Hypertensive Disorders in Pregnancy PDF - 2024

Summary

This document details hypertensive disorders in pregnancy, including classifications, pathophysiology, and management of pre-eclampsia. It outlines learning objectives, common causes, risk factors, and treatment options.

Full Transcript

Hypertensive disorders in
pregnancy

Dr.Khalida Hassan Muho
Specialist OB\GYN
 LEARNING OBJECTIVES
To understand the classification of
hypertension in pregnancy.
To appreciate and be able to differentiate
the different risks associated with various
types of hypertensive disorders in
pregnancy.
To understand the pathophysiology of pre-
eclampsia.
To be aware of the clinical presentation of
pre-eclampsia and understand the
principles of management.
To understand the long-term risks to both
mother and baby from preeclampsia.
Hypertension is common in pregnancy.
Approximately 1 in 10 women will have one or
more episodes of raised blood pressure prior to
delivery.
The majority have a benign condition called
gestational hypertension, which is not associated
with adverse outcomes. However, about one-
third of these women (3% overall) will develop
pre-eclampsia.
Pre-eclampsia is a leading cause of maternal
death.
The World Health Organization (WHO) estimates
that globally between 50,000 and 75,000 women
die of this condition each year
Furthermore, pre-eclampsia is frequently
accompanied by fetal growth restriction
(FGR), which is responsible for
considerable perinatal morbidity and
mortality.
An increasing number of women enter
pregnancy with chronic hypertension and
this is associated with increased risks for
both mother and baby, including an
increased risk of preeclampsia
and FGR.
 Classification of hypertension in
pregnancy
Non-proteinuric pregnancy-induced
hypertension.
Pre-eclampsia.
Chronic hypertension
Non-proteinuric pregnancy-induced
hypertension (otherwise known as
gestational hypertension) is hypertension
that arises for the first time in the second
half of pregnancy and in the absence of
proteinuria.
It is not associated with adverse
pregnancy outcome and mild and
moderate increases in blood pressure in
this setting do not require treatment.
However, up to one-third of women who
present with gestational hypertension will
progress to pre-eclampsia.
Women who have confirmed hypertension in the
first half of pregnancy most likely have chronic
hypertension.
The majority will have essential hypertension but
this is a diagnosis of exclusion and secondary
causes should be excluded.
Chronic hypertension, of whatever type, can
predispose to the later development of
superimposed pre-eclampsia.
Even in the absence of superimposed
preeclampsia, chronic hypertension is associated
with increased maternal and fetal morbidity and
pregnancies complicated by chronic hypertension
should therefore be regarded as high risk.
The physiological fall in blood pressure
that occurs in the first trimester
secondary to peripheral vasodilatation
can mask chronic hypertension. For
example, a booking blood pressure of
138/88 mmHg, while still technically
within normal limits, raises the suspicion
of an underlying hypertensive tendency
 Degrees of hypertension
Mild: diastolic blood pressure 90–99
mmHg, systolic blood pressure 140–149
mmHg.
Moderate: diastolic blood pressure 100–
109 mmHg, systolic blood pressure
150–159 mmHg.
Severe: diastolic blood pressure ≥110
mmHg, systolic blood pressure ≥160
mmHg
Pre-eclampsia
Pre-eclampsia complicates approximately
2–3% of pregnancies
globally, around 70,000 women die
annually of pre-eclampsia, making it a
leading cause of maternal death in low-
resource settings.
Pre-eclampsia is defined as hypertension
of at least 140/90 mmHg recorded on at
least two separate occasions and at least
4 hours apart and in the presence of at
least 300 mg protein in a 24-hour
collection of urine, arising de novo after
the
20th week of pregnancy in a previously
normotensive woman and resolving
completely by the sixth postpartum
week.
Pre-eclampsia
is multisystem disorder unique to
pregnancy and has varying clinical
presentations.
The diagnosis is based on the presence of
new-onset hypertension in the latter half
of gestation, accompanied by new-onset
proteinuria and/or other evidence of
organ dysfunction.
When evaluating a pregnant woman with
new-onset hypertension who does not
have proteinuria, preeclampsia can be
 thrombocytopenia or disseminated
intravascular coagulation (DIC )
Elevated transaminases or other signs
of hepatic injury,
CNS symptoms
An elevated or rising serum creatinine
level
or pulmonary oedema.
Risk factors for pre-eclampsia
 First pregnancy.
 Multiparous with a previous history of pre-
eclampsia.
 Pre-eclampsia in any previous pregnancy.
 10 years or more since last baby.
 Age 40 years or more.
 Body mass index (BMI) of 35 or more.
 Family history of pre-eclampsia (in mother or
sister).
 Booking diastolic blood pressure of 80 mmHg or
more.
 Booking proteinuria ( of ≥1+ on more than one
occasion or quantified at ≥0.3 g/24 h).
 Multiple pregnancy.
 Certain underlying medical conditions:
pre-existing hypertension;
pre-existing renal disease;
pre-existing diabetes;
antiphospholipid antibodies
Pathophysiology
General thinking suggests that the development
of
pre-eclampsia is a two-stage process, which
originates in early pregnancy
In the first stage, trophoblast invasion is patchy
and the spiral arteries retain their muscular
walls. This is thought to prevent the development
of a high-flow, low-impedance uteroplacental
circulation and leads to uteroplacental ischaemia. The reason why trophoblasts invade less
effectively in these pregnancies is not known but
may reflect an abnormal adaptation of the
maternal immune system.
In the second stage, uteroplacental
ischaemia results in oxidative and
inflammatory stress, with the
involvement of secondary mediators
leading to
endothelial dysfunction, vasospasm and
activation of the coagulation system.
As the target cell of the disease process,
the vascular endothelial cell, is so
ubiquitous, pre-eclampsia is a truly
multisystem disorder, affecting
multiple organ systems, often
Physiological change of spiral arteries by
invading trophoblasts
The proposed aetiology of pre-
eclampsia
 Cardiovascular system
Normal pregnancy is characterized by
marked peripheral vasodilatation
resulting, in a fall in total peripheral
resistance despite an increase in
plasma volume and cardiac rate.
Pre-eclampsia is characterized by
marked peripheral vasoconstriction,
resulting in hypertension.The
intravascular high pressure and loss of
endothelial cell integrity results in
greater vascular permeability and
 `

Renal system
In the kidney, a highly characteristic
lesion called 'glomeruloindotheliosis' is
seen. This relatively specific for pre-
eclampsia and is associated with
impaired glomerular filtration and
selective loss of intermediate weight
proteins, such as albumin and
transferrin, leading, to proteinuria. This
in turn, causes a reduction in plasma
oncotic pressure and exacerbates the
development of oedema.
 Haematological system
In the event of endothelial damage,
platelets adhere to the damaged area.
Furthermore, diffuse vascular damage is
associated with laying down of fibrin.
Pre-eclampsia in association with
increased fibrin deposition and a
reduction in the platelet count may
accompany and occasionally predate
the onset of disease.
 The liver
In the liver, subendothelial fibrin deposition
is associated with elevation of liver enzymes.
This can be associated with haemolysis and a
low platelet count due to platelet
consumption (and subsequent widespread
activation of the coagulation system). The
presence of these finding,, called HELLP
syndrome (haemolysis, elevation of liver
enzymes and low platelets). HELLP syndrome
is a particularly severe form of pre-eclampsia,
occurring in just 2-4 per cent of women with
the disease. It is associated with a high Fetal
loss rate for up to 60 per cent).
 Neurological system
The development of convulsions in a
woman with pre-eclampsia is defined as
eclampsia. Vasospasm and cerebral
oedema have both been implicated in
the pathogenesis of eclampsia. Retinal
haemorrhages, exudates and
papilloedema are characteristic of
hypertensive encephalopathy and are
rare in pre­eclampsia, suggesting that
hypertension alone is not responsible
for the cerebral pathology.
 Other specific changes associated with PE
Cardiovascular system: generalized vasospasm
, increased peripheral resistance, reduced
central venous/pulmonary wedge pressures
Haematological system: platelet activation and
depletion coagulopathy , decreased plasma
volume, increased blood viscosity
Renal system: proteinuria, decreased
glomerular filtration rate, decrease urate
excretion
Hepatic: per portal necrosis, subcapsular
haematoma
Central nervous: cerebral oedema, cerebral
haemorrhage
 Symptoms of PE
The classic symptorns of pre-eclampsia
include a frontal headache, visual
disturbance and epigastric pain
However, the majority of women with
pre-eclampsia are asymptomatic or
merely complain of general, vague flu-
like symptoms.
 Signs of PE
Hypertension is usually the first sign
occasionally is absent or transient until
the late stages of the disease.
Rapidly progressive oedema of the face
and hands
Epigastric tenderness
Hyperreflexia and clonus
Uterus and fetus may fell small for
gestational age
 Testing for proteinuria
Dipstick Instant result but quantitatively
urinalysis inaccurate
Trace Seldom significant
1+ Possible significant proteinuria,
warrants quantifying
>2+ Probable significant proteinuria,
warrants quantifying
protein: Fast (within 1 hour) result
creatinine semiquantitave
Ratio
>30 mg/mol Probable significant proteinuria,

24-hour collection Slow

300 mg/24 h Confirmed significant proteinuria
Management and treatment
There is no cure for pre-eclampsia other
than to end the pregnancy by delivering
the baby (and placenta). This can be a
significant problem if pre-eclampsia
occurs early in pregnancy, particularly at
gestations below 34 weeks. Therefore,
management strategies are aimed at
minimizing risk to the mother in order to
permit continued fetal growth. In severe
cases, this is often not possible.
 The principles of management of pre-
eclampsia are:
Early recognition of the symptomless
syndrome.
Awareness of the serious nature of the
condition in its severest form.
Adherence to agreed guidelines for admission
to hospital, investigation and the use of
antihypertensive and anticonvulsant therapy.
Well-timed delivery to pre-empt serious
maternal or fetal complications.
Postnatal follow-up and counseling for future
pregnancies
 A diagnosis of pre-eclampsia usually
requires admission. Patients with mild
hypertension, minimal protein and
normal haematological and biochemical
parameters may be monitored as
outpatient but will require frequent
attendance for fetal and maternal
assessment. Women with moderate or
severe hypertension, significant
proteinuria or abnormal haematological
or biochemical parameters require
admission and inpatient management.
The management of pregnancy
complicated by pre-eclampsia
 Investigation for pre-eclampsia
To monitor maternal complications:
Full blood count(with particular emphasis on
falling platelet count and rising haematocrit)
If platelet values are normal, additional
clotting studies are not indicated
Serum renal profile(including serum uric acid
level to assess the severity of disease )
Serum liver profile
Frequent repeat proteinuria quantification is
probably unhelpful once diagnosis of pre-
eclampsia has been made
 To monitor fetal complications:
U/S assessment of:
fetal size
amniotic fluid volume
maternal and fetal Dopplers
Antenatal cardiotocography used in
conjunction with U/S surveillance,
provides a useful but by no means
infallible indication of fetal well-being. A
loss of baseline variability or
decelerations may indicate fetal
hypoxia
 Treatment of hypertension
The commonest cause of death in women
who die of pre-eclampsia in the UK is
cerebral bleeding secondary to
uncontrolled systolic blood pressure.
Therefore, the aim of antihypertensive
therapy is to lower the blood pressure
and reduce the
risk of maternal cerebrovascular accident
without reducing uterine blood flow and
compromising the fetus.
 There are a variety of antihypertensive used in
the management of pre-eclampsia.
Methyldopa is a centrally acting
antihypertensive agent. It has a long
established safety record in pregnancy
However, it can only be given orally, it takes
upwards of 24 hours to take effect and has a
range of unpleasant side effects, including
sedation and depression. These properties limit
its usefulness
Labetolol is an alpha-blocking and beta-
blocking agent. It too has a good safety record
in pregnancy and can be given orally and
intravenously.
 It is the first drug of choice in most national
guidelines including the current National
Institute for Health and Care Excellence
(NICE) guideline, Hypertension in Pregnancy.
Nifedipine is a calcium-channel blocker
with a rapid onset of action. It can,
however, cause severe headache that may
mimic worsening disease
In severe cases of fulminating disease, an
intravenous infusion of hydralazine or
labetalol can be titrated rapidly against
changes in the blood pressure.
Eclampsia
Eclampsia refers to the occurrence of one or
more generalized convulsions and /or coma in
the setting of pre-eclampsia and in the absence
of other neurological conditions.it is a serious
complication of PE
The incidence is 1/2000 deliveries and
complicate 1-2% of PE
Condition that proceed convulsions called
imminent eclampsia which include : sever
frontal headache, irritability, visual disturbance,
restlessness, twitching, drowsiness, epigastric
pain, oliguria and tachycardia.
Cerebral haemorrhage has been reported
to be the
most common cause of death in patients
with eclampsia (previously this was
pulmonary oedema) and stroke is known
to be the most common cause of death
(45%) in women with haemolysis,
elevated liver enzymes and low platelets
(HELLP) syndrome.
 Prevention: low threshold for administration of
magnesium sulphate in women with preeclampsia
who are thought to be unstable or suffering from
severe preeclampsia.
However, remember all patients with preeclampsia
regardless of perceived severity are at risk of
eclampsia.
 Risk factors: difficult to predict, uncontrolled
hypertension, two or fewer prenatal care visits,
primigravidity, obesity, black ethnicity, history of
diabetes and age 40 years
pre-existing diabetes
Multiple pregnancy
Connective tissue disease e.g
antiphospholipid syndrome
 Coarctation of the aorta
Blood pressure > 1 60/1 00 mmHg in
early pregnancy
Pre-pregnancy BMI > 35
Previous pre-eclampsia
Antiphospholipid syndrome
 In mild cases (150/100
mmHg, antihypertensive medication should
be offered to reduce the risk of severe
hypertension and the attendant risks of
intracerebral haemorrhage, although
treatment does not prevent placental
abruption or superimposed pre-eclampsia,
nor does it influence perinatal outcome.
Preferred antihypertensive agents include
labetolol, nifedipine and methyldopa
(centrally acting agent). The aim of
antihypertensive medication is to maintain
the blood pressure below 160 mmHg systolic
and 80–100 mmHg diastolic.
 The obstetric management of pre-
existing hypertension involves close
monitoring for the development of
superimposed pre-eclampsia and FGR.
In women requiring antihypertensive
medication, delivery is usually offered
around 39 weeks, but may need to be
earlier if complications have developed.
 Following delivery, the maternal blood
pressure often decreases, but careful
surveillance is required as it tends to
increase again on the third or fourth
postpartum day.
Breastfeeding is encouraged and
medication should be changed to those
drugs that are considered safe.
THANK YOU
 A16-year-old primigravida present to
emergency unit at 35 weeks gestation.
Her blood pressure is 170 /110 and she
has 4+proteinuria on a clean catch
specimen of urine. She has significant
swelling of her face and extremities.
She denies having contraction. Her
cervix is closed and unaffected. The
baby is cephalic by bed bedside
ultrasonography. She says the baby
movements have decrease in the past
24 hours.
Q1 What is the next step in the
Q2 What is the best position to
measure her blood pressure and why?
Q3 Clarify the physiological effect of
pregnancy on blood pressure?
Q4 Dose the swelling of extremities
significant during pregnancy?
Q5Is there a role of antihypertensive in
the management of this case and what
is the best drug of choice, why?
Q 6 Is there an indication for
termination of pregnancy in this
gestational age?