Background: Volar Barton fractures involve the volar articular margin of the distal radius with proximal and volar subluxation of the carpus. Although traditionally conceptualized as partial articular, some volar Barton fractures are complete articular injuries due to a dorsal cortical break in the distal radial metaphysis. While dorsal cortical breaks can affect surgical strategy, they may be difficult to identify on plain radiographs and their epidemiology remains poorly characterized. Some authors have hypothesized an association with osteoporosis; however, this hypothesis remains untested. To better characterize volar Barton fractures, we analyzed fracture geometry on pre-operative computed tomography (CT) scans to: (1) determine the frequency of a dorsal cortical break; and (2) test the null hypothesis that a dorsal cortical break is not associated with age or gender. Methods: We retrospectively reviewed adults with a volar Barton distal radius fracture and an available pre-operative CT who underwent surgical fixation. Using multivariable logistic regression, we assessed whether age or gender was an independent predictor of a dorsal cortical break. Results: Forty patients (mean age 52 years, 57% female) were identified. Including the shaft as a fragment, 32 (80%) had 3 or more discrete fracture fragments. Thirty patients (75%) had a dorsal cortical break. Dorsal cortical breaks were not associated with either age or gender (P > 0.05). Conclusions: Most (75%) patients with volar Barton distal radius fractures had a dorsal cortical break. Dorsal cortical breaks were not statistically associated with age or gender, suggesting these fracture patterns may not be associated with osteoporosis as previously hypothesized.
Background: Volar Barton fractures involve the volar articular margin of the distal radius with proximal and volar subluxation of the carpus. Although traditionally conceptualized as partial articular, some volar Barton fractures are complete articular injuries due to a dorsal cortical break in the distal radial metaphysis. While dorsal cortical breaks can affect surgical strategy, they may be difficult to identify on plain radiographs and their epidemiology remains poorly characterized. Some authors have hypothesized an association with osteoporosis; however, this hypothesis remains untested. To better characterize volar Barton fractures, we analyzed fracture geometry on pre-operative computed tomography (CT) scans to: (1) determine the frequency of a dorsal cortical break; and (2) test the null hypothesis that a dorsal cortical break is not associated with age or gender. Methods: We retrospectively reviewed adults with a volar Barton distal radius fracture and an available pre-operative CT who underwent surgical fixation. Using multivariable logistic regression, we assessed whether age or gender was an independent predictor of a dorsal cortical break. Results: Forty patients (mean age 52 years, 57% female) were identified. Including the shaft as a fragment, 32 (80%) had 3 or more discrete fracture fragments. Thirty patients (75%) had a dorsal cortical break. Dorsal cortical breaks were not associated with either age or gender (P > 0.05). Conclusions: Most (75%) patients with volar Barton distal radius fractures had a dorsal cortical break. Dorsal cortical breaks were not statistically associated with age or gender, suggesting these fracture patterns may not be associated with osteoporosis as previously hypothesized.
Authors: Jonas Andermahr; Santiago Lozano-Calderon; Ted Trafton; Joseph J Crisco; David Ring Journal: J Hand Surg Am Date: 2006 Jul-Aug Impact factor: 2.230
Authors: J L Marsh; Theddy F Slongo; Julie Agel; J Scott Broderick; William Creevey; Thomas A DeCoster; Laura Prokuski; Michael S Sirkin; Bruce Ziran; Brad Henley; Laurent Audigé Journal: J Orthop Trauma Date: 2007 Nov-Dec Impact factor: 2.512