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Acute hypertensive emergencies in pregnancy

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Title: Acute hypertensive emergencies in pregnancy


1
Acute hypertensive emergencies in pregnancy
  • Critical Care Medicine
  • 2005 Vol. 33, No 10 (Suppl.) Resident ???

2
Hypertension
  • One of the most common medical disorders
    affecting pregnancy
  • Complicates 12 of pregnancies and responsible
    for 18 of maternal deaths in US
  • Article focus Management of acute hypertensive
    crisis in pregnancy
  • In obsterical practice, the level of BP elevation
    is used as a guide for diagnostic and management
    decisions

3
  • Hypertension in pregnancy
  • systolic pressure ?140 mmHg or
  • diastolic pressure ? 90 mmHg
  • Hypertension before 20 wks gestation is
    indicative of chronic hypertension antedating the
    pregnancy and is usually essential (90)

4
  • Preeclampsia hypertension and proteinuria (gt
    300mg in a 24-hr specimen)
  • Gestational hypertension hypertension without
    proteinuria or other signs or symptoms of
    preeclampsia
  • Eclampsia occurrence of seizures or coma in the
    presence of preeclampsia or gestational
    hypertension

5
  • Hypertensive encephalopathy acute manifestation,
    may include seizure and coma and can occur in the
    pregnant woman with a lower BP than in the
    nonpregnant woman
  • Eclampsia vs. hypertensive encephalopathy
  • 10-yr review, only 3 cases of hypertensive
    encephalopathy found among 79,301 deliveries, 250
    cases of eclampsia

6
Pathophysiology of hypertension in pregnancy
7
  • Not completely understood
  • Angiotensin-aldosterone system is up-regulated in
    pregnancy, favoring BP increases
  • Counterbalanced, by a 30 decrease in SVR that
    normally occurs early in pregnancy
  • SVR reduction result in a decline in BP of 10 as
    early as 7 wks gestation and even more pronounced
    by midpregnancy

8
  • Pregnant women have significant increase in blood
    volume and cardiac output
  • Mild preeclampsia SVR may be low, CO increased
  • Severe preeclampsia high SVR/low cardiac output
    stage
  • Brain preeclampsia may be accompanied by both
    underperfusion (low SVR), and overperfusion (high
    SVR), with subsequent risk of hypertensive
    encephalopathy
  • Headache

9
Acute Treatment of Severe Hypertension in
Pregnancy
10
  • Cut point systolic pressure of 160 mmHg or
    diastolic pressure of 105-110 mmHg (mild or
    severe)
  • Mild uncomplicated chronic hypertension do not
    require treatment
  • End-organ damage (nephropathy, LV hypertrophy,
    severe retinopathy) warrant antihypertensive
    therapy even at levels in mild range (lt 160/110
    mmHg)

11
  • No evidence of antihypertensive treatment reduces
    the incidence of fetal growth restriction,
    placental abruptio, or superimposed preeclampsia
    or improves perinatal outcomes
  • A recent meta-analysis found that treated
    patients are more likely to have growth
    restricted infants in parallel with their
    reduction in mean arterial pressure, suggesting
    a negative impact of BP reduction on
    uteroplacental perfusion

12
  • the major indication for treatment of
    hypertension in pregnancy is for maternal benefit

13
  • Once a severe range of BP is reached,
    antihypertensive treatment should be initiated
    regardless of the type of hypertension involved
  • Severe acute hypertension may be associated with
    end-organ complications such as myocardial
    infarction, stroke, renal failure, uteroplacental
    insufficiency, and placental abruption
  • Persistent blood pressure 240/140 mm Hg
    identifies a genuine hypertensive emergency, ICU
    should be considered

14
  • The goal is to reduce diastolic pressure to just
    below 100 mmHg and not to attempt to normalize
    pressure because of the potential deleterious
    effect on the fetus

15
Hydralazine
  • Peripheral arteriolar vasodilator
  • Drug used for gt45 yrs in the treatment of severe
    hypertension in pregnancy
  • Onset of action is relatively slow (1020 mins)
  • Common side effects (50) reflex tachycardia,
    hypotension, headaches, palpitations, flushing,
    anxiety, tremors, vomiting, epigastric pain, and
    fluid retention
  • In the neonate, thrombocytopenia and a lupus-like
    syndrome have been reported after maternal use in
    third trimester

16
  • A recent meta-analysis concluded that hydralazine
    may not be the best first-line drug for treatment
    of severe hypertension in pregnancy
  • Less effective than nifedipine, equally effective
    to labetalol, but associated with poorer maternal
    and perinatal outcomes
  • More poorly tolerated than other antihypertensives

17
Labetalol
  • selective a1 (postsynaptic) and nonselective
    ß-blocker, with more ß effect than a , and
    probably the most commonly used agent for acute
    severe hypertension in pregnancy
  • decreases SVR and slows the heart rate, reducing
    myocardial oxygen consumption
  • does not influence renal function

18
  • The most frequent maternal side effects are
    dizziness, nausea, headaches, and fatigue
  • Neonatal side effects may include hypotension,
    hypoglycemia, hypothermia, and bradycardia
  • Contraindicated in patients with asthma

19
  • Reduces peripheral vascular resistance without
    reducing peripheral blood flow, and cerebral,
    renal, and coronary flows are unchanged
  • Even after a significant reduction in maternal
    blood pressure and heart rate, labetalol does not
    affect the uteroplacental blood flow or fetal
    heart rate

20
  • The lack of reflex tachycardia, bradycardia,
    increased intracranial pressure, and the rare
    occurrence of significant hypotension make
    labetalol a good choice in patients with
    myocardial infarction, left ventricular or
    congestive heart failure, atrial fibrillation,
    cerebrovascular accidents, or hypertensive
    encephalopathy
  • does not decrease cardiac output

21
  • contraindicated in patients with preexisting
    myocardial disease and decompensated cardiac
    failure
  • Coadministration of a calcium channel blocker may
    increase the cardiodepressant effect of labetalol

22
Atenolol
  • cardioselective ß-blocker (acts on ß1 receptors
    more than ß2)
  • associated with fetal growth restriction,
    especially after prolonged use in pregnancy
  • should only be used when other similar agents are
    ineffective
  • Experience with esmolol in pregnancy is very
    limited, and reports of fetal distress and
    neonatal bradycardia after esmolol
    administration? discouraged its use

23
Calcium channel blockers
  • act on arteriolar smooth muscle and induce
    vasodilation by blocking calcium entry into the
    cells
  • Reduction in peripheral resistance decreases
    afterload
  • The effect on the venous circulation is only
    minimal
  • The maternal side effects include tachycardia,
    palpitations, headaches, facial flushing, and
    ankle edema through a local microvascular effect

24
Nifedipine
  • used over the last decade for both tocolysis and
    management of hypertension in pregnancy
  • An unusual characteristic is that the higher the
    BP, the further it decreases after nifedipine
    administration

25
  • A small randomized trial of 50 pregnant women,
    oral nifedipine controls hypertension more
    rapidly than intravenous labetalol, as early as 1
    hr after the initial administration
  • Acts as a selective renal arteriolar vasodilator
    and natriuretic, with a significant increase in
    urinary output

26
  • nifedipine increases cardiac index
  • lowers BP without reducing uteroplacental blood
    flow and without significant fetal heart rate
    abnormalities

27
  • reports of unpredictable decreases in blood
    pressure
  • As a result of this unfavorable publicity,
    short-acting nifedipine (capsules) was withdrawn
    from some national markets (Australia) as well as
    from many hospital pharmacies in the United States

28
Nicardipine
  • onset of action in 10 mins and results in
    adequate reduction of BP within 20 mins (duration
    of action 46 hrs)
  • In a multiple-center placebo-controlled study,
    intravenous nicardipine was shown to be both
    effective and safe in patients with severe
    hypertension
  • The most common adverse reaction was headaches

29
  • Nicardipine acts more selectively on the blood
    vessels than on the myocardium, with less reflex
    tachycardia
  • It has been reported that nicardipine improves
    left ventricular activity and is less likely to
    cause cardiac ischemia

30
  • Isolated reports of the combination of nifedipine
    and magnesium sulfate causing neuromuscular
    blockade or severe hypotension, with maternal
    death ? not been observed in either observational
    or randomized trials
  • Recent data would indicate that short-term
    treatment with calcium channel blockers such as
    nifedipine or nicardipine for severe hypertension
    in pregnancy is effective and safe

31
Prazosin
  • peripheral vasodilation
  • without tachycardia or increased intracranial
    pressure
  • beneficial metabolic effects of reducing plasma
    glucose and insulin levels, decreasing
    low-density lipoprotein cholesterol, and
    increasing high-density lipoprotein cholesterol
  • block a1-receptors in both arterioles and veins ?
    resulting in a reduction in peripheral vascular
    resistance and decreased venous return
  • Renal dysfunction does not affect elimination
    kinetics because the drugs are mainly metabolized
    by the liver

32
  • can be used in pregnant patients with congestive
    heart failure, diabetes, or asthma or in patients
    undergoing hemodialysis
  • The most frequent maternal side effects include
    fluid retention, orthostatic hypotension,
    palpitations, nasal congestion, headaches,
    drowsiness, weakness, and nausea
  • No adverse fetal effects are known

33
Nitroprusside
  • vasodilator that acts via the release of nitrous
    oxide to effect a potent reduction of both
    preload and afterload
  • improves left ventricular function, leading to a
    reduction in pulmonary congestion and myocardial
    oxygen demand
  • It is prudent to avoid nitroprusside in patients
    with raised intracranial pressure, left
    ventricular outflow obstruction, or hypothyroidism

34
  • rapid onset of action (within 30 secs)
  • effect disappears within 3 mins after cessation
    of infusion
  • Rebound hypertension may occur after abrupt
    discontinuation of the infusion necessitating the
    use of another antihypertensive agent on
    discontinuation

35
  • Known adverse effects include headache,
    dizziness, flushing, palpitations, and
    ototoxicity
  • Cyanide toxicity has been reported, and is
    characterized by central nervous system
    dysfunction, cardiovascular instability, and
    lactic acidosis
  • There are theoretical concerns about fetal
    cyanide toxicity ? unproven

36
  • Nitroprusside should be used in pregnancy only in
    complicated cases of severe hypertension,
    preferably after other agents have been
    ineffective
  • The infusion should not be continued for more
    than several hours in a pregnant woman

37
Nitroglycerin
  • A relatively safe drug and may be more useful
    than nitroprusside for patients with pulmonary
    hypertension or myocardial ischemia
  • may also be used in pregnant women with severe
    preeclampsia or chronic hypertension to blunt the
    hypertensive effects of intubation or extubation

38
  • Known side effects include headaches,
    hypotension, nausea, and vomiting
  • Nitroglycerin is not an effective arterial
    vasodilator, and when used for hypertensive
    emergencies, not infrequently, additional drugs
    are needed
  • At high-dose infusion there is also the risk of
    methemoglobinemia

39
  • In general, nitroglycerin is not the ideal
    first-line antihypertensive agent in pregnant
    women, with the exception of patients
    experiencing an acute coronary event

40
Angiotensin-converting enzyme (ACE) inhibitors
  • active against renin-dependent vasoconstriction,
    first line of treatment in nonpregnant patients
    with decompensated heart failure, acute pulmonary
    edema, or acute coronary ischemia
  • Contraindicated in the second and third trimester
    of pregnancy because of the associated increase
    in fetal and neonatal morbidity and mortality
  • Fetal toxic effects renal dysgenesis,
    oligohydramnios, calvarial hypoplasia, and fetal
    growth restriction

41
  • After fetal exposure, the neonate is at risk of
    developing renal failure and hypotension
  • May be used postpartum, including in lactating
    mothers
  • There may be cases of primary or secondary
    malignant hypertension in pregnancy refractory to
    other antihypertensive medication (as in
    scleroderma) that can be only controlled by ACE
    inhibitors ? ACEI is life-saving for the mother

42
  • In a review of 85 women taking ACE inhibitors
    during pregnancy, the perinatal mortality was
    almost 10, and the risk of persistent renal
    disease in the offspring was 41 with enalapril
    and 5 with captopril
  • No risk estimates are available for the newer ACE
    inhibitor lisinopril, but a few reports suggest
    that lisinopril is similarly concerning

43
Diuretics
  • Patients with chronic hypertension, diuretics can
    markedly potentiate the response to
    antihypertensives
  • An older meta-analysis showed no increase in
    adverse perinatal effects when diuretics were
    used in pregnancy for the management of
    hypertension

44
  • Indication hypertension in the setting of renal
    failure and congestive heart failure or pulmonary
    edema
  • There is concern about their use in preeclampsia,
    characterized by blood volume restriction, and in
    chronic hypertensive women who may fail to expand
    their plasma volume appropriately in pregnancy
  • Diuretics should not be used if reduced
    uteroplacental perfusion is suspected or in cases
    of fetal growth restriction

45
  • Diuretic therapy may lead to hyperuricemia,
    invalidating serum uric acid as diagnostic marker
    for preeclampsia
  • Other side effects may be hypokalemia,
    hyperlipidemia, and hemorrhagic pancreatitis
  • Spironolactone is not recommended during
    pregnancy owing to theoretical antiandrogenic
    effects on fetal sexual development

46
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47
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