Adrenal Insufficiency Neonatal Clinical Trial
Official title:
Impact of Pre-operative Steroids on Adrenal Insufficiency and Clinical Outcomes After Neonatal Cardiac Surgery With Cardiopulmonary Bypass
Little is known regarding the incidence and clinical impact of AI in neonates during the acute postoperative period following separation from CPB. In a randomized control pilot study performed by the UAB CVICU research team, prophylactic post-CPB hydrocortisone infusions improved some postoperative outcomes, especially in those that acquired AI7. In an attempt to further explore post-CPB AI, a retrospective analysis of data from this study was performed. Of the 40 neonates included in the study, one-third (32.5%) developed AI following CPB (as determined by low-dose, 1 µg, cosyntropin stimulation test). Almost all of these subjects had normal response to cosyntropin stimulation pre-CPB. Subjects that developed AI demonstrated more hemodynamic instability, increased serum lactate and required more colloid resuscitation in the immediate post-CPB period in the operating room. Recent evidence has begun to highlight potential morbidity associated with perioperative steroid administration. Our cardiac surgery program is changing clinical practice and ceasing to give preoperative steroids to all patients (previously only neonatal CPB patients received preoperative methylprednisolone). With the possibility that preoperative steroid administration, and not CPB, primarily causes the high incidence of AI, it is prudent to further investigate the benefit and/or harm of perioperative steroid administration
Cardiopulmonary bypass (CPB) induces systemic inflammatory response syndrome (SIRS), which
may contribute to postoperative morbidity. Neonates experience an exaggerated inflammatory
response and may be at a higher risk for the deleterious effects of CPB. SIRS may disrupt the
hypothalamic-pituitary-adrenal (HPA) axis leading to a relative adrenal insufficiency (AI)
after neonatal CPB. There is some emerging evidence supporting an association of AI with
morbidity in neonates after cardiac surgery. Postoperative steroids may offer hemodynamic
benefits to neonates suffering from low cardiac output syndrome (LCOS) following CPB. Benefit
of postoperative steroids is multifactorial including: suppression of inflammatory cytokines,
direct actions on the heart and vascular smooth muscle, and treatment of AI in a subset of
patients.
Little is known regarding the incidence and clinical impact of AI in neonates during the
acute postoperative period following separation from CPB. In a randomized control pilot study
performed by the UAB CVICU research team, prophylactic post-CPB hydrocortisone infusions
improved some postoperative outcomes, especially in those that acquired AI. In an attempt to
further explore post-CPB AI, a retrospective analysis of data from this study was performed.
Of the 40 neonates included in the study, one-third (32.5%) developed AI following CPB (as
determined by low-dose, 1 µg, cosyntropin stimulation test). Almost all of these subjects had
normal response to cosyntropin stimulation pre-CPB. Subjects that developed AI demonstrated
more hemodynamic instability, increased serum lactate and required more colloid resuscitation
in the immediate post-CPB period in the operating room.
In this retrospective analysis by Crawford et al.8 ACTH levels were found to be significantly
lower post-CPB compared to preoperative levels. This may be secondary to a blunted HPA axis
caused by preoperative methylprednisolone (all patients received), which could result in
transient, iatrogenic AI. Serum cytokines were not significantly different in patients
exhibiting AI compared to those with a normal adrenal response indicating that increased
inflammation was not primarily responsible for the development of AI. Higher
methylprednisolone levels result in higher cortisol levels due to cross-reactivity of the
assays; patients with higher baseline postoperative cortisol levels demonstrated a blunted
response to cosyntropin suggesting that these patients may have higher blood concentrations
of methylprednisolone and its metabolites, thereby leading to more inhibition of the HPA
axis. Taken together, these two studies demonstrate that AI occurs at high frequency after
neonatal CPB and that AI is associated with deleterious outcomes. While postoperative
hydrocortisone improves outcomes in neonates with AI, the investigator cannot exclude
preoperative methylprednisolone as a cause of iatrogenic AI. Other investigators have shown
in children treated with dexamethasone prior to surgery, that higher measured levels of
dexamethasone were associated with postoperative AI9.
The majority of congenital heart surgery centers utilize perioperative steroids in neonates
undergoing cardiac surgery with the rationale that it modulates post-CPB SIRS and
treats/prevents AI; studies have inconsistently demonstrated benefit of this approach.
Additionally, recent evidence has begun to highlight potential morbidity associated with
perioperative steroid administration. Our cardiac surgery program is changing clinical
practice and ceasing to give preoperative steroids to all patients (previously only neonatal
CPB patients received preoperative methylprednisolone). With the possibility that
preoperative steroid administration, and not CPB, primarily causes the high incidence of AI,
it is prudent to further investigate the benefit and/or harm of perioperative steroid
administration.
With these facts in mind, the investigator designed this study to determine the impact of
preoperative steroid administration on development of AI and other outcomes after neonatal
cardiac surgery.
B. Herein the investigator proposes to test the following HYPOTHESES and address these
SPECIFIC AIMS:
HYPOTHESES: Preoperative steroid (methylprednisolone) administration is associated with
development of iatrogenic AI; AI leads to increased postoperative morbidity. Preoperative
steroids do not have important impact on other postoperative clinical outcomes.
SPECIFIC AIM# 1: Determine the incidence of AI (as diagnosed by 1µg cosyntropin stimulation
testing) following CPB in neonates who do not receive preoperative steroids; compare to the
previous cohort that received preoperative steroids.
SPECIFIC AIM# 2: Compare ACTH and cortisol levels between the two cohorts of neonates (those
who do and those who do not receive preoperative steroids).
SPECIFIC AIM# 3: Compare secondary clinical outcomes including volume of crystalloid/colloid
administered in the CVOR, hemodynamic parameters, laboratory values, vasoactive-inotrope
score (VIS), duration of mechanical ventilation, fluid overload and mortality of the two
cohorts of neonates.
;