This topic contains detailed description about labour, its definition, date of onset of labour, calculations of date of delivery, causes of onset of labour, physiology of normal labour, and events, clinical course and management of each stages of labour.
2. Definition
“Series of events that take place in
the genital organs in an effort to expel
the viable products of conception (fetus,
placenta and the membranes) out of the
womb through the vagina into the outer
wolrd is called labour.”
3. It may occur prior to 37 weeks, when it
is called the preterm labour.
Expulsion of a previable live fetus
occurs through the same process but
in a miniature form and is called mini-
labour.
4. Labour is characterised by the presence
of..
Regular uterine contractions
Effacement of cervix
Dilatation of cervix
Fetal descend
5. Parturient
“A parturient is a patient/women in
labour.”
Parturition
“Parturition is the process of giving
birth.”
6. Delivery
“Delivery is expulsion or extraction
of a viable fetus out of the womb.”
It is not synonymous with labour,
delivery can take place without labour
as in elective cesarean section.
Delivery may be vaginal, either
spontaneous or aided, or it may be
abdominal.
7. Labour is called normal if it fulfills the
following critaria...
Spontaneous in onset and at term
With vertex presentation
Without undue prolongation
Natural termination with minimal aids
Without having any complications
affecting the health of the mother and
baby.
8. “Any deviation from the definition of
normal labour is called abnormal labour.”
“Labour in case with presentation other
than vertex or having some complications
even with vertex presentation affecting the
course of labour or modifyng the nature of
termination or adversely affecting the
maternal/fetal prognosis is called abnormal
labour.”
9. Very much unpredictable
Varies from case to case
Calculation based on Naegele's formula can
only give rough guide.
Based on Naegele's formula labour starts
approximately...
on the expected date in 4 %,
1 week on either side in 50 %.
2 weeks earlier and 1 week later in 80 %,
at 42 weeks in 10 %,
at 43 weeks plus in 4 %.
10. The Naegele's formula is simple
arithmetic method for calculating the
EDD (estimated date of delivery)
based on the LMP (Last menstrual
period.)
Key points are Menstrual cycle of 28
days and gestational period of 280
days.
11. Know the number of days in each
month..
February has 28 days regardless of
leap year of 29 days
30 days (April, June, Sep, Nov)
31 days (Jan, March, May, July, Aug,
Oct, Dec)
12. There are two formulas:-
First formula
LMP date
Abstract 3 months from the LMP
Add 7 days in LMP
ADD 1 year
eg, LMP date : september 28, 2018
- 3 months = June 28, 2018
+ 7 days = July 5, 2018
+ 1 year = July 5, 2019
13. Second formula
LMP date
Add 7 days in LMP
ADD 9 months
eg, LMP date : september 28, 2018
+ 7 days = October 5, 2018
+ 9 months = July 5, 2019
14. Uterine distension
Stretching effect on the myomatrium
Fetoplacental contribution
Oestrogen
Progesterone
Prostaglandins
Oxytocin and myometrial oxytocin
receptors
Neurological factor
15.
16. Uterine distension
on the myometrium by
the growing fetus and liquor amnii
Uterine stretch increases gap junction
proteins, receptors for oxytocin and
specific contraction associated
proteins.
17. Fetoplacental contribution
Activation of fetal hypothalamic pitutary
adrenal axis prior to onset of labour -> Increased
CRH (Corticotropin-releasing hormone) ->
Increased release of ACTH (adrenocorticotropic
hormone) -> fetal adrenals -> Increased cortisol
secretion -> Accelarated production of
oestrogen and prostaglandins from the placenta
18. Oestrogen
Increases release of oxytocin from maternal
pituitary.
Promotes the synthesis of myometrial
receptors for oxytocin, prostaglandins and
increase in gap junction in myometrial cells.
Accelerated lysosomal disinteration in the
decidual and amnion cells resulting the
increased prostaglandin synthesis.
19. Stimulates the myometrial contractile protein-
actomyosin through cAMP (cyclic
adenosinemonophosphate.
Increases the excitability of the myometrial
cell membranes.
20. Progesterone
Increased fetal production of dehydro-
epiandrosterone sulfate (DHES-S) and cortisol
inhibits the conversion of fetal pregnenolone to
progesterone.
Progesterone levels therefore fall before labour.
It is the alteration in the estrogen: progesterone
ratio rather than the fall in the absolute
concentration of progesterone, which is linked
with prostaglandin.
21. Prostaglandins
Prostaglandins are the important factors which
initiate and maintain labour.
The major sites of synthesis of prostaglandins
are- amnion, chorion, decidual cells and
myometrium.
22. Sinthesis is triggered by- rise in
oestrogen level, glucocorticoids,
mechanical stretching in late
pregnancy, increase in cytokines,
infection, vaginal examination, seration
or rupture of the membranes.
Prostaglandins enhances gap junction
formation.
23. Oxytocin and myometrial oxytocin
receptors
Large number of oxytocin receptors are
present in the lower segment and
cervix.
Receptor number increases during
pregnancy reaching maximum during
labour.
Receptor sensivity increases during
labour.
24. Oxytocin stimulate synthesis and
release of PGs from amnion and
decidua.
Vaginal examination and amniotomy
cause rise in maternal plasma oxytocin
level .
Fetal plasma oxytocin level is found
increased during spotaneous labour
compared to that of mother.
Its role in human labour is not yet
established.
25. Neurological factors
Although labour may start in
denervated uterus, labour may also be
initiated through nerve pathways.
Both α and β adrenergic receptors are
present in the myometrium, oestrogen
causing the α receptors and
progesterone the β receptors to function
predominantly.
26. The contractile response is initiated
through the α receptors of the
postganglionic nerve fibres in and
around the cervix and the lower part of
the uterus.
This is based on observation that onset
of labour occurs following stripping or
low rupture of the membranes.
27. The basic elements involved in the uterine
contractile systems are...
Actin
Myosin
Adenosine triphosphate
The enzyme myosin light chain kinase
Ca++
28.
29. Uterine muscles have two types of
adrenergic receptors...
α receptors, which on stimulation
produce a decrease in cyclic AMP
(adenosine monophosphate) and result
in contraction of the uterus
β receptors, which on stimulation
produce rise in cycle AMP and result in
inhibition of uterine contraction.
30. FALSE PAIN (false labour)
It is found more in primigravidae than
in parous women.
It usually appears prior to the onset of
true labour pain, by one or two weeks
in primigravidae and by a few days in
multiparae.
Such pains are probably due to
stretching of the cervix and lower
uterine segment with consequent
irritation of the neghbouring ganglia.
31. False labour pains are...
Dull in nature
Confined to lower abdominal and groin
Not associated with hardening of the
uterus
They have no other features of true
labour pains.
Usually relieved by enema or sedatives.
32. PRE LABOUR (Premonitory stage)
The premonitory stage may begin two
or three weeks before the onset of true
labour in primigravidae and a few days
before in multiparae.
The features are inconsistent and may
consist of : Lightening, Cervical
changes, appearance of false pain.
33. Lightening
Few weeks prior to the onset of labour
specially in primigravidae, the
presenting part sinks into the true
pelvis.
It is due to active pulling up of the
lower pole of the uterus around the
presenting part.
It signifies incorporation of the lower
uterine segment into the wall of the
uterus.
34. This diminishes the fundal height and hence
minimises the pressure on the diaphram.
The mother experiences a sense of relief from
the mechanical cardiorespiratory
embarrassment.
There may be frequency of micturition or
constipation due to mechanical factor-
pressure by the engaged presenting part.
It is a welcome sign as it rules out
cephalopelvis disproportion and other
conditions preventing the head from entering
the pelvic inlet
35.
36. Cervical changes
Few days prior to the onset of labour,
the cervix become ripe.
The ripe cervix is soft, less than 1.5 cm
in length, admits a finger easily and is
dilated.
37. True labour pains are...
Uterine contractions at regularintervals
Frequency of contractions increase
gradually
Intensity and duration of contractions
increase progressively
Associated with “show”
Progressive effacement and dilatation
of the cervix.
Descent of the presenting part
Formation of the bag of forewaters
Not relieved by enema or sedatives
38. Labour pains...
Throughout pregnancy , painless
braxon hicks contractions with
simultaneous hardening of the uterus
occur
These contractions change their
character, become more powerful,
intermittent and are associated with
pain.
The pains are more often felt in front of
the abdomen or radiating towards the
thighs
39. Show...
With the onset of labour, there is
profuse cervical secretion.
Simultaneously there is slight oozing of
blood from rupture of capillary vessels
of the cervix and from the raw decidual
surface caused by separation of the
membranes due to stretching of the
lower uteine segment.
“Expulsion of cervical mucous plug
mixed with blood is called show.”
40. Dilatation of internal os...
With onset of labour pain, the cervicl
canal begins to dilate more in the
upper part than in the lower, the former
being accompanied by corresponding
stretching of the lower uterine
segment.
41. Formation of “bag of waters”...
Due to stretching of the lower uterine
segment, the membranes are detached
easily because of its loose attachment to
the poorly formed decidua.
With the dilatation of the cervical canal,
the lower pole of the fetal membranes
becomes unsupported and tends to
buldge into the cervical canal.
As it contains liqour which has passed
below the presenting part , it is called
“bag of water”
42. During uterine contraction with
consequent rise of intra-amniotic
pressure, this bag becomes tense and
convex.
After the contractions pass off, the
bulging may disapppear completely.
This is almost a certain sign of onset of
labour.
In some cases the membranes are so
well applied to the head that the finding
may not be detected.
43. First stage of labour
It starts from the onset of true labour
pain and ends up with full dilatation of
cervix.
Two phases: latent phase (0-3 cm
cervical dilatation) and active phase (4-
10 cm cervical dilatation)
Also calles “cervical stage” of labour.
Average duration 12 hours in
primigravidae and 6 hours in multiparae.
44. Second stage of labour
It starts from full dilatation of the cervix and
ends with expulsion of the fetus from the birth
canal.
It has got two phases-
a) The propulsive phase: starts from full
dilatation upto the descent of the
presenting part to the pelvic floor.
b) The expulsive phase : is distinguished by
maternal bearing down efforts and ends
with delivery of the baby.
Average duration is 2 hours in primigravidae
and 30 mins in multiparae
45. Third stage of labour
It begins after expulsion of the fetus and
ends with expulsion of the placenta and
membranes (after-births).
Its average duration is about 15 minutes
in both primigravidae and multiparae.
The duration is reduced to 5 minutes in
active management.
Fourth stage of labour
It is the stage of observation for atleast
one hour after expulsion of the after-
births.
47. Uterine contractions in labour
Two fundal dominante at cornua
Intra-amniotic pressure rises beyond 20 mm
hg during uterine contraction
Tone: inactive- 2-3 mm hg, active-8-10 mm hg
Intensity: 40-50 mm hg in 1st stage, 100-120
mm hg in 2nd stage
Duration: In first stage- aout 30 seconds, in
second stage more than that
Frequency: contractions comes in interval of
10 to 15 mins in 1st stage, and 2 to 3 mins in
2nd stage
48. Retractions
Retraction is a phenomenon of the uterus in
labour in which the muscle fibres are
permenently shortened.
Unlike any other muscles of body, the uterine
muscles have this property to become
shortened once and for all.
Contraction is temperary reduction in length
of fibres, which attain their full length in
relaxation
In contrast, retraction results in permanent
shortening and the fibres are shortened once
and for all.
49.
50. Events in first stage of labour
Dilatation of cervix
Actual factors responsible are...
Uterine contraction and retraction
bag of membranes- hind water and
forewater
fetal axis pressure
Effacement or taking up of cervix
Lower uterine segment
51.
52.
53.
54.
55. Events in Second stage of labour
Propulsive phase: from full dilatation
untill head touches the pelvic floor
Expulsive phase: since the time mother
has irresistable desire to “ bear down”
and push until the baby is delivered.
56.
57. Events in third stage of labour
Placental separation: marginal and
central
Descent of placenta lower uterine
segment
Placental Expulsion: control cord
traction, fundal massage
Mechanism of control of bleeding
58. At the beginnig of labour, the placental
attachment roughly corresponds to an
area of 20 cm in diameter.
There is no appriciable diminution of the
surface area of the placental attachment
during first stage.
During second stage, there is slight but
progressive diminution of the area
following successive retractions, which
attains its peak immediately following the
birth of the baby.
59. After the birth of the baby, the uterus
measures about 20 cm vertically and 10
cm antero-posteriorly, the shape
becomes discoid.
The wall of the upper segment is much
thickened while the thin and flabby
lower segment is thrown into folds.
The cavity is much reduced to
accommodate only the afterbirths.
60.
61. Marked retraction reduces effectively the
surface area at the placental site to about
its half.
But as the placenta is unelastic, it can not
keep pace with such an extent of
diminution resulting in its bulcking.
The shearing force is instituted between
the placenta and the placental site which
brings about its ultimate separation.
62. The plane of separation runs through deep
spongy layer of decidua basalis so that a
variable thickness of decidua covers the
maternal surface of the separated
placenta.
There are two ways of separation of
placenta:
1. Central separation (Schultze)
2. Marginal separation
63. Detachment of placenta from its uterine
attachment starts at the centre resulting in
opening up of few uterine sinuses and
accumulation of blood behind the placenta
(retroplacental hematoma).
With increasing contraction, more and
more detachment occurs facilitated by
weight of the placenta and retroplacental
blood until whole of placenta gets
detached.
64. Separation starts at the margin as it is
mostly unsupported.
With progressive uterine contraction more
and more areas of the placenta get
separated.
Marginal separation is found more
frequently.
65.
66. The membranes which are attached loosely in
the active part are thrown into multiple folds.
Those attached to the lower segment are already
separated during its stretching.
The separtion is facilitated partly by the uterine
contractions and mostly by weight of the
placenta as it descends down from the active
part.
The membranes so separated carry with them
remnants of decidua vera giving the outer
surface of the chorion its characteristic
roughness.
67. After complete separation of the placenta,
it is forced down into the flabby lower
uterine segment or upper part of the
vagina by effective contraction and
retraction of the uterus.
Therefore, it is expelled out by either
voluntary contraction of abdominal
muscles or by manual procedure.
68. After placental separation, innumerable
torn sinuses which have free circulation of
blood from uterine and ovarian vessels
have to be obliterated.
The occlusion is effected by complete
retraction where by the arterioles, as they
pass tortuously through the interlacing
intermediate layer of the myometrium, are
literally clamped.
It is the principal mechanism of
hemostasis.
69. However, thrombosis occurs to occlude
the torn sinuses, a phenomenon which is
facilitated by hypercoaguable state of
pregnancy.
Apposition of the walls of the uterus
following expulsion of the placenta
(myotampoade) also contributes to
minimize blood loss.
70. Mechanism of Normal Labour includes...
1. Fetus in utero
2. Definition of Mechanism of Labour
3. Mechanism or the cardinal movements
71. In Normal Labour...
Lie : Longitudinal
Presentation : Cephalic
Presenting part : Vertex
Attitude : Generalized flexion
Denominator : Occiput
Position : Right occipito antrior or
left occipito anterior
72. Diameters of Engagement of Pelvis...
Inlet : Transverse Diameter = 13 cm
Diameters of Emgagement of Skull...
Sub-occipito bregmatic = 9.5 cm
Sub-occipito frontal = 10 cm
73. Mechanism of labour
“It is defined as series of movements
that occur on the head in the process of
adaptation during its journey through the
pelvis.”
The series of changes in position and
attitude that the presenting part has to
make during its passage through the
pelvis and pelvic floor during the course
of labour.
74. It should be borne in mind that while
the principal movements are taking
place in the head, the rest of the fetal
trunk is also involved in it, either
participate in or initiating the
movement.
75. In normal labour, the head enters the
brim more commonly through the
available transeverse diameter (70%)
and to a lesser extent through one of
the oblique diameters.
Accordingly, the position is either
occipitolateral or oblique occipito
anterior.
Left occipito anterior is little more
common than right occipito anterior as
the left oblique diameter is encroached
by the rectum.
76. The engaging anterior posterior diameter
of the head is either suboccipito
bregmatic 9.5 cm or in slight deflexion
suboccipito frontal 10 cm.
The engaging transeverse diameter is
biparital 9.5 cm.
As the occipito lateral position is the
most common, the mechanism of labour
in such position will be described.
77. The principal movements are...
Engagement
Descent
Flexion
Internal rotation
Crowing
Extension
Restitution
External rotation
Expulsion of the trunk
78. Although the various movements are
described separately but in reality, the
movements at least some, may be
going on simultaneously.
79. Head brim relation prior to the engagement as
revealed by imaging studies shows that due to
lateral inclination of head, the sagital suture
does not strickly correspond with the available
transeverse diameter of the inlet.
Instead, it is either deflected anteriorly towards
the symphysis pubis or posteriorly toward the
sacral promontory.
Such deflection of the head in relation to the
pelvis is called asynclitism.
80. When the sagital suture lies anteriorly,
the posterior parietal bone becomes the
leading presenting part and is called
posterior acynclitism or posterior
parietal presentation.
This is more frequently found in
primigravidae because of good uterine
tone and a tight abdominal wall.
81. In others, sagital sutures lies more
posteriorly with the result that the
anterior parietal bone becomes the
leading presenting part and is than
called anterior parietal presentation or
anterior acynclitism.
It is more commonly found in
multiparae.
Mild degree of acynclitisms are
common but severe degrees indicate
cephalopelvic disproportion.
82. Posterior lateral flexion of the head
occurs to glide the anterior parietal
bone past the symphysis pubis in
posterior parietal presentation.
After this movement which occurs early
in labour, not only the head enters the
brim but also synclitism occurs.
However, in about 25 % of cases, the
head enters the brim in synclitism.
i.e.the sagital suture corresponds to
the diameter of engagement.
83.
84. Advantages of Asynclitism...
Enagaement of head with asynclitism, the
two parietal eminences cross the brim
once at a time.
This helps lesser diameter (super sub
parietal- 8.5 cm) to cross the pelvic brim
instead of larger biparietal diameter (9.5
cm ) for engagement in synclitism.
Asynclitism is beneficial in the mechanism
of engagement of head.
Marked and persistent asynclitism is
abnormal and indicates cephalo pelvic
disproportion.
85. In primigravidae, engagement occurs in
a significant number of cases before
the onset of labour.
While in multiparae, the same may
occur in late first stage with rupture of
membranes.
86. Provided there is no undue bony or soft
tissue obstruction, descent is
continuous process.
It is slow or insignificant in first stage
but pronounced in second stage.
It is completed with the expulsion of
the fetus.
In primigravidae, with prior
engagement of the head, there is
practically no descent in first stage.
87. While in multiparae, descent starts with
engagement.
Head is expected to reach the pelvic
floor by the time the cervix is fully
dilated.
Factors facilitating descent are...
Uterine contraction and retraction
Bearing down efforts
Straightening of the ovoid fetal
especially after rupture of the
membranes.
88. While some degree of flexion of the head
is noticeable at the beginning of labour
but complete flexion is rather
uncommon.
As the head meets the resistance of the
brim canal during descent, full flexion is
achieved.
Thus, if the pelvic is adequate, flexion is
achieved either due to the resistance
offered by the unfolding cervix, the walls
of the pelvic or by the pelvic floor.
89. It has been seen that flexion preceds
internal rotation or at least coincides
with it.
Flexion is essential for descent, since it
reduces the shape and size of the plane
of the advancing diameter of the head.
90. Flexion is explained by the two-arm lever
theory:-
The fulcrum represented by the
occipito-allantoid joint of the head, the
short arm extends from the condyles to
the occipital protuberance.
And the long arm extends from
condyles to the chin.
When resistance is encountered by
ordinary law of mechanics, the short
arm descends and the long arm
ascends resulting in flexion of the
head.
91.
92. It is movement of great importance
without which there will be no further
descent.
The mechanism of internal rotation is
very complex although easy to
describe.
93. The theories which explains the
anterior rotation of the occiput are...
Slope of pelvic floor
Pelvic shape
Law of unequal flexibility
94. Slope of pelvic floor
Two halves of lavetor ani form a gutter
and viewed from above, the direction of
fibres is backward and towards the
midline.
Thus, during each contraction, the head,
occiput in particular, in well-flexed
position, stretches the levator ani,
particularly that half which is in relation
to the occiput.
95. After the contraction passes off, elastic
recoil of the levator ani occurs bringing
the occiput forward towards the midline.
The process is repeated until the
occiput is placed anteriorly.
This is called rotation by the rule of
pelvic floor. (Hart's rule)
96. Pelvic Shape
Forward inclination of the side walls of
the cavity, narrow bispinous diameter
and long anterior posterior diameter of
the outlet result in putting the long axis
of the head to accomodate in the
maximum available diameter
i.e., anterior posterior diameter of the
outlet leaving behind the smallest
bispinous diameter.
97. Law of unflexibility (Sellheim and moir)
The internal rotation is primarily due to
inequalities in the flexibility of the
component parts of the fetus.
In occipito-lateral position, there will be
anterior rotation by two-eighths of a
circle forward, placing the occiput
behind the symphysis pubis.
There is always an accompanying
movement of descent with internal
rotation.
98. Thus, prerequisites of anterior internal rotation
of the head are well-flexed head, efficient
uterine contraction, favorable shape at the
midpelvic plane, and tone of the levator ani
muscle.
The level at which internal rotation occurs is
variable.
Rotation in the cervix although favourable is a
less frequent occurence.
In majority of cases rotation occurs at the
pelvic floor.
Rarely it occurs at late as crowning of the
head.
99.
100. Torsion of the neck
If the shoulders remain in antero-
posterior diameter, the neck has to
sustain a torsion of 2/8th of a circle.
But the neck fails to withstand such
major degree of torsion and as such,
there will be some amount of
simultaneous rotation of the shoulders in
the same direction to the extend of 1/8th
of circle placing the shoulders to lie in
oblique diameter with 1/8th of torsion still
left behind.
101. Thus, the shoulders move to occupy
the left oblique diameter in left occipito
lateral position and right oblique
diameter in right occipito-lateral
position.
102. In crowning, the maximum diameter of
the head (biparietal diameter) stretches
the vulval outlet without any recession
of the head even after the contraction is
over called “Crowning of the head”.
103. Delivery of the head takes place by
extension through “couple of force”
theory.
The driving force pushes head in a
downward direction while the pelvic
floor offers a resistence in the upward
and forward direction.
The downward force neutralize and
remaining forward thrust helps in
extension.
104. The successive parts of fetal head to be
born through the stretched vulval outlet
are vertex, brow and face.
105. It is the visible passive movements of
the head due to untwisting of the neck
sustained during internal rotation.
Movement of restitution occurs rotating
the head through 1/8th of a circle in the
direction opposite to that of internal
rotation.
The occiput thus points to maternal
thigh of the corresponding side to
which it originally lies.
106. It is the movement of the head visible
externally due to internal rotation of
shoulders.
As the anterior shoulder rotate towards
the symphysis pubis from oblique
diameter, it carries the head in a
movement of external rotation through
1/8th of a circle and in same direction as
in restitution.
107. The shoulders now lie in antero-
posterior diameter.
The occiput points directly towards the
maternal thigh corresponding to the
side to which it was originally directed
at the time of engagement.
108. After shoulders are positioned in antero-
posterior diameter of the outlet, further,
descent takes place until the anterior
shoulder escapes below the symphysis
pubis.
By the movement of lateral flexion of the
spine, the posterior shoulder sweeps
over the perineum.
Rest of the trunk is taken expelled out by
lateral flexion.
109.
110.
111. The first symptom to appear is intermitt
painful uterine contractions followed by
expulsion of blood-stained mucus
(show) per-vaginam.
Only few drops of blood mixed with
mucus is expelled and excess should
be considered abnormal.
112. PAIN
Pains are felt more anteriorly with
simultaneous hardening of the uterus.
Initially, pains are not strong enough to
cause discomfort and come at varying
interval of 15-30 minutes with duration
of about 30 seconds.
But gradually the interval becomes
shortened with increasing intensity and
duration so that in the first stage the
contraction comes at intervals of 3-5
minutes and lasts for about 45
113. The relation of pain with uterine
contraction is of great clinical
significance.
In normal labour, pains are usually felt
shortly after the uterine contractions
begin and pass off before complete
relxation of the uterus.
Clinically pains are said to be good if
they come at intervals of 3-5 minutes
and at the height of contraction the
uterine wall cannot be indented by the
fingers.
114. DIALATATION AND EFFACEEMENT OF
THE CERVIX
Progressive anatomical changes in the
cervix, such as dilatation and
effacement, are recorded following
each vaginal examination.
Cervical dilatation relates with
dilatation of the external os and
effacement is determined by the length
of the cervical canal in the vagina.
115. In primi gravidae, the cervix may be
completely effaced, feeling like a paper
although notdilated enough to admit a
fingertip.
It may be mistaken for one that is fully
dilated.
Whilein multiparae, dilatation and
taking up occur simultaneously which
are more abrupt following rupture of
the membranes.
116. The anterior lip of the cervix is the last
to be effaced.
The first stage is said to be completed
only when the cervix is completely
retracted over the presenting part
during contractions.
117. Cervical dilatation is expressed either in
terms of fingers- 1,2,3 or fully dilated or
better in terms of centimeters (10 cm when
fully dilated.)
It is usually measured with fingers but
recorded in centimeters.
One finger equals to 1.6 cm on average.
Simultaneously, effacement of the cervix is
expressed in terms of percentage, i.e. 25 %,
50% or 100 % (cervic is than 0.25 cm thick)
The term “rim” is used when the depth of the
cervical tissue surrounding the os is about
0.5-1 cm.
118.
119.
120. STATUS OF THE MEMBRANE
Membranes generally remain intact
until full dilatation of the cervix or
sometimes even beyond in the second
stage.
However, it may rupture any time after
the onset of labour but before full
dilatation of cervix- when it is called
early rupture.
121. When the membranes rupture before
the onset of labour, it is called
premature rupture.
An intact membrane is best felt with
fingers during uterine contraction when
it becomes tense and bulges out
through the cervical opening.
In between contractions, the
membranes get relaxed and lies in
contact with the head.
122. With rupture of the membrane, variable
amounts of liqour escapes out through
the vagina and often there is
acceleration of uterine contractions.
123.
124. MATERNAL SYSTEM
General condition remains uaffected,
although a feeling of transient fatigue
appears following a strong contraction.
Pulse rate is increased by 10-15 beats
per minute during contraction, which
settles down to its previous rates in
between contractions.
Systolic blood pressure is raised by
about 10 mm Hg during contraction.
Temperature remains unchanged.
125. FETAL EFFECT
As long as the membranes are intact,
there is hardely any adverse effect on
the fetus.
However, during contraction, there may
be slowing of fetal hear rateby 10-20
b/m which soon returns to its normal
rate of about 140 b/m as the intensity of
contraction diminishes provided the
fetal is not compromised.
126. Second stage begins with full dilatation
of the cervix and ends with expulsion
of the fetus.
127. PAIN
The intensity of pain increases.
The pain comes at intervals of 2-3
minutes and lasts for about 1-1.5
minutes.
It becomes successive with increasing
intensity in the second stage.
128. BEARING- DOWN EFFORTS
It is additional voluntary expulsive
efforts that appear during the second
stage of labour (expulsive phase)
It is initiated by nerve reflax set up due
to stretching of the vagina by the
presenting part.
In majority, this expulsive effort start
spontaneously with full dilatation of
the cervix.
129. Along with uterine contraction, the
women is instructed to exert downward
pressure as done during straining at
stool.
Sustained pushing beyond the uterine
contraction is discouraged.
Premature (in the first stage) bearing
down efforts may suggest uterine
dysfunction.
There may be slowing of the FHR
during pushing and should come back
to normal once the contraction is over.
130. MEMBRANE STATUS
Membranes may rupture with a gush of
liquor per vaginam.
Rupture may occasionally be delayed
till the head is bulges out through the
introitus.
Rarely, spontaneous rupture may not
take place at all, allowing the baby to
be “born in a caul” (the amniotic
membrane enclosing the fetus).
131. DESCENT OF THE FETUS
Fetures of descent of fetus are evident
from abdominal and vahinal
examinations.
Abdominal findings are...
Progressive descent of the head assessed
in relation to the anterior shoulder to the
midline
Change in position of the fetal heart rate-
shifted downward and midially.
132. Internal Examination reveals...
Descent of the head in relation to ischial
spines
Gradual rotation of the head evidenced by
position of the sagital suture
Occiput in relation to thequadrants of the
pelvis
133.
134. VAGINAL SIGNS
As the head descends down, it
distends the perineum, the vulval
opening looks like a slit (narrow cut or
openning) though which the scalp hair
is visible.
During each contraction, the perineus
is marked distended with overlying skin
tense and glishtening and the vulval
openning becomes circular. (expulsive
phase)
135. The adjoining anal sphincter is
stretched and stool comes out during
contraction.
The head receds after the contraction
passes off but is held up a little in
advance because of retraction.
Ultimately the maximum diameter of the
head (biparital) stretches the vulval
outlet and there is no recession even
after the contraction passes off.
This is called “crowning of the head”
136. The head is born by extension.
After a little pause, the mother
experiences further pain and bearing
down efforts to expel the shoulders and
trunk.
Immedistely thereafter, a gush of liqor
(hindwater) follows, often tinged with
blood.
137. MATERNAL SIGNS
There are features of exhaustion.
Respiration is however slowed down
with increased perspiration.
During the bearing down efforts, the
face becomes congested with neck
veins prominent.
Immediately following the expulsion of
the fetus, the mother heaves a sigh of
relief.
138. FETAL EEFECTS
Slowing of FHR during contractions is
observed, which comes back to normal
before the next contraction.
139. Third stage includes separation, descent
and expulsion of the placenta with its
membrane.
140. PAIN
For a short time, the patient
experiences no pain.
However, intermittent discomfort in the
lower abdomen reappears,
corresponding with the uterine
contractions.
141. BEFORE SEPARATION
Per Abdomen
Uterus becomes discoid in shape, firm in
feel and non-ballottable.
Fundal height reaches slightly below the
umbilicus.
Per Abdomen
There may be slight trickling of blood.
Length of the umbilical cord as visible
from outside remains static.
142. AFTER SEPARATION
It taks about 5 minutes in conventional
management for the placenta to separate
Per Abdomen
Uterus becomes globular, firm and
ballottable
The fundal height is slightly raised as the
serated placenta comes down in the lower
segment and the contrcated uterus rests on
the top of it.
Slight bulging in the suprapubic region due
to the lower segment by the separated
143. Per Vaginum
Slight gush of vaginal bleeding
Permenant lengthening of the cord is
established
This can be elicited by pushing down the
fundus when the length of cord comes
outside the vulva, which remains permenant
even after the pressure is released.
Alternatively on suprapubic pressure upward
by the fingers, there is no indrawing of the
cord and the same lies unchanged outside
the vulva.
144. EXPULSION OF PLACENTA AND
MEMBRANES
The expulsion is achieved either by voluntary
bearing down efforts or more commonly
aided by manipulative procedure.
The afterbirth delivery soon followed by slight
to moderate bleeding amounting to 100-250
mL.
145. MATERNAL SIGNS
There may be chills and occasional shivering.
Slight transient hypotension is not unusual.
146. General considerations...
Labour events have got great psychological,
emotional and social impact to the woman
and her family.
She experiences stress, physical pain and
fear of dangers.
The caregiver should be tactful, sensitive
and respectful to her.
The woman is allowed to have her chosen
companion.
147. Continuous emotional support during
labour may reduce the need for
analgesia and decrease the rate of
operative delivery.
Privacy must be maintained.
She is explained about the events from
time to time.
Comfortable environment, skill and
confidence of the caregiver and
appropriate support are all essential so
that a woman can give birth with dignity.
148. Management of normal labour aims at
maximal observation with minimal active
intevention.
The idea is to maintain the normalcy and
to detect any deviation from the normal
at the earliest possible moment.
149. ANTISEPTICS AND ASEPSIS
Scrupulous surgical cleanliness and
asepsis on the part of the patients and
the attendants involved in the delivery
process are to be maintained.
150. PATIENT CARE
Shaving or hair clipping of the vulva is
done.
The vulva and the perineum are washed
liberally with soap amd water and then
with 10 % Dettol solution or Hibitane
(chlorhexidine) 1 in 2,000.
The woman should take a shower or
bath, wear laundered gown and stay
mobile.
151. Throughout labour she is given
continued encouragement and
emotional support.
Antiseptic and asepstic precautions are
to be taken during vaginal examination
and during conduction of delivery.
152. VAGINAL EXAMINATION IN LABOUR
First vaginal examination should be
done by a senior doctor to be more
reliable and informative.
The examination is done with the patient
lying in dorsal position.
153. PRELIMINARIES FOR PV EXAMINATION
Toileting- Hands and forearms should
be washed with soap and running water,
a srubbing brush be used for the finger
nails. The procedure should take at
least 3 minutes.
Sterile pair of gloves is donned.
Vulval toileting is performed. Vulva
should once more be swabbed from
before backward with antiseptic lotion
like Hibitane 1 in 2000.
154. The same solution is porred over the
vulva by separating the labia minora by
the fingers of left hand.
Gloved middle and index fingers of the
right hand smeared liberally with
antiseptic cream like Cetavion
(cetrimide 0..5 % W/W and hebitane 0.1
% W/W) are introduced in to the vagina
after separating the labia by two fingers
of the left hand.
155. Complete examination should be done
before fingers are withdrawn
Vaginal examination should be kept as
possible to avoid risks of infection.
156. The following informations are to be
noted and recorded carefully.
Degree of cervical dilatation in
centemeters
Degree of effacement
Status of membrane and if ruptured -
colour of liqour
Presenting part and its position
Lambda or posterior fontanel
Station of the head
Assessment of the pelvis
157.
158. Indications of vaginal examination.
Whatever aseptic technique is
maintained, there is always some chance
of introducing infection especially after
rupture of the membranes.
Hence the vaginal examination should be
restricted to a minimum.
159. At onset of Labour.
Confirm the onset of labour, to detect
precisely the presentinng part and its
positon.
Pelvic assessment specially in
primigravidae should be done during the
initial examination.
The progress of labour can be judge on
periodic examination noting the
dilatation of the cervix and descent of
the head in relation to the spines
(station).
160. Generally, it is done at an interval of 3-4
hours.
Following rupture of the membranes to
exclude cord prolapse especially where
the head is not yet engaged.
Whenever any interference is
contempted
To confirm the actual coincidence of
bearing down efforts with complete
dilatation of the cervix and to diagnose
precisely the beginning of second stage.
161. PRINCIPLES
No interference with watchful
expectancy so as to prepare the patient
for natural birth.
To monitor carefully the progress of
labour, maternal conditions and fetal
behavior so as to detect any
intrapartum complication early.
162. PRILIMINARIES
This consists of basic evaluation of the
current clinical conditon.
Enquiry is to be made about the onset
of labour pains or leakage of liquor, if
any.
Thorugh general and obstetrical
examinations including vaginal
examination are to be carried out and
recorded.
Records of antenatal visits and any
specific treatment given.
163. ACTUAL MANAGEMENT
General
Antiseptic dressing
Encouragement, emotional support and
assurance
Constant supervision
Bowel
Rest and ambulation
Diet
Bldder care
Relief of pain
Progress of labour
Health status of mother and baby
164. The transition from the first stage to the second
stage is evidenced by the following features...
Increasing intensity of uterine contractions
Urge to push or defecate with descent of the
presenting part
Complete dilatation of the cervix as
evidenced on vaginal examination
Bearing down efforts
165. PRINCIPLES
To assist in the natural exoulsion of the
fetus slowly and steadily.
To prevent perineal injuries
166. GENERAL MEASURES
The patient should be in bed
Constant supervision is mandatory
FHR is recorded every 5 minutes
To administer inhalation analgesics, in
the form of gas N2O and O2 to relieve
pain during contractions
Vaginal examination
167. PREPARATION FOR DELIVERY
Position: Dorsal position with 15ᵒ left
lateral tilt
Aseptics
Toileting the external genitalia
Catheterize the bladder
169. DELIVERY OF HEAD
The principles to be followed are to
maintain flexion of the head, to prevent
its early extension and to regulate its
slow escape out of the vulval outlet
The patient is encouraged for the
bearing down efforts during uterine
contractions
This facilitates descent descent of the
head.
170. When the scalp is visible 5 cm in
diameter, flexion of the head is
maintained during contractions.
This is achieved by pushing the occiput
downward and backward by using thumb
and index fingers of the left hand while
pressing the perineum by the right palm
with a sterile vulval pad.
If the patient passes stool, it should be
cleaned and the region is washed with
antiseptic lotion
171.
172. The process is repeated during
subsequent contractions until the
subocciput is placed under the
symphysis pubis.
At this stage the maximum diameter of
the head (biparital diameter) stretches
the vulval outlet without any recession of
the head even after the contraction is
over and it is called “ crowning” of the
head.
173. The purpose of increasing the flexion of
the head is to ensure that the small
suboccipitofrontal diameter 11.5 cm
When the perineaum is fully stretched
and threatens to tear especially in
primigravidae, episiotomy is done at this
stage after prior infiltration with 10 mL of
1 % lignocaine.
Bulging thinned out perineum is a better
criterion than the visibility of 4-5 cm of
scalp to decide the time of performing
episiotomy
174.
175. Slow delivery of head inbetween the
contraction is to be regulated
This is done when the suboccipitofrontal
diameteremerges out
This is accomplished by pushing the
chin with a sterile towel covered fingers
of the right hand placed over the
anococcygeal region while the left hand
exerts pressure on the occiput.
The forehead, nose, mouth and the chin
are thus born successively over the
stretched perineum by extension.
176.
177. Care following delivery of the head
Immediately following delivery of the
head, the mucus and blood in mouth
and pharynx are to be wiped with
sterile gauze piece on a little finger.
Alternatively, mechanical or electrical
sucker may be used.
This simple procedure prevents the
serious consequence of mucus
blocking the air passage during
vigourous inspiratory efforts.
178. The eyelids are than wiped with sterile dry
cotton swabs using one for each eye starting
from the medial to the lateral canthus to
minimize contamination of the conjuctival
sac.
The neck is than palpated to exclude the
presence of any loop of cord
If it is found and if loose enough, it should be
slipped over the head or over the shoulders
as the baby is being born.
But if it is sufficiently tight enough, it is cut
inbetween two pairs of locher's forceps
placed 1 inch apart.
179. Prevention of the perineal laceration
More attention should be paid not to the
perineum but to the controlled delivey of the
head.
Delivery of early extension is to be avoided.
Spontaneous forcible delivery of the head is to
be avoided
To deliver the head in between contractions
To perform timely episiotomy
To take care during delivery of the shoulders
180.
181. DELIVERY OF SHOULDERS
Not to be hasty in delivery of the
shoulders
Wait for the uterine contractions to
come and for the movements of
restitution and external rotation of the
head to occur
This indirectly signifies that the
bisacromial diameter is placed in the
anteroposterior diameter of the pelvis
182. During the next contraction, the anterior
shoulder is born behind the symphysis
pubis.
If there is delay, the head is grasped by both
hands and is gently drawn posteriorly until
the anterior shoulder is released from under
the pubis.
By drawing the head in upward direction, the
posterior shoulder is delivered out of the
perineum.
Traction on the head should be gentle to
avoid excessive stretching of the neck
causing injury to the brachial plexus,
hematoma of the neck or fracture of the
183.
184. DELIVERY OF TRUNK
After the delivery of shoulders the fore
finger of each hand are inserted under
the axillae and the trunk is delivered
gently by lateral flexion.
185. Third stage is the most crucial stage of labour.
Previously uneventful first and second stage
can become abnormal within a minute with
disasterous consequences
The principles underlying the management of
third stage are to ensure strict vigilance and
to follow the management guidelines strictly
in practice so as to prevent the
complications, the important one being
postpartum hemorrhage.
187. The placental separation and its descent into
the vagina are allowed to occur spontaneously.
Minimal assistance may be given for the
placental expulsion if it needed.
Constant watch is mandatory and the patient
should not be left alone.
If the mother is delivered in the lateral position,
she should be changed to dorsal position to
note features of placental separation and to
assess the amount of blood loss.
188. A hand is placed over the fundus to...
a) recognize the signs of separation of
placenta
b) note the state of uterine activity-
contraction and relaxation
c) detect, though rare, cupping of the
fundus which is an early evidence of
inversion of the uterus
189. Desire to fiddle with the fundus or
massage the uterus is to be strongly
condemned.
Placenta is separated within minutes
following the birth of the baby
A watchful expectancy can be extended
up to 15-20 minutes.
In some institution “no touch” or “hands
off”policy is employed.
The patient is expected to expel the
placenta within 20 minutes with the aid of
gravity
190. EXPULSION OF PLACENTA
Only when the features of placental
separation and its descent into the lower
segment are confirmed, the patient is
asked to bear down simultaneously with
the hardening of the uterus.
The raised intra-abdominal pressure is
often adequate to expel placenta.
If the patient fails to expel, one can wait
safely up to 10 minutes if there is no
bleeding.
191. As soon as the placenta passes through the
introitus, it is grasped by the hands and twisted
round and round with gentle traction so that
the membranes are caught hold of by sponge-
holding forceps and in similar twisting
movements the rest of the membranes are
delivered.
Gentleness, pateince and care are prerequisites
for complete delivery of the membranes.
If spontaneous expulsion fails or is not
practicable, because of delivery under
anaesthesia, any one of the assisted expulsion
method can be used.
193. CONTROLLED CORD TRACTION
(modified Brandt Andrews method)
The palmer surface of the left hand is placed
(above the symphysis pubis) approximately at
the junction of upper and lower uterine
segment.
The body of the uterus is pushed upward and
backward, toward the umbilicus while by the
right hand steadily tension (but not too strong
traction) is given in downward and backward
direction holding the clamp until the placenta
comes outside the introitus.
194. It is thus more an uterine elevation
which facilitates expulsion of the
placenta.
The procedure is to be adopted only
when the uteus is hard and contracted
195.
196. FUNDAL PRESSURE
The fundus is pushed downward and
backward after placing four fingers
behind the fundus and the thumb in front
using the uterus as a sort of piston
Pressure must be given only when the
uterus becomes hard.
If it is not, than make it hard by gentle
rubbing
The pressure has to be withdrawn as
soon as the placenta passes through the
introitus
197. If the baby is macerated or premature,
this method is preferable to cordtraction
as the tensile strength of the cord is
much reduced in both the instances.
The cord may be accidentally torn which
is not likely to cause any problem
The sterile gloved hand should be
introduced and the placenta is to be
grasped and extracted.
198.
199. The uterus is massaged to make it
hard, which facilitates expulsion of
retained clots if any.
Injection of oxytocin (5-10units) IV
slowly/IM pr Methargine 0.2 mg is given
intramuscularly.
Oxytocin is more stable and has lesser
side effects compared to ergometrine
200. Examination of plancenta membranes
and cord
The placenta is placed on a tray and is
washed out in running tap water to
remove the blood and clots.
The maternal surface is first inspected
for its completeness and anomalies.
The maternal surface is covered with
grayish decidua.
Normally the cotyledons are placed in
close approximation and any gap
indicates a missing cotyledon.
201.
202. The membranes chorion and amnion
are to be examined carefully for
completeness and presence of
abnormal vessels indicative of
succenturiate lobe.
The amnion is shiny but the chorion is
shagy.
The cut end of the cord is inspected for
number of blood vessels
Normally, there are two umbilical
arteries and one umbilical vein.
203. An oval gap in the chorion with torn
ends of blood vessels running upto the
margin of the gap indicates a missing
succenturiate lobe.
Absence of a cotyledon or evidence of
a missing succenturiate lobe or
evidence of significant missing
membranes demands exploration of the
uterus urgently.
204. Vulva, vagina and perineum are
inspected carefully for injuries and to
be repaired, if any.
The episiotomy wound is now sutured.
The vulva and adjoning part are
cleaned with cotton swabs soaked in
antiseptic solution.
A sterile pad is placed over the vulva.
205. The underlying principle in active management is
....
to excite powerful uterine contractions within 1
minute of delivery of the baby (WHO) by giving
parentral oxytocin.
This facilitates not only early separation of the
placenta but also produces effective uterine
contractions following its separation.
206. The advantages are...
To minimise blood loss in third stage
approximately to one-fifth
To shorten the duration of third stage to half
The only disadvantage is slight increased
incidence of retained placenta (1-2 %) and
consequent increased incidence of manual
removal.
207. Accidental administration during
delivery of the first baby in undignosed
twins produces grave danger to the
unborn second baby caused by
asphyxia due to tetanic contractions of
the uterus.
Thus, it is imperative to limit its use in
twin only following delivery of the
second baby.
208. Procedures...
Injection Oxytocin 10 units IM or methargine
0.2 mg IM is given within 1 minute of delivery
of baby (WHO).
The placenta is not delivered thereafter, it
should be delivered forthwith by controlled
cord traction (Brandt- Andrews) technique after
clamping the cord while the uterus still
remains contracted .
If the first attempt fails, another attept is made
after 2-3 minutes failing which another attempt
is made at 10 minues.
209. If this still fails, manual removal is to be done.
Oxytocin may be given with crowning of the
head, with delivery of the anterior shoulder of
the baby or after the delivery of the placenta.
If the administration is mistimed as might
happen in a busy labor room, one should not
be panicky but conduct the third stage with
conventional watchful expectancy.
210.
211. FOURTH STAGE OF LABOUR
Pulse, blood pressure, tone of the
uterus (well retracted) and any
abnormal vaginal bleeding are to be
watched at least for 1 hour after
delivery.
When fully satisfied that the general
condition is good, pulse and blood
pressure are steady, the uterus is well
retracted and there is no abnormal
vaginal bleeding, the patient is sent to
the ward.