemedicine model. The goal of this study is to examine whether a telemedicine approach is effective for training parents to implement EMT language support strategies and whether changes in parent behavior are associated with child communication and language growth. The investigators will pilot the telemedicine initiative to provide early intervention services to ten children with DS (aged 18- 48 months) and their families who live in rural and /or under-served areas of Oregon. The investigators will use single-case research design methodology to pilot this intervention research. The investigators will use secure video-teleconferencing technology to provide EMT. Clinicians will provide EMT to parents through interactive coaching, teaching them how to foster their children's social communication and language skills. Outcomes will focus on parents' use of language support strategies and children's social communication and language skills. Delivering early intervention to children with DS and providing parent-training at a distance using a telemedicine approach has the potential to transform the delivery of early language interventions for children with DS. Results of this study will directly inform the development and refinement of language interventions for young children with DS.