Title:New Pharmacological Approaches in Infants with Hypoxic-Ischemic Encephalopathy
Volume: 18
Issue: 21
Author(s): Giuseppe Buonocore, Serafina Perrone, Giovanni Turrisi, Boris W. Kramer and Walter Balduini
Affiliation:
Keywords:
Newborn infant, hypoxic-ischemic encephalopathy, birth asphyxia, brain injury, oxidative stress, neuroprotection, biochemical modifications, melatonin, statins, adjunctive therapy
Abstract: New knowledge of the pathophysiology and evolution of hypoxic-ischemic brain injuries has made feasible interventions to
improve clinical outcomes for newborns surviving birth asphyxia. Brain injury following hypoxic-ischemic insult is a complex process
evolving over hours to days, which provides a unique window of opportunity for neuroprotective treatment interventions. The specific
pathologic processes preceding the onset of irreversible cerebral injury appear to be a combination of several mechanisms that are variable
according to the severity and duration of the insult and to biochemical modifications in the brain. Advances in neuroimaging, brain
monitoring techniques, and tissue biomarkers have improved the ability to diagnose, monitor, and care for newborn infants with neonatal
encephalopathy, as well as to predict their outcome. The role of oxidative stress in newborn morbidity with respect to the higher risk of
free radical damage in these babies is growing. However, challenges remain in early identification of infants at risk for neonatal encephalopathy,
determination of timing and extent of hypoxic-ischemic brain injury, as well as optimal management and treatment duration. Potential
neuroprotective strategies targeting different pathways leading to neuronal cell death in response to hypoxic-ischemic insult have
been investigated: hypothermia, erythropoietin, iminobiotin, deferioxamine, magnesium, allopurinol, xenon, melatonin and statins. Hypothermia
is currently the only recognized beneficial therapy. However, many infants still develop significant adverse outcomes. It is becoming
evident that the association of moderate hypothermia with neuroprotective drugs may enhance the outcome. By virtue of their
pleiotropic effects without toxic effects, melatonin and statins may act at different levels of the multiple mechanisms responsible for the
progression of the neurodegenerative process and represent promising neuroprotectants, alone or as additional adjunctive therapy, for reducing
brain injury and its long-term sequelae in infants. More clinical studies are needed to clarify the role of these potential neuroprotective
drugs.
