View clinical trials related to Asphyxia.
Filter by:The goal of this MONAS Study is to learn about comprehensive monitoring and nutritional intervention among pregnant women in order to improve maternal and neonatal outcomes. The main questions it aims to answer are: 1. Are comprehensive monitoring and nutritional intervention among pregnant women can improve maternal outcomes (maternal death, preterm labour, preeclampsia, intrauterine infection, and bleeding during pregnancy and delivery) compared to standard maternal health services? 2. Are comprehensive monitoring and nutritional intervention among pregnant women can improve neonatal outcomes (neonatal death, low birth weight, intrauterine growth restriction, and neonatal asphyxia) compared to standard maternal health services? Participants in the intervention group will receive: - Fetomaternal ultrasound examination each trimester - Complete laboratory examination for nutritional panel (complete blood count with reticulocyte profile and iron profile, vitamin D level, zinc level, fatty acid profile, electrophoresis for Thalassemia) as an addition to standard maternal routine laboratory examination - Supplements: multivitamin, minerals, vitamin D, fatty acid - Intervention regarding any abnormal results of nutritional panel - All standard maternal health services according to Indonesian Ministry of Health protocol Participants in the control group will receive: - All standard maternal health services according to Indonesian Ministry of Health protocol
The cluster randomized controlled trial will be conducted in the selected health facilities/birthing centers of Sarlahi district in Nepal. Further from the selected health facilities. The investigators will assess the newborn in terms of their health outcomes. Characteristics related to the performance of skilled birth attendants will be measured prior to the intervention. After six months of the intervention, endline assessment will be conducted. The intervention unit are the health facilities which provide the services as birthing centers. The effectiveness of the intervention will be examined using generalized estimating equation against baseline vs. endline on skills performance of the health workers and newborn health outcomes. The study will be implied in the similar settings to improve the skill performance and newborn health outcomes in order to reduce neonatal mortality.
FAME-n aims to improve perinatal care by introducing new approaches to fetal and neonatal heart assessment. Better identification of high-risk deliveries requiring intervention will reduce perinatal asphyxia-related illness and death. Neonatal hemodynamics may be improved by early detection of instability of the heart and circulation. Innovative use of technology enables characterization of normal and abnormal cardiovascular transition in a significantly larger number of fetuses and newborn infants than what was previously possible. The methods used may have broad generalizability and applicability in perinatal, neonatal and pediatric medicine. In September 2023, the project was expanded with an obstetric arm called Epidural analgesia: Fetal Oxygenation and Maternal Oxygenation (Epi-FOMO). In Epi-FOMO, the relationship between maternal breathing and arterial blood gases during labour, and umbilical cord blood gases and neonatal outcomes (as specified in FAME-n) will be investigated.
The objective of the study is to compare the incidence of Hypoxic ischemic encephalopathy (all stages) among singleton term neonates (≥ 37 weeks) requiring resuscitation who will undergo Umbilical cord milking as compared to Immediate cord clamping.
Hypoxic-ischemic encephalopathy is the most common cause of neurological damage in the neonatal period. It has an incidence of about 1.5-2.5% of livebirths in developed countries. It is associated with a high rate of mortality and morbidity. Major neurological outcomes such as cerebral palsy, mental retardation, learning disabilities, epilepsy occur in approximately 25% of survivors. The diagnostic and prognostic tools currently available for enrollment have limitations and additional reliable biomarkers are needed for all phases of clinical management. Sarnat staging has taken on a role in identifying those infants who may benefit from treatment of hypothermia, resulting in the need for neurological evaluation and staging within 6 hours of life. Therapeutic hypothermia is still the best therapeutic treatment. A new tool in neuroscience research is represented by micro-ribonucleic acid (microRNA) profiling. The presence of microRNAs in blood, urine and saliva and the ability to measure their levels non-invasively has opened new doors in the search for peripheral biomarkers for the diagnosis and prognosis of neurodegenerative diseases and also as possible pharmacological targets. The aim of the present study is to analyze a specific cluster of miRNAs selected from data obtained by macroarray (NGS Pannel) on the entire microRNAome in healthy newborns with normal cord arterial pH value (7.26-7.35) as control cases and in newborns with fetal metabolic acidosis with a pH threshold value lower than 7.12 of the blood gas analysis from cord arterial blood. This latter group will be further stratified into two groups, neonates who will practice therapeutic hypothermia according to current guidelines and a further group who will not practice therapeutic hypothermia. This study will make a further international contribution in evaluating and identifying the potential of microRNAs as diagnostic and prognostic biomarkers in perinatal asphyxia and hypoxic ischemic encephalopathy. Furthermore, the study aims to identify specific microRNA sequences as new possible markers to be used as an additional parameter for the enrollment of therapeutic hypothermia, especially in cases of mild hypoxic-ischemic encephalopathy.
The PRISM pilot feasibility study consists of two phases to determine: 1) to delivery practices, rates of primary and secondary outcomes, and feasibility of enrollment rates, and 2) to assess the feasibility and acceptability of the intervention and expected enrollment rates, and estimate the effect size of sildenafil citrate on maternal and neonatal outcomes in a low resource settings in preparation for the main RCT.
This is a prospective, single center, pharmacokinetic study of intravenous hydrocortisone therapy for systemic low blood pressure during hypothermia treatment in asphyxiated newborns. Patients will be allocated to hydrocortisone supplementation while receiving conventional inotropic therapy as needed. The hypothesis is that a detailed study of hydrocortisone pharmacokinetics during therapeutic hypothermia would help to personalize steroid supplementation in asphyxiated neonates. As the overall metabolic rate decreases with lower body temperature, drug metabolism is likely to be reduced as well, and lower doses, or less frequent dosing will be sufficient to achieve the targeted steroid range and biological effects in asphyxiated neonates with relative adrenal insufficiency. Thus, the investigators are planning to measure initial, baseline serum cortisol levels and serial serum cortisol levels after hydrocortisone supplementation in cooled asphyxiated neonates.
Survival of fully buried avalanche victims depends in major part on a triad of hypoxia, hypercapnia, and hypothermia and therefore decreases rapidly after complete burial. Besides optimizing companion rescue, which still today and even by trained people often takes more than 15 minutes to the extraction of an avalanche victim, prolonging the ability to breath after critical avalanche burial increases survival probability by giving rescuers more time to find and unbury avalanche victims. Based on previous research, the Norwegian company Safeback SE (Bergen, Norway) developed a new non-medical device using an innovative functional principle. The device, called the Safeback SBX (Safeback SE, Bergen, Norway), should make it possible to prevent asphyxia by delivering fresh air to the air pocket. Company claims to achieve a prolongation of survival up to over 60 minutes, giving companion rescuers as well as professional rescue teams more time to get access to the victim. Technical tests conducted by the developing company already provided some promising results regarding the general functioning. However, this study is needed to provide the scientific evidence of the effectiveness and influence on physiologic parameters buried in snow debris humans under realistic conditions.
Perinatal hypoxia in the form of hypoxic-ischaemic encephalopathy (HIE) is a frequent cause of cerebral impairment in neonates. HIE occurs in 3 to 5 of 1000 neonates in developed countries and is significantly higher in developing countries at 25 of 1000 neonates. Despite developments in medicine, increasing understanding of HIE pathophysiology and progress in neonatal intensive care as well as treatment of moderate or severe perinatal asphyxia, HIE continues to be associated with significant mortality and late neurological sequelae. Episodes of ischaemia-hypoxia in the perinatal period as well as the changes in the redistribution of blood may lead to decreased perfusion and ischaemia of the cardiac muscle. Additionally, there is a negative impact from the reduced contractility of the cardiac muscle secondary to acidosis and hypoxia. Therapeutic hypothermia (TH) improves the late effects in moderate and severe cases of hypoxia-ischaemia encephalopathy (HIE). The direct impact of TH on the cardiovascular system includes moderate bradycardia, increased pulmonary vascular resistance (PVR), inferior filling of the left ventricle (LV) and LV stroke volume. The above-mentioned consequences of TH and episodes of HI in the perinatal period are therefore exacerbation of respiratory and circulatory failure. The impact of the warming phase on the cardiovascular system is not well researched and currently few data has been published on this topic. Physiologically, warming increases heart rate, improves cardiac output and increases systemic pressure. The effect of TH and the warming phase on the cardiovascular values has a decisive impact on the metabolism of drugs, including vasopressors / inotropics, which in turn affects the choice of medication and fluid therapy
Sovateltide (PMZ-1620; IRL-1620) is targeted to be used as a "Treatment for hypoxic-ischemic encephalopathy in neonates," which is a life-threatening condition. Sovateltide augments neuronal progenitor cell differentiation and better mitochondrial morphology and biogenesis to activate a regenerative response in the central nervous system. The only treatment for HIE is therapeutic hypothermia with limited success, and studies indicate that sovateltide may be beneficial in these patients.