Whole-Body Cooling for Birth Asphyxia in Term Infants
InfantNewborn2 moreThis large multicenter trial tested whether cerebral cooling initiated within 6 hours of birth and continued for 72 hours would reduce the risk of death and moderate to severe neurodevelopmental injury at 18-22 months corrected age. Infants at least 36 weeks gestation with an abnormal blood gas within 1 hour of birth, or a history of an acute perinatal event and a 10-min Apgar score <5, or continued need for ventilation were screened. Following a neurological exam, those with moderate to severe encephalopathy were randomized to a 72-hour period of total body cooling (cooling blanket, followed by slow re-warming). The study was conducted in two phases: Phase I (20 infants) were examined for the safety of an esophageal temperature of 34-35 C; Phase II (main trial, 200 infants) were evaluated for the safety and efficacy of an esophageal temperature of 33-34 C. Cardio-respiratory, electroencephalograms (EEGs), renal, metabolic, and hematologic status, and esophageal and abdominal skin temperature were monitored during the 72 hours of intervention. Surviving children were given neurodevelopmental examinations at 18-22 months corrected age and again at school age (6-7 years of age).
Study of hCT-MSC in Newborn Infants With Moderate or Severe HIE
Moderate to Severe Hypoxic-ischemic EncephalopathyTo determine the safety of single and repeated intravenous doses of hCT-MSC in newborn infants with HIE.
The Clinical Trial of CL2020 Cells for Neonatal Hypoxic Ischemic Encephalopathy
Hypoxia-IschemiaBrainThe purpose of this study is to evaluate the safety and the tolerability of CL2020 cells in hypoxic ischemic encephalopathy neonates with hypothermia therapy. In addition, we will evaluate the efficacy of CL2020 cells for infant development.
Beneficial Effect of Intravenous Magnesium Sulphate in Term Neonates With Hypoxic Ischemic Encephalopathy(HIE)...
HIENeonatal mortality rate is the highest in Pakistan. And Birth Asphyxia is one of the main reversible causes. Outcomes related to birth asphyxia can be improved, if intervention done in time with proper measures. MgSO4 is cheaper and easily available drug.
PMZ-1620 (Sovateltide) in Acute Ischemic Stroke Patients
Acute StrokeCerebral IschemiaThis was a prospective, multicentric, randomized, double blind, parallel, saline controlled Phase II clinical study to compare the safety and efficacy of PMZ-1620 (INN: Sovateltide) therapy along with standard supportive care in patients of acute ischemic stroke.
Micro- and Macrovascular Parameters in Delayed Cerebral Ischemia
Delayed Cerebral IschemiaAneurysmal Subarachnoid HemorrhageDelayed cerebral ischemia (DCI) following aneurysmal subarachnoid hemorrhage (aSAH) results from a complex combination of macro- and microvascular processes. Besides cerebral vasospasms (CVS), DCI is caused by microthrombosis, neuroinflammation, microvascular dysfunction and cortical spreading depolarization.The glycocalyx plays an essential role in regulation of inflammation, oxidative stress and thrombosis, and could be involved in the pathophysiology of DCI. This study is a single-center prospective observational pilot (phase 1) and correlation (phase 2) study recruiting patients with an aneurysmal subarachnoid hemorrhage. The primary aim of the study is to evaluate the feasibility of performing measurements of the glycocalyx using side-stream darkfield (SDF) imaging sublingually and on the conjunctiva, and by sampling blood for analysis of markers of glycocalyx shedding. Moreover, the objective is to determine characteristic Doppler waveform morphologies in DCI patients by means of thorough analysis of transcranial Doppler (TCD) measurements. The secondary objective is to determine whether changes in glycocalyx integrity correlate with the development of DCI and whether these changes are associated with increased inflammation and with variation in TCD signals. Finally, changes in glycocalyx integrity, in TCD waveform morphology and in levels of inflammatory markers will be correlated with patient outcome at 6 weeks and 6 months after ictus.
Effect of Non-nutritive Sucking on Transition to Oral Feeding in Infants With Asphyxia
Swallowing DisorderPerinatal Asphyxia5 moreThe transition period to full oral feeding in infants with perinatal asphyxia is important in predicting long-term outcomes. The transition to independent oral feeding is accepted as a discharge criterion by the American Academy of Pediatrics, and the long transition from tube feeding to oral feeding prolongs the discharge process. Prolonged transition to oral feeding increases maternal stress as it delays gastrointestinal problems, mother-infant interaction and attachment, as well as increasing health expenditures. Due to long-term feeding tube use; Infection, leakage, delay in wound healing, trauma caused by repeated placement, as well as oral reluctance are observed. In asphyxia infants, in whom oral-motor dysfunction is common, the transition to oral feeding takes a long time and tube feeding support is required. The effect of hypothermia, which is a general therapeutic intervention that reduces the risk of mortality and morbidity in infants with asphyxia, on oral feeding has been previously studied and shown to have a positive effect. They also found that MR imaging in infants with asphyxia and the need for gastrostomy and tube feeding in those with brainstem involvement were associated. Various interventions that affect the transition to oral nutrition positively and shorten the discharge time are included in the literature. Stimulation of non-nutritive sucking (NNS) is the most frequently preferred method among these interventions. It has been shown in studies that there are no short-term negative effects of NNS stimulation with the help of a pacifier or gloved finger, and some clinical benefits such as better bottle feeding performance, acceleration of discharge and transition to oral feeding. The effect of the NNS stimulation method, which has been shown to be effective in preterm infants with large-scale randomized controlled studies, is not known exactly. The aim of this study is to examine the effect of NNS stimulation applied to oral feeding, feeding skills, weight gain and discharge in asphyxia infants receiving hypothermia treatment.
A Multi-site Study of Autologous Cord Blood Cells for Hypoxic Ischemic Encephalopathy
Moderate or Severe Hypoxic-ischemic Encephalopathy in NewbornsThis study will test the safety and efficacy of an infusion of a baby's own (autologous) umbilical cord blood as compared with placebo in babies born with history and signs of hypoxic-ischemic brain injury.
Dexmedetomidine Pharmacokinetics in Neonates During Therapeutic Hypothermia
Hypoxic-ischemic EncephalopathyThe goal of this proposal is to profile the pharmacokinetics of dexmedetomidine in newborns ≥36 weeks post-menstrual age during therapeutic hypothermia for hypoxic-ischemic encephalopathy.
Safety and Feasibility of Argatroban, Tissue Plasminogen Activator and Intra-arterial Therapy in...
StrokeCerebral IschemiaBackground: Our prior work with combination argatroban + recombinant tissue plasminogen activator (rt-PA) (ARTSS-1: Phase IIa low-dose safety study; n=65 and ARTSS-2: Phase IIb randomized low and high-dose study; n=90), demonstrated safety of the two drugs when delivered concomitantly and recanalization rates were greater than with historical controls. Further, interim analysis of neurological outcomes at 75 patients of the randomized Phase IIb trial, demonstrated a signal of efficacy when compared to control (rt-PA alone) patients. However, rt-PA fails to reperfuse brain in most patients with large thrombi, prompting several recent randomized clinical trials which have demonstrated that intra-arterial therapy (IA) following rt-PA substantially improves outcome in patients with distal carotid or proximal middle cerebral artery occlusions. As a result, rt-PA + IA has become the new standard-of-care for many patients with large arterial occlusions such as those treated in ARTSS-1 and 2. Therefore, this study is necessary to explore the feasibility and safety of adding Argatroban in acute ischemic stroke patients who also receive rt-PA followed by IA. Primary Objective: To demonstrate the feasibility and safety of treating stroke patients with Argatroban who undergo usual thrombolysis care (intravenous rt-PA followed by IA). Secondary Objectives: Assess rates of ultra-early recanalization at commencement of IA; Assess the completeness and pattern of reperfusion as obtained by IA; 3) Assess clinical outcome