GUIDELINES FOR THERAPISTS: Treating Children With Brachial Plexus Injuries

by Margaret Storment, OT

The reported incidence of birth related brachial plexus injuries vary greatly from 2-5 out of 1000 births. Of these, 80%-90% eventually resolve spontaneously. Other causes of brachial plexus injuries include: automobile, motorcycle, boating accidents; sports injuries ("burners" or "stingers"); animal bites; gunshot or puncture wounds; as a result of specific medical treatments/procedures/and surgeries or due to viral diseases.

The brachial plexus consists of cervical nerves five through eight and thoracic nerve one. Upper brachial plexus palsy (C5-C7), or Erb's palsy, is the most common. The arm is extended, the shoulder internally rotated and adducted, the forearm pronated, and the wrist and fingers are flexed. Paralysis of the deltoid, supraspinatus, infraspinatus, teres minor, biceps, brachialis, brachioradialis, supinator, wrist extensors, and finger extensor muscles places the arm in the "waiter's tip" position. Klumpke's palsy results from pure lower plexus injury (C7-T1) and is rare. The arm is flexed, and the shoulder is in a relatively normal position: the forearm is supinated, and the wrist and fingers are flaccid. Horner's syndrome is usually present. Paralysis of the triceps, wrist and finger extensor and flexor muscles give the arm a posture resembling that resulting from a cerebral vascular accident.

There are four nerve injuries that can occur. An avulsion in which the nerve is torn from the spine is the most severe injury. A rupture is when the nerves are torn at either one or several places in the plexus. A neuroma is the nerve that has tried to heal itself, but scar tissue has grown around the injury.  The scar tissue puts pressure on the injured nerve and as a result the nerve cannot conduct signals to the muscles. A praxis injury is when the nerve has been stretched due to tension from the pull on the neck and shoulder.  Stretch injuries will spontaneously recover up to 1-2 years of age with 90-100% return of function in the arm. Scapula winging is common in brachial plexus injuries due to weakened scapula muscles. It is important to maintain scapulohumeral mobility through scapular stabilization to reduce winging.

Recovery of the arm once a brachial plexus injury has occurred is:

Scapula elevation/depression, protraction/retraction 0-3 months
Finger Flexion/Extension 0-3 months
Wrist Flexion/Extension 0-3 months
Shoulder Flexion/Abduction 45-90 degrees 0-4 months
Elbow flexion with arm pronated initially 0-4 months
Elbow Extension 0-5 months
Shoulder Flexion/Abduction 90-160 degrees 4-8 months
Shoulder External Rotation 8-12 months
Supination 10-15 months

This is a general observation of return in a stretch injury. More mild injuries can recover at a faster rate, however it is those injuries in which movement has never returned or those that seam to have plateaued that require immediate surgical intervention. If the baby's arm is totally flaccid for 2 months of life, surgery is recommended as soon as possible.

If the child regains most of the function of the involved extremity careful attention must be noted, as the child grows, to the shoulder and scapular area due to muscle shortening from soft tissue adhesion and muscle imbalance which may require secondary surgical intervention.

* Remember each child's nervous system and injury are different so depending on what nerves are damaged is what muscle function you will see.

* If you do not see continuous progression of active movement of the involved extremity there is a strong possibility that nerves are ruptured or avulsed and an immediate referral to Texas Children's Hospital Brachial Plexus Team is advised for evaluation of need of surgery. An EMG is an important preliminary test used to determine what nerves are involved. Preferred primary surgery age is 3-7 months for best prognosis. 20% of brachial plexus injuries require surgery and improvement can be expected in at least 90% of them.  Secondary surgical procedures can be done on children 12 months and older.

Neurosurgical techniques for repairing damaged neural elements include external neurolysis (neuroplasty), internal neurolysis, nerve graft, neuroma dissection and removal and direct end to end nerve anastomosis.  In case of avulsion an intercostal to musculocutaneous nerve graft can be done providing free muscle surgery when above neurosurgical techniques do not take.  The "C7 Transfer" is being used to increase hand function.

Other new surgeries are being performed and their post surgical protocols may vary.  The "Mod Quad" is a technique which involves five procedures which improves shoulder function in even older children who did not receive any of the abovementioned primary surgeries.

Two weeks after a nerve graft surgery, parents are instructed to resume gentle PROM exercise. If the child has had neurolysis surgery, parents are instructed to resume gentle PROM exercise immediately after surgery. The child may resume therapy 4 weeks after a nerve graft surgery with weight bearing activities being included in 6-8 weeks; and 2 weeks after neurolysis surgery with weight bearing activities 3-4 weeks after surgery beginning with prone on elbow and progressing accordingly. Do not put weights on involved extremity at this time. Regeneration of nerves may be noted at 9-12 months after surgery with only minimal return of motion to involved musculature before this time. Scar massage is to be performed one month after surgery once steri-strips have fallen off. Scar massage can be performed before ROM exercises or any time throughout the day. If scar on the leg goes down to the ankle, PROM of the ankle in all motions can be performed to maintain flexibility.

With the "Mod Quad" surgery the arm is immobilized in an Statue of Liberty (SOL) splint for 6 weeks 24 hours a day, then the splint is worn for a second 6 weeks at night only for children 2 years and older; and 4 weeks for children 2 years and younger. During the second 6 or 4 weeks scar massage, gentle PROM and no resistance active movement is allowed to the involved extremity.  Full-body weight-bearing activities are not allowed until after the 12-week time frame is past.  Then a strengthening program is recommended.  Electrical stimulation and water therapy are highly effective means of strengthening muscle groups at this time.

Muscle transfers may be performed  if a child is past the desired age for optimum recovery from primary surgery. Muscle transfers are usually not performed before the child is 4 years old or later. A new muscle transfer to increase supination is called the "Pronator/Teres Transfer."

Some precautions or problems to be aware of are shoulder or elbow subluxations, frozen shoulder, and soft tissue/joint contractures.

Some children with severe sensory loss in the hand may experience regeneration later on which causes them to bite or pick at the skin.  A neoprene glove can be used to protect the hand from skin damage.

When evaluating these children note any broken bones and the extent of passive and active range of motion, sensation, strength, and achievement of developmental milestones.

Treatment techniques should include the following:

Positioning / Splinting:

Air Splints:

Instruct parents to always include bilateral upper extremity (BUE) in play, to use uninvolved arm as a guide to allow involved arm to experience everything that the other arm is doing, to always offer toys, food, or any other objects to involved arm first, to allow child to reach and grasp objects in a place where he/she can succeed to obtain these objects and then slowly increase the range to avoid frustration which leads to increase levels of motivation to use that arm.

Do not allow child to use compensatory movements especially in the trunk to obtain desired objects when reaching.

Children are extremely adaptable and will always try to use uninvolved extremity to perform the tasks. It will require constant verbal/tactile cuing to reprogram the child to use the involve arm spontaneously so BE CREATIVE!

Overuse Syndrome:

Overuse Syndrome is characterized by discomfort or pain in the muscles, tendons, and other soft tissues, with or without physical signs. Symptoms are fatigue, muscle discomfort, stiffness, soreness, aches/pain, burning sensation, weakness, numbness and tingling. There has been a proposed link between muscle damage, the intensity of exercise, the number of motor units available and destroyed, and the duration of exercise that can cause overuse syndrome. The goal of therapeutic exercise is to prevent problems associated with disuse and immobility while preventing exercise induced muscular weakness. Always start strengthening program at a very low level of intensity not to cause fatigue or pain. Determine what intensity level patient can tolerate and begin with half the reps and double rest periods if needed. Always explore energy conservation strategies and ergonomic technology as needed. Aquatic programs are excellent to minimize overwork, relieves pain and improves general body conditioning.