postpartum haemorrhage (pph) is still ranked among the top three major causes of maternal death...
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Postpartum haemorrhage (PPH) is still ranked among the top
three major causes of maternal death globally (WHO 2007).
Although the majority (99%) of deaths reported occur in
developing countries, the risk of PPH should not be
underestimated for any birth, nor should the potential for the
third stage of labour to be the most dangerous stage of
labour be underestimated (McDonald et al 2004, WHO
2007).
Chapter 29 :Physiology and management of third stage of
labour
Maternal mortality rates in high resource countries are
relatively low when compared to low resource countries,
however, maternal morbidity is similar in significance
. To facilitate a safe and healthy outcome for the mother and
her baby, antenatal health as well as intrapartum preparation
and postnatal skill, diligence and expertise of the midwife are
crucial factors. Research evidence is clearer for some
aspects of third stage management than others.
Chapter 29 :Physiology and management of third stage of
labour
Physiological processes
The third stage is defined as the period from the birth of the
baby to complete expulsion of the placenta and
membranes, involving the separation, descent and
expulsion of the placenta and membranes and control of
haemorrhage from the placenta.
Physiological processes
During the third stage, separation and expulsion of the
placenta and membranes occur as the result of mechanical
and haemostatic factors. The time at which the placenta
actually separates from the uterine wall varies. It may shear
off during the final expulsive contractions accompanying
the birth of the baby or remain adherent for some
considerable time. The third stage usually lasts between 5
and 15 min, but any period up to 1 hr may be considered to
be within normal limits.
Separation and descent of the placenta
Mechanical factors
The unique characteristic of uterine muscle lies in its power of retraction.
During the second stage of labour, the uterine cavity progressively
empties, enabling the retraction process to accelerate.
The vessels during this process become tense and congested. With the
next contraction the distended veins burst and a small amount of blood
seeps in between the thin septa of the spongy layer and the placental
surface, stripping it from its attachment .
This process of separation (first described by Schultze) is
associated with more complete shearing of both placenta and
membranes and less fluid blood loss (Fig. 29.3A).
The mechanism of placental separation. (A) Uterine wall is partially retracted, but not sufficiently to cause placental separation. (B) Further contraction and retraction thicken the uterine wall, reduce the placental site and aid placental separation. (C) Complete separation and formation of the retroplacental clot. Note: The thin lower segment has collapsed like a concertina following the birth of the baby.
Expulsion of the placenta. (A) Schultze method. (B) Matthews Duncan method.
Haemostasis
The normal volume of blood flow through the placental site is 500–800
mL/min. At placental separation, this has to be arrested within seconds,
as otherwise serious haemorrhage will occur. three factors within the
normal physiological processes that control bleeding They are:
1.Retraction of the oblique uterine muscle fibres in the upper uterine
segment through which the tortuous blood vessels work as a ligature
action. absence of oblique fibres in the lower uterine segment that
explains the greatly increased blood loss usually accompanying
placental separation in placenta praevia.
2- The presence of vigorous uterine contraction following
separation this brings the so that further pressure is
exerted on the placental site.
3-The achievement of haemostasis – there is activation
of the coagulation and fibrinolytic systems during, and
immediately following, placental separation.
Management of the third stage
The midwife's care of the mother should be based on an understanding
of the normal physiological processes
Having woman's pregnancy and labour history.
Progress of the first and second stages of labour are likely to impact on
management of the third stage .
The midwife's actions to reduce the very real risks of haemorrhage,
infection, retained placenta and shock.
Understanding the factors that may influence the risk of haemorrhage
are discussed in more detail later.
Uterotonics or uterotonic agents
Some drugs e.g. Syntocinon, ergometrine and prostaglandins) that
stimulate the smooth muscle of the uterus to contract.
They may be administered with crowning of the baby's head, at the
time of birth of the anterior shoulder of the baby, after the birth of the
baby but prior to placental delivery or following the delivery of the
placenta.
primary importance is that the health professional (whether a
midwife, GP or obstetrician) providing clinical care and advice .
Active management
An active management policy usually includes the routine administration of a
uterotonic agent, either intravenously, intramuscularly or even orally. This is
undertaken in conjunction with clamping of the umbilical cord shortly after birth
of the baby and delivery of the placenta by the use of controlled cord traction.
In situations where women at higher risk for PPH a prophylactic infusion of
larger doses of uterotonics diluted in intravenous solutions may be
administered over several hours following the birth.
management most widely practised throughout the developed world. Like all
interventions performed, skill in assisting the delivery of the placenta and
membranes is extremely important.
Expectant or physiological management
In expectant management, routine administration of a uterotonic
drug is withheld, the umbilical cord is left unclamped until cord
pulsation has ceased or the mother requests it to be clamped, or
both, and the placenta is expelled by use of gravity and maternal
effort. With this approach, therapeutic uterotonic administration
would be administered either to stop bleeding once it has
occurred or to maintain the uterus in a contracted state when
there are indications that excessive bleeding is likely to occur.
Intravenous ergometrine 0.25 mg This drug acts within 45 s;
therefore it is particularly useful in securing a rapid contraction
where hypotonic uterine action results in haemorrhage. If a
doctor is not present in such an emergency, a midwife may
give the injection.
ergometrine, is more often used to treat a PPH rather than as
a prophylactic drug.
Combined ergometrine and oxytocin (a commonly used brand is
Syntometrine) A 1 mL ampoule contains 5 IU of oxytocin and 0.5 mg
ergometrine and is administered by i.m. injection. The oxytocin acts
within 2½ min, and the ergometrine within 6–7 min (Fig. 29.5). Their
combined action results in a rapid uterine contraction enhanced by a
stronger, more sustained contraction lasting several hours. It is usually
administered as the anterior shoulder of the baby is born, thus
stimulating good uterine action at the beginning of the third stage. The
use of combined ergometrine/oxytocin or any ergometrine-based drug
is associated with side-effects such as elevation of the blood pressure
and vomiting (McDonald et al 2004).
Caution
No more than 2 doses of ergometrine 0.5 mg should be given as it can
cause headache, nausea and an increase in blood pressure and it is
normally contraindicated where there is a history of hypertensive or
cardiac disease Oxytocin is a synthetic form of the natural oxytocin
produced in the posterior pituitary, and is safe to use in a wider context
than combined ergometrine/oxytocin agents.
It can be administered as an intravenous and or intramuscular
injection. However, an intravenous bolus of oxytocin can cause
profound, fatal hypotension, especially in the presence of
cardiovascular compromise. The recommendation is that ‘when given
as an intravenous bolus the drug should be given slowly in a dose of
not more than 5 IU’.
Prostaglandins
In more recent years, a great deal of research time and investment has
been invested in seeking alternate ways of implementing strategies to
reduce the risk of PPH. Misoprostol (a prostaglandin E1 analogue) was
first used to treat gastric ulcers. It is cheap, not prone to loss of potency,
does not need to be sterile or refrigerated and can be administered
vaginally, orally or rectally negating the need for syringes.
The difference in the incidence of PPH between the women given 600
mg of misoprostol orally and the women who received other uterotonic
agents was 3.6% versus 2.7%. This translated to a >20% difference,
which was the tolerance level chosen beyond which it was believed
misoprostol was not as effective prescribed and administered uterotonic
globally.
Misoprostol was also found to have unpleasant side-effects, such as
severe shivering and higher temperature, both of which were transient but
unacceptable to some women.
Even though the recommendation was that misoprostol should not replace
other uterotonics in settings where they are available, the authors suggest
that it may be useful in circumstances where nothing else is available. The
transient side-effects associated with misoprostol may not be any more
debilitating than the nausea, vomiting (Ng et al 2007) and hypertensive
episodes experienced by some women receiving Syntometrine, which
remains the most commonly prescribed and administered uterotonic
globally.
Clamping of the umbilical cord
This may have been carried out during birth of the baby if
the cord was tightly around the neck. However, opinions
vary as to the most beneficial time for clamping the cord
during the third stage of labour.
Early clamping is normally applied in the first 1–3 min
immediately after birth, regardless of whether the cord
pulsation has ceased.
It has been suggested that this practice may have the following effects:•It may reduce the volume of blood returning to the fetus by as much as 75–125 mL, especially if clamping occurs within the first minute.•It may interrupt function of the placenta in maintaining O2 levels.•It may result in lower neonatal bilirubin levels, although the effect on the incidence of clinical jaundice is unclear.
•It may increase the likelihood of fetomaternal transfusion as a larger volume of blood remains in the placenta.
advantages of late clamping include:
•The route to the low resistance placental circulation remains patent,
This may be critical when the baby is preterm or asphyxiated, and the
difficulties in initiating respiration or accompanying circulatory
adaptation (Dunn 1985).
• The transfusion of the full allowance of placental blood to the
newborn. This may constitute as much as 40% of the circulating
volume depending on when the cord is clamped
Early cord clamping, which is usually part of active management, is in
general regarded as clamping of the umbilical cord within 30s of the birth
of the baby. Late cord clamping, a physiological approach, involves
clamping of the umbilical cord when cord pulsation has ceased.
early and late cord clamping vary and again, in practice, unavoidable
factors (e.g. if the cord is around the neck, the number of clinicians in the
room, the need for active resuscitation of the infant) can make it difficult to
adhere to a particular policy (McDonald 1996).
Debate continues over the effect of the extra 90–100 mL of blood
received by the baby when late cord clamping is practised (Mercer 2006).
Recent evidence suggests that the effects of early versus late cord
clamping may be different for pre-term and term infants (Rabe et al 2004).
Timing of cord clamping appears to be less of an issue in term infants.
Delivery of the placenta and membranes
Controlled cord traction (CCT). This manoeuvre is believed to reduce blood
loss, shorten the third stage of labour and therefore minimize the time during
which the mother is at risk from haemorrhage. It is designed to enhance the
normal physiological process.
If CCT is to be used, there are several checks to be made before proceeding:
• that a uterotonic drug has been administered
• that it has been given time to act
• that the uterus is well contracted
• that counter-traction is applied
• that signs of placental separation and descent are present.
When CCT is the preferred method of management, the following sequence of
actions is usually undertaken.
Some resistance may be felt but it is important to apply steady tension by
pulling the cord firmly and maintaining the pressure.
Jerky movements and force should be avoided.
A gentle upward and downward movement or twisting action will help to coax
out the membranes and increase the chances of delivering them intact.
Artery forceps may be applied to gradually ease the membranes out of the
vagina. This process should not be hurried; great care should be taken to avoid
tearing the membranes.
Evidence for active versus expectant management
It is strongly suggests that the prophylactic administration of a uterotonic
significantly reduces the risk of PPH, results in a lower mean blood loss,
fewer blood transfusions are required and there is a reduced need for
therapeutic uterotonics.
Taking all the best available evidence into consideration, a systematic
review of the literature by Prendiville et al (2002) recommended that all
women who birth in circumstances where this option is available should
be encouraged to do so.
Position of the woman
The effect of the position adopted by the woman at the time of placental
delivery is still largely unclear. It may vary according to the mother's
personal preference
Adoption of a dorsal position allows easy palpation of the uterine
fundus.
Upright, kneeling and all-fours positions may enhance the effect of
gravity and increase intra-abdominal pressure, which may in turn hurry
the placental delivery process.
The squatting position has been reported to increase visible blood loss
AsepsisThe need for asepsis is even greater now than in the preceding stages of labour .This may be required for a variety of conditions:•when the mother's blood group is Rhesus negative or if Rhesus type is unknown•when atypical maternal antibodies have been found during an antenatal screening test•where a haemoglobinopathy is suspected (e.g. sickle cell disease).
The sample should be taken as soon as possible from the fetal surface of the placenta where the blood vessels are congested and easily visible. These may include the baby's blood group, Rhesus type, haemoglobin estimation, serum bilirubin level, Coombs' test or electrophoresis.
Completion of the third stage
Once the placenta is delivered, the midwife must first check that the uterus
is well contracted and fresh blood loss is minimal.
Careful inspection of the perineum and lower vagina is important. A strong
light is directed onto the perineum in order to assess trauma accurately
prior to instigating repair.
Note. It should also be remembered that any amount of blood loss that
causes a physical deterioration such as feeling faint, sudden onset of
tachycardia, drop in blood pressure should be immediately investigated.
Examination of placenta and membranes
inspection must be carried out in order to make sure that no part of the
placenta or membranes has been retained. The membranes are the
most difficult to examine as they become torn during delivery and may
be ragged. Every attempt should be made to piece them together to give
an overall picture of completeness.
both placental surfaces examined in a good light. Any clots on the
maternal surface need to be removed and kept for measuring.
Immediate care
care for at least 1 hr after birth is very important,
Early physiological observations including ensuring a well contracted
uterus, assessment of vaginal blood loss and a gentle inspection of the
genital tract to inspect for trauma should be undertaken (NICE 2006).
The woman should be encouraged to pass urine because a full bladder
may impede uterine contraction.
Uterine contraction and blood loss should be checked on several
occasions during this first hour. Once basic procedures to ensure the
woman's and baby's safety and comfort have been completed, there is no
evidence to suggest that restriction of food or fluids is necessary.
Encourage breast feeding after delivery.
RecordsA complete and accurate account of the labour, including the documentation of all drugs, physical examination and observations, is the midwife's responsibility. This should also include details of examination of the placenta, membranes and cord with attention drawn to any abnormalities. The volume of blood loss is particularly important. Signatures are therefore essential, with co-signatories where necessary.
The completed records are a vital communication link between the midwife responsible for the birth and other caregivers, particularly those who take over care and provide ongoing community support services once the woman returns home.It is usually the midwife who completes the birth notification form. Timely notification and referral may prevent delay in a woman receiving appropriate assistance should she need it.
Transfer from the birth room
The midwife is responsible for seeing that all observations are made
and recorded prior to transfer of mother and baby to the postnatal
ward or before the midwife leaves the home following the birth.
The postnatal ward midwife should verify these details prior to
transfer of mother and baby. Following a domiciliary birth, the midwife
should leave details of a telephone number where she may be
contacted should the parents feel any cause for concern.
Complications of the third stage of labour
Postpartum haemorrhage
Primary postpartum haemorrhage is defined as excessive
bleeding from the genital tract at any time following the baby's
birth up to 24 hrs following the birth (WHO 2000).
A significant number of the deaths recorded were due to PPH.
The midwife is often the first and may be the only professional
person present when a haemorrhage occurs,
Primary postpartum haemorrhage
Fluid loss is extremely difficult to measure if the measured loss
reaches 500 mL, it must be treated as a PPH, irrespective of
maternal condition.
There are several reasons why a PPH may occur, including
atonic uterusretained placenta,trauma and blood coagulation disorder.
Atonic uterusThis is a failure of the myometrium at the placental site to contract and retract and to compress torn blood vessels and control blood loss by a living ligature action. Causes of atonic uterine action• Incomplete separation of the placenta• Retained cotyledon, placental fragment or membranes• Precipitate labour• Prolonged labour resulting in uterine inertia• Polyhydramnios multiple pregnancy• Placenta praevia• Placental abruption• General anaesthesia• A full bladder
Fibroids (fibromyomata)
Anaemia
•Previous history of postpartum haemorrhage or
retained placenta
•High parity resulting in uterine scar tissue
•Presence of fibroids
•Maternal anaemia
•Multiple pregnancy.
Signs of PPHThese may be obvious such as:• visible bleeding• maternal collapse.However, more subtle signs may present, such as:• pallor• rising pulse rate• falling blood pressure• altered level of consciousness; the mother may become restless or drowsy• an enlarged uterus as it fills with blood or blood clot; it feels ‘boggy’ on palpation (i.e. soft and distended and lacking tone); there may be little or no visible loss of blood.
Prophylaxis
By using the above list, it is possible for the midwife to apply some preventive
screening in an attempt to identify women who may be at greater risk and to
recognize causative factors. During the antenatal period a thorough and accurate
history of previous obstetric experiences will identify risk factors such as previous
PPH or precipitate labour. Arrangements can then, after careful explanation and in
full consultation with the woman, be made for birth to take place in a unit where
facilities for dealing with emergencies are available.
During labour, good management practices during the first and second stages are
important to prevent prolonged labour and ketoacidosis. A mother should not enter
the second or third stage with a full bladder. Prophylactic administration of a
uterotonic agent is recommended for the third stage, by either intramuscular injection
or intravenous infusion. Two units of cross-matched blood should be kept available
for any woman known to have a placenta praevia or is known to have pre-disposing
risk factors for PPH.
Treatment of PPH1 Call for medical aid.2 Stop the bleeding – rub up a contraction – give a uterotonic – empty the uterus.3Resuscitate the mother4Give a uterotonic to sustain the contraction5Empty the uterus
Secondary postpartum haemorrhage
Secondary postpartum haemorrhage is any abnormal or excessive
bleeding from the genital tract occurring between 24 hrs and 12
weeks postnatally. It is most likely to occur between 10 and 14 days
after birth. Bleeding is usually due to retention of a fragment of the
placenta or membranes, or the presence of a large uterine blood
clot., the lochia is heavier than normal and will have changed from a
serous pink or brownish loss to a bright red blood loss..
Subinvolution, pyrexia and tachycardia are usually present. As this is
an event that is most likely to occur at home, women should be
alerted to the possible signs of secondary PPH prior to discharge
from midwifery care.
Management
The following steps should be taken:
• call a doctor
• reassure the woman and her support person(s)
• rub up a contraction by massaging the uterus if it is still
palpable
• express any clots
• encourage the mother to empty her bladder
• give a uterotonic drug such as ergometrine maleate by the
intravenous or intramuscular route
• keep all pads and linen to assess the volume of blood lost
• if bleeding persists, OR is needed
Haematoma formationThis may be obvious at such sites as the perineum or lower vagina, but it is more difficult to diagnose if it occurs into the broad ligament or vault of the vagina. A large volume of blood may collect insidiously (up to 1 L).
Care after a postpartum haemorrhageWhatever the cause of the haemorrhage, the woman will need the continued support of her midwife until she regains her confidence. Her partner may also be fearful of a recurrence and need much reassurance. If the mother is breast-feeding, lactation may be impaired but this will only be temporary and she should be encouraged to persevere. The midwife is often the first and may be the only professional person present when a haemorrhage occurs, so her prompt, competent action will be crucial in controlling blood loss and reducing the risk of maternal morbidity or even mortality.