PURPOSE: Acetabular fractures typically occur in high energy trauma. Understanding of the various contributing biomechanical factors and trauma mechanisms is still limited. While several investigations figured out what role femoral position during impact plays in distinct fracture patterns, no data exists on the influence of acetabular version on the fracture type. Our study was carried out to clarify this issue. METHODS: Radiological data sets of 192 patients (145 male, 47 female, age 14-90 years) sustaining acetabular fractures were assessed retrospectively. The crossover ratio of the crossover sign and presence or absence of the posterior wall sign and ischial spine sign were used to determine acetabular retroversion on conventional radiographs. Acetabular version in the axial plane was measured on a computed tomography (CT) scan. Statistics were then performed to analyse the relationship between the acetabular fracture type according to the Letournel classification and acetabular version. RESULTS: A significant difference (p = 0.029) in acetabular version was found between fractures of the anterior [mean equatorial edge (EE) angle 19.93°] and posterior (mean EE angle 17.53°) acetabulum in the CT scan. No difference was shown on the measurements on conventional radiographs. CONCLUSIONS: Acetabular version in the axial plane has an influence on the acetabular fracture pattern. While more anteverted acetabula were frequently associated with anterior fracture types according to the Letournel classification, retroversion of the acetabulum was associated with posterior fracture types.
PURPOSE: Acetabular fractures typically occur in high energy trauma. Understanding of the various contributing biomechanical factors and trauma mechanisms is still limited. While several investigations figured out what role femoral position during impact plays in distinct fracture patterns, no data exists on the influence of acetabular version on the fracture type. Our study was carried out to clarify this issue. METHODS: Radiological data sets of 192 patients (145 male, 47 female, age 14-90 years) sustaining acetabular fractures were assessed retrospectively. The crossover ratio of the crossover sign and presence or absence of the posterior wall sign and ischial spine sign were used to determine acetabular retroversion on conventional radiographs. Acetabular version in the axial plane was measured on a computed tomography (CT) scan. Statistics were then performed to analyse the relationship between the acetabular fracture type according to the Letournel classification and acetabular version. RESULTS: A significant difference (p = 0.029) in acetabular version was found between fractures of the anterior [mean equatorial edge (EE) angle 19.93°] and posterior (mean EE angle 17.53°) acetabulum in the CT scan. No difference was shown on the measurements on conventional radiographs. CONCLUSIONS: Acetabular version in the axial plane has an influence on the acetabular fracture pattern. While more anteverted acetabula were frequently associated with anterior fracture types according to the Letournel classification, retroversion of the acetabulum was associated with posterior fracture types.
Authors: M Tannast; G Zheng; C Anderegg; K Burckhardt; F Langlotz; R Ganz; K A Siebenrock Journal: Clin Orthop Relat Res Date: 2005-09 Impact factor: 4.176
Authors: Clément M L Werner; Carol E Copeland; Thomas Ruckstuhl; Jeff Stromberg; Burkhard Seifert; Clifford H Turen Journal: Acta Orthop Belg Date: 2008-12 Impact factor: 0.500
Authors: Simon Tiziani; Lucienne Gautier; Jan Farei-Campagna; Georg Osterhoff; Thorsten Jentzsch; Thi Dan Linh Nguyen-Kim; Clément M L Werner Journal: BMC Med Imaging Date: 2015-09-29 Impact factor: 1.930
Authors: Antonio Klasan; Thomas Neri; Charlotte Sommer; Murilo Anderson Leie; Philipp Dworschak; Markus D Schofer; Thomas J Heyse Journal: J Orthop Translat Date: 2019-02-14 Impact factor: 5.191