Intramedullary Headless Screw Fixation for Metacarpal Fractures.

Multiple techniques have been proposed for metacarpal fracture fixation, including percutaneous Kirschner-wires, interfragmentary screws, plate and screw constructs, intramedullary (IM) nails, and cannulated IM headless screws. Each of these treatment options has its proposed advantages and disadvantages, and there remains no consensus on the optimal mode of treatment. We describe a technique of retrograde IM headless screw fixation for extra-articular metacarpal fractures.

Distal Radius Fractures: Does Obesity Affect Fracture Pattern, Treatment, and Functional Outcomes?

BACKGROUND: Distal radius fractures (DRFs) are 16% of fractures treated by orthopedic surgeons. Obesity's influence on DRF complexity has not been studied. This study was undertaken to determine if body mass index (BMI) affects DRF pattern, treatment, and functional outcomes. METHODS: Part 1 was a retrospective review of patients who sustained a DRF after a fall from standing height with no prior reduction or treatment. Radiographs were classified as "simple" or "complex." Part 2 consisted of contacting patients from Part 1 and obtaining a Quick Disabilities of the Arm, Shoulder and Hand (QuickDASH) score. Retrospective review also identified patients who failed initial nonoperative treatment. Fracture pattern, failure of nonoperative treatment, and QuickDASH scores were compared with BMI at the time of injury. RESULTS: For Part 1, 130 patients (132 wrists) were identified. Average age was 57 years, 77% were female, and average BMI was 28.2 kg/m2. Each point increase in BMI increased the chance of having a complex DRF (odds ratio = 1.07). Part 2 identified 50 patients who completed a QuickDASH at an average of 4.6 years after injury. Those with a BMI <25 kg/m2 (n = 15) had an average QuickDASH score of 37; patients with a BMI ≥25 kg/m2 (n = 35) had an average QuickDASH score of 18. Increasing BMI was suggestive of a lower QuickDASH score ( P = .08). No significant difference was found with respect to BMI and failure of nonoperative treatment. CONCLUSIONS: A higher BMI increases the odds of a complex DRF. Despite more complex fractures, overweight patients may experience less disability after sustaining a DRF.

Effect of Dorsal Plate Positioning on Dorsiflexion Angle in Arthrodesis of the First Metatarsophalangeal Joint: A Cadaveric Study.

BACKGROUND: The relationship between dorsal plate positioning and final dorsiflexion angle after first metatarsophalangeal (MTP) joint fusion has not been well established. The main purpose of this study was to investigate whether changes in dorsal plate positioning along the longitudinal axis affect fusion dorsiflexion angle, as excessive dorsiflexion angles can lead to poor clinical results. METHODS: Ten cadaver foot specimens were randomly assigned to 2 groups for first MTP joint fusion: 1 group used a straight plate, and the other group used a 10-degree precontoured plate. After routine preparation, the plates were placed in an "ideal" position based on clinical and radiological examination. The plates were then moved proximally 3 mm and 6 mm from the initial site, with repeat imaging completed at each position. The radiological dorsiflexion angle was determined for each position, and the results were assessed. RESULTS: Placement of both straight and precontoured plates at positions more proximal from the initial position led to significant increases in dorsiflexion angles (P = .04), although the percentage change was larger in the precontoured plate group (P = .01). While placement of the plate 3 mm proximal from the perceived "ideal" position did increase the dorsiflexion angle, the percentage of specimens with dorsiflexion angles in the suggested optimal range changed minimally. Positioning at 6 mm from the starting point, however, led to significantly increased dorsiflexion angles for both plates (P = .004). CONCLUSION: Positioning the dorsal plate at more proximal locations leads to increasing dorsiflexion angles. Precontoured plates are more likely to lead to excessive dorsiflexion compared with straight plates regardless of plate position. CLINICAL RELEVANCE: Fusion at excessive dorsiflexion angles can be minimized with appropriate selection and proper positioning of the dorsal fusion plate along the longitudinal axis.