Abstract
Bilirubin toxicity to the central nervous system (CNS) is responsible for severe and permanent neurologic damage, resulting in hearing loss, cognitive, and movement impairment. Timely and effective management of severe neonatal hyperbilirubinemia by phototherapy or exchange transfusion is crucial for avoiding permanent neurological consequences, but these therapies are not always possible, particularly in low-income countries. To explore alternative options, we investigated a pharmaceutical approach focused on protecting the CNS from pigment toxicity, independently from serum bilirubin level. To this goal, we tested the ability of curcumin, a nutraceutical already used with relevant results in animal models as well as in clinics in other diseases, in the Gunn rat, the spontaneous model of neonatal hyperbilirubinemia. Curcumin treatment fully abolished the landmark cerebellar hypoplasia of Gunn rat, restoring the histological features, and reverting the behavioral abnormalities present in the hyperbilirubinemic rat. The protection was mediated by a multi-target action on the main bilirubin-induced pathological mechanism ongoing CNS damage (inflammation, redox imbalance, and glutamate neurotoxicity). If confirmed by independent studies, the result suggests the potential of curcumin as an alternative/complementary approach to bilirubin-induced brain damage in the clinical scenario.
Highlights
If exposed to a high level of bilirubin, a metabolite of hemoglobin, the central nervous system (CNS) may undergo serious and permanent damage, especially when the challenge occurs in neonatal life
In developed regions, the emerging population of pre-term infants is at higher risk of developing kernicterus spectrum disorder (KSD), due to its intrinsic fragility and because PT seems to be less efficient in decreasing serum free bilirubin (Bf, the real fraction of blood bilirubin entering the brain) [12,13,14]
In the present work, we explored the efficacy of Curc in counteracting the main pathological mechanism ongoing bilirubin-induced brain damage [22] in vivo, by using the Gunn rat, the well-characterized spontaneous model of neonatal hyperbilirubinemia [42,43,44,45]
Summary
If exposed to a high level of bilirubin, a metabolite of hemoglobin, the CNS may undergo serious and permanent damage, especially when the challenge occurs in neonatal life. Cases of neurological consequences of bilirubin neurotoxicity are reported both in neonates exposed to PT [7,8], as well in subjects with total serum bilirubin below the known risk threshold [9,10,11]. In developed regions, the emerging population of pre-term infants is at higher risk of developing KSD, due to its intrinsic fragility and because PT seems to be less efficient in decreasing serum free bilirubin (Bf, the real fraction of blood bilirubin entering the brain) [12,13,14]. We believe there is a need for improving the therapeutical options [4,22]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
