View clinical trials related to Birth Weight.
Filter by:The purpose of this study is to compare two different treatment strategies for RDS in preterm infants > 1500 grams and evaluate whether a selective surfactant administration would reduce the need of intubation, mechanical ventilation and surfactant use.
Premature infants are at a high risk for pneumonia. The PCV-7 vaccine effectively prevents the invasive disease from Streptococcus pneumoniae in full-term infants, but was not thoroughly studied in premature infants. This study evaluated the effectiveness and safety of the vaccine given in routine practice to very low birth weight infants, looking at blood antibody levels 4-6 weeks after the final vaccine dose, and adverse events, survival, infections, and neurodevelopmental outcomes at 18-22 months corrected age.
There are currently no interventions available to substantially reduce the incidence of low birth weight (LBW) apart from increasing the age at marriage, maternal iron supplementation and possibly improved energy intakes. The current view of the medical and public health community in India is that the immediate focus should be on promoting survival and development of low birth weight infants who have nearly a 6 to 7 fold higher mortality during infancy than those with normal birth weight. Low serum zinc is associated with increased incidence of diarrhea and pneumonia. There is sufficient evidence in under-threes that during acute illness, zinc supplementation (1-2 recommended dietary allowance [RDA]) reduces incidence of all episodes of diarrhea, severe diarrhea and pneumonia. A number of initial published trials also show significant effect of zinc treatment on pneumonia. With the large and consistent effects of zinc supplementation on the incidence and severity of infections, an effect on child mortality is likely. Available literature suggests the distinct possibility of reduced neonatal and infant mortality in LBWs receiving 1 RDA of zinc daily. A pilot study in India showed a 54% reduction in mortality in LBW infants. These findings were based on a very small sample and therefore considered insufficient to change policy. A positive impact in the proposed study will provide an important tool for reduction of infant mortality which is currently stagnant and government acceptance for such a program is likely to be very high. We, the researchers at the Society for Applied Studies, believe this study has the potential for decreasing infant mortality from its current level.
This study compared the use of continuous positive airway pressure initiated at birth with the early administration of surfactant administered through a tube in the windpipe within 1 hour of birth for premature infants born at 24 to 27 weeks gestation. In addition, these infants within 2 hours of birth, had a special pulse oximeter placed to continuously monitor their oxygen saturation in two different target ranges (85-89% or 91-95%). This study helped determine whether or not these two management strategies affect chronic lung disease and survival of premature infants.
A randomized, double-blind trial of docosahexaenoic and arachidonic acid supplementation in breast-fed preterm infants Background: Docosahexaenoic acid (DHA) and arachidonic acid (AA) are essential for preterm infants. Human milk and preterm formulas contain DHA and AA, but at lower concentrations than required to approximate utero accretion rate. Objective: To evaluate the effect of a high dose DHA and AA supplement to breast-fed preterm infants in the early neonatal period. Primary endpoints are neurodevelopment at 6 and 20 months of age. Design: A randomized double-blind placebo-controlled study is carried out in four Norwegian neonatal centers. Subjects and methods: Infants with birth weight < 1.5 kg are randomized to either an intervention or a control group. All infants receive fortified human milk, and a daily dose of 0.5 ml study oil per 100 ml milk. Infants in the intervention group receive oil with DHA and AA (Formulaid, Martek, USA), while the control oil contains vegetable oil without DHA or AA. Blood samples are collected at birth (cord), and at start and stop of the intervention. Plasma is analyzed for fatty acid pattern using high performance liquid chromatography.
SURFAXIN® (lucinactant) treatment will be examined in very low birth weight infants to prevent development of chronic lung disease, commonly known as bronchopulmonary dysplasia (BPD), in premature infants who have required continued intubation and received surfactants for the prevention or treatment of respiratory distress syndrome (RDS).
The purpose of this study is to examine the efficacy of multivitamin supplementation on fetal loss, low birth weight and severe preterm birth in healthy (HIV negative) women.
Continuous positive airway pressure (CPAP) has been used successfully to promote extubation in the premature infant population. The two methods of CPAP to be examined are currently used by many institutions, yet no study has compared these methods to determine which is better in the population of newborns < 1500 grams (birth weight) at supporting extubation. This randomised controlled study will examine two types of CPAP: the Infant Flow System and the Bubble CPAP. This randomised controlled, single site, clinical study is to determine whether the Bubble CPAP or the Infant Flow System (IFS) CPAP is more effective at supporting the extubation in infants of birth weights < 1500 grams. Seventy-six infants will be randomised, immediately prior to extubation, to IFS or Bubble CPAP of 5 cmH2O. The primary outcome is successful extubation, defined as not reaching failure criteria for the 7 days post-extubation. Failure criteria are defined as pH < 7.25 and PCO2 > 65 mmHg or a sustained increase in FiO2 of 0.15.
Safety and efficacy of Somatropin will be evaluated in short children born with a list weight below 1500 g and that did not catch up to normal height at the age of 4.
Prenatal maternal micronutrient supplementation has been suggested as a means to reduce the proportion of low birth weight babies in low-income countries. The effects of prenatal multi-micronutrient supplements on birth weight and perinatal mortality were studied in a randomised controlled trial among 2100 pregnant women in Guinea-Bissau. Women up to 37 weeks pregnant were individually randomised to daily supplements until delivery of A) Iron + folic acid or multi-micronutrients in B) One or C) Two recommended dietary allowances. Secondary outcomes were infant growth and maternal haemoglobin eight weeks after delivery.