Hydrocortisone Therapy Optimization During Hypothermia Treatment in Asphyxiated Neonates

Overview

This is a prospective, single center, pharmacokinetic study of intravenous hydrocortisone therapy for systemic low blood pressure during hypothermia treatment in asphyxiated newborns. Patients will be allocated to hydrocortisone supplementation while receiving conventional inotropic therapy as needed. The hypothesis is that a detailed study of hydrocortisone pharmacokinetics during therapeutic hypothermia would help to personalize steroid supplementation in asphyxiated neonates. As the overall metabolic rate decreases with lower body temperature, drug metabolism is likely to be reduced as well, and lower doses, or less frequent dosing will be sufficient to achieve the targeted steroid range and biological effects in asphyxiated neonates with relative adrenal insufficiency. Thus, the investigators are planning to measure initial, baseline serum cortisol levels and serial serum cortisol levels after hydrocortisone supplementation in cooled asphyxiated neonates.

The ultimate goal of the present study, is to describe a new approach of more personalized and safe care to infants with birth asphyxia and hemodynamic instability. Asphyxiated infants often present with multiorgan failure and low blood pressure. Therapeutic hypothermia, the standard of care, could worsen hemodynamic instability; therefore, treatment of cardiovascular impairment represents a major challenge in this clinical setting. An association was previously described between hypotension and low serum cortisol values in this patient population, and it was suggested that relative adrenal insufficiency (RAI) is an important factor in the circulatory compromise of these patients. In the "CORTISoL" clinical trial, it was also demonstrated that low-dose hydrocortisone therapy was effective in the treatment of cardiovascular impairment in asphyxiated neonates; however, some gaps remain in the knowledge on optimal dosing. Importantly, steroid therapy should be administered at the lowest effective dose and for the shortest possible duration in this vulnerable population. In the current pharmacokinetic study, the investigators propose a stepwise approach to more detailed understanding of RAI and hydrocortisone pharmacokinetics in asphyxiated neonates. The findings would certainly aid clinical decision-making and allow for more personalized therapeutic interventions for the treatment of hemodynamic instability.