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Multicenter Network of Neonatal Intensive Care Units

$75,000U10FY2004HDNIH

Stanford University, Stanford CA

Investigators

Linked publications, trials & patents

Paper 38416515Paper 37726016Paper 37640232Paper 36732048Paper 35850744Paper 35850743Paper 35835616Paper 35715492Paper 35301420Paper 35296895Paper 35034096Paper 34999716Paper 34862339Paper 33986149Paper 33758389Paper 33402707Paper 33038899Paper 32978526Paper 32934363Paper 32474029Paper 32111975Paper 31880687Paper 31691959Paper 31431654Paper 31324654Paper 31229956Paper 30961990Paper 30738658Paper 30737489Paper 30631138Paper 30062831Paper 29945955Paper 29872859Paper 29795315Paper 29793869Paper 29702710Paper 29666163Paper 29654994Paper 29538362Paper 29306493Paper 29246358Paper 28982710Paper 28880260Paper 28697406Paper 28647272Paper 28600154Paper 28562255Paper 28283553Paper 28279433Paper 28199816Paper 27776752Paper 27629374Paper 27455401Trial NCT01954082Trial NCT01954056Trial NCT01793129Trial NCT01793116Trial NCT01534481Trial NCT01467076Trial NCT01353313Trial NCT01223287Trial NCT01223261Trial NCT01203501Trial NCT01203488Trial NCT01203475Trial NCT01203449Trial NCT01203436Trial NCT01203423Trial NCT01203410Trial NCT01203358Trial NCT01193270Trial NCT01192776Trial NCT01035697Trial NCT01030575Trial NCT01029353Trial NCT00882284Trial NCT00874393Trial NCT00874367Trial NCT00873847Trial NCT00614744Trial NCT00598429Trial NCT00349726Trial NCT00273325Trial NCT00233324Trial NCT00114543Trial NCT00109525Trial NCT00067613Trial NCT00063063Trial NCT00016523Trial NCT00011362Trial NCT00009646Trial NCT00009633Trial NCT00009620Trial NCT00005777Trial NCT00005776Trial NCT00005775Trial NCT00005774Trial NCT00005773Trial NCT00005772Patent 5383469

Abstract

[unreadable] DESCRIPTION (provided by applicant): Extremely low birthweight (ELBW, <1000 grams) premature infants are at very high risk for neuromotor and neurodevelopmental impairment, with reported rates of cerebral palsy (CP) ranging from 11-20%. Although cranial ultrasound (US) is currently used for brain imaging in the ELBW population, this modality cannot detect subtle brain injury that may be responsible for later neuromotor and cognitive delay. Magnetic resonance imaging (MRI) can identify brain structural abnormalities better than cranial US, and diffusion tensor imaging (DTI) may allow for detection of microstructural white matter injury consistent with diffuse periventricular leukomalacia. The power of these emerging and novel neuroimaging techniques to predict neurodevelopmental outcome among ELBW infants is not yet known, but preliminary studies are promising. We propose a multicenter, prospective study of cranial US, MRI and DTI and neurodevelopmental follow-up at 18-22 months corrected age, including neuromotor exam and administration of the Bayley Scales of Infant Development II, to assess the comparative and combined predictive capabilities of these diagnostic modalities. The NICHD Neonatal Research Network is uniquely positioned to embark upon such a project. Proper study design, execution, and development of predictive models is essential to the success of this project. To this end, we propose this research plan as an integrated part of a 3-year Mentored Specialized Clinical Investigator Development Award, during which Dr. Susan Hintz (the candidate) will complete a Master's Degree in Epidemiology in the Department of Health Research and Policy at Stanford University under the sponsorship of Dr. David K. Stevenson. Such training in outcomes research, clinical trial design and biostatistics is crucial to the development of independent clinical investigators. A mentoring committee of highly experienced perinatal epidemiologists, health outcomes researchers, and biostatisticians will guide the candidate's career development. [unreadable] [unreadable]

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