Preeclampsia and Eclampsia
Hypertensive Disorders of Pregnancy Classification
|
Disorder |
Features |
|
Chronic hypertension |
Hypertension before pregnancy or before 20 weeks gestation |
|
Gestational hypertension/Pregnancy-Induced Hypertension (PIH) |
New HTN after 20 weeks, no proteinuria/end-organ dysfunction |
|
Preeclampsia |
HTN after 20 weeks with proteinuria and/or end-organ dysfunction |
|
Eclampsia |
Preeclampsia with seizures |
|
Chronic hypertension with superimposed preeclampsia |
Chronic HTN plus new proteinuria or end-organ dysfunction |
Gestational Hypertension
New-onset hypertension after 20 weeks gestation without proteinuria or end-organ dysfunction.
BP ≥140/90 mmHg on two occasions at least 4 hours apart.
Preeclampsia
New-onset hypertension after 20 weeks gestation plus either:
A. Proteinuria
≥300 mg/24 h urine
OR
Protein/creatinine ratio ≥0.3
OR
Dipstick ≥2+
B. End-Organ Dysfunction (even without proteinuria)
- Platelets <100,000/μL
- Serum creatinine >1.1 mg/dL
- Doubling of baseline creatinine
- Elevated liver enzymes
- Pulmonary edema
- New-onset headache
- Visual symptoms
Severe Preeclampsia
Presence of any severe feature:
|
Severe Feature |
Criteria |
|
Severe hypertension |
≥160/110 mmHg |
|
Thrombocytopenia |
<100,000 |
|
Renal dysfunction |
Cr >1.1 mg/dL |
|
Liver dysfunction |
AST/ALT >2× normal |
|
Pulmonary edema |
Present |
|
Neurologic symptoms |
Headache, visual changes |
|
HELLP syndrome |
Present |
Eclampsia
Generalized tonic-clonic seizure in a woman with preeclampsia that cannot be attributed to another cause.
Pathophysiology
Normal Pregnancy
Trophoblasts invade spiral arteries.
Result:
- Large vessels
- Low resistance
- High flow
Placental perfusion becomes adequate.
Preeclampsia
Defective trophoblastic invasion.
Spiral arteries remain:
- Narrow
- Muscular
- High resistance
Result:Placental ischemia.
Stage 1: Placental Dysfunction
Ischemic placenta releases:
Antiangiogenic Factors
- sFlt-1 (soluble Fms-like tyrosine kinase)
- Soluble endoglin
These inhibit:
- VEGF
- PlGF
leading to endothelial dysfunction.
Stage 2: Maternal Endothelial Dysfunction
- Vasoconstriction(↑ SVR)
- Capillary Leak(Edema)
- Coagulation Activation(Microangiopathy)
- Organ Ischemia(Brain,Kidney,Liver,Placenta)
Why Proteinuria Occurs
Endotheliosis of glomerular capillaries causes:
- Loss of filtration barrier
- Increased protein leakage
Why Edema Occurs
Combination of:
- Capillary leak
- Hypoalbuminemia
- Sodium retention
Why Seizures Occur
Cerebral endothelial dysfunction causes:
- Vasospasm
- Hyperperfusion
- BBB disruption
- Vasogenic edema
This produces:Posterior Reversible Encephalopathy Syndrome (PRES) which is the major mechanism of eclamptic seizures.
Risk Factors
|
Maternal Risk Factors |
Obstetric Risk Factors |
Previous History |
|
First pregnancy (nulliparity) |
Multiple gestation |
Previous preeclampsia |
|
Age >40 years |
Hydatidiform mole |
Family history of preeclampsia |
|
Obesity |
IVF pregnancy |
|
|
Chronic hypertension |
|
|
|
Diabetes mellitus |
|
|
|
Chronic kidney disease (CKD) |
|
|
|
Autoimmune disease |
|
|
Clinical Features
|
Symptom |
Details / Significance |
|
Headache |
Persistent, frontal or occipital headache |
|
Visual disturbance |
Blurring of vision, scotoma, diplopia |
|
Epigastric pain |
Due to stretching of Glisson capsule; highly concerning for severe disease/HELLP syndrome |
|
Nausea and vomiting |
Common symptom in severe preeclampsia |
|
Dyspnea |
May indicate pulmonary edema and severe disease |
|
Sign |
Details / Significance |
|
Hypertension |
Most common clinical sign of preeclampsia |
|
Edema |
Involves face, hands, and feet; common but not diagnostic of preeclampsia |
|
Hyperreflexia |
Common in severe preeclampsia and indicates increased neuromuscular excitability |
|
Clonus |
Suggests CNS irritability and increased risk of eclamptic seizures |
Laboratory Abnormalities
|
Investigation |
Purpose / Findings |
|
Urine protein-creatinine ratio (UPCR) |
≥0.3 supports diagnosis of proteinuria |
|
24-hour urinary protein |
Gold standard; ≥300 mg/24 h diagnostic |
|
Urine dipstick |
Rapid screening; ≥2+ suggests significant proteinuria |
|
Complete blood count (CBC) |
Hemoconcentration, thrombocytopenia, evidence of HELLP syndrome |
|
Peripheral blood smear |
Schistocytes suggest microangiopathic hemolysis |
|
Platelet count |
Assess severity; <100,000/μL is a severe feature |
|
Liver function tests (AST, ALT) |
Elevated levels indicate hepatic involvement |
|
Serum bilirubin |
Elevated in hemolysis/HELLP syndrome |
|
LDH |
Elevated in hemolysis and tissue injury; often >600 U/L in HELLP |
|
Serum creatinine |
Assess renal dysfunction; >1.1 mg/dL is a severe feature |
|
Blood urea nitrogen (BUN) |
Renal assessment |
|
Serum uric acid |
Often elevated; supports diagnosis but not diagnostic |
|
Electrolytes |
Baseline renal and metabolic assessment |
|
Coagulation profile (PT, INR, aPTT) |
Evaluate DIC or severe disease |
|
Fibrinogen level |
May decrease in DIC or placental abruption |
|
Blood group and crossmatch |
If severe disease, HELLP, or anticipated delivery |
|
Arterial blood gas (ABG) |
If respiratory distress or pulmonary edema develops |
|
Chest X-ray |
Suspected pulmonary edema or heart failure |
|
ECG |
If severe hypertension or cardiac symptoms |
|
Echocardiography |
Suspected cardiomyopathy, pulmonary edema, or cardiac dysfunction |
|
Fundus examination |
Hypertensive retinopathy, retinal edema, hemorrhage |
|
CT/MRI brain |
Severe headache, focal deficits, altered sensorium, suspected PRES, stroke, or intracranial hemorrhage |
Fetal Evaluation
|
Investigation |
Purpose / Findings |
|
Fetal movement count |
Simple assessment of fetal well-being |
|
Non-stress test (NST) |
Fetal heart rate reactivity |
|
Obstetric ultrasound |
Fetal growth, amniotic fluid volume, placental assessment |
|
Umbilical artery Doppler |
Assess placental insufficiency |
|
Middle cerebral artery Doppler |
Fetal adaptation to hypoxia |
Management
Three major goals:
- Prevent seizures
- Control blood pressure
- Deliver fetus at appropriate time(Delivery of the placenta is the only definitive cure for preeclampsia.)
Blood Pressure Control
Severe Hypertension
≥160/110 mmHg Persistent for ≥15 minutes
Must be treated urgently.
Target
SBP 140–150
DBP 90–100
Avoid excessive reduction.(Placental perfusion may fall.)
Antihypertensive Drugs Used in Preeclampsia
|
Drug |
Dose |
Onset |
Adverse Effects / Contraindications |
|
Labetalol (IV)(first line) |
20 mg IV → 40 mg after 10 min → 80 mg every 10 min (max 300 mg) |
5–10 min |
Bradycardia, hypotension, bronchospasm; avoid in asthma, severe bradycardia, heart block |
|
Labetalol (Oral) |
100–200 mg BD/TDS, can increase up to 2400 mg/day |
1–2 hr |
Bradycardia, fatigue, bronchospasm |
|
Hydralazine (IV)-(Alternative first-line agent) |
5–10 mg IV every 20 min until target BP achieved |
10–20 min |
Reflex tachycardia, headache, flushing, maternal hypotension, fetal distress if BP falls rapidly |
|
Nifedipine Immediate Release (PO) |
10 mg orally; repeat after 20–30 min if needed |
10–20 min |
Headache, flushing, tachycardia |
|
Nifedipine Extended Release (PO) |
30–60 mg daily |
30–60 min |
Peripheral edema, headache |
|
Methyldopa (PO) |
250–500 mg 2–4 times daily (max 3 g/day) |
4–6 hr |
Sedation, depression, fatigue, dry mouth |
|
Nicardipine (IV Infusion) |
5 mg/hr IV infusion; titrate every 15 min (max 15 mg/hr) |
5–15 min |
Reflex tachycardia, headache |
|
Urapidil (IV) |
Variable infusion protocols |
Rapid |
Hypotension, dizziness |
|
Nitroglycerin (IV) |
5–10 mcg/min infusion; titrate upward |
1–2 min |
Headache, hypotension |
|
Sodium Nitroprusside (IV) |
0.25–5 mcg/kg/min |
Seconds |
Cyanide/thiocyanate toxicity, fetal toxicity |
|
Esmolol (IV) |
Rarely used |
Rapid |
Fetal bradycardia |
|
Enalapril (Postpartum) |
5–20 mg/day |
1 hr |
Contraindicated during pregnancy |
|
Captopril (Postpartum) |
12.5–25 mg TDS |
15–30 min |
Contraindicated during pregnancy |
Drugs Contraindicated During Pregnancy
|
Drug Class |
Reason |
|
ACE inhibitors (Enalapril, Ramipril, Lisinopril) |
Fetal renal failure, oligohydramnios, fetal death |
|
ARBs (Losartan, Telmisartan, Valsartan) |
Fetopathy similar to ACE inhibitors |
|
Direct renin inhibitors (Aliskiren) |
Fetal toxicity |
|
Mineralocorticoid antagonists (Spironolactone) |
Potential fetal endocrine effects |
|
Routine diuretics |
May worsen intravascular depletion; use only for pulmonary edema or heart failure |
Magnesium Sulfate
Gold Standard
Best drug for:
- Seizure prevention
- Seizure treatment
Mechanism
- NMDA antagonism
- Cerebral vasodilation
- Reduces neuronal excitability
- Magnesium sulfate is NOT an antihypertensive drug.
Why does BP sometimes fall after magnesium?
Magnesium causes:
- Mild peripheral vasodilation
- Reduced catecholamine release
- Reduced vasospasm
Magnesium Sulfate Regimens
|
Pritchard Regimen (IV + IM) |
Zuspan Regimen (IV Infusion) |
|
Loading Dose: 4 g IV over 5–10 min plus 10 g IM (5 g in each buttock) |
Loading Dose: 4–6 g IV over 15–20 min |
|
Maintenance Dose: 5 g IM every 4 hours in alternate buttocks |
Maintenance Dose: 1–2 g/hour continuous IV infusion |
|
Continue only if RR >12/min, urine output >25–30 mL/hr, and patellar reflexes present |
Continue only if RR >12/min, urine output >25–30 mL/hr, and patellar reflexes present |
|
Preferred where infusion pumps are unavailable |
Preferred in ICU and high-dependency units |
|
More painful due to repeated IM injections |
More comfortable for the patient |
|
Widely used in resource-limited settings |
Most commonly used in tertiary care and critical care settings |
Duration of Therapy (Both Regimens)
|
Situation |
Duration |
|
Severe preeclampsia (seizure prophylaxis) |
Continue for 24 hours after delivery |
|
Eclampsia |
Continue for 24 hours after the last seizure or 24 hours after delivery (whichever is later) |
Timing of Delivery
Delivery Recommended Regardless of Gestation
- Eclampsia
- HELLP
- Pulmonary edema
- DIC
- Placental abruption
- Uncontrolled hypertension
- Persistent neurologic symptoms
- Fetal compromise
- ≥37 Weeks —Deliver.
- 34–37 Weeks— Usually deliver.
- <34 Weeks—Selected cases may undergo expectant management in tertiary-center.
Fluids
- Very cautious.
- Preeclamptic patients are: Intravascularly depleted but simultaneously Extravascularly overloaded
- Aggressive fluids precipitate pulmonary edema.
Fluid Strategy
Generally:80–100 mL/hr crystalloid unless bleeding.
High-Yield Exam Pearls
- Delivery is the only definitive cure for preeclampsia.
- Magnesium sulfate is superior to diazepam and phenytoin for eclampsia.
- Most common cause of seizure in severe preeclampsia = PRES.
- Most common cause of maternal death = Intracranial hemorrhage and complications of severe hypertension.
- Most common fetal complication = Prematurity due to indicated early delivery.
- HELLP syndrome may occur even without severe hypertension.
- Pulmonary edema is a major cause of ICU admission in severe preeclampsia.
- Loss of deep tendon reflexes is the earliest clinical sign of magnesium toxicity.
- Severe hypertension (≥160/110 mmHg) requires urgent treatment within minutes, not hours.
- The definitive treatment for eclampsia is stabilization followed by delivery, irrespective of gestational age once the mother is stabilized.