3. Incidence: 4/1000 in poor OBG care, 0.1-0.3
% in good centers.
1% of OBPP, injury is bilateral
More on one side. [exclusive in breach]
4. Formed by anterior primary rami of C5-T1.
Roots – between scalene muscles
Trunks – posterior triangle
Divisions- behind clavicle.
Cords in axilla.
Roots & trunk- supraclavicular part [OBPP]
Cords & branches – infraclavicular part
5.
6. Stretching
Overweight babies with cephalic
presentations
Underweight babies with breech
Forceful widening of angle between the neck
& shoulder.
Force is more at C5 root
Always supraclavicular
Not associated with vascular damage.
7. Large birth weight
Breech presentation
Maternal diabetes
Multiparity
II stage of labour - > 60 min
Assisted delivery [forceps, vacuum ext]
previous child with OBPP
Intrauterine torticollis
Shoulder dystocia
8. Lesions range from degree I[neuropraxia] – V
[neurotmesis or root avulsions].
Upper trunk –1st
affected, most vulnerable
part.
Upper trunk – mostly stretched
Lower trunks – mostly ruptured
9. U.E is flail & dangling
Look for other extremities
U.R: arm held in IR,add, active abd not
possible, elbow extended forearm pronated,
thumb flexed.
Complete paralysis- vasomotor impairment,
pale & marble like color
Horner’s sign
Associated # [clavicle,humerus,]
10.
11. Complete Recovery
Extent of paralysis regress, total paralysis limited
to U.R
No improvement.
12. C5-6: the arm is adducted and internally
rotated at the shoulder, elbow extended,
forearm pronated, wrist and (sometimes)
fingers flexed. (Classic waiter tip/Erb’s
palsy/upper roots).
C5-7 : as above, although the elbow may be
slightly flexed.
Intermediate root palsy C7.
C5-T1 : the arm is totally flail with a claw
hand. marbled appearance, Horner’s
syndrome.
13. Done at 2 months of age
Not anatomic,
Grading overall severity of lesion based on
clinical course.
Prognosis.
14.
15.
16. X - RAY
epiphyseal # of humerus, # clavicle,
Later changes, retardation of growth,
deformity of shoulder jt & dislocation of radial
head.
17. EMG
Performed at 3-4 wks- confirm neuropraxia or
axonotmesis
At 2 months, signs of re-innervation.
EVOKED SENSORY POTENTIAL
Useful to ascertain root avulsions
Can be used preop to test the availability of
proximal stumps.
18. Fluoroscopy- phrenic nerve injury.
Lumbar puncture- xanthochromic CSF- in root
avulsions.
C.T myelogram
Fast spin Echo MRI: preganglionic nerve root
injuries.
Large diverticulae and meningoceles are
indicative of root avulsions
19. Nature of injury [rupture better]
Lower plexus paralysis,
global involvement,
persistence of pupillary signs of phrenic nerve
palsy
Ass. #.
20. Physiotheraphy- cornerstone
Rest for first 2 wks,
Arm fixed across the chest by pinning
ROM ex, facilitation of active movt, promotion
of sensory awareness.
Avoid abduction & posterior projection of
shoulder. Limb to be supported when holding
baby
Goals: minimizing bony deformities, Jt
contractues.
Weight bearing activity-skeletal growth
21. Early nerve repair
Indications:
1. Failure of recovery of biceps or deltoid at 3
months
2. Group III& IV lesions
3. Presence of Horners sign.
22. Diminishing potential for axon regeneration with
age
Cross innervation & muscle imbalance aborted
Provide better condition for tendon transfer
Nerve repair is superior to spontaneous recovery.
23. Total palsy: 3 months
Upper trunk palsy: 5 months
TYPE OF SURGERY
1. neurolysis,
2. resection and anastomosis in ruptures
3. nerve grafting using sural nerves as
interposition grafts.
24. Repair using the proximal roots of the plexus itself
if the injury is post ganglionic as in a rupture
Extra plexal neurotisation using other donor
motor nerves to selectively aim at reinnervating
the important muscle groups.
26. Suprascapular
Musculocutaneous,
Axillary
Median.
Order of priority of restoration of function
Elbow flexion
Shoulder stability (rotator cuff via
suprascapular nerve)
Shoulder abduction
Hand prehension
27. To predict poor outcomes if microsurgical
repair or grafting is not done.
scale consists of grading elbow flexion,
elbow extension, wrist extension, finger
extension, and thumb extension. [max -12]
score of < 3.5 predicted a poor long-term
outcome without microsurgery.
28. Fracture of clavicle or humerus shaft or physeal
separation
septic arthritis / osteomyelitis
Congenital malformation of plexus
Postinfectious [varicella] plexopathy of muscles
29. Nerve regeneration: some muscles recover
earlier, others paretic muscle imbalance
Recovery results from misdirection of regenerated
axons cross innervation
31. Sequelae depends on three factors which
are additive
1. Paralysis of muscle groups [ext.rot, elbow
flexors]
2. Contracture of healthy antagonist muscles
3. Impaired growth osseous deformities
Sequale – seen in spontaneous recovery in
gr III & IV lesion.
33. Putti sign; with shoulder abduction, medial
edge of scapula, often seen protruding above
shoulder jt line
Reduction of shou abd – deltoid weakness or
lack of ER.
Trumpet sign
Mild shortening & atrophy of limb
Posterior sublux of shoulder – IR overpower
ER.
Bitting of nail & hand (47%) –total obp.
34. UPPER ARM: mainly in shoulder & occ elbow &
forearm
LOWER ARM: hand more affected
WHOLE ARM; flaccid paralysis
35. Group I: joint contracture due to nerve lesions
& simultaneous trauma to shoulder Jt
Group II Flaccid; flaccid paralysis- upper trunk
injury.
Group I: subdivided in to 4 groups
36. I –internal rotation & adduction contracture
with preservation of Jt
II – with Jt deformity – posterior subluxation &
dilocation
III – external rotation & abd contracture-
anterior & inferior disloc
IV –pure abduction contracture.
37.
38. Grade I ,II, mild grade III (slight posterior
subluxation) glenohumeral deformities have
an anterior musculotendinous lengthening of
the pectoralis major and posterior latissimus
dorsi and teres major transfer to the rotator
cuff
Advanced grade III, IV, or V glenohumeral
deformities should have a humeral derotation
osteotomy.
39. Fairbank: release of subscapularis & capsule.
L’ Episcopco procedure improves external
rotation of the shoulder by releasing the
internal rotation contracture and transferring
the latissimus dorsi and teres major
posteriorly to provide active external rotation
Wickstrom recommendes external rotation
osteotomy of the humerus for severe fixed
rotation contracture.
40.
41. In flaccid paralysis of complete lesion
Difficult to manage & difficult to rehabilitation
If no active wrist extension & no possible transfers
– W. fusion with comb inter-metacarpal
arthrodesis.
42. Elbow flexion and forearm supination
deformities
weak or absent triceps, pronator teres, and
pronator quadratus muscles with an intact
biceps muscle
Radial head dislocation
wrist & hand usually in extreme dorsiflexion –
unopposed DF
biceps tendon, Z-lengthened and rerouted
around the radius to convert it from a
supinator to a pronator
43. Prevention is better than cure
Effort made to improve obstetric practice
Group I & II- conservative
Group III & IV –early surgery
Late sequale: proper evalu & manage with
tendon transfer or osseous surgry
Conservative Rx – fruitless.
![ Early days – congenital deformity.
Smillie [1768] – Obstetric origin
Danyau [1851] – Autopsy – lesion
Duchenne [1861]- traction injury, OBPI
ERB [1875]- pointed lesion at upper trunk
Kennedy [1903]- early surgical repair
Narakas [1981]- microsurgical results.](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)