CARDIAC DISEASE IN PREGNANCY

1. CARDIAC DISEASE IN PREGNANCY Dr. Yasir Katib MBBS, FRCSC, Perinatologest

2. Multiple Choice • When during pregnancy is peripheral vascular resistance at its lowest? • First trimester • Second trimester • Third trimester • labour

3. When during pregnancy is peripheral vascular resistance at its lowest? • First trimester • Second trimester • Third trimester • labour

4. When during pregnancy is cardiac output highest? • Second trimester • Third trimester • Labour • Postpartum

5. When during pregnancy is cardiac output highest? • Second trimester • Third trimester • Labour • Postpartum

6. Which is not a normal ECG change in pregnancy? • Q wave in lead III • Sinus tachycardia • ST-T wave changes • Prolonged QT interval

7. Which is not a normal ECG change in pregnancy? • Q wave in lead III • Sinus tachycardia • ST-T wave changes • Prolonged QT interval

8. Physiologic Changes in Pregnancy • Increased blood volume • Increases from 6-8 weeks • Max 4700-6200ml @ 32 wks (45%) • Increased further with multiples (70%) • ?estrogen activates angiotensin-aldosterone leading to Na+ and H20 retention

9. Physiology changes cont’d • RBC mass increases by 250-400ml by term (20-30% increase) • Increased RBC due to placental somatomammotropin, progesterone • Therefore, increased demand for iron = 500mg +300mg fetus + 200 mg for daily losses = (1000mg total)

10. Physiology cont’d • Increased cardiac output • 30-50% increase • 50% of this occurs by 8 wks • Continued rise at a slower rate to 3rd trimester • Primary reason = increased stroke volume • There is also increased heart rate (predominant in 3T) • Supine positioning leads to decreased CO by 25-30%

13. Physiology cont’d • Decreased systemic vascular resistance • Decreases from 5 wks due to progesterone and prostaglandins (cause vasodilatation) • Nadir at 14-24 wks then increases toward term

14. Physiology cont’d • Increased venous compliance • Leads to increased stasis • Therefore, more sensitive to autonomic blockade

15. Physiology cont’d • Anatomic changes: • Increased ventricular wall muscle mass (T1 only) • Increased EDV (continues through T2, T3) • These combine to cause physiologically dilated heart

16. Physiology cont’d • ABG: • Tidal volume increased by 40% leading to hyperventilation and hypocapnia • Therefore, decreased PCO2 to 28-31 mmHg • Partially compensated for by decreased bicarb level • Therefore, mild respiratory alkalosis with arterial pH = 7.44

17. Physiology cont’d • ECG changes: • Left axis deviation (due to elevated diaphragm) • May shift to right late in pregnancy as fetus descends • Sinus tachycardia • Minor ST changes in III, aVF • Q wave in lead III • Inverted P wave in lead III

18. Intrapartum • 1st stage: 12-31% increased CO owing to 22% increase in SV • 2nd stage: 49% increased CO • Left side positioning decreased the amount of increase • Epidurals reduce this increase by 10% • SBP increases by 35 mmHg, DBP increases by 25 mmHg

19. Postpartum • 80% increase CO within 15 min delivery • 60% increase if caudal anesthesia • Increase due to: • Release of venocaval obstruction • Auto transfusion of uteroplacental blood • Rapid mobilization of extravascular fluid • All work to increase venous return and increase SV

20. Postpartum • CO returns to prelabour values by 1h • C/S leads to 25-50% increase in CO • Left atrial dimensions increase days 1-3 pp, normalize within 10d • Left ventricular dimension takes 4-6 mos to decrease • SV, CO and SVR reach normal by 12 wk

21. NYHA Functional Classification • Class I: no symptoms with normal activity • Class II: symptoms with ordinary activity • Class III: symptoms with less than ordinary activity • Class IV: symptoms at rest

22. Classifying Risk of Mortality • Group 1: mortality < 1% • ASD • VSD • PDA • MS (NYHA I,II) • Pulmonic tricuspid disease • Porcine valve • Corrected TOF

23. Mortality cont’d • Group II: mortality 5-15% • MS with atrial fibrillation • Artifical valve • MS (NYHA III,IV) • AS • Uncorrected TOF • Marfan’s with normal aorta • Coarctation of aorta • Previous MI

24. Mortality cont’d • Group III: mortality 25-50% • Pulmonary HTN • Coarctation with aortic valve involvement • Marfan’s with aortic root dilatation (>40mm) • Eisenmenger’s

25. Approach to Pregnancy • Prepregnancy: • Prior to D/C contraception, counseling should be done • Assess maternal disease status • Optimize medical management • Counsel re: risk of fetal anomaly • Switch prosthetic valves to heparin • Assess re: need for surgery prior to pregnancy

26. Antenatal • Multidisciplinary approach • If no preconceptual visit, evaluation of status and counseling • Discuss termination if appropriate • Question regularly re: symptoms • Monitor weight and vital signs regularly • US: dating, anatomy, growth and well-being

27. Antenatal cont’d • Fetal echo at 22wks • Echo, ECG etc. every trimester • Avoid strenuous exercise • Consult re: NICU, anesthesia

28. Labour & Delivery • Lateral position • Close attention to fluid balance • Continuous ECG monitoring • In high risk: invasive monitoring • Close fetal surveillance • C/S for OB indications, may use operative vag delivery to shorten 2nd stage

29. L&D cont’d • Antibiotics: • Prosthetic valves • Previous bacterial endocarditis • Complex cyanotic heart disease • Mitral valve prolapse with regurgitation • Acquired valvar dysfunction • Hypertrophic cardiomyopathy

30. L&D cont’d • Epidural (avoid hypotension) • Avoid ergotamine

31. Postpartum • Careful attention to fluid balance • Watch for failure to diurese • Discuss contraception

32. Well-Behaved Lesions • Mitral regurgitation • Aortic regurgitation • Prosthetic valves • ASD • VSD • PDA

33. Not so well behaved lesions:Mitral stenosis • State of fixed cardiac output – avoid hypotension and tachycardia • Left atrial and pulmonary pressures are increased • Can go into pulm. HTN if longstanding disease • Issues for antenatal care: • Watch re: symptoms of right heart failure • Beta-blockers can be used to control rate • Watch for arrhythmia

34. Asthma in pregnancy Incidence 1% in general 15% of them will have an attack

35. Effects of pregnancy on the respiratory system • Ribs flare out, subcostal angle increases as transverse diameter of chest increases by 2cm and diaphragm rises by 4cm. • Minute ventilation increases while the respiratory rate remains the same. • Progesterone stimulates brain centers to produce hyperventilation which decreases alveolar CO2 tension and the arterial PCO2 producing respiratory alkalosis.

36. Blood gas values in pregnant and non-pregnant women.

37. Physiological changes in pregnancy • We must remember that a PO2 < 70 in a pregnant woman with acute asthma represents severe hypoxemia, and a PCO2 > 35 represents acute respiratory failure. • Normal alkalosis in pregnancy can be aggravated by acute asthma and lead to significant decreases in placental blood flow • If hypoxemia is present, it is more severe in the fetus.

39. Physiological changes in pregnancy • Although assessing FEV1 and FVC is important clinically to monitor efficacy of treatment it requires spirometry. • PEFR (peak expiratory flow rate) requires only an inexpensive portable flow meter and changes in a pregnant asthmatic with SOB are likely caused by asthma and not by physiological change in pregnancy. • Thus educating the patient is key to proper Mx.

40. Effect of asthma on pregnancy Mild: no or minimum effect Severe: increase in Abortion IUFD IUGR

41. Management Most will require no drug treatment Envirmental control Mild: B-agonist inhalers Severe: oral steroids Vaginal delivery should be anticipated