The suprascapular nerve is an ideal target for nerve blockade to alleviate shoulder pain given its widespread
Myotome values for the upper limb appear to have been established in the early twentieth century based on historical work. Supraclavicular brachial plexus injuries present with a pattern of neurological loss consistent to the nerve roots affected. Recent advances in radiological imaging and intraoperative nerve stimulation have allowed confirmation of the affected nerve roots. The records of 43 patients with partial injuries to the supraclavicular brachial plexus were reviewed. The injuries covered the full range of injury patterns including those affecting C5, C5-6, C5-7, C5-8, C7-T1 and C8-T1 roots. All cases with upper plexus injuries had surgical exploration of the brachial plexus with the injury pattern being classified on the basis of whether the roots were in continuity, ruptured, or avulsed, and, if seen in continuity, the presence or absence of a response to stimulation. For lower plexus injuries the classification relied on identification of avulsed roots on Magnetic Resonance Imaging. Muscle powers recorded on clinical examination using the MRC grading system. In upper plexus injuries paralysis of flexor carpi radialis indicated involvement of C7 in addition to C5-6, and paralysis of triceps and pectoralis major suggested loss of C8 function. A major input from T1 was confirmed for flexor digitorum superficialis, flexor digitorum profundus (FDP) to the radial digits, and extensor pollicis longus. C8 was the predominant
Introduction. Traumatized musculoskeletal tissue often exhibits prolonged time to healing, mostly due to low blood flow and
In order to achieve satisfactory reduction of
complex distal humeral fractures, adequate exposure of the fracture fragments
and the joint surface is required. Several surgical exposures have
been described for distal humeral fractures. We report our experience
using the anconeus pedicle olecranon flip osteotomy approach. This
involves detachment of the triceps along with a sliver of olecranon,
which retains the anconeus pedicle. We report the use of this approach
in ten patients (six male, four female) with a mean age of 38.4
years (28 to 51). The mean follow-up was 15 months (12 to 18) with
no loss to follow-up. Elbow function was graded using the Mayo Score.
The results were excellent in four patients, good in five and fair
in one patient. The mean time to both fracture and osteotomy union
was 10.6 weeks (8 to 12) and 7.1 weeks (6 to 8), respectively. We
found this approach gave reliably good exposure for these difficult
fractures enabling anatomical reduction and bicondylar plating without
complications. Cite this article:
We describe 261 peripheral nerve injuries sustained
in war by 100 consecutive service men and women injured in Iraq
and Afghanistan. Their mean age was 26.5 years (18.1 to 42.6), the
median interval between injury and first review was 4.2 months (mean
8.4 months (0.36 to 48.49)) and median follow-up was 28.4 months
(mean 20.5 months (1.3 to 64.2)). The nerve lesions were predominantly
focal prolonged conduction block/neurapraxia in 116 (45%), axonotmesis
in 92 (35%) and neurotmesis in 53 (20%) and were evenly distributed
between the upper and the lower limbs. Explosions accounted for
164 (63%): 213 (82%) nerve injuries were associated with open wounds.
Two or more main nerves were injured in 70 patients. The ulnar,
common peroneal and tibial nerves were most commonly injured. In
69 patients there was a vascular injury, fracture, or both at the
level of the nerve lesion. Major tissue loss was present in 50 patients:
amputation of at least one limb was needed in 18. A total of 36 patients
continued in severe neuropathic pain. This paper outlines the methods used in the assessment of these
injuries and provides information about the depth and distribution
of the nerve lesions, their associated injuries and neuropathic
pain syndromes.