View clinical trials related to Premature Birth.
Filter by:Women recruited from the internet were put in a hypothetical situation of being in labor at 22 weeks of pregnancy, and presented with information in the form of pictographs about survival and disability of babies born at this gestational age. Participants were randomized to receive these pictographs in a different order (survival or disability first) and to receive descriptiveness level of survival (just numerical information, or also description of course of NICU stay). Participants were then asked to choose between comfort care and intensive care in this situation. Participants' religiosity, value of the sanctity of life, and health literacy were also assessed.
The overall purpose of this study is to determine whether implementing a 'Prenatal Consult Bundle' to the existing prenatal consult, including provision of sample questions, added discussion points and handouts, and a return visit, will decrease parental anxiety and improve information recall. Additionally, this study will determine if this effect is further increased with the use of illustrated literature.
One in ten infants born in the USA is born preterm before 37 weeks of gestation and 50% of those will have motor and cognitive delays requiring intervention at school age. Because existing assessments do not reliably identify motor and cognitive delays early in development, many infants born preterm do not receive early intervention until they are older and their delays are more pronounced. This project aims to address the need for an effective, affordable, novel early intervention model for the first months of life for preterm infants.
The purpose of the study is to utilize the objective data provided by the nfant® suite of products, along with current NICU visual assessment and cue-based feeding practices, in order to determine if feeding performance outcomes and clinical decision making for individualized feeding plans for premature infants born less than 30 weeks PMA are impacted.
A total of 56 neonates with LBW will recruited by the convenience sampling to participate in this two group pre-test post-test, single blinded randomized clinical study. After the demographics, recruited NLBW will be randomly divided into two groups, group A and group B with block randomization. There will be four blocks, with the matrix design of 4X14 here 14 being rows. Each block contained 4 chits (2 chits for each group), totalling 56. The subjects will be allotted to the group based on the randomly chosen chit by their parents. Once the block will be allotted, next row block was opened. Thus, equal number of NLBW will be assigned to each group over time. Group A will be receiving multimodal sensory and kinesthetic stimulation (MSKS) and Group B will be receiving regular lifesaving hospital care. Group A will receive the interventions for 2 weeks period, totalling 10 sessions. Each session will last for 30 minutes duration.
Reproductive age women diagnosed with poor ovarian response (POR) based on Poseidon criteria and premature ovarian insufficiency (POI) based on ESHRE criteria and with a history of at least one prior failed IVF cycle will be recruited for the study. Antral follicle count (AFC), serum anti-mullerian hormone (AMH), and early follicular phase serum follicle stimulating hormone (FSH) levels will determined at baseline. Autologous blood obtained from peripheral vein will be used to prepare PRP following standard protocols and will be injected to at least one ovary. Ovarian reserve parameters and IVF outcomes will be determined.
Preterm newborns survival rates are improved, but long-term disabilities are still common. Major destructive focal lesions became less common, the most predominant lesion at present is diffuse white matter (WM damage). Melatonin (ME) serves as a neuroprotectant cerebral ischemia through its potent anti-oxidant/-inflammatory effect. Preclinical studies demonstrated that protects the developing brain by preventing abnormal myelination and inflammatory glial reaction. Clinical studies demonstrated ME ability in reducing brain damage after neonatal Hypoxic Ischemic Encephalopathy (HIE) or preventing neonatal impairments due to antenatal/ post-natal injuries: preeclampsia, IntraUterineGrowthRestriction (IUGR), ventilation, Bronchopulmonary Dysplasia (BPD). ME has a good safety profile with no known adverse effects. This study aims to highlight that ME can prevent brain impairment due to premature birth. ME will be administered orally (3 mg/kg/die for 15 days to neonates born before 29+6 week gestation, in a prospective double blind, randomized vs placebo study, 2 parallel arms. ME and malondialdehyde (MDA), a lipid peroxidation product) levels before and at the end of treatment will be measured . Other outcomes: Cerebral ultrasounds (cUS); cerebral magnetic resonance imaging (cMRI), " Fagan test " eye tracking, ophthalmological, auditory, neurological/cognitive child assessments. Monitoring parental distress, which can influence the neurodevelopmental outcome in preterms.
It is still unknown when the first bath should be done in premature newborns. Investigators think that delaying the time of the first bath compared to the time in the clinic will show some positive changes in preterm newborns.
Oxygen treatment is common in babies born early (preterm) and requiring intensive care. Having too much or too little oxygen can increase the risk of damage to the eyes and lungs, and contribute to death or disability. Preterm infants because of their immaturity experience episodes of low oxygen levels. The low oxygen episodes are primarily due to pauses in their breathing (Apnoea of prematurity) and immaturity of their lung. These episodes persist for weeks. The lower the gestation at birth the longer the duration of these events. Studies have shown that these episodes of low oxygen saturations especially if frequent and prolonged is associated with poor developmental outcome, severe eye disease and lung disease. Traditionally, the oxygen delivery is manually adjusted when infant has low oxygen saturation. However previous studies have shown despite the best efforts the oxygen level can only be maintained less than half of the time and nearly a one-fifth of the time infant spends in low oxygen levels and nearly one third of the time in high oxygen levels. Now it is possible to maintain oxygen level in target range by using automatic control of oxygen delivery. With the proposed study, we would like to study the efficacy of automatic control of oxygen delivery in reducing the time spent in low oxygen levels.
The preterm prelabour rupture of membranes is defined as the spontaneous rupture of the fetal membranes before 37 completed weeks. Preterm prelabour rupture of membranes complicates up to 3% of pregnancies and is associated with 30-40% of preterm births. preterm prelabour rupture of membranes can result in significant neonatal morbidity and mortality, primarily from prematurity, sepsis, cord prolapse, and pulmonary hypoplasia. In addition, there are risks associated with chorioamnionitis and placental abruption The diagnosis of spontaneous rupture of the membranes is made by maternal history followed by a sterile speculum examination. If on speculum examination, no amniotic fluid is observed, clinicians should consider performing an insulin-like growth factor-binding protein-1 or placental alpha microglobulin-1 test of vaginal fluid to guide further management. One of the risks associated with preterm prelabour rupture of membranes is ascending infection leading to chorioamnionitis, and subsequent fetal and neonatal infection.