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:
We present our experience of managing patients
with iatropathic brachial plexus injury after delayed fixation of
a fracture of the clavicle. It is a retrospective cohort study of
patients treated at our peripheral nerve injury unit and a single
illustrative case report. We identified 21 patients in whom a brachial
plexus injury occurred as a direct consequence of fixation of a
fracture of the clavicle between September 2000 and September 2011. The predominant injury involved the C5/C6 nerves, upper trunk,
lateral cord and the suprascapular nerve. In all patients, the injured
nerve was found to be tethered to the under surface of the clavicle
by scar tissue at the site of the fracture and was usually associated
with pathognomonic neuropathic pain and paralysis. Delayed fixation of a fracture of the clavicle, especially between
two and four weeks after injury, can result in iatropathic brachial
plexus injury. The risk can be reduced by thorough release of the
tissues from the inferior surface of the clavicle before mobilisation
of the fracture fragments. If features of nerve damage appear post-operatively
urgent specialist referral is recommended. Cite this article: