The NIH is home to one of the largest neuroscience research centers in the world. Over 150 laboratories, originating from eleven different Institutes, conduct research in the basic, translational, and clinical neurosciences. Through scientific collaboration, Pre- and Postdoctoral Training Programs, jointly sponsored Seminar Series and Special Interest Groups, scientists at NIH contribute to a vital and growing neuroscience research community. This website represents an inter-institute effort to convey, on an NIH wide basis, the research being conducted in the neurosciences
NIH Eunice Kennedy Shriver National Institute of Child Health & Human Development - NIH News - Common Treatment to Delay Labor Decreases Preterm Infants' Risk for Cerebral Palsy, August 2008
The Clinical Center at the National Institutes of Health (NIH) in Bethesda, Maryland, is the nation's largest hospital devoted entirely to clinical research. It is a national resource that makes it possible to rapidly translate scientific observations and laboratory discoveries into new approaches for diagnosing, treating, and preventing disease. Approximately 1,500 studies are in progress at the NIH Clinical Center.
The Clinical Center is home to the National Institutes of Health intramural clinical research program. Located on the NIH Bethesda, Maryland campus, the Clinical Center complex is where clinical biomedical research occurs.
National Institutes of Health NIH Office of Rare Diseases Research. Web site aims to answer questions about rare diseases and the activities of the ORDR for patients, their families, healthcare providers, researchers, educators, students, and anyone with concern for and interest in rare diseases. The site provides information about ORDR-sponsored biomedical research, scientific conferences, and rare and genetic diseases. It also serves as a portal to information on major topics of interest to the rare diseases community.
In large, multicenter clinical studies, a therapy has been shown to significantly lower the risk of lung and brain damage in some very low birthweight premature infants. Results from two randomized clinical trials demonstrate that when given within the first few weeks of life, inhaled nitric oxide helps prevent chronic lung disease in some low birthweight premature infants. In addition, when used within 48 hours after birth, treatment appears to protect some premature newborns from brain injury.
NIH, and Eunice Kennedy Shriver National Institute of Child Health and Human Development - Review and trial to determine whether magnesium sulfate administered to women at risk of preterm delivery may reduce the risk of cerebral palsy in their children
The Clinical Center is home to the National Institutes of Health intramural clinical research program. Located on the NIH Bethesda, Maryland campus, the Clinical Center complex is where clinical biomedical research occurs.
PubMed.gov - U.S. National Library of Medicine - National Institues of Health. PubMed comprises approximately 20 million citations for biomedical literature from MEDLINE, life science journals, and online books. PubMed citations and abstracts include the fields of medicine, nursing, dentistry, veterinary medicine, the health care system, and preclinical sciences. PubMed also provides access to additional relevant Web sites and links to the other NCBI molecular biology resources.PubMed is a free resource that is developed and maintained by the National Center for Biotechnology Information (NCBI), at the U.S. National Library of Medicine (NLM), located at the National Institutes of Health (NIH).
U.S National Library of Medicine - NIH National Institutes of Health Medline Plus - Range of Motion and Cerebral Palsy - Definition, Symptoms, Diagnosis and Treatment
NIH PubMed Abstract of Belgium study to assess the intra- and interobserver reliability and reproducibility of goniometry and visual estimation of ankle joint range of motion measurements in children with spastic cerebral palsy.
Statistical analysis showed a high reliability for intra- and interobserver measurements (r>0.75), between visual estimation and goniometry (correlation coefficient, r>0.967; concordance coefficient, r>0.957). Both visual estimation and goniometry ankle range-of-motion measurements are reliable and reproducible in spastic cerebral palsy children if a strict but simple protocol is applied.
NIH PubMed Abstract - Testing range of motion in cerebral palsy. Objective of study was to To propose a standardized test of joint range of motion in paediatric patients with cerebral palsy, based on the opinion of a cerebral palsy specialist group (physicians, physiotherapists and surgeons) and literature review. Study concluded that a standardized testing of lower-limb-joint range of motion will allow for better communication between clinicians and will facilitate the development of a database. Care should be taken in the interpretation of the joint range-of-motion test results and realized only after reliability analysis of the test, especially interobserver reliability. A further step would be to develop an outpatient booklet for cerebral palsy that shows growth and weight curves, joint range-of-motion curves and curves of the principal radiographic measurements during growth.