Pregnancy Transient Hypertension Clinical Trial
Official title:
Circulating Melatonin and 6-hydroxymelatonin Levels During Pregnancy
Melatonin is well known for its role in the sleep-wake cycle but it is less well known as an
effective antioxidant. It has been reported to be synthesised in the placenta and may have
both receptor mediated and non-receptor mediated protective functions during pregnancy.
Severe pre-eclampsia has been reported to be associated with low levels of melatonin in the
placenta although it is not known if the placental melatonin contributes to circulating
levels. There is little reported on the circulating levels of melatonin or oxidative stress
at different stages of normal pregnancy. More information on the role of melatonin and
metabolism of melatonin in pregnancy as well as any significant association with adverse
pregnancy outcomes would inform planning of larger research studies to investigate the
potential role for melatonin as a biomarker for obstetric disease and potentially as a
therapeutic agent in future.
This observational pilot study aims to measure serum melatonin levels and 6-hydroxymelatonin
sulphate (the major metabolite of melatonin) during each trimester of pregnancy.
Melatonin, a substance produced by the pineal gland, is well known for its role in the
sleep-wake cycle but it is less well known as an effective antioxidant. It is able to access
all parts of the cell, and can cross the blood-brain and placental barrier. Melatonin has
been reported to be synthesised in the placenta and may have both receptor mediated and
non-receptor mediated protective functions during pregnancy. Severe pre-eclampsia has been
reported to be associated with low levels of melatonin in the placenta although it is not
known if the placental melatonin contributes to circulating levels. Despite this, melatonin
levels have been proposed as a biomarker of pre-eclampsia. A further study suggested
pregnant women with hypertensive or diabetic conditions had lower melatonin levels and less
circadian variation, again suggesting the potential protective role melatonin may have
during pregnancy. Due to its antioxidant effects melatonin has also been proposed as a
protective substance for women undergoing assisted reproduction techniques.
Rationale for study There is little reported on the circulating levels of melatonin or
oxidative stress at different stages of normal pregnancy. More information on the role of
melatonin and metabolism of melatonin in pregnancy as well as any significant association
with adverse pregnancy outcomes would inform planning of larger research studies to
investigate the potential role for melatonin as a bio-marker for obstetric disease and
potentially as a therapeutic agent in future.
This observational pilot study aims to measure serum melatonin levels and 6-hydroxymelatonin
sulphate (the major metabolite of melatonin) during each trimester of pregnancy.
STUDY OBJECTIVES Objectives Primary Objective To determine if serum melatonin and
6-hydroxymelatonin sulphate levels differ in each trimester of pregnancy and how these
compare to non-pregnant women Secondary Objectives
1. To determine level of oxidative stress at time of serum sample by measuring lipid
peroxide levels
2. To explore whether levels of serum melatonin and 6-hydroxymelatonin sulphate vary in
women who develop antenatal complications (pre-eclampsia or hypertensive diseases of
pregnancy, preterm labour or gestational diabetes)
OUTCOMES Primary Outcome Serum melatonin and 6-hydroxymelatonin sulphate levels Secondary
Outcomes
1. Level of oxidative stress at time of sampling (lipid peroxide levels)
2. Outcome of pregnancy (live birth or not, development of preeclampsia / hypertensive
disease of pregnancy, gestational diabetes or preterm labor.
STUDY DESIGN Study Description
Twenty healthy women in their first pregnancy will be recruited at their first antenatal
(scan) visit at 11-13 weeks gestation. Recruitment will continue throughout the medical
student's allocated project time period to allow recruitment of as many women as possible,
but at least twenty pregnant women. A venous blood sample to measure serum melatonin and
6-hydroxymelatonin sulphate levels will be obtained using aseptic technique. Sampling, when
possible, will be carried out at the same time as for routine clinical screening. The first
blood sample will be done at 11-13 weeks gestation (first trimester) and could be done along
with routine antenatal screening blood tests. A second blood sample will be taken when women
attend for their detailed ultrasound scan at approximately 20 weeks (2nd trimester). The
participant may not need other routine blood tests at this time, therefore this blood sample
would only be for the purpose of the study.
A third and final blood sample will be obtained at around 28 weeks gestation (third
trimester). This could be done at the routine 28 week appointment with the participant's
community midwife when routine pregnancy blood tests will already be undertaken. Consent
will be sought from the participant to contact the applicable community midwife to arrange
to attend the midwifery appointment at around 28 weeks. The third blood sample will be taken
either at Aberdeen Maternity Hospital or at the participant's GP practice depending on
preference and convenience of appointment location for the participant and community
midwife. The researchers will not contact the participant directly. If the woman is
attending the obstetric antenatal clinic at that gestation the blood sample could
alternatively be obtained there along with the routine antenatal screening blood tests.
Non-pregnant controls will be recruited by advertising using posters around the University
of Aberdeen/Aberdeen Royal Infirmary campus, aiming for 20 non pregnant women, aged between
16 and 45 to have blood samples taken for serum melatonin and 6-hydroxy-melatonin sulphate
levels. Samples will be taken at the same time of day and year as pregnant subjects to
account for any seasonal effects.
Serum melatonin will be measured using liquid chromatography-tandem mass spectrometry and
6-hydroxymelatonin sulphate will be measured using enzyme immunoassay. Lipid peroxides will
be measured using a colorimetric assay.
Written informed consent will be obtained from all participants. Women will be asked for
their age, body mass index, gestation stage, smoking status, name of their community midwife
and a series of screening questions to determine eligibility according to inclusion
criteria. Once recruited, an anonymous code will be assigned and all data will be kept
separately from identifiable information.
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