AIM: The dynamic hip screw (DHS) often shows an impared outcome and a high incidence of therapeutic failure in patients with osteoporotic pertrochanteric femur fractures. This is caused predominantly by a fracture collapse and appears often in unstable fractures (31A2, 31A3). In a prospectively documented clinical study, we examined whether or not the percutaneous compression plate (PCCP, Gotfried) offers advantages following osteoporotic fractures. METHOD: From August 2003 to December 2005, 103 patients underwent internal fixation with the DHS (n = 40, age 76.1, ASA 2.9) or with the PCCP (n = 63, age 76.9, ASA 2.8). Proximal femurs were classified with the Singh grading system, which uses six grades of trabecular patterns to describe the degree of osteoporosis. Reexamination of the patients (27 DHS, 43 PCCP) was performed on average 18 months later. RESULTS: The PCCP was implanted into very osteoporotic femurs (Singh 2) in less time than the DHS (47 vs. 79 min). These patients treated with PCCP showed no difference in blood loss, but tended to have better outcomes (Merle d'Aubigné, Harris hip score) than those treated with DHS. Life quality, subjectively measured with the visual analogue score, was significantly better in the PCCP group with high-grade osteoporosis (Singh 2). The outcome after implantation of the PCCP was not correlated to the Singh index in stable or in unstable fractures. Mechanical complications occurred especially in unstable fractures (re-operation rate: DHS 4/18 [22 %], PCCP 3/29 [10 %], p = 0.266), without correlation to the Singh index. Excluding the avoidable complication of loosening of the screw-barrel portion, the re-operation rate for the PCCP was 3 % (cut-out: 1/29, p = 0.042) in unstable fractures. CONCLUSION: Use of the minimally invasive PCCP technique in osteoporotic pertrochanteric femur fractures provides an alternative to the dynamic hip screw, especially with regard to surgical time and outcome. Advantages occurred also in the re-operation rate following fracture fixation complications. The cut-out rate was significantly lower than in the DHS group in unstable fractures.
AIM: The dynamic hip screw (DHS) often shows an impared outcome and a high incidence of therapeutic failure in patients with osteoporotic pertrochanteric femur fractures. This is caused predominantly by a fracture collapse and appears often in unstable fractures (31A2, 31A3). In a prospectively documented clinical study, we examined whether or not the percutaneous compression plate (PCCP, Gotfried) offers advantages following osteoporotic fractures. METHOD: From August 2003 to December 2005, 103 patients underwent internal fixation with the DHS (n = 40, age 76.1, ASA 2.9) or with the PCCP (n = 63, age 76.9, ASA 2.8). Proximal femurs were classified with the Singh grading system, which uses six grades of trabecular patterns to describe the degree of osteoporosis. Reexamination of the patients (27 DHS, 43 PCCP) was performed on average 18 months later. RESULTS: The PCCP was implanted into very osteoporotic femurs (Singh 2) in less time than the DHS (47 vs. 79 min). These patients treated with PCCP showed no difference in blood loss, but tended to have better outcomes (Merle d'Aubigné, Harris hip score) than those treated with DHS. Life quality, subjectively measured with the visual analogue score, was significantly better in the PCCP group with high-grade osteoporosis (Singh 2). The outcome after implantation of the PCCP was not correlated to the Singh index in stable or in unstable fractures. Mechanical complications occurred especially in unstable fractures (re-operation rate: DHS 4/18 [22 %], PCCP 3/29 [10 %], p = 0.266), without correlation to the Singh index. Excluding the avoidable complication of loosening of the screw-barrel portion, the re-operation rate for the PCCP was 3 % (cut-out: 1/29, p = 0.042) in unstable fractures. CONCLUSION: Use of the minimally invasive PCCP technique in osteoporotic pertrochanteric femur fractures provides an alternative to the dynamic hip screw, especially with regard to surgical time and outcome. Advantages occurred also in the re-operation rate following fracture fixation complications. The cut-out rate was significantly lower than in the DHS group in unstable fractures.
Authors: Matthias Knobe; Wolf Drescher; Nicole Heussen; Richard Martin Sellei; Hans-Christoph Pape Journal: Clin Orthop Relat Res Date: 2012-02-07 Impact factor: 4.176
Authors: Matthias Knobe; Gertraud Gradl; Andreas Ladenburger; Ivan S Tarkin; Hans-Christoph Pape Journal: Clin Orthop Relat Res Date: 2013-09 Impact factor: 4.176
Authors: L Konstantinidis; C Papaioannou; P Blanke; A Hirschmüller; N P Südkamp; P Helwig Journal: Osteoporos Int Date: 2013-05-24 Impact factor: 4.507