Randomized, multi-site, study assessing the feasibility of lower limit of autoregulation targeted mean arterial pressure (MAP) vs. standard MAP management in neonates undergoing cardiac surgery with cardiopulmonary bypass. After eligibility screening and consent, subjects will be randomized to either the intervention (study) or control group.
Congenital heart disease (CHD) is the most common birth defect.1 Surgery to treat CHD is complicated by white matter injury (WMI) on brain magnetic resonance imaging (MRI) and neurodevelopmental (ND) deficits in 50% to 75% of neonates after CHD surgery.2-6 Cerebral hypoperfusion is a major mechanism of brain injury during both cardiopulmonary bypass (CPB) and the perioperative period in the intensive care unit (ICU).7-10 Investigators lack diagnostic and therapeutic means to reduce cerebral hypoperfusion-associated white matter injury (WMI) and improve long-term ND outcomes.11 Our long-term goal is to use real-time measurement of the cerebral lower limit of autoregulation (LLA) to manage arterial blood pressure, reduce cerebral hypoperfusion-associated brain injury, and improve long-term ND outcomes in children at risk for brain hypoperfusion. In a prospective, single blind, randomized clinical trial (RCT) in adults undergoing cardiac surgery, investigators previously showed that targeted LLA arterial blood pressure management to maintain mean arterial pressure (MAP) above the LLA decreased the incidence of postoperative delirium by 45%.12 Our preliminary data indicate that neonates are exposed to significantly more cerebral hypotension than adult patients undergoing CPB. Our central hypothesis is that a strategy of targeting mean arterial pressure (MAP) to a level above an individual's LLA will reduce the risk for WMI and neurodevelopmental impairment in neonates undergoing congenital heart surgery. Our team has validated methodology to delineate the LLA and demonstrated the important role of cerebral autoregulation monitoring on short-term outcomes in CHD subjects who have undergone CPB.13 We can rigorously measure cerebral autoregulation in real time and the amount of cerebral hypotension (duration and magnitude) through the integration of near infrared spectroscopy (NIRS) and the arterial blood pressure.14,15 The efficacy of an LLA targeted MAP strategy to minimize WMI and improve ND outcomes can only be demonstrated by a prospective, single-blind, multi-center randomized RCT. To obtain funding for this large multi-center RCT will require the demonstration of feasibility and safety, as well as, an estimation of the sample size needed to show efficacy.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
130
Neonates undergoing cardiothoracic surgery (CT) utilizing cardiopulmonary bypass (CPB) who will have active management of their mean arterial pressure (MAP) to keep the MAP above the LLA as measured by a novel autoregulation monitoring modality.
Neonates undergoing cardiothoracic surgery (CT) utilizing cardiopulmonary bypass (CPB) who will have management of their MAP by institutional practice without guidance from an autoregulation monitoring modality.
The Cleveland Clinic
Cleveland, Ohio, United States
Aim 1: Hypotension Exposure
Primary outcome is to reduce hypotension exposure, defined as the product of duration and magnitude of arterial blood pressure below LLA measured in the operating room and for the first 72 hours in the ICU.
Time frame: From beginning of surgery until 72 hours post-surgery
Aim 2: Lower Limit Autoregulation Monitoring (LLA)
To determine LLA targeted MAP vs standard MAP management in real time will not increase perioperative mortality and morbidity in neonates undergoing cardiac surgery with CPB
Time frame: First 30 days post-surgery in the ICU
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.