57 Clinical Trials for Various Conditions
The INTACT trial is a multisite pilot feasibility study aimed at testing the effectiveness of the INTACT Intervention program in improving neurodevelopmental outcomes in infants prenatally exposed to cannabinoids. The trial will enroll 20 birthing parent/infant dyads across three sites and will evaluate feasibility endpoints rather than clinical outcomes. The study duration is 22 months, including study start-up, enrollment and intervention, and data analysis and manuscript preparation.
The purpose of this pilot study is to assess the feasibility of longitudinal neurodevelopmental evaluation of fetuses and infants exposed to Lyme disease in utero. Participants with Lyme disease or Post-Treatment Lyme Disease Syndrome (PTLDS) will be recruited during pregnancy. Pregnancies will be monitored and infant development will be assessed from birth until age 18 months.
The main goal of this research is to help families who are experiencing food insecurity (FI) and help mothers with depression. The next goal is to provide other resources to help with household needs like rent or utility assistance, health insurance, anxiety, and depression. Our theory is that helping with food insecurity, household needs, and emotional health will help children and families.
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 objective of the project is to identify clinical factors (nutritional and non-nutritional) which are associated with ultrasound measurements of muscle and adipose tissue and to determine whether these ultrasound measurements are predictive of later metabolic and neurodevelopmental outcomes in premature infants, a population at risk for developmental delay, obesity, and metabolic disease. The investigators expect that a better understanding of these relationships will lead to the incorporation of ultrasound into routine nutritional management of preterm infants and allow for future optimization of their overall health and development.
This study explores the relationship between iron deficiency and neurological outcome of extremely premature infants. Premature birth occurs during a critical period of brain development and maturation, and before adequate transfer of iron across the placenta. Nutrition has a significant impact on ultimate outcome of survivors of prematurity. One of the biomarkers of nutrition in the premature infant is iron, and iron supplementation is essential for growth and brain development at low gestational age. As a result, the Committee on Nutrition of the American Academy of Pediatrics (AAP) recommends daily oral iron supplementation, of at least 2-4 mg/kg/day from 2 weeks of age, to prevent iron deficiency in extremely premature infants. Nevertheless, studies have shown that even with this regular care dose of iron, started from 2 weeks of age, a significant number of premature infants will still develop iron-deficiency. Our hypothesis states that starting high dose iron supplementation early will improve neurological development and outcome in extremely premature infants (those born at less than 28 weeks gestational age). This study will provide data showing whether individualized iron supplementation using higher doses of iron, started earlier (after the first week of life) when guided by periodic screening of their body's iron status with ferritin levels, will mitigate iron deficiency and promote improved neurodevelopmental outcome in this vulnerable infant population.
Infants with congenital gastrointestinal anomalies (CGIA) experience multiple physiologic stressors, including neonatal surgery, early in life during an essential time of growth and development. Early physiologic stressors such as inadequate nutrition have been linked to altered growth patterns and neurodevelopmental delays later in life. In other groups of at-risk infants, early body composition measurements can be used as predictors of long-term health outcomes more so than weight and length alone. The primary objective of this study is to determine if body composition changes in early life are predictive of neurodevelopmental outcomes among infants with CGIA. The secondary objective is to determine if infants with CGIA have altered body composition over time when compared with healthy infants. The investigators propose a prospective, observational study of infants with CGIA, including detailed chart review, body composition measurements, and neurodevelopmental testing at follow-up. If a correlation between body composition measurements and neurodevelopmental outcomes is established in this population, the addition of body composition measurement to standard of care in the neonatal intensive care unit and in follow-up care could allow for further optimization of overall health and development of this vulnerable pediatric population through earlier detection of growth alterations and informed interventions.
In this study the investigators will follow the neurodevelopmental outcome of children with in utero ZIKV exposure who do not have microcephaly or severe abnormalities consistent with Congenital Zika Syndrome. The ZIKV-exposed children will be compared to non-ZIKV exposed controls. Children will be assessed at age 3 and 4 years using standardized neurodevelopmental assessments. Children will also have neurodevelopmental assessment at age 5 and 7 years along with a brain MRI at age 7 years.
Context: Craniosynostosis is a common craniofacial abnormality which can be associated with various clinical syndromes. Though it has been established that children with craniosynostosis score lower on certain developmental tests, the effect of craniosynostosis and cranioplasty surgery on the neural circuitry and brain development is less well known or understood. Objectives: The purpose of this study is to describe the effect of cranial vault remodeling in children with craniosynostosis on white matter tracts with tractography and Diffusion tensor imaging (DTI), functional MRI, and neurodevelopmental tests, before and after surgery as compared to age-matched controls. Study Design: This will be a prospective study of patients diagnosed with craniosynostosis and who are going to have open or endoscopic cranial vault remodeling (CVR). Study Measures: The study will measure MRI sequences before and after surgery and at set time intervals to quantify the effect of white matter tract maturity. Parallel to this, neurodevelopmental tests will be administered at these same intervals.
This is a sub-study of NIDA CTN Protocol 0080: Medication Treatment for Opioid Use Disorder in Expectant Mothers (MOMs; Unique protocol ID: 2019-0429-1). Caretakers of the infants delivered by MOMs participants will be offered the opportunity to enroll in this sub-study, which is designed to evaluate the impact of extended-release buprenorphine (BUP-XR), relative to sublingual buprenorphine (BUP-SL), on infant neurodevelopment. The additional data collected in this sub-study will be combined with data from the main MOMs trial.
The purpose of this study is to assess whether the type of anesthesia, narcotic-based versus inhalational anesthesia administered during cardiopulmonary bypass (CPB) surgery contributes to the wide variation in neurologic recovery and developmental outcome after surgery in infants with congenital heart disease.
The overall objective of the proposal is to evaluate the ability of ultrasound to predict the body composition of toddlers in the outpatient clinical setting and to evaluate the relationship between body composition and neurodevelopment.
Important developmental processes continue until the completion of 40 weeks gestation. Even during fetal life, intrinsic and environmental factors determine the balance between health and the onset and development of diseases. Thus, it is crucial to understand the mechanisms that regulate normal development and the pathways that contribute to disease pathogenesis. Neurotrophins are a family of four proteins that support the growth and survival of neurons. Their secretion increases during brain development, when new neurons are being formed and existing ones are branching to assemble complex neuronal circuits. In addition to their role in promoting neuron growth and development, neurotrophins are also a product of neuronal activity. Neurotrophins are also responsible for the maintenance of peripheral sensory neurons, including those in the lungs. Airway innervation is responsible for many aspects of lung function including the regulation of airway smooth muscle tone, mucus secretion, and reactivity; therefore, a physiological expression of neurotrophins in the lungs is required for normal lung function.
Each year, approximately 1 child in every 100 is born with Congenital Heart Disease (CHD), making it the most common birth defect. With recent medical advances, more children with CHD survive early open-heart surgery, so that there are now 2 to 3 million adult survivors with CHD. These survivors face challenges in terms of their cognitive and behavioral development. For many, the limitations affect their academic achievement, social adaption and, ultimately, their quality of life. Among the most disabling limitations are those that pertain to the ability to maintain attention, plan and organize activities, regulate emotions, and develop problem-solving strategies. Collectively, these are referred to as executive functions (EF) because they are higher-order abilities that enable one to coordinate complex behaviors. Additionally, impaired EF also underlie mental health disorders. In spite of the abundance of evidence that children with CHD struggle with EF, there is little to offer them in the way of evidence-based interventions to prevent or mitigate these problems. The investigators propose to conduct the first randomized trial to evaluate the efficacy of an intervention, the Cogmed Working Memory Program, in improving the neurodevelopment outcomes of children with critical CHD after infant open-heart surgery. Children who meet eligibility criteria and who agree to participate will be randomly assigned to an intervention or control group. Children in the intervention group will complete 25 35-40 minute sessions of Cogmed training, spread over for 5 weeks. This Program is a set of home-based, child-friendly, computerized activities. The control group will receive the standard of care for children with CHD. Children's scores on EF and related neurodevelopmental tests will be evaluated before the intervention group completes Cogmed training, at the conclusion of their training, and 3 months later. The latter assessment will indicate whether any gains in EF skills of the children in the intervention group are sustained after training. Parents and teachers will also complete questionnaires about children's EF, attention, and social behaviors to determine whether training affects behaviors of the intervention group at home and in school. The investigators will also identify the medical and surgical characteristics of children who benefit most from Cogmed training. This information will be helpful in targeting the intervention most efficiently in the future.
Premature birth is a major risk factor for perinatal brain damage and cerebral palsy (CP) with 47% of all CP cases occurring in infants with birth weight less than 2500 g. CP has life-long neurological consequences that affect quality of life for the patient. In the last 2 decades, improvements in neonatal intensive care have improved survival of VLBW infants significantly. This increased survival of VLBW infants poses new challenges towards developing novel treatments and interventions to decrease neurodevelopmental impairment and CP. While it is common for extremely preterm infant to survive at 23 weeks of gestation, the neurologic consequences range from learning difficulties and cognitive defects to severe disability and cerebral palsy. Currently prenatal neuroprotective agents such as corticosteroids are utilized whenever a preterm birth is anticipated. However, there are no proven postnatal interventions to prevent brain damage and cerebral palsy in VLBW infants. Many recent studies show that delaying umbilical cord clamping (DCC) may improve hemodynamic stability and decrease intraventricular hemorrhage (IVH) in preterm infants. A decrease in incidence of IVH has a conceivable prospective benefit of decreasing brain injury and improving long-term outcomes. Based on these findings, the American College of Obstetricians and Gynecologist and American Academy of Pediatrics endorse that DCC may benefit the preterm infants. However, these recommendations have not been adopted by most obstetricians in USA. The main concern regarding the practice of DCC is the care delay in initiating resuscitation and providing the needed care to this vulnerable population. Therefore, as an alternative to DCC, method of cord milking (CM) has been developed to provide cord blood transfusion to premature infants. CM offers a more practical alternative to delayed cord clamping that may provide the same benefits without the need to delay resuscitation. However, there are very few studies of CM in VLBW infants and there is no evidence demonstrating long-term neurological outcomes and CP after CM. The investigators hypothesize that cord milking in VLBW infants will result in improving cerebral oxygenation, function and result in improved long-term neurodevelopmental outcomes at 2 years of post-menstrual age. Premature infants born at less than or equal to 32 weeks gestation age will receive cord milking after cutting versus standard care of immediate cord clamping.
The overall goal of this project is to determine the role of anesthetic management in children undergoing cardiac surgery utilizing CPB in the setting of fast tracking and early extubation. An ideal anesthetic technique would ensure abolishing or diminishing stress response as would be evident by the stress markers levels and the level of two cerebral injury biomarkers (S 100 B and NSE). This should translate to better immediate postoperative outcome and hopefully improve both the short and the long term neurodevelopmental outcome in these children. The project is prospective, randomized and blinded study. The first and second aim of the study should be conducted over 2 year period. Our long term aim will be concluded when these children reach the school age.
This study will utilize two validated tools for assessing child development and behavior, to investigate the outcomes for children born preterm compared with those born at full term. Two hundred children born or cared for during the neonatal period at Mount Sinai Hospital will be enrolled. Parents will be asked to complete a behavioral assessment questionnaire, and which will assess development in an examination administered by a trained occupational therapist at Mount Sinai Hospital.
Twins who share a placenta but have two separate sacs of amniotic fluid (monochorionic-diamniotic) are at risk of developing twin-to-twin transfusion syndrome (TTTS). TTTS results from anastomoses in the placenta that lead to unequal sharing of blood, causing abnormal blood flow to the twins. The donor twin may have low fluid levels, poor growth, and anemia. The recipient twin can have high fluid levels, high red blood cell counts, heart failure, and hydrops. Having TTTS, especially if there is demise of one twin or if disease is severe enough to warrant laser photocoagulation of the anastomotic sites, puts the surviving fetuses at risk for brain injury due to hypoxia, ischemia, or reperfusion injuries. Magnetic Resonance Imaging (MRI) is superior to ultrasound at detecting subtle cerebral injuries. An MRI scoring scale has been developed for use in very low birth weight infants that has been shown to correlate with neurodevelopmental outcomes, but it has not been tested in this patient population. Our center's guidelines recommend fetal MRI prior to intervention, at 32 weeks gestational age, and on the infants at term corrected gestational age. Infants who were treated for TTTS in utero are seen in Nursery Follow-up Clinic at 4 months of age, 8 months of age, and for Bayley Scales evaluations at 15-18 months of age and at 2-3 years of age. The purpose of this study is to correlate brain MRI score with neurodevelopmental outcomes in survivors of TTTS that have either required fetal surgical intervention or had demise of their cotwin. The investigators predict that more severe white and gray matter injury as determined by the Woodward/Inder grading scale will be positively associated with worse neurodevelopmental outcomes.
Restricting dietary lysine intake in infants from age 3 months or less with confirmed diagnosis of pyridoxine-dependent epilepsy due to Antiquitin (ATQ) deficiency will: reduce the accumulation of neurotoxic substratesα-aminoadipicsemialdehydeandits cyclic equivalent 1-piperideine-6-carboxylate;and will improve overall neurodevelopmental outcome at 3 years of age by acting as an effective intervention into the complex pathophysiology of the condition.
Preterm infants are vulnerable to brain injury, nutritional deficiencies and poor early growth which places them at increased risk for developmental problems later in life. The micronutrient carnitine, which is present in breast milk and stored in the fetus late in pregnancy, has been shown to protect against brain injury in animal studies. Without supplementation, almost all preterm infants develop carnitine deficiency soon after birth. Thus it is important to determine if carnitine supplementation protects against brain injury and improves developmental outcomes in these vulnerable preterm infants. We hypothesize that preterm infants supplemented early with L-carnitine while receiving parenteral nutrition will not develop carnitine deficiency and will have improved growth in the first two weeks of life and higher scores on developmental tests when compared to control infants who did not receive carnitine.
Breastfeeding is an important health-promoting behavior. Human milk is the ideal diet for all infants, optimizes intellect, and provides protection against infectious and atopic diseases in childhood as well as decreasing risks for obesity, hypertension and other chronic diseases. Infants with the highest risk of life-long disability, very low birthweight (VLBW) preterm infants, are breastfed at some of the lowest rates in the US. Maternal milk is not always available, and pasteurized donor human milk is an alternative that requires investigation. Whether donor milk conveys health and developmental advantages similar to those bestowed by maternal milk is unknown. By determining the effects of donor milk on health and developmental outcomes when compared to preterm infant formula, the investigators seek to optimize outcomes in this fragile population. The hypothesis of our donor milk research is that a donor human milk diet in non-maternal milk fed VLBW infants is associated with better neurodevelopmental outcome scores at 18-22 months adjusted age than a preterm infant formula diet.
The purpose of this study is to compare the neurodevelopmental outcome and quality of life between the fluconazole-treated and the placebo-treated patients that were enrolled in a fluconazole prophylaxis study that occurred in the investigators' neonatal intensive care unit (NICU) between 1998-2000.
The primary purpose of the GAS study is to determine whether different types of anesthesia (Regional versus General) given to 720 infants undergoing inguinal hernia repair results in equivalent neurodevelopmental outcomes. The study also aims to describe the incidence of apnea in the post-operative period after both regional and general anesthesia for inguinal hernia repair in infants. This study is important as it will provide the greatest evidence for safety or toxicity of general anesthesia for human infants.
The purpose of this study is to investigate the prenatal impact of abnormal cardiac structure on neurodevelopmental outcomes in children with congenital heart disease.
We believe that how a baby with Hypoplastic Left Heart Syndrome (HLHS)does after a major open heart operation, measured by things like blood pressure, oxygen saturation, heart rate and others, may have an impact on development. Studying how post-operative condition impacts outcomes may help us to protect babies better when they undergo surgery. This study will look at some of the long-term outcomes of children with HLHS, including both mental development and quality of life. We will use information from your child's medical record to see if early oxygen delivery has an impact on later development.
There have been many improvements in the care of children with hypoplastic left heart syndrome (HLHS). This has helped these children survive longer. Because these children now live longer, researchers are recognizing developmental disabilities (the children are behind in their thinking or physical activity) in children with hypoplastic left heart syndrome. The purpose of this research study is to help the investigators learn more about developmental disabilities in children with hypoplastic left heart syndrome. During the time of your child's first surgery for hypoplastic left heart syndrome, a monitor was placed on your child's forehead to measure the oxygen levels in the brain. This monitor is called Near Infrared Spectrometry (NIRS). The researchers involved in this study want to know if oxygen levels in the blood vessels of the brain have any effect on developmental disabilities later in life in children with hypoplastic left heart syndrome. The researchers plan to enroll 60 research subjects.
Premature infants with iron deficiency if supplemented with more elemental iron than the routine 2mg/kg/day will have improved brain development.
This study is designed to answer one of the fundamental gaps in knowledge in the resuscitation of preterm infants at birth: What is the optimal target oxygen saturation (SpO2) range that increases survival without long-term morbidities? Oxygen (O2) is routinely used for the stabilization of preterm infants in the delivery room (DR), but its use is linked with mortality and several morbidities including bronchopulmonary dysplasia (BPD). To balance the need to give sufficient O2 to correct hypoxia and avoid excess O2, the neonatal resuscitation program (NRP) recommends initiating preterm resuscitation with low (≤ 30%) inspired O2 concentration (FiO2) and subsequent titration to achieve a specified target SpO2 range. These SpO2 targets are based on approximated 50th percentile SpO2 (Sat50) observed in healthy term infants. However, the optimal SpO2 targets remain undefined in the preterm infants. Recent data suggest that the current SpO2 targets (Sat50) may be too low. The investigators plan to conduct a multicenter RCT of Sat75 versus Sat50 powered for survival without BPD. The investigators will randomize 700 infants, 23 0/7- 30 6/7 weeks' GA, to 75th percentile SpO2 goals (Sat75, Intervention) or 50th percentile SpO2 goals (Sat50, control). Except for the SpO2 targets, all resuscitations will follow NRP guidelines including an initial FiO2 of 0.3. In Aim 1, the investigators will determine whether targeting Sat75 compared to Sat50 increases survival without lung disease (BPD). In addition, the investigators will compare the rates of other major morbidities such as IVH. In Aim 2, the investigators will determine whether targeting Sat75 compared to Sat50 increases survival without neurodevelopmental impairment at 2 years of age. In Aim 3, the investigators will determine whether targeting Sat75 compared to Sat50 decreases oxidative stress.
The purpose of this study is to adminster one of two education programs to parents of preterm infants in the NICU to evaluate language and cognitive outcomes of their infants.
The highest risk for perinatal brain injury occurs among extremely premature infants who weigh less than 1250 grams at birth. Such perinatal brain injury is currently irreversible, associated with neurodevelopmental disability, and without adequate treatment modalities. Research in recent years suggest in both animal and human studies that erythropoietin (Epo) may have significant neuroprotective effects. Given the historical safe medical profile of Epo when used for anemia of prematurity but the likely need for a greater dosage regimen for activation of neuroprotective pathways against neonatal brain injury, we therefore propose this phase II study of high-dose Epo in very low birth weight infants for the prevention and/or attenuation of prematurity-related cerebral hemorrhagic-ischemic injury.