View clinical trials related to Periventricular Leukomalacia.
Filter by: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.
The goal of this study is to characterize individual responses to a single application of transcranial direct current stimulation (tDCS) in children with unilateral cerebral palsy (UCP), and to test which electrode configuration produces changes in brain excitability and motor function. Participants with UCP, ages 7-21 years, will be assigned to one of four tDCS groups. Using single-pulse transcranial magnetic stimulation, the investigators will assess cortical excitability before and at regular intervals up to 1 hour following tDCS. The knowledge gained from this study will advance the field through more targeted approaches of neuromodulatory techniques in this population and others, using individual characteristics to guide optimal treatment
Prolonged antibiotic use in preterm neonates has significant consequences on the developing intestinal microbiome, metabolome and host response, predisposing the neonate to various major morbidities, including necrotizing enterocolitis (NEC), late-onset sepsis, bronchopulmonary dysplasia (BPD), and mortality. The hypothesis is that early and prolonged antibiotic use in preterm neonates has significant consequences on the developing intestinal microbiome, metabolome and host response, predisposing the neonate to various major morbidities. It is possible that the effect of this widespread antibiotic use outweighs the potential benefits. This study will randomize preterm infants born at less than 33 weeks gestation to either pre-emptive antibiotics or no-pre-emptive antibiotics. The purpose of this research is to evaluate the risks and benefits of current practice to determine optimal levels of antibiotic use that protects the babies from infection with minimal effect on the microbiome and subsequent adverse outcomes related to overuse of antibiotics.
Periventricular Leukomalacia (PVL) is a white matter lesion surrounding the lateral ventricles of the brain occurring in the prenatal period, associated with a disorder of movement and posture, known as bilateral cerebral palsy. Children with PVL and bilateral cerebral palsy have spared verbal abilities, as measured by verbal Intelligence Quotient (verbal IQ) tests, while non-verbal intelligence and especially visuo-perceptual and visuo-spatial abilities are impaired. In addition some studies underline the impact of PVL also on executive function, especially in terms of working memory and in the ability to inhibit distraction. Working Memory is the ability to retain and manipulate information for brief periods of time. It is important in several complex cognitive functions, such as academic learning and in planning and organizing daily life activities. School-based activities, indeed, such as math and reading depend on a student's ability to pay attention to several instructions or information and to hold and integrate them in their mind. Recent behavioural and neurofunctional studies describes the effect of an evidence-based and computer-based training on working memory, the Cogmed Working MemoryTraining. Functional MRI show increase in parietal and prefrontal activity after this training, while the behavioural data demonstrate the generalization of this effect also on cognitive functions not directly trained, as attention, inhibition, learning and non-verbal reasoning. Cogmed Working MemoryTraining (RoboMemo®, CogMed-Cognitive Medical Systems, Stockholm, Sweden) is an online treatment comprising a number of visuo-spatial and verbal exercises that vary automatically depending on the individual child's performance in any given task. The training period is intensive and includes 25 home session for five weeks, 30-45 minutes each day. A Cogmed-trained coach monitors training progress and participants' commitment daily. Only one ongoing study has used the CogMed training in children with cerebral palsy, but without investigating the correlation between behavioural findings with neurofunctional data. The aim of this study is to analyze the effect of the working memory training with CogMed on trained and not directly trained cognitive abilities and on the changes in cortical electrophysiological reorganization during the sleep after training. The sleep analysis will be focused in particular on the slow waves activity [frequency range of 1-4.5 Hz] and on the sleep spindle [frequency range of 12-14Hz], which reflect the depth of sleep and are related to memory processes, learning and brain plasticity. The results of this project will shed light on the mechanisms of neuroplasticity, by enhancing knowledge on the neuropsychological effects of a specific working memory training and on the neurophysiological underpinnings of these behavioural effects in a clinical population of children with congenital brain lesions, as PVL.
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.
The main goal of this trial is to investigate whether early administration of human erythropoietin (EPO) in very preterm infants improves neurodevelopmental outcome at 24 months corrected age. This study is designed as randomized, double-masked, placebo controlled multicenter study involving at least 420 patients.
The investigators propose to compare the proteomic analysis of umbilical venous blood from neonates with brain injury to gestational age matched noninjured controls. After delivery an umbilical arterial gas and a 10 ml umbilical venous sample are obtained, then the remainder of the cord blood is discarded. The investigators plan to use this cord blood that would otherwise be discarded to perform our proteomic analysis. The investigators will use up to 20 ml of cord blood per delivery. This will be a 5 year study during which time the investigators hope to analyze 450 infants at Johns Hopkins Hospital and Bayview Medical Center. The investigators will obtain an umbilical venous sample from infants born at < 34 weeks gestation. For infants born at > 34 weeks the investigators will obtain an umbilical venous sample for any infant suspected to be at risk for neurologic injury by having a diagnosis of chorioamnionitis during labor, nonreassuring fetal heart rate tracing at the time of delivery, or a 5 minute Apgar < 7. For the infants born at < 34 weeks the brain injured infants will be compared to gestational age matched controls without brain injury. For the infants born at > 34 weeks, each infant later confirmed to have neurologic morbidity will be compared to a gestational age matched noninjured control. The investigators hope to use proteomic analysis to determine if there are measurable differences in protein expression between the 2 groups.
Magnesium is neuroprotective in neonatal animal models of acquired hypoxic-ischemic and/or inflammatory cerebral lesions. It is associated with a significant reduction of perinatal death and cerebral palsy in some observational studies. The objective of the study is to assess if prenatal magnesium sulfate given to women at risk of preterm birth before 33 week's gestation is neuroprotective.
As many more premature infants survive, the numbers of these infants with health problems increases. The rate of cerebral palsy (CP) in extremely premature infants is approximately 20%. Magnesium sulfate, the most commonly used drug in the US to stop premature labor, may prevent CP. This trial tests whether magnesium sulfate given to a woman in labor with a premature fetus (24 to 31 weeks out of 40) will reduce the rate of death or moderate to severe CP in the children at 2 years. The children receive ultrasounds of their brains as infants and attend three follow-up visits over two years to assess their health and development.