Fate of melatonin orally administered in preterm newborns: Antioxidant performance and basis for neuroprotection-Reference-Cited by-同舟云学术

Fate of melatonin orally administered in preterm newborns: Antioxidant performance and basis for neuroprotection

Published:2023-12-18 Issue:1 Volume:76 Page:
ISSN:0742-3098
Container-title:Journal of Pineal Research
language:en
Short-container-title:Journal of Pineal Research

Author:

Garofoli Francesca¹,Franco Valentina²³,Accorsi Patrizia⁴,Albertini Riccardo⁵,Angelini Micol¹,Asteggiano Carlo⁶⁷,Aversa Salvatore⁸,Ballante Elena⁹¹⁰,Borgatti Renato⁶¹¹,Cabini Raffaella F.¹²,Caporali Camilla⁶,Chiapparini Luisa¹³,Cociglio Sara⁶,Fazzi Elisa⁴¹⁴,Longo Stefania¹,Malerba Laura⁴,Materia Valeria⁸,Mazzocchi Laura⁷,Naboni Cecilia⁶¹¹,Palmisani Michela²³,Pichiecchio Anna⁶⁷,Pinelli Lorenzo¹⁵,Pisoni Camilla¹,Preda Lorenzo¹³¹⁶,Riboli Alice¹⁷,Risso Francesco M.⁸,Rizzo Vittoria⁵,Rognone Elisa⁷,Simoncelli Anna M.¹³,Villani Paola⁵,Tzialla Chryssoula¹⁸,Ghirardello Stefano¹,Orcesi Simona⁶¹¹

Affiliation:

1. ¹Neonatal Unit and Neonatal Intensive Care Unit Fondazione IRCCS Policlinico San Matteo Pavia Italy

2. Department of Internal Medicine and Therapeutics, Clinical and Experimental Pharmacology Unit University of Pavia Pavia Italy

3. IRCCS Mondino Foundation Pavia Italy

4. Unit of Child Neurology and Psychiatry ASST‐Spedali Civili of Brescia Brescia Italy

5. Laboratory of Clinical Chemistry Fondazione IRCCS Policlinico San Matteo Pavia Italy

6. Department of Brain and Behavioral Sciences University of Pavia Pavia Italy

7. Department of Neuroradiology IRCCS Mondino Foundation Pavia Italy

8. Neonatal Intensive Care Unit, Children's Hospital University Hospital "Spedali Civili" of Brescia Brescia Italy

9. Political and Social Sciences University of Pavia Pavia Italy

10. BioData Science Center IRCCS Mondino Foundation Pavia Italy

11. Child Neurology and Psychiatry Unit IRCCS Mondino Foundation Pavia Italy

12. Department of Mathematics University of Pavia Pavia Italy

13. Radiodiagnostic Department Fondazione IRCCS Policlinico San Matteo Pavia Italy

14. Department of Clinical and Experimental Sciences University of Brescia Brescia Italy

15. Neuroradiology Department Pediatric Neuroradiology Section, Spedali Civili Brescia Italy

16. Department of Clinical, Surgical, Diagnostics and Pediatric sciences University of Pavia Italy

17. Hospital Pediatric Psychology, Unit of Psychology Children's Hospital “Spedali Civili” of Brescia Brescia Italy

18. Neonatal and Pediatric Unit Polo Ospedaliero Oltrepò, ASST Pavia Pavia Italy

Abstract

AbstractPreterm infants cannot counteract excessive reactive oxygen species (ROS) production due to preterm birth, leading to an excess of lipid peroxidation with malondialdehyde (MDA) production, capable of contributing to brain damage. Melatonin (ME), an endogenous brain hormone, and its metabolites, act as a free radical scavenger against ROS. Unfortunately, preterms have an impaired antioxidant system, resulting in the inability to produce and release ME. This prospective, multicenter, parallel groups, randomized, double‐blind, placebo‐controlled trial aimed to assess: (i) the endogenous production of ME in very preterm infants (gestational age ≤ 29 + 6 WE, 28 infants in the ME and 26 in the placebo group); (ii) the exogenous hormone availability and its metabolization to the main metabolite, 6‐OH‐ME after 15 days of ME oral treatment; (iii) difference of MDA plasma concentration, as peroxidation marker, after treatment. Blood was collected before the first administration (T1) and after 15 days of administration (T2). ME and 6‐OH‐ME were detected by liquid chromatography tandem mass spectrometry, MDA was measured by liquid chromatograph with fluorescence detection. ME and 6‐OH‐ME were not detectable in the placebo group at any study time‐point. ME was absent in the active group at T1. In contrast, after oral administration, ME and 6‐OH‐ME resulted highly detectable and the difference between concentrations T2 versus T1 was statistically significant, as well as the difference between treated and placebo groups at T2. MDA levels seemed stable during the 15 days of treatment in both groups. Nevertheless, a trend in the percentage of neonates with reduced MDA concentration at T2/T1 was 48.1% in the ME group versus 38.5% in the placebo group. We demonstrated that very preterm infants are not able to produce endogenous detectable plasma levels of ME during their first days of life. Still, following ME oral administration, appreciable amounts of ME and 6‐OH‐ME were available. The trend of MDA reduction in the active group requires further clinical trials to fix the dosage, the length of ME therapy and to identify more appropriate indexes to demonstrate, at biological and clinical levels, the antioxidant activity and consequent neuroprotectant potential of ME in very preterm newborns.

Publisher

Wiley

Subject

Endocrinology

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/jpi.12932

Reference38 articles.

1. Preterm Brain Injury and Neurodevelopmental Outcomes: A Meta-analysis

2. Change in neurodevelopmental outcomes for extremely premature infants over time: a systematic review and meta-analysis

3. Brain Damage in the Preterm Infant: Clinical Aspects and Recent Progress in the Prevention and Treatment

4. Dysmaturation of Premature Brain: Importance, Cellular Mechanisms, and Potential Interventions

5. Is melatonin ready to be used in preterm infants as a neuroprotectant?