Active clinical trials for "Brain Diseases"

This clinical trial studies the use of 7-Tesla (7T)and 3T magnetic resonance imaging (MRI) in detecting brain diseases. 7T MRI has increased detection sensitivity, including more accurate lesion delineation, higher inter-rater agreement. Diagnostic procedures such as 7T MRI may help ultimately improved diagnostic and therapies confidence to inform decision making than standard 3T MRI.

This study aims to investigate whether a live stream video between the on-call neurologist and the emergency medical services is feasible.

Prospective non-randomized intervention case control study on patients with a BMI > 35. The intervention group/cases (n=600) is comprised of bariatric patients who undergo bariatric surgery and the control group (n=600) of age, weight and comorbidity matched patients who choose not to undergo bariatric surgery. The overall aim is to examine prevalence of the spectrum of fatty liver disease (NAFLD) in these patients and the prognostic significance of NAFLD.

The objective of the study is to compare the incidence of Hypoxic ischemic encephalopathy (all stages) among singleton term neonates (≥ 37 weeks) requiring resuscitation who will undergo Umbilical cord milking as compared to Immediate cord clamping.

Neonates presenting with neurologic symptoms require rapid, non-invasive imaging with high spatial resolution and tissue contrast. The purpose of this study is to evaluate brain perfusion using contrast-enhanced ultrasound CEUS in bedside monitoring of neonates and infants with hypoxic ischemic injury. Investigational CEUS scan will be performed separately from clinically indicated conventional US, in the ICU. Subjects will be scanned with CEUS at two different time-points (at the time HII is first suspected or diagnosed and at time of MRI scan), separately from clinically indicated ultrasound. The CEUS scan will be interpreted by the sponsor-investigator. The study will be conducted at one site, The Children's Hospital of Philadelphia. It is expected that up to 100 subjects will be enrolled per year, for up to two years, for a total enrollment of up to 200 subjects.

There have been many studies on the use of running training in older children to improve gait development in children with cerebral palsy. The aim of our study was to conduct early treadmill training in infants who were highly suspected of cerebral palsy and to follow up on their long-term gait development.

There is no international application of infant running stimulation system to evaluate the brain injury in children with various stages of nerve and motor development in a large sample of studies. The study of neonatal brain injury is only limited to intraventricular hemorrhage(IVH),periventricular leukomalacia(PVL), Down's syndrome(DS), premature birth of these four conditions, and the number of samples in the single digits, there is no representative of the disease population. Therefore, from the newborn to the infant development of the critical period, the investigator will refer to the previous treadmill parameters set on the research results, optimize the application of neonatal treadmill. The study hypothesized that neonatal treadmill stimulation with brain-injured children could improve his / her staggered gait characteristics and long-term nerve development through large sample data. It is important to preserve and analyze the gait characteristics and the changes of nerve development in every stage of growth and development of neonates with brain injury so as to provide clinical evidence for rehabilitation intervention. It is of great significance to judge whether this technique can be used in the early stage of brain injury in neonates.

An extension of the CORDMILK trial, the CORDMILK follow-up trial will evaluate the neurodevelopmental outcomes at 22-26 months age of term/late preterm infants who were non-vigorous at birth and received umbilical cord milking (UCM) or early cord clamping (ECC).

This is a parallel-arm, double-blind, placebo-controlled study with a screening phase that includes a 28-day run-in phase to establish baseline seizure frequency, followed by a 24-week, randomized, placebo-controlled phase. After completion of the randomized, placebo-controlled phase, participants may enter a 48-week, long-term, extension phase during which they will receive open-label treatment with vatiquinone.

The goal of this study is to verify whether electrical stimulation of the cervical spinal cord can activate muscles of the arm and hand in people with hemiplegia following stroke. Participants will undergo a surgical procedure to implant a system which provides epidural electrical stimulation (EES) of the cervical spinal cord. Researchers will quantify the ability of EES to recruit arm and hand muscles and produce distinct kinematic movements. The implant will be removed after less than 30 days. Results of this study will provide the foundation for future studies evaluating the efficacy of a minimally-invasive neuro-technology that can be used in clinical neurorehabilitation programs to restore upper limb motor function in people with subcortical strokes, thereby increasing independence and quality of life.