View clinical trials related to Asphyxia.
Filter by:This is a prospective, randomized, double-blind, placebo controlled, single center study to compare low dose hydrocortisone vs placebo in systemic low blood pressure during hypothermia treatment in asphyxiated newborns. Patients will be allocated to one of the treatment arms (hydrocortisone or placebo) while receiving conventional inotropic therapy as needed. The hypothesis is that cooled asphyxiated neonates develop relative adrenal insufficiency that may contribute to hypotension and lower efficacy of inotropic therapy in this patient population. Thus, the investigators are planning to measure initial serum cortisol levels and investigate the cardiovascular effects of low dose hydrocortisone supplementation besides conventional inotropic therapy in a placebo-controlled fashion.
The overall goal of this study was to create a simulation environment with repeated practice for residents and intense, immediate feedback. Repeated simulations for neonatal resuscitation when coupled with clinical experience have been shown to improve resident confidence.The investigators sought to determine if resident exposure to individual training and video laryngoscopy using the C-MAC video laryngoscope would improve cognitive skills and decrease intubation times in a neonatal manikin. The primary outcome was time to intubation after one year. The secondary outcome was the ability to retain cognitive instruction related to intubation
Introduction Maternal and neonatal mortality continue to be to be prominent public health issues in sub Saharan Africa including Ghana, with slow progress made towards attainment of Millennium Development Goals (MDG) 4 & 5. Studies have identified poor quality of maternal and child healthcare as a major challenge to the prevention of neonatal and maternal deaths. Effective interventions are required to make significant inroads in these areas. Objective To evaluate the effect of a SMS text messaging intervention to support clinical decision making by frontline health care professionals on neonatal and maternal mortality. Methods We propose to conduct a randomized controlled trial in the Eastern region of Ghana, involving 8 intervention and 8 control districts. The intervention consists of text messaging of standard protocols for maternal and neonatal care to front line health care providers in the region. A total of 17,040 pregnant women who are receiving care (including antenatal, delivery and post-natal) at any of the hospitals in the selected districts in the region will be monitored through monthly aggregate data on outcome measures such as neonatal and maternal deaths from eclampsia, postpartum haemorrhage, puerperal sepsis, birth asphyxia, low birth weight and neonatal sepsis. Cord sepsis will also be included as neonatal sepsis for this study. Also, a quality of care assessment in four sampled districts to measure adherence to the safe motherhood protocol will be conducted. Stata software package.55 and MLwiN software version 2.2456 will be employed in data analysis. Descriptive analysis will be carried out to explore baseline characteristics of study groups while logistic regression will be applied to evaluate the effect of the intervention. A two-tailed statistical significant level of 0.05 will be used. Expected outcome We hypothesize that the intervention will improve both maternal and neonatal service delivery and health outcomes in the intervention areas.
The purpose of this study is early identification of asphyxiated newborns through eeg starting in the delivery room.
The immediate newborn period is the period of highest morbidity in life. Early signs of serious disease are often vague and difficult to interpret for the non- specialist. Screening lists of clinical signs are useful but have unsatisfactory specificity or sensitivity, cover only one or two diseases, and are complicated to handle in low resource settings. In critically ill newborns, organ failure to one or multiple organ systems is frequently seen due to inadequate circulation to the tissues. Critical disease will cause hypoxia ischemia of the cells in the affected organs followed by energy deficiency. Independently of the condition causing the energy deficiency this will start a series of events, which initially cause a leaking cell membrane leading to that intracellular components, i.e. the enzyme Lactate dehydrogenase (LDH), will leak out into the blood. Previous research in newborns suggests that LDH is a clinically interesting early predictor of serious illness and may thus serve as an important complement to the clinical examination. If the LDH level is elevated the health care personnel will realize that something is wrong and call for appropriate measures. Today LDH analysis is performed at the Dept. of Clinical Chemistry with an inexpensive and accurate method. However, this method needs relatively large blood volumes and the delay between blood sampling and results is rather long, often several hours. In addition LDH is sensitive to hemolysis, which is quite common in blood sampling in newborns. When this is detected at the laboratory a new sample will be needed, thus delaying the result even more. Also, smaller health care facilities rarely have the laboratory equipment needed for the analysis of LDH. The Swedish company Calmark Sweden AB is now launching a point-of-care technology for LDH analysis called "Hilda Neo". LDH is analyzed on an easy-to-use consumable test card together with an "App" on an ordinary smartphone (in the planned study, iPhone 4S). The result is presented within minutes and presence of hemolysis will be simultaneously detected on the device. The investigators speculate that the use of such a LDH test could serve as a diagnostic help for health-care staff in Vietnam in making the decision when to send a potentially sick newborn to a higher level neonatal unit (in this case the NICU at NPH, Hanoi)
The overall objective is to determine whether a bundled In-hospital Newborn Resuscitation Edu-cation intervention (INSPIRE-D) improves process of care associated with improved newborn survival and neurologic outcomes.
The aim of this study is to examine the effect of combining melatonin to whole body cooling on the brain injury and outcome of neonates following perinatal asphyxia.
The purpose of this study is to compare the use of a laryngeal mask airway (LMA) vs. face-mask ventilation (FMV) during first-line neonatal resuscitation in Mulago Hospital, Kampala, Uganda.
Despite recent advances in the care of mothers and newborn infants, many infants (approximately 20 per 1000 live births) continue to need resuscitation at birth. A proportion of these infants will have sustained significant injury through interruption of their blood and oxygen supply prior to delivery (perinatal asphyxia). In 2-3 babies per 1000 this will lead to brain swelling and the risk of long term brain injury called neonatal hypoxic-ischaemic encephalopathy (HIE). HIE remains a cause of neonatal death and long term disability. Early and accurate prediction of outcome would allow us to intervene during the window of the first 6 hours following birth, prior to secondary reperfusion and secondary brain injury. Estimating severity of injury can be difficult in newborn infants. Condition at birth does not predict neonatal, or longer term outcome. Biomarkers which could be measured at the time of birth and analysed at the bedside would offer these infants the best chance of timely and effective intervention. Through the BIHIVE study we have identified a number of predictive biomarkers in hypoxic-ischaemic encephalopathy. These markers are present in umbilical cord blood and have been identified through proteomic and metabolomic analysis of a stored biobank of samples from a recruited cohort of infants with perinatal asphyxia and hypoxic-ischaemic encephalopathy. We now wish to validate these biomarkers in an additional cohort, and will continue to explore new biomarkers in our stored biobank of umbilical cord samples. In addition we wish to assess our ability to predict neurodevelopmental and behavioural outcome in these infants. In this way we will determine the most robust biochemical and clinical markers for the prediction of early and medium term outcome in HIE. This study will establish the evidence base and validation of these biomarkers to the point where they can be developed into a bedside diagnostic algorithm which can be used in the labour ward to immediately identify those infants at risk of HIE in time to prevent secondary damage.
Whether Erythropoietin improves the neurological outcomes of neonates with perinatal asphyxia.