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CHAPTER 23
© 2012 Elsevier Ltd. All rights reserved.
Obstetric Emergencies
VASA PRAEVIA
The term vasa praevia is used when a fetal blood vessel lies over the os, in front of the presenting part. This occurs when fetal vessels from a velamentous insertion of the cord cross the area of the internal os to the placenta. Vasa praevia may sometimes be palpated on vaginal examination when the membranes are still intact. It may also be visualised on ultrasound. If it is suspected, a speculum examination should be made.
RUPTURED VASA PRAEVIA When the membranes rupture in a case of vasa praevia, a fetal vessel may also rupture. This leads to exsanguination of the fetus unless birth occurs within minutes.
Diagnosis ● Slight fresh vaginal bleeding, particularly if it commences at the same
time as rupture of the membranes. ● Fetal distress disproportionate to blood loss.
Management See Box 23.1 .
PRESENTATION AND PROLAPSE OF THE UMBILICAL CORD
See Box 23.2 for definitions.
Predisposing factors Any situation where the presenting part is neither well applied to the lower uterine segment nor well down in the pelvis may make it possible for a loop of cord to slip down in front of the presenting part. Such situations include: ● high or ill-fitting presenting part ● high parity ● prematurity ● malpresentation ● multiple pregnancy ● polyhydramnios.
PRESENTATION AND PROLAPSE OF THE UMBILICAL CORD 261
CORD PRESENTATION This is diagnosed on vaginal examination when the cord is felt behind intact membranes. It is, however, rarely detected but may be associated with aberrations in fetal heart monitoring such as decelerations, which occur if the cord becomes compressed.
Management See Box 23.3 .
Box 23.1 Management of vasa praevia
• Request urgent medical aid
• Monitor the fetal heart rate
• If the mother is in the first stage of labour and the fetus is still alive, an emergency caesarean section is carried out
• If in the second stage of labour, delivery should be expedited and a vaginal birth may be achieved
• A paediatrician should be present at delivery. If the baby is alive, haemoglobin (Hb) estimation will be necessary after resuscitation
Box 23.2 Definitions
Cord presentation
• The umbilical cord lies in front of the presenting part, with the fetal membranes still intact
Cord prolapse
• The cord lies in front of the presenting part and the fetal membranes are ruptured
Occult cord prolapse
• The cord lies alongside, but not in front of, the presenting part
Box 23.3 Management of cord presentation
• Under no circumstances should the membranes be ruptured
• Summon medical aid
• Assess fetal wellbeing, using continuous electronic fetal monitoring if available
• Help the mother into a position that will reduce the likelihood of cord compression
• Caesarean section is the most likely outcome
OBSTETRIC EMERGENCIES 262
CORD PROLAPSE Diagnosis ● Diagnosis is made when the cord is felt below or beside the presenting
part on vaginal examination. ● A loop of cord may be visible at the vulva. ● Whenever there are factors present that predispose to cord prolapse, a
vaginal examination should be performed immediately on spontaneous rupture of membranes. Variable decelerations and prolonged decelerations of the fetal heart are associated with cord compression, which may be caused by cord prolapse.
Immediate action and management See Box 23.4 .
Box 23.4 Management of cord prolapse
Immediate action
• Call for urgent assistance
• If an oxytocin infusion is in progress, this should be stopped
• A vaginal examination is performed to assess the degree of cervical dilatation and identify the presenting part and station. If the cord can be felt pulsating, it should be handled as little as possible
• If the cord lies outside the vagina, replace it gently to try to maintain temperature
• Auscultate the fetal heart rate
• Relieve pressure on the cord
• Keep your fingers in the woman's vagina and, especially during a contraction, hold the presenting part off the umbilical cord
• Help the mother to change position so that her pelvis and buttocks are raised. The knee–chest position causes the fetus to gravitate towards the diaphragm, relieving the compression on the cord
• Alternatively, help the mother to lie on her left side, with a wedge or pillow elevating her hips (exaggerated Sims’ position)
• The foot of the bed may be raised
• These measures need to be maintained until the delivery of the baby, either vaginally or by caesarean section
• Consider inserting 500 ml of warm saline into the bladder to relieve the pressure if transfer to an obstetric unit is required
Treatment
• Delivery must be expedited with the greatest possible speed
• Caesarean section is the treatment of choice if the fetus is still alive and delivery is not imminent, or vaginal birth cannot be indicated
• In the second stage of labour the mother may be able to push and you may perform an episiotomy to expedite the birth
• Where the presentation is cephalic, assisted birth may be achieved through ventouse or forceps
SHOULDER DYSTOCIA 263
SHOULDER DYSTOCIA
Definition The term ‘shoulder dystocia’ is used to describe failure of the shoulders to traverse the pelvis spontaneously after delivery of the head. The anterior shoulder becomes trapped behind or on the symphysis pubis, while the posterior shoulder may be in the hollow of the sacrum or high above the sacral promontory. This is, therefore, a bony dystocia, and traction at this point will further impact the anterior shoulder, impeding attempts at delivery.
Risk factors These can only give a high index of suspicion: ● post-term pregnancy ● high parity ● maternal obesity (weight over 90 kg) ● fetal macrosomia (birth weight over 4000 g) ● maternal diabetes and gestational diabetes ● prolonged labour (first and second stages) ● operative delivery.
Warning signs and diagnosis The birth may have been uncomplicated initially, but the head may have advanced slowly and the chin may have had difficulty in sweeping over the perineum. Once the head is born, it may look as if it is trying to return into the vagina.
Shoulder dystocia is diagnosed when manoeuvres normally used by the midwife fail to accomplish birth.
Management See Box 23.5 and Figs 23.1–23.3 .
The mnemonic HELPERR is widely used in obstetric drills ( Box 23.6 ). An algorithm ( Fig. 23.4 ) can also be helpful.
Complications associated with shoulder dystocia ● Postpartum haemorrhage. ● Uterine rupture. ● Neonatal asphyxia. ● Erb's palsy. ● Intrauterine death.
Box 23.6 The ‘HELPERR’ mnemonic
• H elp
• E pisiotomy need assessed
• L egs in McRoberts position
• P ressure suprapubically
• E nter vagina (internal rotation)
• R emove posterior arm
• R oll over and try again
OBSTETRIC EMERGENCIES 264
Bo
x 23
.5 M
anag
emen
t o
f sh
ou
lder
dys
toci
a
• Su
mm
on
hel
p –
an
ob
stet
rici
an, a
n a
nae
sth
etis
t an
d a
per
son
pro
fici
ent
in n
eon
atal
res
usc
itat
ion
• A
ttem
pt
to d
isim
pac
t th
e sh
ou
lder
s an
d a
cco
mp
lish
del
iver
y. A
n a
ccu
rate
an
d d
etai
led
rec
ord
of
the
typ
e o
f m
ano
euvr
e(s)
use
d,
the
tim
e ta
ken
, th
e am
ou
nt
of
forc
e u
sed
an
d t
he
ou
tco
me
of
each
att
emp
ted
man
oeu
vre
sho
uld
be
mad
e
• Tr
y th
e p
roce
du
res
for
30–6
0 se
con
ds;
if t
he
bab
y is
no
t b
orn
, mo
ve o
n t
o t
he
nex
t p
roce
du
re
No
n-i
nva
sive
pro
ced
ure
s
• C
han
ge
in m
ater
nal
po
siti
on
• M
cRo
ber
ts m
anœ
uvr
e . In
volv
es h
elp
ing
th
e w
om
an t
o li
e fl
at a
nd
to
bri
ng
her
kn
ees
up
to
her
ch
est
as f
ar a
s p
oss
ible
to
ro
tate
th
e an
gle
of
the
sym
ph
ysis
pu
bis
su
per
iorl
y an
d u
se t
he
wei
gh
t o
f h
er le
gs
to c
reat
e g
entl
e p
ress
ure
on
her
ab
do
men
, rel
easi
ng
th
e im
pac
tio
n o
f th
e an
teri
or
sho
uld
er
• Su
pra
pu
bic
pre
ssu
re (
Fig
. 23.
1 ). P
ress
ure
is e
xert
ed o
n t
he
sid
e o
f th
e fe
tal b
ack
and
to
war
ds
the
feta
l ch
est
to a
dd
uct
th
e sh
ou
lder
s an
d p
ush
th
e an
teri
or
sho
uld
er a
way
fro
m t
he
sym
ph
ysis
pu
bis
. Can
be
use
d w
ith
th
e M
cRo
ber
ts m
ano
euvr
e.
Man
ipu
lati
ve p
roce
du
res
Wh
ere
no
n-i
nva
sive
pro
ced
ure
s h
ave
no
t b
een
su
cces
sfu
l, d
irec
t m
anip
ula
tio
n o
f th
e fe
tus
mu
st n
ow
be
atte
mp
ted
: •
Posi
tio
nin
g o
f th
e m
oth
er . M
cRo
ber
ts o
r th
e al
l-fo
urs
po
siti
on
may
be
use
d
• Ep
isio
tom
y . M
ay b
e n
eces
sary
to
gai
n a
cces
s to
th
e fe
tus
and
red
uce
mat
ern
al t
rau
ma
• R
ub
in's
man
oeu
vre .
Th
e p
ost
erio
r sh
ou
lder
is p
ush
ed in
th
e d
irec
tio
n o
f th
e fe
tal c
hes
t, t
hu
s ro
tati
ng
th
e an
teri
or
sho
uld
er a
way
fr
om
th
e sy
mp
hys
is p
ub
is in
to t
he
ob
liqu
e d
iam
eter
• W
ood'
s m
anoe
uvre
( Fig
. 23.
2 ). A
han
d is
inse
rted
into
the
vag
ina,
pre
ssur
e is
exe
rted
on
the
post
erio
r fe
tal s
houl
der,
and
rota
tion
is a
chie
ved
• R
ever
se W
oo
d's
man
oeu
vre .
Fin
ger
s o
n t
he
bac
k o
f th
e p
ost
erio
r sh
ou
lder
ap
ply
pre
ssu
re t
o r
ota
te in
op
po
site
dir
ecti
on
• D
eliv
ery
of
the
po
ster
ior
arm
( Fi
g. 2
3.3 )
. A h
and
is in
sert
ed in
to t
he
vag
ina,
an
d t
wo
fin
ger
s sp
lint
the
hu
mer
us
of
the
po
ster
ior
arm
, fle
x th
e el
bo
w a
nd
sw
eep
th
e fo
rear
m o
ver
the
ches
t to
del
iver
th
e h
and
. If
the
rest
of
the
del
iver
y is
no
t th
en a
cco
mp
lish
ed,
the
seco
nd
arm
can
be
del
iver
ed f
ollo
win
g r
ota
tio
n o
f th
e sh
ou
lder
usi
ng
eit
her
Wo
od
's o
r R
ub
in's
man
oeu
vre
or
by
reve
rsin
g t
he
Løvs
et m
ano
euvr
e. H
as a
hig
h c
om
plic
atio
n r
ate
SHOULDER DYSTOCIA 265
• Za
van
elli
man
oeu
vre .
If t
he
man
oeu
vres
des
crib
ed a
bo
ve h
ave
bee
n u
nsu
cces
sfu
l, th
e o
bst
etri
cian
may
co
nsi
der
th
e Za
van
elli
man
oeu
vre.
Req
uir
es t
he
reve
rsal
of
the
mec
han
ism
s o
f d
eliv
ery
so f
ar a
nd
su
cces
s ra
tes
vary
Fig
. 23.
1: C
orre
ct a
pplic
atio
n of
sup
rapu
bic
pres
sure
for
sho
ulde
r dy
stoc
ia. (
Aft
er P
auer
stei
n C
198
7, w
ith p
erm
issi
on.)
Bo
x 23
.5 M
anag
emen
t o
f sh
ou
lder
dys
toci
a—co
nt'
d
Co
nti
nu
ed
OBSTETRIC EMERGENCIES 266
Fig.
23.
2: T
he W
oods
man
oeuv
re. (
Aft
er S
wee
t & T
iran
1996
, p. 6
64, w
ith p
erm
issio
n.)
Bo
x 23
.5 M
anag
emen
t o
f sh
ou
lder
dys
toci
a—co
nt'
d
SHOULDER DYSTOCIA 267
AB
CD
Fig
. 23
.3:
Del
iver
y of
the
pos
teri
or a
rm.
(A)
Loca
tion
of
the
post
erio
r ar
m.
(B)
Dire
ctin
g th
e ar
m in
to t
he h
ollo
w o
f th
e sa
crum
. (C
) G
rasp
ing
and
splin
ting
the
wri
st a
nd f
orea
rm.
(D)
Swee
ping
the
arm
ove
r th
e ch
est
and
deliv
erin
g th
e ha
nd.
Bo
x 23
.5 M
anag
emen
t o
f sh
ou
lder
dys
toci
a—co
nt'
d
OBSTETRIC EMERGENCIES 268
RUPTURE OF THE UTERUS
Rupture of the uterus is defined as: ● complete rupture – involves a tear in the wall of the uterus with or without
expulsion of the fetus. ● incomplete rupture – involves tearing of the uterine wall but not the
perimetrium. The life of both mother and fetus may be endangered in either situation.
Dehiscence of an existing uterine scar may also occur.
Causes ● High parity. ● Injudicious use of oxytocin, particularly where the mother is of high parity. ● Obstructed labour. ● Neglected labour, where there is previous history of caesarean section.
Call for help
Hospital
Obstetrician Anaesthetist Neonatal resuscitation expert 2nd midwife
McRoberts manœuvre�/�
Suprapubic pressure
Discourage pushing,move to edge of bed
Consider episiotomy
Deliver posterior arm
If the manœuvres fail to release impacted shoulders try
All-fours position
Internal rotationalmanœuvres Rubins Wood’s/reverse Wood’s
Home/midwife-led unit
Phone obstetric unit 2nd midwife Paramedic ambulance
Fig. 23.4: Algorithm for the management of shoulder dystocia.
ACUTE INVERSION OF THE UTERUS 269
● Extension of severe cervical laceration upwards into the lower uterine segment.
● Trauma, as a result of a blast injury or an accident. ● Antenatal rupture of the uterus, where there has been a history of previous
classical caesarean section.
Signs of rupture of the uterus ● Maternal tachycardia. ● Scar pain and tenderness (where there has been previous caesarean section). ● Abnormalities of the fetal heart rate and pattern. ● Poor progress in labour. ● Vaginal bleeding.
Management ● Immediate caesarean section. ● Repair of the rupture or a hysterectomy, depending on the extent of the
trauma and the mother's condition.
AMNIOTIC FLUID EMBOLISM/ANAPHYLACTOID SYNDROME OF PREGNANCY
This rare but potentially catastrophic condition occurs when amniotic fluid enters the maternal circulation via the uterus or placental site. The presence of amniotic fluid in the maternal circulation triggers an anaphylactoid response and the term ‘embolus’ is a misnomer.
The body responds in two phases: ● The initial phase is one of pulmonary vasospasm causing hypoxia,
hypotension, pulmonary oedema and cardiovascular collapse. ● The second phase sees the development of left ventricular failure,
with haemorrhage and coagulation disorder and further uncontrollable haemorrhage.
Amniotic fluid embolism can occur at any time, but during labour and its immediate aftermath is most common. It should be suspected in cases of sudden collapse or uncontrollable bleeding. Maternal and fetal/neonatal mortality and morbidity are high.
ACUTE INVERSION OF THE UTERUS
This is a rare but potentially life-threatening complication of the third stage of labour.
Classification of inversion Inversion can be classified according to severity as follows: ● First-degree . The fundus reaches the internal os. ● Second-degree . The body or corpus of the uterus is inverted to the internal os. ● Third-degree . The uterus, cervix and vagina are inverted and are visible.
OBSTETRIC EMERGENCIES 270
Causes Causes of acute inversion are associated with uterine atony and cervical dilatation, and include: ● mismanagement in the third stage of labour, involving excessive cord
traction to manage the delivery of the placenta actively ● combining fundal pressure and cord traction to deliver the placenta ● use of fundal pressure while the uterus is atonic, to deliver the placenta ● pathologically adherent placenta ● spontaneous occurrence of unknown cause ● short umbilical cord ● sudden emptying of a distended uterus.
Warning signs and diagnosis ● There is haemorrhage, the amount of which will depend on the degree of
placental adherence to the uterine wall. ● There is shock and sudden onset of pain. ● The fundus will not be palpable on abdominal examination. ● A mass may be felt on vaginal examination. ● The fundus may be visible at the introitus.
Management See Box 23.7 .
Box 23.7 Management of acute inversion of the uterus
Immediate action
• Summon appropriate medical support
• Attempt to replace the uterus by pushing the fundus with the palm of the hand, along the direction of the vagina, towards the posterior fornix. The uterus is then lifted towards the umbilicus and returned to position with a steady pressure (Johnson's manoeuvre)
• Give hydrostatic pressure with warm saline
• Insert an intravenous cannula and commence fluids. Take blood for cross-matching prior to starting the infusion
• If the placenta is still attached, it should be left in situ as attempts to remove it at this stage may result in uncontrollable haemorrhage
• Once the uterus is repositioned, the operator should keep the hand in situ until a firm contraction is palpated. Oxytocics should be given to maintain the contraction
Medical management
• If manual replacement fails, then medical or surgical intervention is required
271
BASIC LIFE-SUPPORT MEASURES
Before starting any resuscitation, assessment of any risk to the carer and the patient is needed. The basic principles of life support are: ● A – airway ● B – breathing ● C – circulation. The level of consciousness is established by shaking the woman's shoulders and enquiring whether she can hear. ● Summon assistance. ● Lie the woman flat; if she is pregnant, position with a left lateral tilt to
prevent aortocaval compression. ● Airway check – remove obstructions, tilt head back and lift chin upwards. ● Breathing – look, listen and feel for up to 10 seconds. ● Circulation – check carotid pulse; if no pulse felt, commence
cardiopulmonary resuscitation (CPR).
CPR ● Thirty chest compressions (rate of 100/min at a depth of 4–5 cm). ● Two mouth-to-mouth ventilations (insert airway if one available, rate of
10 breaths/min). ● Maintain ratio 30:2 ( note : ratios may change in light of evidence; check
resuscitation council guidelines).
SHOCK
Shock can be classified as follows: ● Hypovolaemic – the result of a reduction in intravascular volume. ● Cardiogenic – impaired ability of the heart to pump blood. ● Distributive – an abnormality in the vascular system that produces
a maldistribution of the circulatory system; this includes septic and anaphylactic shock.
HYPOVOLAEMIC SHOCK This is caused by any loss of circulating fluid volume that is not compensated for, as in haemorrhage, but may also occur when there is severe vomiting. The body reacts to the loss of circulating fluid in stages, as described below.
Initial stage The reduction in fluid or blood decreases the venous return to the heart. The ventricles of the heart are inadequately filled, causing a reduction in stroke volume and cardiac output. As cardiac output and venous return fall, the blood pressure is reduced. The drop in blood pressure decreases the supply of oxygen to the tissues and cell function is affected.
SHOCK
OBSTETRIC EMERGENCIES 272
Compensatory stage The drop in cardiac output produces a response from the sympathetic nervous system through the activation of receptors in the aorta and carotid arteries. Blood is redistributed to the vital organs. Vessels in the gastrointestinal tract, kidneys, skin and lungs constrict. This response is seen as the skin becomes pale and cool. Peristalsis slows, urinary output is reduced and exchange of gas in the lungs is impaired as blood flow diminishes. The heart rate increases in an attempt to improve cardiac output and blood pressure. The pupils of the eyes dilate. The sweat glands are stimulated and the skin becomes moist and clammy. Adrenaline (epinephrine) is released from the adrenal medulla and aldosterone from the adrenal cortex. Antidiuretic hormone (ADH) is secreted from the posterior lobe of the pituitary. Their combined effect is to cause vasoconstriction, an increased cardiac output and a decrease in urinary output. Venous return to the heart will increase but, unless the fluid loss is replaced, will not be sustained.
Progressive stage This stage leads to multisystem failure. Compensatory mechanisms begin to fail, with vital organs lacking adequate perfusion. Volume depletion causes a further fall in blood pressure and cardiac output. The coronary arteries suffer lack of supply. Peripheral circulation is poor, with weak or absent pulses.
Final, irreversible stage of shock Multisystem failure and cell destruction are irreparable. Death ensues.
Management The priorities are listed in Box 23.8 .
SEPTIC SHOCK The most common form of sepsis in childbearing in the UK is reported to be that caused by beta-haemolytic Streptococcus pyogenes (Lancefield group A). This is a Gram-positive organism, responding to intravenous antibiotics, specifically those that are penicillin based. In the general population, infections from Gram-negative organisms such as Escherichia coli , Proteus or Pseudomonas pyocyaneus are predominant; these are common pathogens in the female genital tract.
The placental site is the main point of entry for an infection associated with pregnancy and childbirth. This may occur following prolonged rupture of fetal membranes, obstetric trauma or septic abortion, or in the presence of retained placental tissue. Endotoxins present in the organisms release components that trigger the body's immune response, culminating in multiple organ failure.
Clinical presentation The mother may present with a sudden onset of tachycardia, pyrexia, rigors and tachypnoea. She may also exhibit a change in her mental state. Signs of shock, including hypotension, develop as the condition takes hold. Haemorrhage may develop as a result of disseminated intravascular coagulation.
SHOCK 273
Management This is based on preventing further deterioration by restoring circulatory volume and eradication of the infection ( Box 23.9 ).
Box 23.8 Priorities in the management of hypovolaemic shock
• Call for help
Shock is a progressive condition and delay in correcting hypovolaemia can ultimately lead to maternal death
• Maintain the airway
If the mother is severely collapsed, she should be turned on to her side and 40% oxygen administered at a rate of 4–6 l per minute
If she is unconscious, an airway should be inserted • Replace fluids
Two wide-bore intravenous cannulae should be inserted to enable fluids and drugs to be administered swiftly
Blood should be taken for cross-matching prior to commencing intravenous fluids
A crystalloid solution such as Hartmann's or Ringer's lactate is given until the woman's condition has improved
To maintain intravascular volume, colloids (e.g. Gelofusine, Haemaccel) are recommended
• Ensure warmth
It is important to keep the woman warm, but not overwarmed or warmed too quickly, as this will cause peripheral vasodilatation and result in hypotension
• Arrest haemorrhage
The source of the bleeding needs to be identified and stopped • Monitor vital signs
Box 23.9 Management of septic shock
• Replacement of fluid volume will restore perfusion of the vital organs
• Satisfactory oxygenation is also needed
• Rigorous treatment with intravenous antibiotics, after blood cultures have been taken, is necessary to halt the illness
• Retained products of conception can be detected on ultrasound, and these can then be removed