View clinical trials related to Prematurity.
Filter by:The purpose of this study is to assess the predictive value of generalized movements in preterm and term infants who are at risk for development of cerebral palsy. The investigators will identify at-risk infants and observe their generalized movements, conduct a two year longitudinal follow-up, and interpret the predictive value of the investigators assessments based on the diagnosis of cerebral palsy.
The purpose of this study is to test the effectiveness of an antibiotic treatment (Josamycin) in the case of positive PCR for Ureaplasma spp. and/or Mycoplasma hominis in the second quarter on the risk of premature birth.
The aim of the present study is to describe the performance of very low birth-weight preterm toddlers regarding expressive language and cognitive development during sensorimotor and beginning of pre-operational periods, as well as to compare the performance presented by these children to that presented by their full-term peers, according to Genetic Epistemology theoretical principles. The hypothesis of this study is that very-low birth weight preterms would present a poorer performance, concerning expressive language and cognition development,than their full-term peers.
The purpose of this study was to determine whether massage with or without physical exercise impacted weight gain or length of hospital stay for premature infants.
The purpose of this study is to test the safety of silver alginate (Algidex™) dressing in VLBW infants in preparation for a large efficacy trial.
Early discharge of premature infants from the Neonatal Intensive Care Unit will have substantial benefits: (i) diminish parental stress; (ii) increase parental - child bonding; (iii) diminish medical complications derived from prolonged hospitalization; (iv) reduce cost; (v) increase number of point of attendance disponible for future patients.
This study will examine the response of white blood cells to bacterial infection in blood taken from the umbilical cords of newly delivered infants. The blood samples will be taken from both male infants who were carried to term and male infants who were born prematurely, and genetic studies will compare these blood samples to samples drawn from healthy adult male volunteers. The study is designed to look at the ways in which the immune systems of newborn infants respond to bacterial infection. Participants in this study will be pregnant Chinese women admitted to the labor ward of the Prince of Wales Hospital (Sha Tin district of New Territories, Hong Kong SAR) for normal spontaneous delivery. Those with known blood-borne infectious diseases such as HIV and hepatitis B will be excluded from this study. Cord blood and placenta samples will be collected after the completion of delivery. The samples collected for this study will be restricted to male newborns. A comparison group of blood samples will be drawn from healthy male adults between 25 and 35 years of age....
To date, there is a paucity of research focusing on maternal breastfeeding goals, how these goals may change after an unexpected event such as a preterm birth, and how mothers of ill and preterm infants define breastfeeding success. No studies were identified that focused exclusively on the breastfeeding goals of mothers of hospitalized preterm infants The purpose of this study is to answer the following research questions: 1) What are the breastfeeding goals of mothers with preterm infants in the NICU? and 2) What are mothers' perceptions of facilitators and barriers to meeting their breastfeeding goals in the NICU?
We propose a preliminary trial to evaluate the safety and efficacy of using more restricted oxygen during resuscitation for VLBW infants than is utilized currently in an effort to reduce the oxidant stress of such treatment, and to possibly reduce associated multi-system organ related dysfunction. In attempting to design a trial comparing higher versus lower oxygen during neonatal resuscitation with the potential for benefit to the enrolled infants, and a minimal level of risk, and acknowledging that the use of Room Air may be considered premature in view of the lack of any safety data in this population, we are proposing to utilize an oxygen blender and a pulse oximeter in the delivery room in the treated group. The treated group will have their fraction of inspired oxygen increased from 21%, as necessary, to achieve a target oxygen saturation of 85 to 90% at 5 minutes of life, compared with the standard of care group who will receive 100% oxygen without the use of a blender, which is the current approach in most centers in this country. The targeted saturation of 85% will provide enough oxygen to treat any ventilation/perfusion mismatch, while exposing the infants to significantly less inspired oxygen. Hypothesis: We hypothesize that the use of restricted inspired oxygen during resuscitation will result in a significant reduction in oxidant stress without any harmful clinical effects.
Preterm infants are born with immature lungs and often require help with breathing shortly after birth. This currently involves administering 100% oxygen. Unfortunately, delivery of high oxygen concentrations leads to the production of free radicals that can injure many organ systems. Term and near-term newborns deprived of oxygen during or prior to birth respond as well or better to resuscitation with room air (21% oxygen) compared to 100% oxygen. However, a static concentration of 21% oxygen may be inappropriate for preterm infants with lung disease. Our study will investigate how adjusting the amount of oxygen given to sick preterm newborns will affect the ability to maintain a safe oxygen level in their blood. Each infant will be assigned to receive one of three treatments at birth. Resuscitation will either start with 21% oxygen and be increased if needed, 100% oxygen and be decreased if needed or 100% oxygen with no changes made (current standard of treatment). The first two groups will have adjustments in oxygen concentration as needed to reach a safe target range of blood oxygen saturation. We anticipate that preterm newborn infants resuscitated with higher oxygen concentrations will have higher than "normal" levels of oxygen in their blood while those resuscitated initially with lower concentrations of oxygen will be more likely to have "normal" oxygen levels in their blood. All premature infants will have a surface probe placed on the right hand to measure the saturation of blood with oxygen. Following the resuscitation, treatment will proceed as per standard of care until hospital discharge. All infants will be admitted to the neonatal intensive care unit given their prematurity. The purpose of this study is to investigate how safely restricting the amount of oxygen delivered to newborns during resuscitation will affect the amount of oxygen in their blood. Hypothesis: In this randomized control trial, infants resuscitated with a "low oxygen delivery (LOD)" strategy (initiation of resuscitation with 21% O2) will remain normoxemic for the greatest proportion of time during resuscitation and infants resuscitated with a "high oxygen delivery (HOD)" strategy (100% O2 used for the entire resuscitation) will be normoxemic for the smallest proportion of time during resuscitation.