Severe Pre-eclampsia Clinical Trial
Official title:
Rosuvastatin Use in Order to Induce Preeclampsia Resolution in Severe Preeclampsia Cases up to 48 Hours Following Delivery
Prospective randomized single blind trial. Study population are women diagnosed with severe pre-eclampsia during singleton pregnancy, between 24+0 weeks and 41+6 weeks gestational age. The purpose of the study is to evaluate the effect of Rosuvastatin on the severe preeclampsia resolution at 48 hours after delivery. After screening and signing an informed consent form, before entering delivery room, a randomization 1:1 will be carried. 50 women will be in the treatment arm while 50 will be in the control arm. Both groups will be treated according to ACOG (The American College of Obstetricians and Gynecologists has the following clinical guidelines related to deliveries before 39 weeks) guidelines. In addition, following randomization experimental group will be treated with Rosuvastatin 40mg that will be administrated orally with or without food. Treatment will be carried within the first hour following delivery. Another dose will be given 24 hours after first administration. Control group will be treated with placebo.
Preeclampsia is a disorder of widespread vascular endothelial malfunction and vasospasm that
occurs after 20 weeks' gestation and can present as late as 4-6 weeks' postpartum. It is
clinically defined by as blood pressure ≥140 mmHg systolic and ≥90 mmHg diastolic diagnosed
for the first time after 20 weeks' gestation together with >300mg proteinuria/24 hours.
The global incidence of preeclampsia has been estimated at 5-14% of all pregnancies.
Pre-eclampsia affects approximately 6-8% of all pregnancies worldwide. Pre-eclampsia affects
3-5% of all first time pregnancies, but early severe pre-eclampsia occurs in only 1:200
pregnancies.
Significant risk factors for pre-eclampsia are as follows: Nulliparity, age >40 years, black
race, family history, chronic renal disease, chronic hypertension, antiphospholipid
syndrome, diabetes mellitus , multiple gestation and high body mass index.
Mild preeclampsia is defined as the presence of hypertension (BP ≥140/90 mm Hg) on 2
occasions, at least 6 hours apart, but without evidence of end-organ damage.
Severe preeclampsia is defined as the presence of 1 of the following symptoms or signs in
the presence of preeclampsia:
marked elevation of blood pressure (>160/110 mmHg), severe proteinuria (>5 g/24 hours), or
evidence of central nervous system (CNS) dysfunction (headaches, blurred vision, seizures,
coma), renal dysfunction (oliguria or creatinine > 1.5 mg/dL), pulmonary edema,
hepatocellular injury (ALT > 2-fold the upper limits of normal), hematologic dysfunction
(platelet count < 100,000/L or DIC), or placental dysfunction (oligohydramnios or severe
intrauterine growth restriction). The HELLP (hemolysis, elevated liver enzymes, low
platelets) syndrome is a special subgroup of severe preeclampsia and is a major cause of
morbidity and mortality.
Eclampsia is defined as seizures that cannot be attributable to other causes in a woman with
preeclampsia.
The optimal management of a woman with preeclampsia depends on gestational age and disease
severity Management of preeclampsia is challenging because it requires the clinician to
balance the health of the mother and fetus simultaneously. Patients with mild preeclampsia
are often induced after 37 weeks gestation. Before this, the immature fetus is treated with
expectant management with bed rest, close monitoring of blood pressure and renal function,
and careful fetal surveillance. For women with severe preeclampsia, induction of delivery
should be considered after 34 weeks gestation unless the patient is eligible for expectant
management in a tertiary hospital setting. The definitive treatment of preeclampsia is
delivery of the fetus and placenta. Anti-hypertensive drugs are essential for severe
hypertension (≥160 mmHg systolic or ≥110 mmHg diastolic) for reducing the risk of
cerebrovascular accidents. Intravenous Labetalol, Nifedipine or hydralazine are the drugs
most commonly used to manage preeclampsia but there is insignificant evidence to indicate
which drug is preferable..
Magnesium sulfate is the treatment of choice for the prevention and treatment of eclamptic
seizures Where immediate child-birth is not essential, a delay of 24 hours will allow
steroids to be given to mature the baby's lungs, although a shorter duration may still be of
benefit.
Preeclampsia is associated with short-term and long-term maternal and fetal complications.
For the mother, it may lead to eclamptic seizures, stroke, intracranial bleed, uncontrolled
hypertension, renal failure, and hemolysis. For the fetus, it may lead to intrauterine
growth restriction, placental abruption, and the short-term and long-term complications of
prematurity, as well as predisposition to adult cardiovascular and metabolic disorders.
Currently, there is no effective therapy to preeclampsia, and delivery remains the only
approach to preventing maternal morbidity and mortality. However, this is usually achieved
at the expense of premature delivery and its associated morbidities. Moreover, following the
delivery, preeclampsia resolved slowly within days, exposing the mother to late
complications and increasing treatment cost significantly.
To date, the exact etiology of preeclampsia remains unknown. However, evidence obtained in
recent years, supports the theory that angiogenic imbalance is the end common pathway that
leads to clinical preeclampsia. During normal pregnancy, vascular endothelial growth factor
(VEGF) and placental growth factor (PlGF) promote pro-angiogenic state that regulates
vascular tone and glomerular capillary health. In preeclampsia, these proteins are
antagonized by excessive placental production of soluble fms-like tyrosine kinase-1
(sFlt-1), thereby creating angiogenic imbalance. After delivery, this imbalance resolves
within hours to days correlating with the resolution of the disease. One of the observations
that marked sFlt-1 as key player in the pathogenesis of preeclampsia was made in an animal
model. It was demonstrated that preeclampsia can be induced in animal model by over
expressing sFlt-1 alone. In their model hydrophilic statins treatment decreased sFlt-1
levels and up-regulated VEGF and PlGF levels. Most importantly, statins ameliorated
preeclampsia symptoms by improving hypertension and proteinuria in the preeclamptic mice.
Statins are potent inhibitors of cholesterol biosynthesis and used successfully in the
primary and secondary prevention of coronary heart disease. Additionally, statins are known
to mediate pleiotropic effects via improving endothelial function and attenuating
inflammatory responses. Rosuvastatin is a hydrophilic statin, characterized by low
permeability through membranes, as the placenta and blood-brain-barrier. In addition, Short
treatment (hours to days) with this type of statin improved the outcome of patients during
acute myocardial infarction, sepsis, contrast-induced nephropathy, hepatic
ischemia/reperfusion injury, emphasizing its preferential pleiotropic effects.
Currently, the food and drug administration classifies all statins as pregnancy category X
and discourages their use during pregnancy due to higher abortion rate and teratogenicity
that were observed in animals exposed to hydrophobic statins during pregnancy. Evidence for
teratogenicity of the hydrophilic statins was never reported probably due to their limited
permeability across membranes. Since the use of statins after delivery is allowed, the
present study will aim to evaluate whether Rosuvastatin may accelerates preeclampsia
resolution following delivery and potentially reduce postpartum preeclampsia complications.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Single Blind (Subject), Primary Purpose: Treatment
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