Antenatal melatonin as an antioxidant in human pregnancies complicated by fetal growth restriction—a phase I pilot clinical trial: study protocol

Fetal intrauterine growth restriction presents a complex management problem for the clinician. The failure of a fetus to achieve its growth potential imparts a significantly increased risk of perinatal morbidity and mortality. Consequently, the obstetrician must recognize and accurately diagnose inadequate fetal growth and attempt to determine its cause. Growth aberrations, which are the result of intrinsic fetal factors such as aneuploidy and multifactorial congenital malformations, and fetal infection, carry a guarded prognosis. However, when intrauterine growth restriction is caused by placental abnormalities or maternal disease, the growth aberration is usually the consequence of inadequate substrates for fetal metabolism and, to a greater or lesser degree, decreased oxygen availability. Careful monitoring of fetal growth and well-being, combined with appropriate timing and mode of delivery, can best ensure a favorable outcome. Ultrasound evaluation of fetal growth, behavior, and measurement of impedance to blood flow in fetal arterial and venous vessels form the cornerstone of evaluation of fetal condition and decision making.

Free radicals have been implicated in the pathogenesis of neonatal sepsis and its complications. This study was conducted to determine the changes in the clinical status and the serum levels of lipid peroxidation products [malondialdehyde (MDA) and 4-hydroxylalkenals (4-HDA)] in 10 septic newborns treated with the antioxidant melatonin given within the first 12 h after diagnosis. Ten other septic newborns in a comparable state were used as "septic" controls, while 10 healthy newborns served as normal controls. A total of 20 mg melatonin was administered orally in two doses of 10 mg each, with a 1-h interval. One blood sample was collected before melatonin administration and two additional blood samples (at 1 and 4 h) were collected after melatonin administration to assess serum levels of lipid peroxidation products. Serum MDA + 4-HDA concentrations in newborns with sepsis were significantly higher than those in healthy infants without sepsis; in contrast, in septic newborns treated with melatonin there was a significant reduction (p < 0.05) of MDA + 4-HDA to the levels in the normal controls at both 1 and 4 h (p < 0.05). Melatonin also improved the clinical outcome of the septic newborns as judged by measurement of sepsis-related serum parameters after 24 and 48 h. Three of 10 septic children who were not treated with melatonin died within 72 h after diagnosis of sepsis; none of the 10 septic newborns treated with melatonin died. To our knowledge, this is the first study where melatonin was given to human newborns.

The purpose of this systematic review is to access the current state of knowledge concerning the role for melatonin in human pregnancy. Melatonin is a neuroendocrine hormone secreted nightly by pineal gland and regulates biological rhythms. The nighttime serum concentration of melatonin shows an incremental change toward the end of pregnancy. This small lipophilic indoleamine crosses the placenta freely without being altered. Maternal melatonin enters the fetal circulation with ease providing photoperiodic information to the fetus. Melatonin works in a variety of ways as a circadian rhythm modulator, endocrine modulator, immunomodulator, direct free radical scavenger and indirect antioxidant and cytoprotective agent in human pregnancy, and it appears to be essential for successful pregnancy. It also seems to be involved in correcting the pathophysiology of complications during pregnancy including those due to abortion, pre-eclampsia and fetal brain damage. The scientific evidence supporting a role for melatonin in human pregnancy is summarized.