Sixty paired cadaver forearms were dissected to examine the distribution of the radial nerve branches to the muscles at the elbow and forearm. Emphasis was placed on the innervation of the extensor carpi radialis brevis and the supinator muscles because of discrepancies in the literature concerning these muscles. The most common branching pattern (from proximal to distal) was to brachioradialis, extensor carpi radialis longus, superficial sensory, extensor carpi radialis brevis, supinator, extensor digitorum/extensor carpi ulnaris, extensor digiti minimi, abductor pollicis longus, extensor pollicis brevis, extensor pollicis longus and extensor indicis. The branch to extensor digitorum and extensor carpi ulnaris came off as a common stem often with the branch to extensor digiti minimi. The branch to the ECRB muscle was noted to arise from the posterior interosseous nerve in 45%, superficial sensory nerve in 25% and at the bifurcation of the posterior interosseous and superficial sensory nerves in 30% of specimens. The supinator had an average of 2.3 branches from the posterior interosseous nerve (range 1-6). The branches to the supinator showed a wide variability proximal to and within the supinator.
Surgical site infection is a challenging complication that places a significant burden on the patient and the health care system. Emphasis is being placed on the prevention and treatment of surgical site infections. We evaluated the accuracy of identifying surgical wrap defects based on defect size, location, and operating room staff experience. Forty sterilization wraps were divided into 4 separate groups based on the size of the puncture defects created. Defects measuring 1.2 mm, 3.7 mm, and 6.8 mm were compared with a control group of surgical wraps with no defects. Defects were randomly placed on an inner or outer line with circumference of 7 cm or 14 cm, respectively. Twenty operating room staff of varying levels of experience evaluated each wrap for defects. The detection rates for the 1.2-mm, 3.7-mm, and 6.8-mm wraps and the wraps with no defects were 3%, 73%, 80%, and 99%, respectively. A significant difference was seen between the detection rates for the small defects vs all other size defects. No significant difference was seen in detection rate based on the location of defects. The detection rate was higher among staff members with greater than 1 year of experience vs those with less than 1 year of experience. Sterilization wrap defects of all sizes went undetected at very high rates. Small defects of 1.2 mm, which have been shown to allow bacterial contamination, were missed 97% of the time. Operating room staff with more experience detected more defects than those with less than 1 year of experience. Wrap defects may be a source of bacterial contamination that may frequently go unnoticed. [ Orthopedics . 2021;44(6):735–e738.]
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