View clinical trials related to Preterm Infant.
Filter by:The hypothesis of this study is that early physical therapy intervention, initiated during the NICU stay and up to 2 months corrected age, based on the family-centered model, could promote preterm infants motor development in short-term (2 months corrected age) and long-term (8 months corrected age). There is a high evidence level of different systematic reviews, which support the effectivity of early intervention with preterm infants. The principal aim of this randomized controlled trial is to evaluate the effectiveness of early physiotherapy intervention to promote motor development in preterm infants at 2 and 8 months corrected age. The secondary purpose is to study the motor development of those preterm infants who received early physical therapy intervention.
The purpose of this prospective research registry is to collect data on treatment strategies and outcomes for premature newborns with severe pulmonary hypertension (PH).
This is a double blinded, randomized, controlled trial of prebiotic in infants born between 26 and 32 weeks gestational age. The investigators anticipate enrollment of 90 subjects in total and for the study to be completed in 18 months. The investigators anticipate collecting clinical data, anthropometrics, stool samples (requiring appropriate storage through analysis), salivary samples from mother and infant, discarded blood samples from baby after the standard care lab tests are done, a single, optional blood draw at the conclusion of the study, and subjecting infants to a neurodevelopmental survey at study completion. The overall goal of this study is to test prebiotic administration to human milk-fed infants who are 700 gram to 1800 gram birthweight. The goal of this study will be addressed through one primary aim, a secondary aim, and exploratory aims, indicated below: Primary aim: Compare weight, length, and head circumference Z-score growth between the study and placebo groups. Secondary aim: Compare the time taken to achieve full feedings (135 mL/kg/day or more) between the study and placebo groups. Exploratory aim 1: Compare neurobehavior, as measured by the validated Neonatal intensive care unit Network Neurobehavioral Scale (NNNS), between the study and placebo groups. Exploratory aim 2: Compare fecal calprotectin levels to determine the impact of supplementation on reducing intestinal inflammation between the study and placebo groups. Exploratory aim 3: Compare fecal microbiome between the prebiotic and placebo groups, to determine whether there is a shift in microbial composition towards bifidobacteria and other microbes that are capable of metabolizing prebiotic.
Introduction: Prematurity rate has increased and is a risk factor for developmental delay. Preterm infants with low visual tracking might present deficits in cognition, language, and fine motor function in future ages. Few studies applied home stimulation of the visual system for preterm infant (PT) at an early age. Objective: To compare the effects of early visual stimulation to a standard care group in visual function, motor and sensory development. Methods: Randomized controlled trial. At home setting. Thirty healthy preterm infants, gestational age from 28 to 37 weeks, aged from one to two months of corrected age at the entrance of the study, with low visual function, will be evaluated. Participants will be randomly allocated to: (1) a standard care group, receiving orientation about general sensory and motor development, (2) an early visual stimulation group receiving a 4-week home based protocol applied by caregivers additional to standard care. Outcomes will be measured at before the beginning of stimulation, at the end of stimulation and at 6 months of corrected age. Primary outcome is visual function evaluated by ML Leonhardt Battery of Optotypes. Secondary outcomes include motor and sensory development evaluated by scales.
Extubation failure is a significant problem in preterm neonates and prolonged intubation is a well-documented risk factor for development of chronic lung disease. Out of the respiratory modalities available to extubate a preterm neonate; high flow nasal canula, nasal continuous positive airway pressure (nCPAP) and noninvasive positive pressure ventilation (NIPPV) are the most commonly used. A recent Cochrane meta-analysis concluded that NIPPV has lower extubation failure as compared to nCPAP (30% vs. 40%) NAVA (neurally adjusted ventilatory assist), a relatively new mode of mechanical ventilation in which the diaphragmatic electrical activity initiates a ventilator breath and adjustment of a preset gain (NAVA level) determines the peak inspiratory pressure. It has been reported to improve patient - ventilator synchrony and minimize mean airway pressure and ability to wean an infant from a ventilator. However till date there has been no head to head comparison of extubation failure in infants managed on NAVA with conventional ventilator strategies. In this study the investigators aim to compare primary extubation failure rates in infants/participants managed by NIPPV vs. NI-NAVA (non invasive NAVA). Eligible infants/participants will be randomized to be extubated to predefined NIPPV or NI-NAVA ventilator settings and will be assessed for primary extubation failure (defined as reintubation within 5 days after an elective extubation).
This observational study aims to early identify, through a rigorous and standardized follow-up, infants at high risk for Cerebral Palsy. After the consent agreement firmed by the parents, infants born at term or preterm with ultrasonographic evidence of brain injury considered at risk for neurodevelopmental disorders will be strictly monitored during the first months of life performing a periodic neurological assessment (Prechtl's General Movement (GMA) and the Hammersmith Infant Neurological Examination) at term age and around 3 months of post term age. Moreover, to study more accurately the brain injury early identified by ultrasonographic brain exam, around 6 weeks of post-term age the enrolled infants will perform, as recommended in infants at risk, brain Magnetic Resonance (RM). Thanks to the high predictability power of the combination of the clinical observation with the neuroimaging infants at high risk of CP will be early detect. Selected infants, considered at high risk for CP will have the opportunity to perform an home based and family centered early intervention later than 3 post term age.
Research question: The primary aim of this study is to compare the prevalence of motor impairment from birth to five years of age between children born <30 weeks and term-born controls, and to determine whether persistent abnormal motor assessments in the newborn period in those born <30 weeks predict abnormal motor functioning at age five years. Secondary aims for both children born<30 weeks and term children are i) to determine whether novel early magnetic resonance imaging (MRI) - based structural or functional biomarkers are detectable in the neonatal period that can predict motor impairments at five years, ii) to investigate the association between motor impairments and concurrent deficits in body structure and function at five years of age, and iii) to explore how motor impairments at five years, including abnormalities of gait, postural control and strength, are associated with concurrent functional outcomes including physical activity, cognitive and learning ability, behavioural and emotional problems. Design: Prospective longitudinal cohort study. Participants and Setting: 150 preterm children (born <30 weeks) and 151 term-born children (born >36 completed weeks' gestation and weighing>2499 g) admitted to the Royal Women's Hospital, Melbourne, were recruited at birth and will be invited to participate in a five-year follow-up study. Procedure: This study will examine previously collected data (from birth to two years) that comprises the following: detailed motor assessments and structural and functional brain MRI images. At five years, preterm and term children will be examined using comprehensive motor assessments including the Movement Assessment Battery for Children - 2nd edition and measures of gait function through spatiotemporal (assessed with the GAITRite® Walkway), dynamic postural control (assessed with Microsoft Kinect) variables and hand grip strength (assessed with a dynamometer); and measures of physical activity (assessed using accelerometry), cognitive development (assessed with Wechsler Preschool and Primary Scale of Intelligence) and emotional and behavioural status (assessed with the Strengths and Difficulties Questionnaire and the Developmental and Wellbeing Assessment). Caregivers will be asked to complete questionnaires on demographics, physical activity, activities of daily living and motor function (assessed with Pediatric Evaluation of Disability Inventory, Pediatric Quality of Life Questionnaire, the Little Developmental Co-ordination Questionnaire and an activity diary) at the 5 year assessment. Analysis: For the primary aim the prevalence of motor impairment from birth to 5 years will be compared between children born <30 weeks and term-born peers using the proportion of children classified as abnormal at each of the time points (term age, one, two and five years). Persistent motor impairments during the neonatal period will be assessed as a predictor of severity of motor impairment at 5 years of age in children born <30 weeks using linear regression. Models will be fitted using generalised estimating equations with results reported using robust standard errors, to allow for the clustering of multiple births. Discussion/Significance: Understanding the developmental precursors of motor impairment in children born <30 weeks is essential to limit disruption to skill development, and potential secondary impacts on physical activity, participation, academic achievement, self-esteem and associated outcomes, such as obesity, poor physical fitness and social isolation. Better understanding of motor skill development will enable targeting of intervention and streamlining of services to the individuals who are at highest risk of motor impairments.
The aim of the COSGOD Phase III trial is to examine, if it is possible to increase survival without cerebral injury in preterm neonates <32 weeks of gestation by monitoring the cerebral tissue oxygen saturation in addition to routine monitoring of arterial oxygen saturation and heart rate and specified clinical treatment guidelines during immediate transition period after birth (the first 15 minutes).
The purpose of this study is to determine whether the combination of Kangaroo Mother Care (KMC) as continuously as possible together with the use of a plastic bag in combination with routine World Health Organization (WHO) thermoregulation care reduces the incidence of moderate (32-36° C) or severe (<32.0° C) hypothermia in term infants ≥ 37 0/7 weeks of gestational age (GA) when compared to KMC as continuously as possible together with routine WHO thermoregulation care.
In very preterm infants with severe respiratory distress syndrome(RDS), invasive ventilation(IV) , besides nasal continuous positive airway pressure (NCPAP) and early/selective pulmonary surfactant administration, is one key cornerstone to reduce neonatal mortality. However, IV is related to increased risks of bronchopulmonary dysplasia (BPD) and abnormal developmental outcomes in the survival.Weaning from IV is therefore a key procedure to reducing these risks above, and if extubation does not success, repeated intubation and/or prolonged duration of IV will result in increased medical burden and intubation-associated complications and death. How to minimize the need for endotracheal ventilation and subsequent complications constitutes a challenge for neonatologists.