OBJECTIVES: To determine the failure rate of the DePuy-Synthes variable angle locking compression curved condylar plate (VA-LCP) and quantify failure modes. DESIGN: Retrospective review. SETTING: Level I Trauma Center. PATIENTS/PARTICIPANTS: One hundred thirteen patients with 118 OTA/AO classification 33A and 33C distal femoral fractures were included in the study. INTERVENTION: Internal fixation using only the DePuy-Synthes VA-LCP plate. MAIN OUTCOME MEASUREMENTS: Primary outcomes included mechanical failure rate of the DePuy-Synthes VA-LCP plate in open and closed fractures. Secondary outcomes included overall failure rate of treatment, risk factors for mechanical failure, and the specific location of failure: loss of fixation in the proximal segment, implant failure over the working length, or failure of locking screw fixation distally. RESULTS: There were 11 total failures (9.3%) in 118 fractures. Failure rates for the closed and open fracture groups were 5.4% and 15.9%, respectively. Twenty patients (16.9%) required reoperation to promote union. Open fractures (P = 0.00475), the presence of medial metaphyseal comminution (P = 0.037), the length of the zone of comminution (P = 0.037), and plate length (P = 0.0096) were significantly higher in those with implant failure. Most failures (63.6%) were in the working length of the implant. CONCLUSIONS: The use of the Synthes VA-LCP is a viable option in distal femoral fractures and has an acceptable failure rate and reoperation to promote union rate. LEVEL OF EVIDENCE: Therapeutic Level IV. See Instructions for Authors for a complete description of levels of evidence.
OBJECTIVES: To determine the failure rate of the DePuy-Synthes variable angle locking compression curved condylar plate (VA-LCP) and quantify failure modes. DESIGN: Retrospective review. SETTING: Level I Trauma Center. PATIENTS/PARTICIPANTS: One hundred thirteen patients with 118 OTA/AO classification 33A and 33C distal femoral fractures were included in the study. INTERVENTION: Internal fixation using only the DePuy-Synthes VA-LCP plate. MAIN OUTCOME MEASUREMENTS: Primary outcomes included mechanical failure rate of the DePuy-Synthes VA-LCP plate in open and closed fractures. Secondary outcomes included overall failure rate of treatment, risk factors for mechanical failure, and the specific location of failure: loss of fixation in the proximal segment, implant failure over the working length, or failure of locking screw fixation distally. RESULTS: There were 11 total failures (9.3%) in 118 fractures. Failure rates for the closed and open fracture groups were 5.4% and 15.9%, respectively. Twenty patients (16.9%) required reoperation to promote union. Open fractures (P = 0.00475), the presence of medial metaphyseal comminution (P = 0.037), the length of the zone of comminution (P = 0.037), and plate length (P = 0.0096) were significantly higher in those with implant failure. Most failures (63.6%) were in the working length of the implant. CONCLUSIONS: The use of the Synthes VA-LCP is a viable option in distal femoral fractures and has an acceptable failure rate and reoperation to promote union rate. LEVEL OF EVIDENCE: Therapeutic Level IV. See Instructions for Authors for a complete description of levels of evidence.
Authors: Graham J DeKeyser; Anne J Hakim; Dillon C O'Neill; Carsten W Schlickewei; Lucas S Marchand; Justin M Haller Journal: Arch Orthop Trauma Surg Date: 2021-06-07 Impact factor: 2.928