Safety of Clonidine in Infants With Hypoxic Ischemic Encephalopathy During Therapeutic Hypothermia

Overview

This research is being done to find out the safety of the investigational study drug, Clonidine Hydrochloride ( CLON). , in infants who are undergoing whole body cooling for the treatment of hypoxic ischemic encephalopathy (HIE). The only known and effective treatment for HIE is therapeutic hypothermia or whole body cooling for72 hours. During the cooling process, babies get agitated, shiver and are uncomfortable. To treat these side effects morphine is frequently used. CLON is very effective in decreasing shivering in adults and children. Furthermore, in some preclinical studies, clonidine has been shown to be neuroprotective (safe for the brain in models of brain injury)..This is a Phase I-II to determine if low dose CLON will reduce the incidence of shivering and whether it has short term cardiovascular safety. In this Phase I-II study, the investigators will determine the (i) the maximum tolerated dose of CLON during cooling for HIE, (ii) the effects of CLON on heart rate, blood pressure, core body temperature and cerebral autoregulation (ability to maintain constant blood flow to the brain) and (iii) association between blood levels and changes in the above parameters. In this study the investigators hope to find ways to improve sedation, shivering and agitation in newborn infants with HIE on the cooling protocol. Our ultimate goal is determine the potential neuro-protective properties of clonidine in newborn babies with HIE.

The most desirable sedative-analgesic agent used in infants with HIE would 1) have an excellent safety profile, 2) provide adequate analgesia and sedation, 3) reduce shivering, 4) cause minimal respiratory depression, 5) preserve cerebrovascular autoregulation, and 6) confer neuroprotection. Several lines of evidence suggest alpha 2 adrenergic receptor agonist class of sedatives-analgesics may have all these properties. The investigators have recently developed a sensitive assay to measure clonidine levels which will allow us to perform population Pharmacokinetic (PK)/Pharmacodynamic (PD) analyses of clonidine in sick newborns. Thus, this phase I/II trial is designed to test the hypothesis clonidine , an alpha- 2 adrenergic receptor agonist, will reduce the incidence of shivering without adversely affecting heart rate (HR), blood pressure (BP), temperature regulation or cerebrovascular autoregulation. Essentially all classes of sedative-analgesic agents affect mean arterial blood pressure (MAP) which can alter cerebral perfusion and affect cerebrovascular autoregulation. Cerebrovascular autoregulation is when blood flow to the brain is held relatively constant over a wide range of MAPs; it ensures a steady supply of oxygenated blood to the brain, and is only functional within a specific range of MAP's. When MAP deviates from this range and drops below the lower limit of autoregulation, blood flow becomes passive to MAP and the brain is placed at risk for ischemic injury. Brain injury alters cerebrovascular autoregulation in the region of injury, and together with sub-optimal MAP after hypoxic brain injury could cause more brain ischemia leading to poor outcomes, seizures, and permanent neurologic injuries. Little information is available on the effect of HIE alone or in combination with hypothermia on cerebrovascular autoregulation, and no information is published on the direct effect of sedative-analgesics on alterations in hemodynamic parameters and subsequent indirect or direct effects on cerebrovascular autoregulation in newborns with HIE. Thus, this study will establish the safety of clonidine, a commonly used sedative-analgesic in infants and children, in a population of infants with HIE undergoing therapeutic hypothermia. A secondary exploratory outcome is to determine the efficacy of clonidine in reducing shivering during the cooling phase of the therapeutic hypothermia protocol.