A pronation deformity of the forearm following an obstetric brachial plexus injury causes functional and cosmetic disability. We evaluated the results of pronator teres transfer to correct their deformity in 14 children treated over a period of four years. The mean age at surgery was 7.6 years (5 to 15). The indication for surgery in each case was impairment of active supination in a forearm that could be passively supinated provided that there was no medial contracture of the shoulder and normal function of the hand. The median follow-up was 20.4 months (8 to 42). No patient was lost to follow-up. Qualitative results were also assessed. The median active supination improved from 5° (0° to 10°) to 75° (70° to 80°) with no loss of pronation. A passively correctible pronation contracture can be corrected safely and effectively by the transfer of pronator teres.
Cubitus varus is the most common late complication of a supracondylar
fracture of the humerus in children. Correction can be performed
using one of a number of techniques of osteotomy but each has disadvantages.
We describe a new technique for correcting post-traumatic cubitus
varus using a lateral closing wedge isosceles triangular osteotomy. A lateral closing wedge isosceles triangular osteotomy was performed
in 25 patients (15 male and ten female with a mean age of 9.5 years
(6 to 12)) between May 2010 and April 2013. All patients had cubitus
varus secondary to malunion of a supracondylar fracture, with good
function of the elbow and a full range of movement. The osteotomy
lines were marked on the bone with an isosceles triangular template
made before surgery, after which the osteotomy was performed leaving
the medial cortex intact. Fixation was performed using two lateral
2 mm Kirschner (K)-wires and patients were immobilised in an above-elbow
plaster. By six to eight weeks callus was present and the wires
and cast were removed. Patients were reviewed at four and six weeks,
three, six and 12 months and then every two years until skeletal
maturity. Clinical and radiographic outcomes were categorised as excellent,
good or poor.Aims
Patients and Methods
In adults with brachial plexus injuries, lack
of active external rotation at the shoulder is one of the most common residual
deficits, significantly compromising upper limb function. There
is a paucity of evidence to address this complex issue. We present
our experience of isolated latissimus dorsi (LD) muscle transfer
to achieve active external rotation. This is a retrospective review
of 24 adult post-traumatic plexopathy patients who underwent isolated latissimus
dorsi muscle transfer to restore external rotation of the shoulder
between 1997 and 2010. All patients were male with a mean age of
34 years (21 to 57). All the patients underwent isolated LD muscle
transfer using a standard technique to correct external rotational
deficit. Outcome was assessed for improvement in active external rotation,
arc of movement, muscle strength and return to work. The mean improvement
in active external rotation from neutral was 24° (10° to 50°). The
mean increase in arc of rotation was 52° (38° to 55°). Mean power
of the external rotators was 3.5 Medical Research Council (MRC)
grades (2 to 5). A total of 21 patients (88%) were back in work by the time of
last follow up. Of these,
13 had returned to their pre-injury occupation. Isolated latissimus
dorsi muscle transfer provides a simple and reliable method of restoring
useful active external rotation in adults with brachial plexus injuries
with internal rotational deformity. Cite this article:
A total of 35 children with Erb’s palsy and shoulder
abduction of <
90° underwent transfer of teres major. In 18 cases (group
1) a trapezius transfer was added (combined procedure). In 17 cases
(group 2) teres major transfer was carried out in isolation (single
procedure). The mean gain in abduction was 67.2° (60° to 80°) in
group 1 and 37.6° (20° to 70°) in group 2, which reached statistical
significance (p <
0.001). Group 2 was further divided into those who had deltoid power
of <
M3 (group 2a) and those with deltoid power ≥ M3 (group 2b).
The difference in improvement of abduction between groups 2a and
group 2b was statistically significant (p <
0.001) but the difference
between group 2b and group 1 was not (p = 0.07). We recommend the following protocol of management: in children
with abduction ≥ 90° a single procedure is indicated. In children
with abduction <
90°: a combined procedure is indicated if deltoid
power is <
M3 and a single procedure is indicated if deltoid
power is ≥ M3. If no satisfactory improvement is achieved, the trapezius
can be transferred at a later stage.
We report 12 consecutive cases of vertical scapular osteotomy to correct Sprengel’s deformity, performed during a 16-year period, with a mean follow-up of 10.4 years. The mean increase in abduction of the shoulder was 53°. The cosmetic appearance improved by a mean of 1.5 levels on the Cavendish scale. Neither function nor cosmesis deteriorated with time. We recommend the procedure for correction of moderate deformities with a functional deficit.
Restoration of hand function is rarely achieved after a complete closed traction lesion of the supraclavicular brachial plexus. We describe the injury, treatment, rehabilitation and long-term results of two patients who regained good function of the upper limb and useful function in the hand after such an injury. Successful repairs were performed within six days of injury. Tinel’s sign proved accurate in predicting the ruptures and the distribution of pain was accurate in predicting avulsion. The severe pain that began on the day of injury resolved with the onset of muscle function. Recovery of muscle function preceded recovery of sensation. Recovery of the function of C and Aδ fibres was the slowest of all.
