From the Editor

An epidemic of hypertensive disorders of pregnancy

OBG Manag. 2022 September;34(9):10-12, 17 | doi: 10.12788/obgm.0224

The CDC recently reported that in 2019 hypertensive disorders of pregnancy (HDPs) were diagnosed in 15.9% of hospital deliveries. Does the increase in HDPs forecast a future rise in chronic hypertension, cardiovascular diseases, and stroke?

PDF Download

References

Ford ND, Cox S, Ko JY, et al. Hypertensive disorders in pregnancy and mortality at delivery hospitalization-United States, 2017-2019. Morb Mortal Week Report. 2022;71:585-591.
Bruno AM, Allshouse AA, Metz TD, et al. Trends in hypertensive disorders of pregnancy in the United States from 1989 to 2020. Obstet Gynecol. 2022;140:83-86.
Doleszar CM, McGrath JJ, Herzig AJM, et al. Perceived racial discrimination and hypertension: a comprehensive systematic review. Health Psychol. 2014;33:20-34.
Centers for Disease Control and Prevention. A Closer Look at African American Men and High Blood Pressure Control; A Review of Psychosocial Factors and Systems-Level Interventions. Atlanta: U.S. Department of Health and Human Services; 2010.
Boulet SL, Platner M, Joseph NT, et al. Hypertensive disorders of pregnancy, cesarean delivery and severe maternal morbidity in an urban safety-net population. Am J Epidemiol. 2020;189:1502-1511.
Parikh NI, Gonzalez JM, Andreson CAM, et al. Adverse pregnancy outcomes and cardiovascular disease risk: unique opportunities for cardiovascular disease prevention in women: a scientific statement from the American Heart Association. Circulation. 2021;143:e902-e916.
Okoth K, Chandan JS, Marshall T, et al. Association between the reproductive health of young women and cardiovascular disease later in life: umbrella review. BMJ. 2020;371:m3502.
Fu J, Tomlinson G, Feig DS. Increased risk of major congenital malformations in early pregnancy uses of angiotensin-converting enzyme inhibitors or angiotensin receptor blockers: a meta-analysis. Diabetes Metab Res Rev. 2021;37:e3453.
Tita AT, Szychowski JM, Boggess K, et al. Treatment for mild chronic hypertension during pregnancy. N Engl J Med. 2022;386:1781-1792.
Baum T, Sybertz EJ. Pharmacology of labetalol in experimental animals. Am J Med. 1983;75:15-23.
Khan KM, Patel JB, Schaefer TJ. StatPearls (Internet). StatPearls Publishing; 2022.
Gupta M, Khalili. Methyldopa StatPearls (Internet). StatPearls Publishing; 2022.
Bone JN, Sandhu A, Diablos ED, et al. Oral antihypertensives for non-severe pregnancy hypertension: systematic review, network meta-analysis and trial sequential analysis. Hypertension. 2022;79:614-628.
Morales DR, Jackson C, Lipworth BJ, et al. Adverse respiratory effects of acute beta-blocker exposure in asthma: a systematic review and meta-analysis of randomized controlled trials. Chest. 2014;145:779-786.
Huang KY, Tseng PT, Wu YC, et al. Do beta-adrenergic blocking agents increase asthma exacerbation? A network meta-analysis of randomized controlled trials. Sci Rep. 2021;11:452.
Nayak AS, Nachane HB. Risk analysis of suicidal ideation and postpartum depression with antenatal alpha methyldopa use. Asian J Psychiatry. 2018;38:42-44.
Walters BNJ, Thompson ME, Lee A, et al. Blood pressure in the puerperium. Clin Sci. 1986;71:589-594.
Walters BNJ, Walters T. Hypertension in the puerperium. Lancet. 1987;2(8554):330.
Magee L, von Dadelszen. Prevention and treatment of postpartum hypertension. Cochrane Database Syst Rev. 2013;CD004351.
Goel A, Maski MR, Bajracharya S, et al. Epidemiology and mechanisms of de novo and persistent hypertension in the postpartum period. Circulation. 2015;132:1726-1733.
Powles K, Gandhi S. Postpartum hypertension. CMAJ. 2017;189:E913.
Tosounidou S, Gordon C. Medications in pregnancy and breastfeeding. Best Prac Res Clin Obstet Gynaecol. 2020;64:68-76.
Anderson PO. Treating hypertension during breastfeeding. Breastfeed Med. 2018;13:95-96.
Lexicomp web site. https://www.wolterskluwer.com/en/solutions/lexicomp.
Ito S. Drug therapy for breast-feeding women. N Engl J Med. 2000;343:118-126.
Behrens I, Basit S, Melbye M, et al. Risk of postpartum hypertension in women with a history of hypertensive disorders of pregnancy: nationwide cohort study. BMJ. 2017;358:j3078.

^{ILLUSTRATION BY KIMBERLY MARTENS FOR OBG MANAGEMENT}

Hypertension in pregnancy is a major challenge in current obstetric practice. Based on an analysis of the National Inpatient Sample, the Centers for Disease Control and Prevention (CDC) recently reported that from 2017 to 2019 the prevalence of hypertensive disorders in pregnancy increased from 13.3% to 15.9% of hospital deliveries.¹ During that same time period, the prevalence of pregnancy-associated hypertension, which includes preeclampsia, eclampsia, and gestational hypertension, increased from 10.8% to 13.0%.¹ The prevalence of chronic hypertension increased from 2.0% to 2.3%.¹ In 2017 and 2019, unspecified maternal hypertension was diagnosed in 0.5% and 0.6% of the sample, respectively.¹

Bruno and colleagues reported a 3-fold increase in the prevalence of HDPs from 1989 to 2020, with an acceleration in the rate of increase from 2010 to 2020.² The increase in prevalence of HDPs may be caused by an increase in the prevalence of advanced maternal age, obesity, and diabetes. Black patients are disproportionately impacted by both pregnancy-associated hypertension and chronic hypertension.¹ In 2019, the prevalence of pregnancy-associated hypertension was greater among Black patients (15.6%), than White (12.1%), Hispanic (10.6%), or Asian or Pacific Islander patients (7.7%).¹ Similarly, the prevalence of chronic hypertension was greater among Black patients (4.3%) than among White (2.0%), Hispanic (1.5%), or Asian or Pacific Islander patients (1.2%).¹ Racial/ethnic differences in HDPs may be influenced by poverty; structural racism; or lack of access to care, diet, and obesity.^3,4

HDPs are major contributors to maternal morbidity and mortality. The CDC reported that among maternal deaths occurring during the delivery hospitalization, 32% of the decedents had documented hypertension.¹ HDPs are associated with an approximately 2.5-fold increased risk of a severe morbidity, a composite measure that includes blood transfusion, acute kidney injury, disseminated intravascular coagulation, sepsis, shock, and pulmonary edema.⁵ A history of HDPs is associated with an approximately 67% increase in the lifetime risk of cardiovascular disease, including coronary artery disease, stroke, peripheral vascular disease, and heart failure.^6,7

What are the best antihypertensive medications for pregnancy?

All clinicians know that the use of angiotensin-converting-enzyme inhibitors (ACE-Is) and angiotensin-receptor-blockers (ARBs) are contraindicated in pregnancy because they cause major congenital anomalies, with an odds ratio of 1.8 (95% confidence interval [CI], 1.42-2.34), compared with no exposure.⁸ In addition, ACE-Is and ARBs increase the risk of stillbirth, with an odds ratio of 1.75 (95% CI, 1.21-2.53).⁸ No increase in congenital anomalies were detected for patients exposed to other antihypertensive medications.⁸ Prior to attempting conception, patients with chronic hypertension should discontinue ACE-Is and ARBs and initiate an alternative medication.

The most commonly used antihypertensive medications in pregnancy are labetalol, nifedipine, and methyldopa.⁹ Labetalol blocks the beta-1, beta-2, and alpha-1 adrenergic receptors.¹⁰ Nifedipine blocks calcium entry into cells through the L-type calcium channel.¹¹ Methyldopa is a central nervous system alpha-2 adrenergic agonist.¹² The dose range for these commonly used medications are labetalol 400 mg to 2,400 mg daily in divided doses every 8 to 12 hours, nifedipine extended-release 30 mg to 120 mg daily, and methyldopa 500 mg to 2 g daily in 2 to 4 divided doses. Some clinicians recommend prescribing divided doses of nifedipine extended release at doses ≥ 60 mg for patients who have bothersome adverse effects, hypotension following a single daily dose, or hypertension between single daily doses. The nifedipine extended release tablets should not be divided. If monotherapy with the maximal daily dose of labetalol does not achieve the blood pressure (BP) target, adding nifedipine as a second agent is an option.⁹ Similarly, if monotherapy with the maximal daily dose of nifedipine extended release does not achieve the BP target, adding labetalol as a second agent is an option.⁹

In a network meta-analysis of antihypertensive medications used in pregnancy, that included 61 trials and 6,923 participants, all the medications studied reduced the risk of developing severe hypertension by 30% to 70%.¹³ Sufficient data was available to also report that labetalol used to treat hypertension in pregnancy reduced the risk of developing proteinuria.¹³ Given similar efficacy among antihypertensive medications, patient comorbidities may influence the medication choice. For example, labetalol may not be the optimal medication for a patient with poorly controlled asthma due to its ability to cause bronchospasm.^14,15 Methyldopa may not be the optimal medication for a patient with depression.¹⁶Based on the available data, labetalol, nifedipine, and methyldopa are the best antihypertensive medications for pregnant patients.

Continue to: What is an optimal BP target when treating chronic hypertension in pregnancy?...

References

Ford ND, Cox S, Ko JY, et al. Hypertensive disorders in pregnancy and mortality at delivery hospitalization-United States, 2017-2019. Morb Mortal Week Report. 2022;71:585-591.
Bruno AM, Allshouse AA, Metz TD, et al. Trends in hypertensive disorders of pregnancy in the United States from 1989 to 2020. Obstet Gynecol. 2022;140:83-86.
Doleszar CM, McGrath JJ, Herzig AJM, et al. Perceived racial discrimination and hypertension: a comprehensive systematic review. Health Psychol. 2014;33:20-34.
Centers for Disease Control and Prevention. A Closer Look at African American Men and High Blood Pressure Control; A Review of Psychosocial Factors and Systems-Level Interventions. Atlanta: U.S. Department of Health and Human Services; 2010.
Boulet SL, Platner M, Joseph NT, et al. Hypertensive disorders of pregnancy, cesarean delivery and severe maternal morbidity in an urban safety-net population. Am J Epidemiol. 2020;189:1502-1511.
Parikh NI, Gonzalez JM, Andreson CAM, et al. Adverse pregnancy outcomes and cardiovascular disease risk: unique opportunities for cardiovascular disease prevention in women: a scientific statement from the American Heart Association. Circulation. 2021;143:e902-e916.
Okoth K, Chandan JS, Marshall T, et al. Association between the reproductive health of young women and cardiovascular disease later in life: umbrella review. BMJ. 2020;371:m3502.
Fu J, Tomlinson G, Feig DS. Increased risk of major congenital malformations in early pregnancy uses of angiotensin-converting enzyme inhibitors or angiotensin receptor blockers: a meta-analysis. Diabetes Metab Res Rev. 2021;37:e3453.
Tita AT, Szychowski JM, Boggess K, et al. Treatment for mild chronic hypertension during pregnancy. N Engl J Med. 2022;386:1781-1792.
Baum T, Sybertz EJ. Pharmacology of labetalol in experimental animals. Am J Med. 1983;75:15-23.
Khan KM, Patel JB, Schaefer TJ. StatPearls (Internet). StatPearls Publishing; 2022.
Gupta M, Khalili. Methyldopa StatPearls (Internet). StatPearls Publishing; 2022.
Bone JN, Sandhu A, Diablos ED, et al. Oral antihypertensives for non-severe pregnancy hypertension: systematic review, network meta-analysis and trial sequential analysis. Hypertension. 2022;79:614-628.
Morales DR, Jackson C, Lipworth BJ, et al. Adverse respiratory effects of acute beta-blocker exposure in asthma: a systematic review and meta-analysis of randomized controlled trials. Chest. 2014;145:779-786.
Huang KY, Tseng PT, Wu YC, et al. Do beta-adrenergic blocking agents increase asthma exacerbation? A network meta-analysis of randomized controlled trials. Sci Rep. 2021;11:452.
Nayak AS, Nachane HB. Risk analysis of suicidal ideation and postpartum depression with antenatal alpha methyldopa use. Asian J Psychiatry. 2018;38:42-44.
Walters BNJ, Thompson ME, Lee A, et al. Blood pressure in the puerperium. Clin Sci. 1986;71:589-594.
Walters BNJ, Walters T. Hypertension in the puerperium. Lancet. 1987;2(8554):330.
Magee L, von Dadelszen. Prevention and treatment of postpartum hypertension. Cochrane Database Syst Rev. 2013;CD004351.
Goel A, Maski MR, Bajracharya S, et al. Epidemiology and mechanisms of de novo and persistent hypertension in the postpartum period. Circulation. 2015;132:1726-1733.
Powles K, Gandhi S. Postpartum hypertension. CMAJ. 2017;189:E913.
Tosounidou S, Gordon C. Medications in pregnancy and breastfeeding. Best Prac Res Clin Obstet Gynaecol. 2020;64:68-76.
Anderson PO. Treating hypertension during breastfeeding. Breastfeed Med. 2018;13:95-96.
Lexicomp web site. https://www.wolterskluwer.com/en/solutions/lexicomp.
Ito S. Drug therapy for breast-feeding women. N Engl J Med. 2000;343:118-126.
Behrens I, Basit S, Melbye M, et al. Risk of postpartum hypertension in women with a history of hypertensive disorders of pregnancy: nationwide cohort study. BMJ. 2017;358:j3078.

Integrase inhibitors and gestational weight gain: Should women worry?

An epidemic of hypertensive disorders of pregnancy

References

What are the best antihypertensive medications for pregnancy?

Pages

Next Article: