Melatonin treatment in fetal and neonatal diseases.
Study Goal
The researchers aimed to evaluate the role of melatonin in treating oxidative stress-related gestational disorders and its effects on fetal and neonatal health.
Results Summary
The study found that melatonin's antioxidant properties improve placental perfusion, fetal nutrition, and oxygenation, and it may help mitigate conditions like intrauterine growth restriction and neonatal encephalopathy.
Population
Pregnant individuals and neonates with oxidative stress-related gestational disorders.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
melatonin | increase | cell proliferation in fetuses | fetuses | - | induces specific biochemical responses that regulate | #1 |
melatonin | increase | nitric oxide | - | - | promotes bioavailability of | #2 |
melatonin | increase | placental perfusion | - | - | promotes | #3 |
melatonin | increase | fetal nutrition and oxygenation | fetus | - | promotes | #4 |
melatonin | decrease | intrauterine growth restriction | pediatric age group | - | minimize or prevent | #5 |
melatonin | decrease | encephalopathy | pediatric age group | - | minimize or prevent | #6 |
melatonin | decrease | chronic lung diseases | pediatric age group | - | minimize or prevent | #7 |
melatonin | decrease | retinopathy of prematurity | pediatric age group | - | minimize or prevent | #8 |
melatonin | neutral | these diseases | - | - | is an important therapy for the clinical treatment of | #9 |
This literature review aims to address the main scientific findings on oxidative stress activity in different gestational disorders, as well as the function and application of melatonin in the treatment of fetal and neonatal changes. Oxidative stress has been associated with the etiopathogenesis of recurrent miscarriages, preeclampsia, intrauterine growth restriction, and stillbirth. Both, the exacerbated consumption of the antioxidant enzymes superoxide dismutase, catalase and glutathione peroxidase, and the increased synthesis of reactive oxygen species, such as superoxide, peroxynitrite, and hydrogen peroxide, induce phospholipid peroxidation and endothelial dysfunction, impaired invasion and death of trophoblast cells, impaired decidualization, and remodeling of maternal spiral arteries. It has been postulated that melatonin induces specific biochemical responses that regulate cell proliferation in fetuses, and that its antioxidant action promotes bioavailability of nitric oxide and, thus, placental perfusion and also fetal nutrition and oxygenation. Therefore, the therapeutic action of melatonin has been the subject of major studies that aim to minimize or prevent different injuries affecting this pediatric age group, such as intrauterine growth restriction, encephalopathy, chronic lung diseases, retinopathy of prematurity Conclusion: the results antioxidant and indicate that melatonin is an important therapy for the clinical treatment of these diseases.