View clinical trials related to Premature.
Filter by:Premature babies have a high risk of adverse developmental outcomes. Early intervention approaches are applied to reduce these adverse outcomes or support of developmental delay. Early intervention approaches may vary depending on developmental priorities. While some early intervention methods can consider body structured findings such as posture, tonus, muscle power, others may consider coaching family, enrichment of the environment. The explorer baby program is developed based on the trial and error process. The program tries to find an answer to a unique question: "how trial behavior in infants can be increased and which behaviors of the infants should be supported to increase their trial process?" The Explorer baby program tries to increase exploratory motor behaviors to facilitate development. For this aim, the program tries to explain how a baby learns new skills such as rolling, sitting, babbling, playing peek a boo, etc. in all domains of development while the baby lives in their natural environment. This study aims to investigate the effect of the explorer baby early intervention program.
This study aims to explore the relation of early nutritional intake, especially oral nutrition intake, with growth and body composition among very preterm or very low birth weight infants.
Hyponatremia is a common complication among preterm infants, renal losses of sodium contribute to the development of hyponatremia in preterm newborns. Sodium imbalances impact in newborns outcome. There is controversy about the time of initiation and the requirements of sodium in premature infants. Hypothesis: early (24 hours of life) sodium supplementation (5mEq/kg/day) prevents the develop of hyponatremia in preterm infants.
According to the World Health Organization, preterm birth (from 20 to 37 gestation week) is a significant global health problem, as preterm infants represent an estimated 15 million infants per year worldwide. One of the important problems experienced by the preterm infants, leaving their intrauterine environment earlier than normal, while receiving special treatment and care in Neonatal Intensive Care Unit is the painful procedures. Exposure to pain may change preterm infants' brain structure and organization as well as impair brain development through oxygen desaturation, leading to generation of free radicals that can damage fast-growing tissues. For this reason, preterm infants need to be supported and protected more in pain procedures. Orogastric Tube (OGT) is a feeding method that is used to support the nutrition of preterms that cannot be fed orally and causes OGT insertion pain. Although non-pharmacological methods are effective in reducing the pain caused by OGT insertion in preterms, a limited number of studies have been found. There was no study using combined nonpharmacological methods to reduce OGT insertion pain.To evaluate the efficacy of the use of expressed breast milk, swaddling and facilitated tucking methods alone and combination in reducing the pain caused by OGT insertion in preterms. Randomized controlled trial. Three level III neonatal intensive care units in Turkey. Preterm infants born 32-34 weeks of gestation were randomly assigned to six groups: routine care group (n=33), swaddling group (n=30), facilitated tucking (n=32), expressed breast milk (n=31), swaddling+expressed breast milk group (n=30), and facilitated tucking+expressed breast milk group (n=31). OGT insertion included four phases: baseline (the last 1 min of the 30 min without stimuli), OGT insertion, recovery (1 min after OGT insertion), recovery (2 min after OGT insertion). Four phases of OGT insertion procedures were videotaped. Premature infant pain profile (PIPP) score, heart rate, and oxygen saturation were assessed by two independent evaluators who were blinded to the purpose of the study. Data were analyzed by analysis of variance for the multiple repeated measurements, bonferroni, Generalised Estimating Equation logistic regression. 187 preterm infants completed the protocol.
Objective to evaluate the effects of vibration techniques and acceleration of expiratory flow on pain parameters in preterm infants diagnosed with pneumonia hospitalized in the Intensive Care Unit and Neonatal Intermediate Care Unit. The Method is a descriptive and interventional study, in which 28 PTNB were randomly divided into two groups: Group 1 submitted to the vibration technique and Group 2 - to the acceleration of the expiratory flow, both techniques were applied in an interval of up to ten minutes, for Three consecutive days. The pain indicators were evaluated according to the PIPP scale in three moments. For statistical analysis, the Friedman tests and Variance Analysis were applied, the level of significance adopted was 5%.
Rationale: Pre-clinical animal studies provide robust evidence regarding the beneficial effect of cord blood-derived mononuclear cells (MNCs) for experimental bronchopulmonary dysplasia (BPD). This single-center, non-randomized, controlled, blinded trial assessed the effect of a single intravenous infusion of autologous cord blood MNCs (ACBMNCs) in preventing BPD in very preterm neonates, a high-risk population.
The proposed feasibility study will evaluate the investigators ability to conduct a clinical trial of a novel intervention (SPEEDI) which addresses a striking gap in the literature. Supporting Play, Exploration, and Early Development Intervention (SPEEDI) differs from current early intervention practices in 2 important ways. First it bridges the traditional gap in services from the Neonatal Intensive Care Unit (NICU) to home providing ongoing and intensive support for developmental activities when parents are establishing care giving routines. Second, in contrast to wide-ranging intervention provided by current early intervention models, SPEEDI uses an action perception model to target specific behaviors which lead to improved early motor abilities and provide a foundation for learning.[6] The purpose of this feasibility study is to extend the investigators preliminary data and evaluate the feasibility of conducting a randomized control trial to evaluate the efficacy of SPEEDI.