The Effect of Fracture Pattern Stability on Implant Loading in OTA Type 31-A2 Proximal Femur Fractures
| Autor: | Jenni M. Buckley, Amir Matityahu, Meir Marmor, Kate D. Liddle, Murat Pekmezci |
|---|---|
| Rok vydání: | 2013 |
| Předmět: |
Joint Instability
Male medicine.medical_specialty Medial cortex medicine.medical_treatment Bone Screws Bone Nails Prosthesis Design medicine.disease_cause Osteotomy law.invention Weight-bearing Weight-Bearing Intramedullary rod Fracture Fixation Internal law Cadaver Fracture fixation medicine Humans Internal fixation Orthopedics and Sports Medicine Orthodontics Trauma Severity Indices business.industry General Medicine Middle Aged Surgery Equipment Failure Analysis Radiography Treatment Outcome Female Implant business Femoral Fractures |
| Zdroj: | Journal of Orthopaedic Trauma. 27:683-689 |
| ISSN: | 0890-5339 |
| DOI: | 10.1097/bot.0b013e31828bacb4 |
| Popis: | Background Internal fixation of OTA type 31-A2 proximal femoral fractures can be performed with either a sliding hip screw and side plate (SHS-P) or a sliding hip screw and intramedullary nail (SHS-IMN). Controversy exists as to which is the best implant for these types of fractures. The primary aim of this study was to investigate the stability of 31-A2 fractures as a function of loss of medial cortical buttress. The secondary aim was to assess the influence of fracture stability on the different internal fixation constructs. Methods Simulated simple intertrochanteric fractures were made in 12 cadaver proximal femurs. Six fractures were fixed with an SHS-P and 6 with an SHS-IMN. Both implants were instrumented with a strain gauge at the lag screw-nail/plate interface to allow assessment of implant load bearing (ILB). A primary fracture line, in accordance with the 31-A2 OTA classification, was created after which 3 subsequent horizontal osteotomies in 1-cm increments were made across the medial cortex. Compressive loading up to 1050 N was performed after each osteotomy. Results ILB was presented as percentage of maximal ILB. SHS-P constructs increased their load bearing gradually. For SHS-P constructs, ILB was 8.1% ± 1.8% in the intact state, increasing to 49.6% ± 14.0% after the initial intertrochanteric osteotomy (P = 0.0002), 68.7% ± 15.9% after the first medial osteotomy (P = 0.028), and 80.0% ± 15.9% after the second medial osteotomy (P = 0.15). After the first-level medial osteotomy, SHS-IMN constructs reached a plateau in which the implant carried the entire load. Conclusions Type 31-A2 fractures become increasingly unstable with increased medial comminution (or fragment size). SHS-P constructs were more load sharing than SHS-IMN constructs. These findings may help guide the surgeon in choice of implant for a 31-A2 intertrochanteric fracture, leaning toward SHS-IMN for the more unstable fracture patterns. |
| Databáze: | OpenAIRE |
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