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Showing 1-20 of 27 trials
NCT07473882
This clinical study aims to find out whether kangaroo care (skin-to-skin contact between parents and their extremely premature newborns) can help protect the babies' brains by reducing the risk of bleeding in the brain during the first days of life. To do this, the extremely premature newborns will be randomly assigned to one of three groups: kangaroo care in a side-lying position, kangaroo care in a face-down position, or standard care in an incubator. Researchers will monitor the babies for signs of brain bleeding and other health measures to determine which approach is safest. The main hypothesis is that kangaroo care in the side-lying position may lower the risk of severe brain bleeding compared with the other positions or remaining in the incubator.
NCT07412886
55,000 babies are born prematurely in the UK annually. Bleeding in the fluid spaces of the brain (ventricles) is common after prematurity; in England around 450 babies suffer from severe bleeds every year. This is the most important cause of neurological disability after prematurity. Bleeding occurs in the first week of life when the brain is developing rapidly and is most vulnerable to injury. The blood and its breakdown products in the brain fluid (cerebrospinal fluid, CSF) are toxic to the developing brain and cause scarring that blocks the flow and absorption of CSF. In about half these babies, this causes fluid build-up, or post-haemorrhagic ventricular dilatation (PHVD). Current standard treatment of PHVD only drains CSF to reduce pressure inside the brain. Following early results and a successful pilot study at GOSH, we developed an NIHR-funded randomised national trial to analyse the impact of an operation to wash out blood inside the brain using a small endoscope. We will compare standard treatment (fluid drainage alone) with washout plus drainage of fluid. Premature babies typically undergo an MRI scan of the brain at their expected birth time to assess their brain injury, predict the severity of their disability and see what early rehabilitation and treatment they need. In this study we will use new MRI techniques during this scan at GOSH and Alder Hey Hospital to better understand the extent of brain injury in relation to brain structure, function and brain fluid flow. We want to see whether these will show the impact of the washout procedure, tell us about how washout works, and improve prediction of the child's disability and early treatment needs. If successful, we will apply for further funding to extend these techniques to the other centres in the UK and maximise their benefit within the NHS.
NCT06510842
Intracerebral hemorrhage (ICH) is a debilitating and fatal disease, especially when the hemorrhage is also entering the cerebral ventricles leading to acute hydrocephalus. In these cases, patients need a drainage through external ventricular drains (EVD). In the longer term, patients often need a permanent ventriculoperitoneal (VP) shunt to avoid hydrocephalus. Here we hypothesize that the early insertion of a lumbar drainage in addition to the EVD could lead to better functional outcome and avoidance of VP shunting by drainage of the blood which promotes inflammatory and adverse effects in the subarachnoid space. For that we propose a multi-center randomized clinical trial to investigate the hypothesis.
NCT07205263
Intracerebral hemorrhage (ICH) is one of the most devastating forms of stroke, with high rates of death and disability worldwide. Despite advances in medical and surgical care, effective therapeutic options remain limited. To address this gap, the RAINBOW-ICH trial has been designed as a nationwide, multicenter, randomized umbrella trial evaluating the efficacy and safety of AI-assisted, robotic-guided minimally invasive neurosurgery compared with conventional strategies across major ICH subtypes. Under a single master protocol, RAINBOW-ICH incorporates multiple parallel randomized controlled substudies, each targeting a distinct ICH population-large basal ganglia hemorrhage, moderate basal ganglia hemorrhage, intraventricular hemorrhage, and brainstem hemorrhage. This umbrella design allows efficient use of resources while generating high-quality evidence tailored to the specific needs of different ICH subgroups, thereby supporting a more patient-centered approach to care.
NCT07248761
The goal of this clinical trial is to determine the effectiveness of early use of hydrocortisone (since the diagnosis of shock) for its resolution within the first 72 hours in premature infants under 1,500 g. The main questions it aims to answer are: * Does the early use of hydrocortisone help solve shock in preterm infants under 1500 g faster than the standard treatment? * Does the early use of hydrocortisone help prevent death within the first seven days of presentation of shock in comparison to premature infants who receive regular treatment? Researchers will compare the early use of hydrocortisone plus the standard treatment to solve shock against just standard treatment. Participants will: * Be randomized to receive standard treatment for shock according to their neonatologist or this standard treatment plus hydrocortisone as soon as the diagnosis is done and treatment is started. * Be followed either until shock is solved or if they present death due to this event of shock.
NCT06043050
Preterm neonates often receive platelet transfusions when their platelet count is low to prevent bleeding. However, it is currently unclear which infants benefit from such transfusions. A recent randomized controlled trial (PlaNeT-2/MATISSE trial) showed that the higher platelet count threshold for transfusion was associated with a higher risk of major bleeding or death. Current transfusion protocols are based only on platelet count thresholds. However, neonates with similar platelet counts may have different bleeding risks due to varying clinical conditions. There is an important unmet medical need to identify which neonates with low platelet counts (i.e., severe thrombocytopenia) will benefit from a transfusion. Ideally, clinicians would be able to repeatedly predict a neonate's risk of major bleeding or death with and without giving a platelet transfusion, taking into account the neonate's clinical condition at that particular time. Obtaining personalized risk estimates under specific treatment strategies, with updated predictions at each new treatment decision moment, is called 'sequential prediction under interventions'. The investigators set up an international multicenter observational cohort study to develop a model to predict major bleeding or death with and without platelet transfusion at any time point during the first week after the onset of severe thrombocytopenia. This model is designed to support platelet transfusion decisions in the NICU and may help clinicians balance the benefits and harms of platelet transfusion based on updated characteristics of the neonate at the time of prediction.
NCT07157020
1. Establish a reference curve for the lateral ventricular diameter of premature infants and determine the intervention threshold for hydrocephalus after hemorrhage in premature infants based on the reference curve, providing a scientific basis for optimizing clinical intervention. 2. Apply ultrasound radiomics technology to explore and formulate new standards for imaging diagnosis and treatment; By integrating metabolomics, ultrasound radiomics and clinical data, high-risk individuals for intracranial hemorrhage and their relationship with prognosis can be identified early. 3. To explore whether advancing the indication for surgical intervention of hydrocephalus in preterm infants after hemorrhage from ventricular index P97+4mm to P97 and whether repeated lumbar puncture and drainage can improve their prognosis, with the aim of clarifying the optimal timing for intervention of hydrocephalus in preterm infants after hemorrhage and optimizing the treatment methods.
NCT07123948
The aim of this clinical trial is to learn if there is a correlation between the erythrocyte transfusion in the early neonatal period in premature infants and early and late complications of prematurity. The main questions it aims to answer are: * Do premature infants who receive blood transfusions within their first month of life have a higher risk of early prematurity complications, such as retinopathy of prematurity, necrotising enterocolitis, bronchopulmonary dysplasia, and intraventricular haemorrhage? * Do premature infants who receive blood transfusions during their first month of life have worse neurological and neurodevelopmental outcomes than those who do not? The first part of the study is retrospective, using data collected from participants' histories. The second part is prospective, evaluating neurological and neurodevelopmental outcomes at the age of six years.
NCT02814383
Extremely low birth weight (ELBW), birth weight less than or equal to 1000 g, infants are at high risk for developing brain injury in the first week of life. Intraventricular hemorrhage (IVH) and periventricular leukomalacia (PVL) are the most common injuries in this group of infants. Their incidence is inversely proportional to gestational age (GA) and birth weight (BW). These lesions are associated with neurodevelopmental delay, poor cognitive performance, visual and hearing impairment, epilepsy, and cerebral palsy; and instability of systemic hemodynamics during transition from intra- to extra-uterine life and during the early neonatal period is believed to be at their genesis. While the incidence of ultrasound- diagnosed cystic PVL has decreased dramatically over the last 2 decades, diffuse PVL detected by magnetic resonance imaging (MRI) is still prevalent in survivors of neonatal intensive care. Moreover, PVL, even when non-cystic, is associated with decreased cortical complexity and brain volume and eventual neurocognitive impairment. Currently, clinicians lack the tools to detect changes in cerebral perfusion prior to irreversible injury. Unfortunately, the incidence of brain injury in ELBW infants has remained relatively stable. Once translated to the bedside, the goal of this research is to develop a monitoring system that will allow researchers to identify infants most at risk for IVH and PVL and in the future, intervention studies will be initiated to use the changes in cerebral perfusion to direct hemodynamic management. The purpose of this study is to first understand the physiology of brain injury and then to eventually impact the outcomes in this high-risk group of infants by assessing the ability of the diastolic closing margin (DCM), a non-invasive estimate of brain perfusion pressure, to predict hemorrhagic and ischemic brain injury in ELBW infants. The information collected for this study will help develop algorithms or monitoring plans that will maintain the appropriate brain perfusion pressure and thereby, prevent severe brain injury.
NCT05649904
The goal of this clinical trial is to evaluate efficacy and safety of evacuation of cerebrospinal fluid, blood, and harmful bacteria from the intraventricular, subdural and subarachnoid spaces by Active Controlled Irrigation and Drainage (IRRAflow) compared to Passive External Ventricular Drainage (EVD). Subjects with intraventricular hemorrhage, subarachnoid hemorrhage, subdural bleeding, and ventriculitis will be randomized to receive the IRRAflow device or EVD device and followed for one month post-procedure to compare outcomes between the subject groups.
NCT06814964
The purpose of this pilot study is to determine the safety and optimal dose of clot lysis with rhTNK-tPA for intraventricular hemorrhage, using stereotactic guidance for extraventricular drain placement.
NCT06563817
This prospective, multicenter, open-label clinical trial is designed to evaluate the safety and efficacy of rapamycin in the treatment of communicating hydrocephalus secondary to intraventricular hemorrhage. Additionally, the underlying pathogenic mechanisms associated with this particular type of hydrocephalus will be investigated in greater depth, and populations that may benefit from rapamycin therapy will be identified.
NCT03534466
There have been many studies on the use of running training in older children to improve gait development in children with cerebral palsy. The aim of our study was to conduct early treadmill training in infants who were highly suspected of cerebral palsy and to follow up on their long-term gait development.
NCT06045130
The research endeavors to examine the critical composition of Polyunsaturated Fatty Acids (PUFAs) in premature infants across different gestational stages and under varying disease conditions, and delineate the metabolic attributes of PUFAs in premature infants and their interplay with the onset of diseases. This study anticipates furnishing a theoretical foundation for the rationalization of PUFAs supplementation in premature infants and for informing strategies related to disease prevention and management.
NCT02996799
For preterm infants, deferred cord clamping has been shown to improve both short term and long-term neonatal outcomes without an established harm for both the mother and her infant.The interference with resuscitative measures for the neonate or the mother is a risk that continued to hamper the implementation of delayed cord clamping in many centers around the world.For that reason, the evidence now is seeking a time-honored, yet not adopted method of placental transfusion that involves milking of the umbilical cord.
NCT03543046
The purpose of the study is to determine if early application of the Tortle Midliner for preterm infants, ≤ 3 hours following birth and with subsequent continuous use through 72 hrs. of life to ensure maintenance of optimal midline positioning (Tortle group), will impact the IVH outcome as determined by a reduction in the rate and/or severity of IVH when compared to infants receiving the standard regimen of care (Control group).
NCT02221219
Intraventricular hemorrhage (IVH) and periventricular leukomalacia (PVL) are brain lesions that commonly occur in preterm infants and are well-recognized major contributors to long-term brain injury and related disabilities later in life. Despite its prevalence, long term consequences, and enormous medical and social costs, mechanisms of IVH and optimal strategies to prevent or treat its occurrence are poorly defined, especially for extremely premature infants. Only one medical therapy, prophylactic indomethacin during the first 3 days of life, has been shown to prevent or decrease the severity of IVH in preterm infants, but its use is limited by toxic side effects and debatable effects on long-term outcomes. Several small studies and case reports suggest that delayed umbilical cord-clamping (DCC) may also decrease the incidence of IVH in premature infants, but thus far these trials have indomethacin treatment mixed within their cord clamping protocols. The investigators are conducting a randomized, blinded investigation of 4 treatment groups: 1) Control (no intervention); 2) DCC alone; 3) Prophylactic indomethacin alone; 4) Combination of DCC/indomethacin, with respect to survival, IVH or PVL incidence and severity, neurodevelopmental outcomes, and relevant mechanistic effects. With the steady rise in extreme prematurity births and clear links of IVH to long-term disabilities there is a need to improve care for these patients. This multi- disciplinary project addresses an important medical problem for an understudied patient population, where the current practice has clear limitations.
NCT01482559
The HIP trial is a large pragmatic, multinational, randomised trial of two different strategies for the management of hypotension in extremely low gestational age newborns (Standard with dopamine versus a restricted with placebo approach). HYPOTHESIS: A restricted approach to the management of hypotension in extremely low gestational age newborns will result in improved neonatal and long-term developmental outcomes. PRIMARY OBJECTIVE: To determine whether a restricted approach to the management of hypotension compared to using dopamine as first line pressor agent in infants born less than 28 weeks of gestation within the first 72 hrs after birth (transitional period), improves survival without significant brain injury at 36 weeks postmenstrual age (PMA) and improves survival without moderate or severe neurodevelopmental disability at 2 years corrected age.
NCT04077333
BACKGROUND Treatment of neonatal respiratory distress syndrome with exogenous surfactant and mechanical ventilation made millions of preterm infants survived in neonatal intensive care unit (NICU). Endotracheal intubation surfactant administration is related to invasive intubation and short periods of positive pressure ventilation and implies the risk of lung injury. Continuous positive airway pressure (CPAP) or NIPPV (Non-invasive positive pressure ventilation) with surfactant but without intubation may work synergistically. This randomized trial investigated a minimal invasive surfactant administration (MISA). To test the hypothesis that MISA increases survival without bronchopulmonary dysplasia (BPD) at 36 weeks' gestational age in very low birth weight infants. DESIGN, SETTING, AND PARTICIPANTS The Minimal Invasive Surfactant Administration (MISA) was a multicenter, randomized, clinical, parallel-group study conducted between July 1st, 2017, and November 30, 2018, in 8 level III neonatal intensive care units in Beijing, Tianjin, and Hebei province, China. The final follow-up date was March 30, 2019. Participants enrolled spontaneously breathing preterm infants born between 26.1 and 31.9 weeks' gestational age with signs of respiratory distress syndrome. In an intention-to-treat design, infants were randomly assigned to receive surfactant (Calf pulmonary surfactant, Double-Crane Pharmaceutical Co., China) either via a 5Fr nasogastric tube during CPAP/NIPPV-assisted spontaneous breathing (minimal invasive surfactant administration group, MISA group) or after conventional endotracheal intubation during mechanical ventilation (endotracheal intubation surfactant administration group, EISA group). INTERVENTION MISA via a 5Fr nasogastric tube with an ophthalmic surgery straight forceps.
NCT03754439
Centralisation of neonatal intensive care has led to an increase in postnatal inter-hospital transfers within the first 72 hours of life. Studies have shown transported preterm infants have an increased risk of intraventricular haemorrhage compared to inborns. The cause is likely multi-factorial, however, during the transportation process infants are exposed to noxious stimuli (excessive noise, vibration and temperature fluctuations), which may result in microscopic brain injury. However, there is a paucity of evidence to evaluate the effect of noise and vibration exposure during transportation. In this study the investigators aim to quantify the level of vibration and noise as experienced by a preterm infant during inter-hospital transportation in ground ambulance in the United Kingdom Secondary aims of the study are to: i) measure the physiological and biochemical changes that occur as a result of ambulance transportation (ii) quantify microscopic brain injury through measurement of urinary S100B and other biomarkers (iii) evaluate the development of intraventricular haemorrhage on cranial ultrasound iv) monitor vibration and sound exposure, using a prototype measuring system, during neonatal transport using both a manikin and a small cohort of neonatal patients. v) evaluate vibration and sound exposure levels using an updated transportation system modified to reduce effects.