CPD & Dystocia Adly Nanda Andreas Kurniawan Gregorius Tanamas

CPD & Dystocia

Adly NandaAndreas KurniawanGregorius Tanamas

Anatomy of Pelvic

Types of Pelvic

Pelvic Inlet

Konjugata Diagonal(Oblique)

Konjugata AP(Obstetric/Vera)

Konjugata Transversal

Anteroposterior Diameter of Pelvic Inlet

Obstetrical conj = diagonal conj -1.5/2 cm• Depends on the height and inclination of

the symphysis pubis. • diagonal conjugate >11.5 cm adequate

size for vaginal delivery of a normal-sized fetus.

Variation in Length of diagonal conjugate

Pelvic Outlet

Sacrum To Pubic

Distansia Tuberum(10,5 cm)

Pelvic (Ligament)

Normal Delivey

Maharaj et.al OBSTETRICAL AND GYNECOLOGICAL SURVEY Volume 65, Number 6

Obstruction

Chaabra S, et al, Journal of Obstetrics and Gynaecology (2000) Vol. 20, No. 2, 151± 153

Pelvimetry

• Bimanual examination (clinical pelvimetry)• X-ray• CT Scan• MRI– radiologic pelvimetry:

• there is poor correlation with the clinical outcome of labor, skill-depended (Maharaj et,a.l, 2010)

• The role of pelvimetry in current obstetric practice is controversial. It has been widely used without adequate RCT (Morrison et al., 1995).

What is adequate pelvis?

Maharaj et.al OBSTETRICAL AND GYNECOLOGICAL SURVEY Volume 65, Number 6, 2010

Conventional Radiologic Measurement

Dystocia - classification

Dystocia

• ‘difficult labor’• characterized by abnormally slow progress of labor. • common if there is disproportion between the

presenting part of the fetus and the birth canal. • American College of Obstetricians and

Gynecologists : – 1. Abnormalities of the powers (uterine contractility and

maternal expulsive effort). – 2. Abnormalities involving the passenger (the fetus). – 3. Abnormalities of the passage (the pelvis).

Common Clinical Findings in Women with Ineffective Labor

• Inadequate cervical dilation or fetal descent• Protracted labor—slow progress • Arrested labor—no progress • Inadequate expulsive effort—ineffective "pushing"• Fetopelvic disproportion• Excessive fetal size • Inadequate pelvic capacity • Malpresentation or position of the fetus• Ruptured membranes without labor

Nulipara

Taken from http://emedicine.medscape.com/article/273053-media

Multipara

Taken from http://emedicine.medscape.com/article/273053-media

Abnormal Labor Indicators

Taken from http://emedicine.medscape.com/article/273053-overview

Patophysiology

Dystocia

Passenger

PassagePower

mechanical dystociaPassenger

• produce abnormal labor because of the infant's size or from malpresentation.

Passage/pelvis• abnormal labor because

its contours may be too small or narrow to allow passage of the infant.

Patophysiology

Dystocia

Passenger

PassagePower

functional dystociapower

• the frequency and intensity of contractions.

• Disruption of communication between adjacent segments of the uterus resulting from surgical scarring, fibroids, or other conduction disruption.

• fails to result in cervical effacement and dilation. This is called

• Uterine contractile force quantified by the use of an intra-uterine pressure catheter in Montevideo units (MVUs).

• Adequate force >200 MVUs during a 10-minute contraction period.

Intrauterine pressure catheter

Taken from http://www.umm.edu/pregnancy/000138.htm

The ACCU-TRACE™ Intrauterine Pressure Catheter

frequency

• Of all cephalic deliveries, 8-11% are complicated by an abnormal first stage of labor. Dystocia occurs in 12% of deliveries in women without a history of prior cesarean delivery

CauseProlonged latent phase

• Prolonged: >20 hours in nulliparas ; >14 hours in multiparas.

• The most common reason entering labor without substantial cervical effacement.

Power• uterine contractility x frequency

Montevideo units (MVUs) • Adequate uterine contractile

force : >200 MVUs/10 min

Passage• The shape of the bony pelvis (eg,

anthropoid or platypelloid) • extremely short or obese patient• Patients with history of prior

severe trauma to the bony pelvis

Passenger • the size & presentation• Fetal macrosomia and other

anomalies (including hydrocephalus, encephalocele, or any other abnormality that increases the size of the infant)

malfunction of uterine muscle

Uterine muscle dysfunction

• Cause: overdistention due to excessive fetal size and/or uterine fatigue when labor is obstructed by inadequate pelvic capacity, excessive fetal size, or both.

• uterine dysfunction VS fetopelvic disproportion interlinked– uterine dysfunction corrected with oxytocin vaginal

delivery• “clinicians must rely on a trial of labor to determine if

labor can be successful in effecting vaginal delivery” (Williams Obstetrics, 21st ed)

hypotonic uterine dysfunction• More common there is no basal hypertonus and

uterine contractions have a normal gradient pattern – the slight rise in pressure during a contraction is insufficient to

dilate the cervix.• Weak his, frequency ↓• Cause: anemia, dilated uterus (hydramnion, gemelli,

makrosomia, etc)• Divided into

– Primary uterine inertia (early laten phase)– Secondary uterine inertia (active 1st stage 2nd stage of labor)

• Treatment: monitor general condition, oxytocin (no CPD exist)– CPD SC

hypertonic uterine dysfunction

• hypertonic (incoordinate) uterine dysfunction either basal tone is elevated or the pressure gradient is distorted– contraction of the midsegment uterus > fundus – complete asynchronism of the impulses.

• Strong his, continuing patient feels pain; hypoxia on fetus

• Cause: excess oxytocin• treatment: tocolytic agent, SC

Shoulder dystocia

Shoulder Dystocia

• diagnosed as such when maneuvers were required to deliver the shoulders in addition to downward traction and episiotomy

• Risk Factor– Several maternal risk factors, including obesity, multiparity,

and diabetes, all exert their effects because of associated increased birthweight

– postterm pregnancy – Intrapartum complications associated with shoulder

dystocia include midforceps delivery and prolonged first- and second-stage labor (still controversial)

• The American College of Obstetricians and Gynecologists (2002) has concluded that performing cesarean deliveries for all women suspected of carrying a macrosomic fetus is not appropriate, except possibly for estimated fetal weights over 5000 g in nondiabetic women and over 4500 g in those with diabetes.

Consequences

• Mother– Postpartum hemorrhage, usually from uterine atony,

but also from vaginal and cervical lacerations, is the major maternal risk

• Fetus – fetal morbidity and even mortality– 2/3 Transient Erb or Duchenne brachial plexus palsies

were the most common injury– clavicular fractures– humeral fractures

Managementdiagnosis

Stop the head traction, immediately call for help

McRobert Maneuver (episiotomy if necessary , suprapubic pressure, head traction

Maneuver Rubin ( McRobert position, shoulder rotation, suprapubic pressure, head traction)

Bear the posterior shoulder, or crawling position or Wood manuever

CEPHALOPELVIC DISPROPORTION

Cephalopelvic Disproportion

• Mismatch between the size of the fetal head and size of the maternal pelvis, resulting in “failure to progress” in labor for mechanical reasons. (Maharaj, D, 2010)

• Fetal head : hydrocephalus, Occipito-Posterior malposition

• Maternal pelvis : abnormally small / unusual shape. – childhood rickets – Orthopaedic disorders

• In such cases the fetal and pelvic dimensions are not abnormal but the presenting diameter of a deflexed O.P. malposition is greater than an occipito-anterior position and labour may become obstructed.

• In such cases the term Relative Disproportion is used and in subsequent pregnancies vaginal delivery might reasonably be allowed.

Diagnosis

• CPD may only be reliably diagnosed during labour. • Typically the first stage of labour will be

prolonged. • Sign– failure of descent of the head VT/abdominal exam– Moulding fetal skull bones override each other.

– The parietal bones override each other commonly and both overlie the frontal bones, irreducible

– Caput formation oedematous is a feature of the duration of labour rather than CPD.

Occipito Posterior Position

• Occipito-posterior position is a malposition of the head and occurs in 13% of vertex presentations.

• The presenting part is the vertex and the denominator is the occiput.

causes

Source: www.icsi.org

references

• Cunningham F.G. (Editor), et.al. Williams Obstetrics 21st ed. New York: McGraw-Hill Professional. 2001

• Hanretty KP. Obstetric Illustrated ed.6th. New York: Churcill Livingstone: 2003. p268

• Joy S. Abnormal Labor. 2009. Downloaded from http://emedicine.medscape.com/article/273053-overview