Case Study
A 42-year-old primigravida woman at 34 weeks’ gestation presented to her local Emergency Department. She gave a history of severe central chest pain radiating to her left arm at rest for 1 hour requiring IV morphine analgesia. Significantly, she reported smoking 20 cigarettes per day since age 18, and her body mass index (BMI) at booking of antenatal care was 39 kg/m2. There was a strong family history of ischemic heart disease (IHD). A 12-lead ECG demonstrated an acute ST-segment elevation myocardial infarction (STEMI) in the inferoposterior territory (Figure 45.1). Shortly after arrival, the patient suffered a ventricular fibrillation cardiac arrest. Cardiopulmonary resuscitation was commenced according to European Advanced Life Support guidelines. Two biphasic DC shocks at 150 J two minutes apart resulted in return of spontaneous circulation within 3 minutes. She recovered to a Glasgow Coma Scale score of 15 and was given 300 mg aspirin and 600 mg clopidogrel orally before being transferred unintubated with an anesthetic escort by ambulance to a tertiary interventional cardiology unit. She underwent percutaneous coronary intervention (PCI) through a radial artery approach. IV unfractionated heparin was given by infusion during the PCI. Occlusion of the proximal circumflex coronary artery was demonstrated: excellent flow was restored with balloon angioplasty and the use of a bare metal stent. Continuous fetal heart rate was monitored by cardiotocography (CTG) prior to transfer and was recommenced on arrival in the cardiac catheterization area. The CTG was reassuring, and the patient herself remained stable cardiovascularly throughout the procedure. Her chest pain and ST-segment elevation both resolved with coronary reperfusion, and she was transferred to the coronary care unit. Cardiac enzymes peaked at 29.2 µg/liter for troponin-I and 1340 units/liter for creatinine kinase. The patient was discharged home on day 5 on dual antiplatelet medication and twice-daily 25 mg metoprolol.
The remainder of her pregnancy was closely monitored by a multidisciplinary team of obstetricians, cardiologists, anesthetists, and midwives, who met to discuss her care every 1–2 weeks. ECG demonstrated good left ventricular function. However, concerns regarding fetal growth restriction based on abnormal umbilical artery Doppler flows prompted a Category III cesarean delivery at 37/40 weeks’ gestation.
Cesarean delivery was carried out uneventfully under general anesthesia (GA) due to concerns about safety of regional anesthesia with clopidogrel, with invasive arterial blood pressure (IABP) monitoring. A 2.9-kg male baby was delivered in good condition. The patient was observed on the labor ward high-dependency unit (HDU) for 24 hours after delivery. Both mother and baby were discharged home on day 4 postnatally.
Key Points
Myocardial infarction (MI) in women of childbearing age is a rare event.
A woman presenting with severe chest pain needing potent IV opioid analgesia, such as morphine, should be investigated to rule out acute MI or other serious pathology.1
Risk factors for MI and ischemic heart disease (IHD) in pregnancy include the typical risk factors for nonpregnant patients with IHD,2 but pregnancy itself increases the risk of MI three- to fourfold.3
The treatment of choice for coronary reperfusion is percutaneous coronary intervention.4
A pregnant woman who has a history of IHD should be reviewed on a frequent basis by a multidisciplinary team.3, 4
A care plan should be agreed on in the third trimester to cover all aspects of perinatal care, including choice of anesthesia, if required.3
Discussion
Background
Worldwide, cardiac disease is a leading cause of death in many resource-rich countries.3 In the United Kingdom, the most common cause of maternal death is cardiac disease, of which acquired conditions account for the majority.5 In the recent UK Confidential Enquiry into Maternal Deaths, Saving Lives, Improving Mothers’ Care,5 there were 49 deaths from cardiac disease, with ischemic heart disease (IHD) accounting for 20 percent. These deaths were due to either an acute myocardial infarction (MI) or preexisting IHD, where death was presumed to be due to an arrhythmia or heart failure.
IHD is rare in women of childbearing age.6 In the UK Obstetric Surveillance System (UKOSS) study of MI in pregnancy (2005–10), the incidence of MI complicating pregnancy or the first week postpartum was 0.7 per 100,000 maternities.2 The rate of maternal and fetal demise is high following MI in pregnancy: maternal mortality rates between 5 and 11 percent have been reported, with most deaths occurring peri-infarct or in the peripartum period.7–9 Fetal mortality is around 9–13 percent,9 with most deaths occurring in association with maternal death. The outcome of pregnancy in women who have suffered an MI before pregnancy may be better. In 2007, the European Registry on Pregnancy and Heart Disease was initiated by the European Society of Cardiology (ESC) to collect data on women with structural heart disease or IHD.10 Between 2007 and 2011, pregnancy occurred in 20 women who had suffered an MI previously, with only one woman suffering a new acute coronary syndrome (ACS). Overall, a total of six women had ACS during pregnancy, and all of them survived.
Risk Factors
The risk factors for ACS in pregnancy are the same as those for the general population:2
Diabetes mellitus
Hypertension
Obesity
Smoking
Family history
Hypercholesterolemia
Advanced maternal age is a significant risk factor for MI. In the UKOSS study of MI in pregnancy, the mean age of women suffering an MI was 37 years compared with 29 years in the control group.2 The risk of MI is 30 times greater in women over age 40 compared with those under 20 years of age.3, 7 This is a concerning observation in view of the increasing tendency of women in developed countries to delay having children.
Pregnancy itself increases the risk of ACS three- to fourfold.3 Increased circulating blood volume and increased cardiac output in pregnancy result in an increase in myocardial oxygen demand. At the same time, the physiologic anemia and reduction in diastolic blood pressure reduce myocardial oxygen supply.11 Blood vessel walls are more vulnerable to damage during pregnancy: shearing forces are increased, and blood vessel walls are weakened by elevated levels of estrogen and progesterone.4 When these factors are combined with the prothrombotic state of pregnancy, clot formation and subsequent ischemia are more likely. Other pregnancy-specific risk factors identified by UKOSS include twin pregnancy and preeclampsia.2
Pathophysiology
ACS is usually the result of atherosclerotic plaque rupture or instability. When complicated by overlying thrombus formation, complete occlusion to blood flow may result, producing an MI. However, in pregnancy, this mechanism accounts for only 40–50 percent of cases of MI.2, 9, 12 The other mechanisms contributing to MI are coronary dissection (16–27 percent), which is a rare event in the nonpregnant population at 1 percent or less, and coronary thrombus occurring in normal coronary arteries (6–21 percent), which is thought to occur from paradoxical embolism through a patent foramen ovale. Normal coronary arteries at angiography have been found in up to 29 percent of patients.2, 9, 12
Diagnosis
IHD may present as stable angina or as an acute coronary syndrome (ACS). ACS consists of three different clinical entities: unstable angina, non-ST-segment elevation MI (NSTEMI), and ST-segment elevation MI (STEMI). Patients with unstable angina may present with chest pain at rest or on minimal exertion but have no rise in cardiac enzymes or 12-lead ECG changes. NSTEMI patients have chest pain associated with raised cardiac enzymes, and the ECG may show ST-segment depression or T-wave changes. Patients with STEMI typically have severe chest pain associated with elevated ST segments or new left bundle-branch block and raised cardiac enzymes.
In pregnant women, the diagnosis of ACS is the same as in nonpregnant patients, consisting of a triad of history and examination, 12-lead ECG, and troponin levels. STEMI is a clinical diagnosis and does not rely on waiting for cardiac enzyme results because this would delay prompt treatment. ACS may present atypically in pregnant women, making the diagnosis more challenging. Classic central crushing chest pain may be absent, and atypical symptoms such as abdominal or epigastric pain, vomiting, and dizziness may be attributed to pregnancy per se rather than ACS.1 Previous recommendations from the Confidential Enquiries into Maternal Deaths in the UK recommend that any women who is suffering chest or epigastric pain severe enough to warrant opioid analgesia should have appropriate investigations to rule out cardiac disease.1 The 12-lead ECG in pregnant women may also be more difficult to interpret because nonspecific ST-segment and T-wave changes may occur due to pregnancy.
The differential diagnoses for ACS in pregnancy are acute pulmonary embolism, preeclampsia, and aortic dissection. Echocardiography may be a useful tool to identify wall motion abnormalities suggestive of ischemia, and exercise treadmill testing can be performed in pregnancy, although this test has a high false-positive rate.13 There have been no reported adverse effects from dobutamine stress echocardiography, and more recently cardiac MRI has been used in the second and third trimesters of pregnancy.13 Coronary angiography can be both diagnostic and therapeutic (see below).
Related posts:
Stay updated, free articles. Join our Telegram channel
Full access? Get Clinical Tree
