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  • Review Article
  • OPEN ACCESS

Aspirin in Preeclampsia: Current Evidence and Future Scope of Research

  • Priyamadhaba Behera1,#,*,
  • Surama Manjari Behera2,#,
  • Hitakshi3,#,
  • Mohan Bairwa4,
  • Manju Pilania5 and
  • Susmita Dora1
 Author information
Exploratory Research and Hypothesis in Medicine   2018;3(3):68-72

doi: 10.14218/ERHM.2018.00010

Abstract

Maternal mortality remains a global health problem. Preeclampsia and eclampsia, major hypertensive disorders in pregnancy, remain the fourth leading cause of maternal mortality. The role of aspirin to prevent preeclampsia has been explored in the last 3 decades. This article summarizes the various studies done so far on the role of aspirin in preeclampsia and seeks to develop a hypothesis regarding the indication, dose and efficacy of aspirin therapy in the prevention of preeclampsia. Aspirin, when administered at 12–20 weeks of gestation at a dose of 75–150 mg seems to have a role in primary and secondary prevention of preeclampsia in high-risk pregnant women. The existing screening algorithms for preeclampsia have a high false positive rate. Therefore, a need for further research to develop a better screening algorithm for detection of women at a high risk of preeclampsia is warranted. The results, from the recent Combined Multimarker Screening and Randomized Patient Treatment with Aspirin for Evidence-Based Preeclampsia Prevention (ASPRE) study, reported better prevention of preeclampsia with a 150 mg dose of aspirin. Hence, more data from multicentric randomized controlled trials are required to establish the safety and higher effect size of 120–150 mg dose aspirin compared to the 75–100 mg dose of aspirin for prevention of preterm preeclampsia.

Keywords

Aspirin, Preeclampsia, Preterm preeclampsia, Maternal mortality

Introduction

Maternal mortality remains a global health problem, with disproportionately high incidence among low and middle income countries.1 Despite a 44% drop in maternal mortality worldwide from 1990 to 2015, it remains unacceptably high. About 830 women die due to pregnancy and childbirth-related causes every day, and 99% of these deaths occur in developing countries. Preeclampsia (PE) and eclampsia, major hypertensive disorders in pregnancy, remain the fourth most common cause of maternal mortality.1

PE refers to new-onset hypertension and proteinuria in a previously normotensive woman after 20 weeks of gestation.2 It is associated with maternal complications, both short and long term. The risk increases when the onset of PE is earlier (less than 32 weeks), severe (blood pressure of more than 160 mmHg systolic and 110 mmHg diastolic) and in those with pre-existing medical conditions.3 It affects about 2–8% of pregnancies and remains a major cause of maternal mortality and morbidity, preterm birth, perinatal death and fetal growth restriction.4,5

Although many hypotheses have been proposed, the etiology of PE still remains unclear. PE is thought to be associated with deficient production of prostacyclin and an increased production of thromboxane A2 (TXA2) by placenta and platelets.6 These findings have led to the use of antiplatelet agents in the prevention or amelioration of PE in pregnancy. Aspirin is an antiplatelet agent that inhibits cyclooxygenase production to a much higher degree than TXA2. In PE, aspirin is thought to rectify the imbalance between cyclooxygenase and TXA2.7 Therefore, low-dose aspirin (LDA) administration has been tried in various trials to examine its effect in the primary and secondary prevention of PE.

Aspirin in PE

The use of aspirin was documented by a randomized controlled trial carried out by Wallenburg and Rotmans in 1986,8 involving 46 normotensive primigravida patients with a high risk of developing hypertension. The trial suggested that ingestion of LDA from 28 weeks of gestation till delivery can prevent PE in primigravida patients with an increased sensitivity to angiotensin II (indicative of high risk for developing a hypertensive disorder in pregnancy).8

The Collaborative Low-Dose Aspirin Study in Pregnancy (known as CLASP) trial—the largest of its kind in aspirin research, carried out over a period of 5 years (1988 to 1992) and involving 9,364 women between 12–32 weeks of gestation-concluded that 60 mg of aspirin daily was associated with only a 12% reduction in the incidence of PE, which was not significant. It also reported no significant effect on incidence of intrauterine growth retardation, stillbirth or intrauterine death. However, it was found to associate with a significant reduction in the incidence of PE in preterm deliveries.5

This trial generated curiosity to explore the role of aspirin in the prevention of PE in pregnancy. A meta-analysis done in 2011 by Trivedi et al.9 showed a 21% reduction in the risk of PE among high-risk groups with the use of LDA [relative risk: 0.79, 95% confidence interval (CI): 0.65–0.97]. However, LDA was not found to be effective in reducing the risk in low-risk groups (relative risk: 0.86, 95% CI: 0.64–1.17). The results of various trials are summarized in Table 1.5–19

Table 1

Studies of aspirin use in prevention of PE

Publication, YearRisk for pregnancy for PENo of trials includedPatients includedDoseGestational age for initiation of aspirin treatmentRelative riskRemarks
Wallenburg et al.,7 198614660 mg28 weeksIngestion of LDA from 28 weeks’ gestation until delivery may prevent PIH and PE in primigravidae with an increased sensitivity to angiotensin II
Ruano et al.,13 2005Low516,700 women60–100 mg12–32 weeks0.95 (0.81–1.11)13% reduction of preterm PE in high-risk pregnant women
High1716,898 women60–150 mg12–33 weeks0.87 (0.79–0.96)
Askie et al.,14 20073132,217 women50–150 mgBefore 20 weeks0.90 (0.84–0.97)PE was reduced by 10% (95% CI: 3.0%–16.0%)
Trivedi et al.,8 20111928,237 women50–150 mg7–32 weeks0.86 (0.64–1.1)No correlation between the dose of aspirin and prevention of PE [correlation coefficient r = 0.13 (95% CI: 0.34–0.55; p = 0.58)]
Bujold et al.,15 20124392 women50–150 mgBefore 16 weeks0.22 (0.08–0.57)LDA when started at 16 weeks or earlier, was associated with a significant reduction in PE (RR: 0.47, 95% CI: 0.34–0.65)
Henderson et al.,16 20141312,184 women0.76 (0.62–0.95)No evidence could be found in stratified comparisons between the timing of aspirin administration (<16 weeks) or the dose used had different effects on PE prevention
Xu et al.,17 20152921,40360–150 mg12–32 weeks0.71 (0.57–0.87)LDA is more effective in reducing incidence of PE or IUGR if used before 16 gestational weeks than if used later; LDA increases the incidence of placental abruption (OR: 1.35, 95% CI: 1.05–1.73) but not of other major complications
≤16 weeks0.37 (0.27–0.50)
>16 weeks0.77 (0.62–0.97)
Roberge et al.,18 20164520,90950–150 mgWhen aspirin was initiated at ≤16 weeks, there was a significant reduction and a dose-response effect for the prevention of PE; When aspirin was initiated at >16 weeks, there was a smaller reduction of PE (without relationship with aspirin dosage)
5130≤16 weeks0.57 (0.43–0.75)
15,779>16 weeks0.81 (0.66–0.99)
USPSTF guidelines1060–150 mgLDA (ranging from 60 mg to 150 mg daily) given to women at risk for PE reduced their risk by 24%
CLASP trial,5 199419,364 women60 mg12–32 weeks60 mg of aspirin daily at 12–32 weeks’ gestation was associated with only a 12% reduction in incidence of PE, which was not significant
Rolnik et al.,12 2017 (ASPRE trial)High11,776 women150 mg11–14 weeks0.38 (0.20–0.74)Aspirin dose from 11–26 weeks till 36 weeks of gestation resulted in a significant reduction (OR: 0.38, 0.95% CI: 0.20–0.74; p = 0.004) in incidence of preterm PE than that with placebo
Yu et al.,11 2003High1560150 mg23 weeks1.07 (0.75–1.52)150 mg of aspirin after 23 weeks of gestation did not prevent the development of PE (OR: 0.88, 0.95% CI: 0.56–1.40; p = 0.60) or preterm PE (OR: 0.72, 0.95% CI: 0.35–1.46; p = 0.36)
Meher et al.,19 20172330,670 womenBefore 16 weeks After 16 weeks0.90 (0.79–1.03)
0.90 (0.83–0.98)		Women at an increased risk of PE should be offered antiplatelet therapy, regardless of whether they are first seen before or after 16 weeks’ gestation

CI, confidence interval; IUGR, intrauterine growth retardation; LDA, low-dose aspirin; OR, odds ratio; PE, preeclampsia; RR: relative risk.

World Health Organisation (WHO) recommends LDA (75 mg) before 20 weeks of pregnancy among women at high risk for PE.20 However, the United States Preventive Task Force recommendation statement and American College of Obstetricians and Gynecologists (commonly known as the ACOG) recommended a low dose of aspirin (81 mg) prophylaxis from 12 weeks onwards for mothers who are at high risk for PE, based upon meta-analysis results.10,21 A multicentric trial carried out in four countries in 2003 by Yu et al.11 among 560 women concluded that the administration of 150 mg of aspirin after 23 weeks of gestation did not prevent the development of PE [odds ratio (OR): 0.88, 95% CI: 0.56–1.40; p = 0.60] or preterm PE (OR: 0.72, 95% CI:.35–1.46; p = 0.36).

However, the recent trial of aspirin research in PE, known as the ASPRE Trial-conducted in 2017 by Rolnik et al.12 and involving 1776 pregnant women at high risk of developing PE-showed that 150 mg of daily aspirin dose from 11–26 weeks till 36 weeks of gestation resulted in a significant reduction in incidence of preterm PE (OR: 0.38, 95% CI: 0.20–0.74; p = 0.004), as compared with placebo. Two other studies have investigated the effect of 150 mg dose of aspirin among pregnant women at high risk of PE. One of those studies was conducted among 102 first trimester patients in 1985 and used two antiplatelet agents (300 mg dipyridamole and 150 mg aspirin). The investigators concluded that patients on antiplatelet agents were twice as likely to have a normal pregnancy as compared to the placebo group, both in terms of incidence of PE and duration of pregnancy.22 The second study, by Trudinger et al.23 in 1988, also explored the effects of 150 mg aspirin on fetal outcome among 46 high-risk patients. Those investigators concluded that the mean percentile birth weight was 22% higher in the aspirin-treated group than in the placebo group. The indications, dosage and efficacy of aspirin therapy in the primary prevention of PE remains a controversy among researchers to date.

Discussion

LDA is effective in secondary prevention of PE in high-risk pregnant women, mainly those with a history of preeclampsia.11 Overall, we find that aspirin should be administered once a day in the evening, at low doses ranging from 75 mg to 150 mg.12,20 The efficacy of aspirin in the prevention of PE improves with early initiation (12–20 weeks of gestation).20,21 Even though LDA has a good maternal and fetal safety profile, the number of studies where patients were exposed to doses over 100 mg is low. The ASPRE study has explored the effect of 150 mg aspirin in preterm PE in less than 16 weeks’ gestation, with promising results.12 However the safety of a prevention strategy based on 150 mg of aspirin per day has not been proven with adequate power and sample size, and there remains a need for further research and multicentric trial to establish the effect of 150 mg aspirin in prevention of preterm PE.

Indications for aspirin in primary prevention is a matter of debate and further research, but recent publications also suggest a strategy based on first-trimester screening of PE (with clinical parameters, biomarkers and uterine Doppler measurements) and aspirin administration to high-risk pregnant women.12 The usefulness of this strategy is still under evaluation and more data is needed before its implementation in real practice. This study raises a question. Is screening of PE based on the ASPRE algorithm more effective than the current national guidelines (National Institute for Health and Care Excellence [NICE],24 ACOG,21etc.)?

This question is also the subject of an ongoing study in the UK [Screening Programme for pre-eclampsia (SPREE) study]. Preliminary findings of which showed that trimester mini-combined test and combined test for PE screening using the Bayes’ theorem-based method are likely to be superior to the current method recommended by NICE (based on maternal demographics and history).25 However, if we use an ASPRE screening algorithm, 100 mothers have to be administered with 150 mg of aspirin for 6 months to avoid 2–3 preterm PE.12 The early identification of pregnant women who are at high risk of PE and starting the LDA (75–150 mg) in early gestation periods (12–20 weeks) remains the cornerstone for the prevention of PE.

Future research direction

There are crucial scopes for research in establishing the role and use of aspirin in PE. Though the ASPRE algorithm was found to be better than NICE guidelines in the SPREE study, we agree with Green et al.26 that this screening tool has a high false positive rate. Can we develop a better tool for screening of pregnant women at high risk for PE? Can we identify the pregnant women who will benefit from the aspirin therapy, distinguishing them from those who won’t? There is limited available evidence regarding the safety and higher efficacy of 120–150 mg dose of aspirin in PE prevention. Can we generate more data through multicentric studies for establishing the safety and higher effect size of 120–150 mg dose aspirin compared to the 75–100 mg dose of aspirin for prevention of preterm PE?

Abbreviations

PE: 

Pre-eclampsia

TXA2

Thromboxane A2

LDA: 

Low Dose Aspirin

CLASP: 

Collaborative Low-Dose Aspirin Study in Pregnancy

IUGR: 

Intra-Uterine Growth Retardation

CI: 

Confidence interval

WHO: 

World Health Organisation

ACOG: 

American College of Obstetricians and Gynecologists

OR: 

Odds Ratio

RR: 

Relative Risk

ASPRE: 

Combined Multimarker Screening and Randomized Patient Treatment with Aspirin for Evidence-Based Preeclampsia Prevention

SPREE: 

Screening Programme for preeclampsia

NICE: 

National Institute for Health and Care Excellence

Declarations

Conflict of interest

The authors have no conflict of interests related to this publication.

Authors’ contributions

Development of concept (PB and SMB), manuscript writing (PB, SMB, H, MB, MP and SD), review of manuscript (PB, SMB, H, MB, MP and SD).

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Copyright © 2018 Authors. This is an Open Access article distributed under the terms of the Creative Commons Attribution-Noncommercial 4.0 License (CC BY-NC 4.0), permitting all non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
  • Exploratory Research and Hypothesis in Medicine
  • pISSN 2993-5113
  • eISSN 2472-0712

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Aspirin in Preeclampsia: Current Evidence and Future Scope of Research

Priyamadhaba Behera, Surama Manjari Behera, Hitakshi, Mohan Bairwa, Manju Pilania, Susmita Dora
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