View clinical trials related to Premature Infant.
Filter by:The study hypothesis is that, in human milk-fed extremely preterm infants, higher protein intake compared to usual protein intake reduces percent body fat (%BF) at 3 months of age.
The objective of this study is to determine the extent to which the SMART NICU2HOME (including EMR interface) and the NICU2HOME apps, mobile applications designed for parents of premature infants to receive daily, real-time information about their infants and personalized education material based on parents' anticipated concerns and their infant's clinical status, is effective in: 1) improving parents' competency in caring for their sick infants, 2) reducing stress, 3) supporting parents' social supports and 3) improving NICU outcomes (parent satisfaction, length of stay, readmission rates.)
Premature birth can lead the mother to lose control of herself, and be a contributor to the psychological stress experienced due to the sudden breakdown of the interaction with her infant because of hospitalization in a neonatal care unit. This is a mixed method study, the aim is establish the effectiveness of expressive writing in the experience of mothers of hospitalized preterm infants. The intervention Expressive writing therapy could contribute to reduce the level of stress and anxiety, improving coping and the mother's interaction with her infant.
The Early Prediction Study is a longitudinal population-based cohort study for very preterm infants ≤32 weeks gestational age. Preterm infants recruited from three greater Cincinnati and two Dayton area neonatal intensive care units (NICUs) will undergo advanced MRIs at 41 weeks postmenstrual age and neurodevelopmental testing at the corrected ages of two and three years correct age. The goal of the Early Prediction Study is to accurately predict motor, cognitive, and behavioral deficits in individual very preterm infants using neuroimaging technologies and established epidemiologic approaches.
The overall objective of the proposal is to evaluate the ability of ultrasound to predict and routinely (weekly) monitor changes in the body composition of healthy preterm infants in the neonatal intensive care unit (NICU) in response to nutritional intake. The investigators hypothesize that ultrasound is an accurate method to routinely monitor the quality of weight gain and assess the adequacy of nutritional provision for premature infants in the neonatal intensive care unit. The investigators will address the hypothesis in the following Specific Aims: Specific Aim 1: Validate ultrasound as a method to measure whole body fat mass and fat free mass in healthy, premature infants. Body composition will be assessed using ultrasound measurements and the validated method of air displacement plethysmography (ADP). Stable isotope dilution techniques will be used in a subset of our population as a secondary source of validation. Specific Aim 2: Determine whether ultrasound measurements can detect clinically relevant (weekly) changes in body composition in healthy premature infants. Ultrasound will be used to obtain serial (weekly) measurements of muscle and adipose tissue thickness (triceps, abdomen, quadriceps) until discharge in healthy, premature infants.