Birth Injury
birth injury is avoidable and unavoidable mechanical and
hypoxic-ischemic injury incurred by an infant during labor and delivery.
These injuries may result from inappropriate medical skill
or attention, or may occur, despite skilled and competent obstetric care,
independently of any acts or omissions.
Definition does not include injury from amniocentesis,
intrauterine transfusion, scalp blood sampling, or resuscitation procedures
incidence 2-7 /1,000 live births.
Predisposing factors
macrosomia,
prematurity,
cephalopelvic
disproportion,
dystocia,
prolonged
labor,
breech
presentation.
Cranial Injuries
Caput succedaneum
diffuse,
ecchymotic,
edematous swelling of the soft tissues of the scalp during
vertex delivery
extend across the midline crosses suture lines.
The edema disappears in a few days of life.
Similar swelling, discoloration of the face seen in face
presentations.
No treatment is needed,
phototherapy for hyperbilirubinemia
Molding of the head and overriding of the parietal bones
disappear during the first weeks of life.
hemorrhagic caput may result in shock and require blood
transfusion.
Cephalohematoma
subperiosteal hemorrhage,
limited to the surface of one cranial bone.
no discoloration of the scalp,
swelling is visible several hours after birth, because
subperiosteal bleeding is a slow process.
underlying skull fracture, may occur with cephalohematoma.
DD --Cranial meningocele - by pulsation, increased pressure
on crying, and the roentgenographic evidence of bony defect.
cephalohematomas - resorbed within 2 wk-3 mo,
may calcify by the end of the 2nd wk.
central depression on
palpation of the organized rim of a cephalohematoma. cephalohematomas require
no treatment,
phototherapy for hyperbilirubinemia.
Incision and drainage are contraindicated because of
infection
massive cephalohematoma result in blood loss require
transfusion.
Intracranial-Intraventricular
Hemorrhage
Etiology and epidemiology
trauma --Traumatic epidural, subdural, or subarachnoid
hemorrhage -labor is prolonged; in breech or precipitate deliveries; or as a
result of mechanical assistance with delivery.
asphyxia
a primary hemorrhagic disturbance
congenital vascular anomaly.
disseminated intravascular coagulopathy,
isoimmune thrombocytopenia,
neonatal vitamin K deficiency (especially in infants born to
mothers receiving phenobarbital or phenytoin).
Intracranial hemorrhages in ventricles ( intraventricular
hemorrhage [IVH]) of premature infants delivered spontaneously without trauma.
Pathogenesis of
intraventricular hemorrhage
premature infants in periventricular germinal matrix.
This periventricular area is the site of embryonal neurons
and fetal glial cells, which migrate to the cortex. Immature blood vessels in
this highly vascular area may be subjected to various forces that, together
with poor tissue vascular support, predispose premature infants to IVH.
By term, the tissue's vascular support has strengthened.
Predisposing factors for IVH
prematurity,
respiratory
distress syndrome (RDS),
hypoxic-ischemic
or hypotensive injury,
pneumothorax,
hypervolemia,
hypertension.
Periventricular leukomalacia (PVL), a common associated
cystic finding, may be due to prenatal or neonatal ischemic injury. PVL with or
without severe IVH is the result of necrosis of the periventricular white
matter and damage to the corticospinal fibers in the internal capsule è
spastic diplegia
Clinical
manifestations
occur between birth and the 3rd day of life,
progress during the
1st wk of life
symptoms are
diminished
or absent Moro reflex,
poor muscle
tone,
lethargy,
apnea,
Excess
sleep.
Premature infants
deterioration
on the 2nd or 3rd day of life.
Periods of
apnea, pallor, or cyanosis; failure to suck well
abnormal eye
signs
a
high-pitched, shrill cry
muscular
twitchings, convulsions
decreased
muscle tone, or paralyses
metabolic
acidosis; shock,
decreased
hematocrit or its failure to increase after transfusion
fontanel
may be tense and bulging.
coma
PVL in later infancy presents as spastic diplegia.
Diagnosis.
history
clinical manifestations
transfontanel cranial ultrasonography
computed tomography (CT)
premature infant do cerebral ultrasonography through the
anterior fontanel -within first 3-5 days of life and again the following week.
Ultrasound detects the precystic and cystic symmetric
lesions of PVL atrophy, porencephaly, hydrocephalus
Grade I is bleeding in germinal matrix-
grade II is intraventricular bleeding
grade III is involvement with dilated ventricles
CT or magnetic resonance imaging (MRI)
Lumbar puncture to rule out bacterial meningitis
small numbers of red blood cells or slight xanthochromia in
subarachnoid fluid does not indicate significant intracranial hemorrhage.
Prognosis
massive hemorrhage may die
posthemorrhagic hydrocephalus..
Prevention
judicious management of cephalopelvic disproportion and
operative (forceps, cesarean section) delivery.
maternal idiopathic thrombocytopenic purpura -ITPèmaternal
treatment with steroids, intravenous immunoglobulin, or fetal platelet
transfusion.
Vitamin K should be given before delivery to all women
receiving phenobarbital or phenytoin during the pregnancy.
Treatment
multiple organ system dysfunction.
Seizures - anticonvulsant drugs,
anemia-shock - transfusion with packed red blood cells or
fresh frozen plasma,
acidosis administration of 1-2 mEq/kg sodium bicarbonate.
lumbar -reduce the symptoms of posthemorrhagic
hydrocephalus.
removing the subdural fluid
Brachial palsy
Erb-Duchenne paralysis,
- 5th and 6th cervical nerves.
The infant loses the power
- to abduct the arm from the shoulder,
- to rotate the arm externally,
- to supinate the forearm.
position - - adduction and
internal rotation of the arm with pronation of the forearm. extension of the
forearm is retained,
the biceps reflex is absent;
Moro reflex is absent on the
affected side
some sensory impairment on the
outer aspect of the arm.
power in the forearm and the hand
grasp are preserved
presence of the hand grasp is a
favorable prognostic sign.
When the injury includes the
phrenic nerve, alteration of the diaphragmatic movement may be observed by USG.
Klumpke's paralysis
-injury to the 7th and 8th cervical nerves and the 1st thoracic nerve
paralyzed
hand,
ipsilateral
ptosis and miosis (Horner syndrome) if the sympathetic fibers of the 1st
thoracic root are also injured.
DD-- cerebral injury
from
fracture
dislocation,
epiphyseal
separation of the Humerus
fracture of
the clavicle.
MRI demonstrates nerve root rupture or avulsion.
prognosis - injured or lacerated.
edema and hemorrhage around the nerve fibers, function
should return within a few months
if due to laceration, permanent damage may result.
Involvement of the deltoid may result in a shoulder drop
Treatment immobilization and appropriate positioning –
upper arm paralysis, the arm should be
abducted 90
degrees,
external
rotation at the shoulder
full
supination of the forearm with a brace or splint
intermittent through the day while the infant is asleep
Gentle massage and exercises may be started by 7-10 days of
age.
If paralysis persists without improvement for 3-6 mo,
neuroplasty, neurolysis, end-to-end anastomosis, or nerve grafting offers hope
for partial recovery.
Fractures
CLAVICLE
Commonest to fracture during delivery
difficulty in delivery of the shoulder in vertex
presentations and of the extended arms in breech deliveries.
does not move the arm freely
crepitus and bony irregularity may be palpated
Moro reflex is absent
on the affected side
In greenstick fractures there may be no limitation of
movement, and the Moro reflex may be present. Fracture of the humerus or
brachial palsy may also be responsible for limitation of movement of an arm and
absence of a Moro reflex on the affected side.
The prognosis is excellent.
Treatment, - immobilization of the arm and shoulder - callus
develops at the site may be the first evidence of the fracture.
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