3. Specific objectives
ī§ 1. present Mechanisms of Labor
ī§ 2. present the difference of Fetal
Lie, Presentation, Attitude, and Position
ī§ 3.
4. Introduction
ī§ Childbirth (if normal,labor) is the period from
the onset of regular uterine contractions until
expulsion of the placenta
ī§ toil, trouble, suffering, bodily
exertion, especially when painful
ī§ 50 percent of parturients are "abnormalâ
ī§ underscore the importance of labor events
5. Fetal
Lie, Presentation, Attitude,
ī§ and Lie
Fetal Position
ī§ The relation of the fetal long axis to that of the
mother
ī§ Longitudinal- >99% at term
ī§ oblique
ī§ Transverse- Predisposing factors for transverse
lies include: multiparity, placenta previa,
hydramnios, and uterine anomalies
6. Fetal Presentation
ī§ The presenting part is that portion of the fetal
body that is either foremost within the birth
canal or in closest proximity to it.
7.
8. anterior (large) fontanel, or bregma, presentingâ
sinciput presentation- vertex
brow presentation - face presentation
9. Points!!!
ī§ If presenting by the breech, the fetus often
changes polarity to make use of the roomier
fundus for its bulkier and more mobile podalic
pole
ī§ The high incidence of breech presentation in
hydrocephalic fetuses is in accord with this
theory, because in this circumstance, the fetal
cephalic pole is larger than its podalic pole.
11. Fetal Attitude or Posture or
habitus
ī§ As a rule, the fetus forms an ovoid mass that
corresponds roughly to the shape of the
uterine cavity
12. Fetal Position
ī§ Position refers to the relationship of an
arbitrarily chosen portion of the fetal
presenting part to the right or left side of the
birth canal.
ī§ Approximately two thirds of all vertex
presentations are in the left occiput
position, and one third in the right.
16. Diagnosis of Fetal
Presentation and Position
ī§ Several methods can be used to diagnose
fetal presentation and position.
ī§ These include abdominal palpation, vaginal
examination, auscultation, and, in certain
doubtful cases, sonography.
ī§ Occasionally plain radiographs, computed
tomography, or magnetic resonance imaging
may be used
17. Abdominal PalpationâLeopold
Maneuvers-
ī§ four maneuvers described by Leopold in 1894
ī§ high sensitivityâ88 percent
ī§ The mother lies supine and comfortably positioned
with her abdomen bared.
ī§ These maneuvers may be difficult if not impossible
to perform and interpret
ī§ if the patient is obese,
ī§ if there is excessive amnionic fluid, or
ī§ if the placenta is anteriorly implanted.
18. L1 fundal grip
ī§ cephalic or podalic pole?
ī§ The breech gives the sensation of a
large, nodular mass,
ī§ head feels hard and round and is more mobile
and ballottable
19. L2 umbilical grip
ī§ palms are placed on either side of the
maternal abdomen, and gentle but deep
pressure is exerted
the back- a hard, resistant structure is felt.
the fetal extremities- numerous
small, irregular, mobile parts are felt.
20. L3 pawlikâs grip
ī§ grasping with the thumb and fingers of one
hand the lower portion of the maternal
abdomen just above the symphysis pubis.
ī§ Engaged?
21. L4 pelvic grip
ī§ the examiner faces the mother's feet
and, with the tips of the first three fingers of
each hand, exerts deep pressure in the
direction of the axis of the pelvic inlet.
ī§ Cephalic prominence?
ī§ Flexion-same as fetal parts
ī§ Extension- same as fetal back
24. Sonography and Radiography
ī§ Sonographic techniques can aid identification of fetal
position, especially in obese women or in women with rigid
abdominal walls.
ī§ In some clinical situations, information obtained
radiographically justifies the minimal risk from a single x-
ray exposure
ī§ Zahalka and colleagues (2005) compared digital
examinations with transvaginal and transabdominal
sonography for determination of fetal head position during
second-stage labor and reported that
ī§ transvaginal sonography was superior.
25. The cardinal movements of
labor
ī§ engagement, descent, flexion, internal
rotation, extension, external rotation, and
expulsion
28. engagement
ī§ The mechanism by which the biparietal
diameter, average from 9.5 to as much as 9.8
cmâthe greatest transverse diameter in an
occiput presentationâpasses through the
pelvic inlet is designated.
30. Descent
ī§ This movement is the first requisite for birth of the newborn
ī§ In nulliparas, engagement may take place before the onset of
labor, and further descent may not follow until the onset of the
second stage.
ī§ In multiparous women, descent usually begins with engagement.
ī§ Descent is brought about by one or more of four forces:
ī§ (1) pressure of the amnionic fluid,
ī§ (2) direct pressure of the fundus upon the breech with
contractions,
ī§ (3) bearing-down efforts of maternal abdominal muscles, and
ī§ (4) extension and straightening of the fetal body.
31. Flexion
ī§ As soon as the descending head meets
resistance whether from the cervix, walls of
the pelvis, or pelvic floor, then flexion of the
head normally results.
ī§ In this movement, the chin is brought into
more intimate contact with the fetal
thorax, and the appreciably shorter
suboccipitobregmatic diameter is substituted
for the longer occipitofrontal diameter
32.
33.
34. internal rotation
ī§ two thirds, internal rotation is completed by the time the
head reaches the pelvic floor;
ī§ in about another fourth, internal rotation is completed very
shortly after the head reaches the pelvic floor;
ī§ and in the remaining 5 percent, anterior rotation does not
take place.
ī§ When the head fails to turn until reaching the pelvic floor, it
typically rotates during the next one or two contractions in
multiparas. In nulliparas, rotation usually occurs during the
next three to five contractions.
35. Extension
ī§ The first force, exerted by the uterus, acts
more posteriorly, and the second, supplied by
the resistant pelvic floor and the
symphysis, acts more anteriorly. The
resultant vector is in the direction of the
vulvar opening, thereby causing head
extension.
ī§ This brings the base of the occiput into direct
contact with the inferior margin of the
symphysis pubis
36. External Rotation
ī§ The delivered head next undergoes
restitution.
ī§ If the occiput was originally directed toward
the left, it rotates toward the left ischial
tuberosity
37. Expulsion
ī§ Almost immediately after external
rotation, the anterior shoulder appears under
the symphysis pubis, and the perineum soon
becomes distended by the posterior shoulder.
ī§ After delivery of the shoulders, the rest of the
body quickly passes.
38. Mechanisms of Labor with
Occiput Posterior
In approximately 20 percent of labors, the fetus enters
Presentation posterior (OP) position.
the pelvis in an occiput
ī§ The right occiput posterior (ROP) is slightly more
common than the left (LOP).
ī§ It appears likely from radiographic evidence that
posterior positions are more often associated with a
narrow forepelvis.
ī§ They also are more commonly seen in association
with anterior placentation
39. ī§ In most occiput posterior presentations, the
mechanism of labor is identical to that
observed in the transverse and anterior
varieties,
ī§ except that the occiput has to internally
rotate to the symphysis pubis through 135
degrees, instead of 90 and 45
degrees, respectively
40. ī§ Poor contractions, faulty flexion of the head, or epidural
analgesia, which diminishes abdominal muscular pushing
and relaxes the muscles of the pelvic floor, may predispose
to incomplete rotation. If rotation is incomplete, transverse
arrest may result.
ī§ If no rotation toward the symphysis takes place, the
occiput may remain in the direct occiput posterior
position, a condition known as persistent occiput posterior.
ī§ Both persistent occiput posterior and transverse arrest
represent deviations from the normal mechanisms of labor
41. Changes in Shape of the
Fetal Head
ī§ Caput Succedaneum
ī§ In prolonged labors before complete cervical
dilatation, the portion of the fetal scalp
immediately over the cervical os becomes
edematous . This swelling known as the caput
succedaneum
42. Molding
ī§ The change in fetal head shape from external
compressive forces is referred to as molding
ī§ Most studies indicate that there is seldom
overlapping of the parietal bones. A "locking"
mechanism at the coronal and lambdoidal
connections actually prevents such
overlapping
43. ī§ Molding results in a shortened suboccipitobregmatic
diameter and a lengthened mentovertical diameter.
These changes are of greatest importance in women
with contracted pelves or asynclitic presentations. In
these circumstances, the degree to which the head is
capable of molding may make the difference
between spontaneous vaginal delivery and an
operative delivery
ī§ Most cases of molding resolve within the week
following delivery, although persistent cases have
been described
44. Characteristics of Normal
Labor(definitions)
ī§ 1.The strict definition of laborâuterine contractions that
bring about demonstrable effacement and dilatation of the
cervix
ī§ 2.These criteria at term require painful uterine contractions
accompanied by any one of the following: (1) ruptured
membranes, (2) bloody "show," or (3) complete cervical
effacement
ī§ 3.When a woman presents with intact membranes, a
cervical dilatation of 3 to 4 cm or greater is presumed to be
a reasonably reliable threshold for the diagnosis of labor. In
this case, labor onset commences with the time of
admission
45. First Stage of Labor
ī§ what are the expectations for the progress of
normal labor?
ī§ A scientific approach was begun by Friedman
(1954), who described a characteristic
sigmoid pattern for labor by graphing cervical
dilatation against time
46. ī§ During the preparatory division, although the cervix dilates little, its
connective tissue components change considerably (see Chap. 6, Phase
2 of Parturition: Preparation for Labor). Sedation and conduction
analgesia are capable of arresting this division of labor.
ī§ The dilatational division, during which dilatation proceeds at its most
rapid rate, is unaffected by sedation or conduction analgesia.
ī§ The pelvic division commences with the deceleration phase of cervical
dilatation. The classic mechanisms of labor that involve the cardinal fetal
movements of the cephalic presentationâ
engagement, flexion, descent, internal rotation, extension, and external
rotationâtake place principally during the pelvic division. In actual
practice, however, the onset of the pelvic division is seldom clearly
identifiable.
47.
48.
49. Latent Phase
ī§ The onset of latent labor, as defined by
Friedman (1972), is the point at which the
mother perceives regular contractions.
ī§ The latent phase for most women ends at
between 3 and 5 cm of dilatation.
ī§ This threshold may be clinically useful, for it
defines cervical dilatation limits beyond
which active labor can be expected
50. Prolonged Latent Phase
ī§ Friedman and Sachtleben (1963) defined this
by a latent phase exceeding
ī§ 20 hours in the nullipara and
ī§ 14 hours in the multipara.
51. ī§ These times corresponded to the 95th percentiles.
ī§ Factors that affected duration of the latent phase
included
ī§ excessive sedation or epidural analgesia;
ī§ unfavorable cervical condition, that
is, thick, uneffaced, or undilated;
ī§ and false labor.
52. ī§ Following heavy sedation,
ī§ 85 percent of women progressed to active labor.
ī§ In another 10 percent, uterine contractions
ceased, suggesting that they had false labor.
ī§ The remaining 5 percent experienced
persistence of an abnormal latent phase and
required oxytocin stimulation
53. Active Labor
ī§ cervical dilatation of 3 to 5 cm or more, in the
presence of uterine contractions, can be taken to
reliably represent the threshold for active labor
ī§ have a statistical maximum of 11.7 hours.
ī§ rates of cervical dilatation ranged from a
minimum of 1.2 up to 6.8 cm/hr.
ī§ minimum normal rate of 1.5 cm/hr. For multi
54. protraction and arrest
disorders
ī§ protraction as a slow rate of cervical dilatation or
descent, which for nulliparas was less than 1.2 cm
dilatation per hour or less than 1 cm descent per
hour.
ī§ For multiparas, protraction was defined as less than
1.5 cm dilatation per hour or less than 2 cm descent
per hour.
ī§ He defined arrest as a complete cessation of
dilatation or descent. Arrest of dilatation was defined
as 2 hours with no cervical change, and arrest of
descent as 1 hour without fetal descent.
55. second Stage of Labor
ī§ This stage begins when cervical dilatation is complete and ends
with fetal delivery.
ī§ The median duration is approximately 50 minutes for nulliparas
and about 20 minutes for multiparas, but it is highly variable
(Kilpatrick and Laros, 1989).
ī§ In a woman of higher parity with a previously dilated vagina and
perineum, two or three expulsive efforts after full cervical
dilatation may suffice to complete delivery.
ī§ Conversely, in a woman with a contracted pelvis, a large fetus, or
with impaired expulsive efforts from conduction analgesia or
sedation, the second stage may become abnormally long
56. Summary of Normal Labor
ī§ Labor is characterized by brevity and considerable
biological variation.
ī§ Active labor can be reliably diagnosed when cervical
dilatation is 3 cm or more in the presence of uterine
contractions.
ī§ Once this cervical dilatation threshold is reached, normal
progression to delivery can be expected, depending on
parity, in the ensuing 4 to 6 hours.
ī§ Anticipated progress during a 1- to 2-hour second stage is
monitored to ensure fetal safety.
57. ī§ Finally, most women in spontaneous
labor, regardless of parity, if left unaided, will
deliver within approximately 10 hours after
admission for spontaneous labor.
ī§ Insufficient uterine activity is a common and
correctable cause of abnormal labor progress
58. Management of Normal Labor
and Delivery
ī§ The ideal management of labor and delivery
requires two potentially opposing viewpoints on
the part of clinicians.
ī§ First, birthing should be recognized as a normal
physiological process that most women
experience without complications.
ī§ Second, intrapartum complications, often arising
quickly and unexpectedly, should be anticipated
62. Identification of Labor
ī§ 4cm dilation with =>12contraction/hr or
contraction with 5min interval.
ī§ Bailit and colleagues (2005) compared labor
outcomes of 6121 women who presented in
active labor defined as uterine contractions plus
cervical dilatation 4 cm with those of 2697
women who presented in the latent phase.
ī§ Women admitted during latent-phase labor had
more active-phase arrest, need for oxytocin
labor stimulation, and chorioamnionitis.
63.
64. Emergency Medical Treatment
and Labor Act (EMTALA)
ī§ Congress enacted EMTALA in 1986 to ensure public access
to emergency services regardless of the ability to pay.
ī§ All Medicare-participating hospitals with emergency
services must provide an appropriate screening
examination for
ī§ any pregnant woman experiencing contractions
ī§ who comes to the emergency department for evaluation
ī§ "unstable" for interhospital transfer purposes until the
newborn and placenta are delivered
65. Home Births
ī§ A major emphasis of obstetrical care during
the 20th century was the movement to
birthing in hospitals rather than in homes
ī§ In their recent evidence-based systematic
review, Berghella and colleagues (2008)
found good-quality data to favor hospital
birth.
66. Vaginal Examination
ī§ Most often, unless there has been bleeding in
excess of bloody show, a vaginal examination is
performed.
ī§ The gloved index and second fingers are then
introduced into the vagina while avoiding the
anal region .
ī§ The number of vaginal examinations correlates
with infection-related morbidity, especially in
cases of early membrane rupture.
67.
68. Detection of Ruptured
Membranes
ī§ The woman should be instructed during the antepartum period
to be aware of fluid leakage from the vagina and to report such
an event promptly. Rupture of the membranes is significant for
three reasons.
ī§ First, if the presenting part is not fixed in the pelvis, the
possibility of umbilical cord prolapse and compression is greatly
increased.
ī§ Second, labor is likely to begin soon if the pregnancy is at or near
term.
ī§ Third, if delivery is delayed after membrane rupture, intrauterine
infection is more likely as the time interval increases (Herbst and
KällÊn, 2007).
69. ī§ Upon sterile speculum examination, ruptured membranes are
diagnosed when amnionic fluid is seen pooling in the posterior fornix or
clear fluid is flowing from the cervical canal.
ī§ Nitrazine test. A pH above 6.5 is consistent with ruptured membranes
ī§ Other tests include arborization or ferning of vaginal fluid, which
suggests amnionic rather than cervical fluid. Amnionic fluid crystallizes
to form a fernlike pattern due to its relative concentrations of sodium
chloride, proteins, and carbohydrates (see Fig. 8-3).
ī§ Detection of alpha-fetoprotein in the vaginal vault has been used to
identify amnionic fluid (Yamada and colleagues, 1998). Identification
may also follow injection of indigo carmine into the amnionic sac via
abdominal amniocentesis.
70.
71. Cervical Examination
ī§ The degree of cervical effacement usually is expressed in terms of
the length of the cervical canal compared with that of an
uneffaced cervix.
ī§ Cervical dilatation is determined by estimating the average
diameter of the cervical opening by sweeping the examining
finger from the margin of the cervical opening on one side to that
on the opposite side
ī§ The position of the cervix is determined by the relationship of the
cervical os to the fetal head and is categorized as
posterior, midposition, or anterior. Along with position, the
consistency of cervix is determined to be soft, firm, or
intermediate between these two.
ī§ The levelâor stationâof the presenting fetal part in the birth
canal is described in relationship to the ischial spines, which are
halfway between the pelvic inlet and the pelvic outlet.
72. ī§ These five characteristics: cervical
dilatation, effacement, consistency, position,
and fetal station are assessed when
tabulating the Bishop score. This score is
commonly used to predict labor induction
outcome
73.
74. Laboratory Studies
ī§ hematocrit or hemoglobin concentration
should be rechecked
ī§ a clean-catch voided specimen is examined in
all women for protein and glucose.
ī§ Women who have had no prenatal care
should be considered to be at risk for
syphilis, hepatitis B, and human
immunodeficiency virus (HIV)
75. ī§ Management of the First Stage of Labor
ī§ Monitoring Fetal Well-Being during Labor
ī§ Uterine Contractions
ī§ Maternal Vital Signs
ī§ Subsequent Vaginal Examinations
ī§ Oral Intake
ī§ Intravenous Fluids
ī§ Maternal Position
ī§ Analgesia
ī§ Amniotomy
ī§ Urinary Bladder Function
76. ī§ Management of the Second Stage of Labor
ī§ Expulsive Efforts
ī§ Preparation for Delivery
ī§ Spontaneous Delivery
ī§ This encirclement of the largest head
diameter by the vulvar ring is known as
crowning.
83. ī§ Expression of placenta. Note that the hand is not
trying to push the fundus of the uterus through
the birth canal!
ī§ As the placenta leaves the uterus and enters the
vagina, the uterus is elevated by the hand on the
abdomen while the cord is held in position.
ī§ The mother can aid in the delivery of the
placenta by bearing down. As the placenta
reaches the perineum, the cord is lifted, which in
turn lifts the placenta out of the vagina
84.
85. Management of the Third
Stage
ī§ Oxytocin
ī§ Ergonovine and Methylergonovine
ī§ Prostaglandins
86. "Fourth Stage" of Labor
ī§ uterine atony is more likely at this time
ī§ recommend that maternal blood pressure
and pulse be recorded immediately after
delivery and every 15 minutes for the first
hour.
87. Lacerations of the Birth
Canal
ī§ First-degree lacerations involve the
fourchette, perineal skin, and vaginal mucous
membrane but not the underlying fascia and
muscle (Fig. 17-34). These included
periurethral lacerations, which may bleed
profusely.
88.
89. ī§ Second-degree lacerations involve, in
addition, the fascia and muscles of the
perineal body but not the anal sphincter.
These tears usually extend upward on one or
both sides of the vagina, forming an irregular
triangular injury.
ī§
93. ī§ A fourth-degree laceration extends through
the rectum's mucosa to expose its lumen.
94.
95.
96. ī§ Goal: reduced the number of cesarean
deliveries for dystocia
ī§ active management of labor
ī§ Two of its componentsâamniotomy and
oxytocinâhave been widely used