The Journal of hand surgery
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To investigate the relationship between hand dominance and the risk of major hand injury, the case records of 125 patients who had been treated for digital amputation were retrospectively reviewed. A second group of 116 patients treated for minor hand trauma was similarly evaluated. The incidence of left-hand dominance among the digital amputation group was 35%, and among the minor trauma group the incidence was 11%. ⋯ The most common mechanism of amputating injury was by power saw. The present data suggest that left-handed individuals have a relative risk of sustaining an amputating injury that is 4.9 times greater than the right-handed individuals, while minor hand trauma occurs at rates proportional to the distribution of left handedness within the population. Additional safety measures and the redesigning of tools, assembly lines, and workstations are recommended to help decrease the incidence of serious hand injury among left-handed individuals.
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Randomized Controlled Trial Clinical Trial
Identification of low-effort patients through dynamometry.
In recent years researchers have devised a number of methods to detect patients who purposely exert low effort during grip evaluations. This study further defines the five-rung grip test introduced by Stokes and subsequently challenged by Niebuhr and Marion. New data are presented on the rapid exchange grip test. ⋯ No statistical difference between peak scores on five-rung and rapid exchange grip tests in sincere subjects was found. A statistical difference between peak scores in the low-effort groups was shown. A model has been developed that can be used to categorize patients into low effort or sincere groups.
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A biomechanical cadaver study was performed to determine the roles of the stabilizing structures of the distal radioulnar joint during pronation and supination. Subluxation and dislocation of the radius with respect to the ulna were evaluated in seven cadaver forearms placed in supination, pronation, and neutral forearm rotation. The amount of subluxation was measured with all structures intact, and after sectioning in various sequences the dorsal and palmar radioulnar ligaments, the distal portion of the interosseous membrane including the pronator quadratus, and the entire interosseous membrane. ⋯ When the interosseous membrane was disrupted first, the dorsal radioulnar ligament was found to be more important than the palmar radioulnar ligament in stabilizing the distal radioulnar joint in pronation, and conversely the palmar radioulnar ligament was more important than the dorsal radioulnar ligament in supination. Dislocation, and frequently diastasis, occurred only with sectioning of all four structures. This suggests that all four structures contribute to stability of the distal radioulnar joint.