7 Clinical Trials for Various Conditions
Fluid-unresponsive hypotension needing cardiotropic drug treatment is a serious complication in very preterm neonates with suspected late-onset sepsis (LOS; defined as culture positive or negative bloodstream infection or necrotizing enterocolitis occurring \>48 hours of age). In Canada, \~250 very preterm neonates receive cardiotropic drugs for LOS related fluid-unresponsive hypotension every year; of these \~35-40% die. Unlike for adult patients, there is little evidence to inform practice. While several medications are used by clinicians, the most frequently used medications are Dopamine (DA) and Norepinephrine (NE). However, their relative impact on patient outcomes and safety is not known resulting in significant uncertainty and inter- and intra-unit variability in practice. Conducting large randomized trials in this subpopulation can be operationally challenging and expensive. Comparative effectiveness research (CER), is a feasible alternative which can generate high-quality real-world evidence using real-world data, by comparing the impact of different clinical practices. Aim: To conduct an international CER study, using a pragmatic clinical trial design, in conjunction with the existing infrastructure of the Canadian Neonatal Network to identify the optimal management of hypotension in very preterm neonates with suspected LOS. Objective: To compare the relative effectiveness and safety of pharmacologically equivalent dosages of DA versus NE for primary pharmacotherapy for fluid-unresponsive hypotension in preterm infants born ≤ 32 weeks gestational age with suspected LOS. Hypothesis: Primary treatment with NE will be associated with a lower mortality Methods: This CER project will compare management approach at the unit-level allowing inclusion of all eligible patients admitted during the study period. 15 centers in Canada, 4 centers in Ireland, 2 centers in Israel and 6 centers in the United States have agreed to standardize their practice. All eligible patients deemed circulatory insufficient will receive fluid therapy (minimum 10-20 cc/kg). If hypotension remains unresolved: Dopamine Units: start at 5mics/kg/min, increase every 16-30 minutes by 5 mics/kg/min to a maximum dose of 15 mics/kg/min or adequate response Norepinephrine Units: start at 0.05 mics/kg/min, increase every 16-30 minutes by 0.05 mics/kg/min to maximum dose of 0.15/mics/kg/min or adequate response
Hyperoxygenation for resuscitation of abnormal fetal heart rate tracings has been routine obstetric practice. However, there have not been any studies to support this practice. Recent literature have either found no associated benefit to intrapartum maternal oxygen administration, or in a number of studies demonstrated higher risk of neonatal complications. Despite these studies, the evidences have not been adequate to change the clinical practice because the majority of these studies either focused on biological differences rather than clinical outcomes data or were retrospective rather than randomized trials. Therefore, the investigators propose a large single center randomized clinical trial to determine the effects of maternal hyperoxygenation therapy for the treatment of fetal heart rate tracing abnormalities.
This trial will evaluate the effects of a 7-day course of hydrocortisone therapy on short-term morbidity, cardiovascular function, long-term neurodevelopment, and mortality in critically ill, term and late preterm infants diagnosed with cardiovascular insufficiency as defined by a need for inotrope therapy in the first 72 hours of age.
This observational study collects information on the current incidence and management of hypotension in babies born at term or late preterm that are admitted to Neonatal Intensive Care Units (NICUs) within the Neonatal Research Network (NRN). Participants include all newborn infants born at 34 0/7 weeks gestation or greater who are admitted to NICU Network centers and intubated and mechanically ventilated at less than 72 hours of age. The information gathered will provide a framework for the design of a potential randomized controlled trial for the treatment of hypotension in neonates. This observational study is for a time-limited enrollment period of 4-6 months; NRN centers will continue to enroll until at least 50 patients are enrolled per center (for approximately 800-1,000 subjects total).
Annually, almost 5,000 extremely low birth weight (9 ounces to about 2 lbs) infants born in the US survive with severe bleeding in the brain (intraventricular hemorrhage); this devastating complication of prematurity is associated with many problems, including mental retardation, cerebral palsy, and learning disabilities, that result in profound individual and familial consequences. In addition, lifetime care costs for these severely affected infants born in a single year exceed $3 billion. The huge individual and societal costs underscore the need for developing care strategies that may limit severe bleeding in the brain of these tiny infants. The overall goal of our research is to evaluate disturbances of brain blood flow in these tiny infants in order to predict which of them are at highest risk and to develop better intensive care techniques that will limit severe brain injury. 1. Since most of these infants require ventilators (respirators) to survive, we will investigate how 2 different methods of ventilation affect brain injury. We believe that a new method of ventilation, allowing normal carbon dioxide levels, will normalize brain blood flow and lead to less bleeding in the brain. 2. We will also examine how treatment for low blood pressure in these infants may be associated with brain injury. We believe that most very premature infants with low blood pressure actually do worse if they are treated. We think that by allowing the infants to normalize blood pressure on their own will allow them to stabilize blood flow to the brain leading to less intraventricular hemorrhage. 3. In 10 premature infants with severe brain bleeding, we have developed a simple technique to identify intraventricular hemorrhage before it happens. Apparently, the heart rate of infants who eventually develop severe intraventricular hemorrhage is less variable than infants who do not develop this. We plan to test this method in a large group of infants, to be able to predict which infants are at highest risk of developing intraventricular hemorrhage and who could most benefit from interventions that would reduce disturbances of brain blood flow.
Prematurity is a very important problem in this country. Prematurity can cause problems with organ (such as the brain, heart, kidneys) growth and development. A very important part of keeping premature babies healthy is ensuring good blood flow to all of these organs. Some premature babies have problems with their hearts and getting enough blood out to the rest of their bodies. This problem is referred to as hypotension (low blood pressure) and is found by looking at blood test values and while examining the baby. These babies will need medications to help their heart deliver blood to all of the important areas in their bodies. Babies who have hypotension requiring medications tend to have more problems than premature babies that don't need hypotension medication. Some of these problems include a higher risk of bleeding into their brain, kidney problems, liver problems, intestinal (gut) problems causing difficulty tolerating feeds, and a very dangerous infection of their intestines. Some long term effects include hearing loss, developmental delay, and learning problems in the future that are worse than other premature babies who did not have hypotension. Hypotensive premature babies also have a higher risk of death. The cause of hypotension in the first week of life is still not known. We know that babies have to get used to being in the outside world instead of in the womb. A lot of changes with the heart and lungs have to happen for them to not be affected by that transition. If we could gain a better understanding of those changes, we might be able to prevent some of these issues from happening. This study will look closely at premature babies with and without hypotension to assess the heart and lung changes in the first week of life. To do this, we will use monitoring machines and tests to get a better idea of all the changes that happen. This information will help all neonatologists who care for premature babies.
This trial tests the feasibility of enrolling 60 extremely preterm infants in a randomized, double-blinded study of blood pressure management within 12 months. Eligible infants will receive an infusion drug (dopamine or a dextrose placebo) and a syringe drug (hydrocortisone or a normal saline placebo). Enrolled infants will be randomized to receive one of the following drug pairs: * dopamine and hydrocortisone * dopamine and normal saline * dextrose and hydrocortisone * dextrose and normal saline. In addition to the intervention above, the NRN is conducting a 6-month time-limited prospective observational study of all infants born at an NRN center between 23 and 26 weeks gestational age. All clinical decisions made for these babies will be at the discretion of the attending neonatologist/infant care team according to standard practice at each institution. Data on blood pressure management in the first 24 postnatal hours collected for each infant.