UNSTABLE TROCHANTERIC FEMORAL FRACTURES. COMPLICATIONS, FRACTURE DYNAMICS, AND OUTCOME AFTER LOCKED MINIMAL INVASIVE PLATING AND INTRAMEDULLARY TREATMENTA COMPARISON OF THE PCCP, PFN AND THE PFNA

Knobe M, Sellei R, Kobbe P, et al. UNSTABLE TROCHANTERIC FEMORAL FRACTURES. COMPLICATIONS, FRACTURE DYNAMICS, AND OUTCOME AFTER LOCKED MINIMAL INVASIVE PLATING AND INTRAMEDULLARY TREATMENTA COMPARISON OF THE PCCP, PFN AND THE PFNA. Orthop Procs. 2012;94-B(SUPP_XXXVII):213-213. doi:10.1302/1358-992X.94BSUPP_XXXVII.EFORT2011-213

Knobe, Matthias, et al. “UNSTABLE TROCHANTERIC FEMORAL FRACTURES. COMPLICATIONS, FRACTURE DYNAMICS, AND OUTCOME AFTER LOCKED MINIMAL INVASIVE PLATING AND INTRAMEDULLARY TREATMENTA COMPARISON OF THE PCCP, PFN AND THE PFNA.” Orthopaedic Proceedings, vol. 94-B, no. SUPP_XXXVII, 2012, pp. 213-213., https://doi.org/10.1302/1358-992X.94BSUPP_XXXVII.EFORT2011-213

Knobe, M., Sellei, R., Kobbe, P., Lichte, P., Pfeifer, R., Mooij, S., Aliyev, R., Muenker, R., & Pape, H. C. (2012). UNSTABLE TROCHANTERIC FEMORAL FRACTURES. COMPLICATIONS, FRACTURE DYNAMICS, AND OUTCOME AFTER LOCKED MINIMAL INVASIVE PLATING AND INTRAMEDULLARY TREATMENTA COMPARISON OF THE PCCP, PFN AND THE PFNA. Orthopaedic Proceedings, 94-B(SUPP_XXXVII), 213-213. https://doi.org/10.1302/1358-992X.94BSUPP_XXXVII.EFORT2011-213

Knobe, M., Sellei, R., Kobbe, P., Lichte, P., Pfeifer, R., Mooij, S. et al. (2012) “UNSTABLE TROCHANTERIC FEMORAL FRACTURES. COMPLICATIONS, FRACTURE DYNAMICS, AND OUTCOME AFTER LOCKED MINIMAL INVASIVE PLATING AND INTRAMEDULLARY TREATMENTA COMPARISON OF THE PCCP, PFN AND THE PFNA.” Orthopaedic Proceedings, 94-B(SUPP_XXXVII), pp. 213-213. Available at: https://doi.org/10.1302/1358-992X.94BSUPP_XXXVII.EFORT2011-213

Knobe, Matthias, Richard Sellei, Philipp Kobbe, Philipp Lichte, Roman Pfeifer, Saskia Mooij, Raouff Aliyev, Ralf Muenker, and Hans Christoph Pape. “UNSTABLE TROCHANTERIC FEMORAL FRACTURES. COMPLICATIONS, FRACTURE DYNAMICS, AND OUTCOME AFTER LOCKED MINIMAL INVASIVE PLATING AND INTRAMEDULLARY TREATMENTA COMPARISON OF THE PCCP, PFN AND THE PFNA.” Orthopaedic Proceedings 94-B, no. SUPP_XXXVII (2012): 213-213. https://doi.org/10.1302/1358-992X.94BSUPP_XXXVII.EFORT2011-213

Knobe M, Sellei R, Kobbe P, Lichte P, Pfeifer R, Mooij S, et al. UNSTABLE TROCHANTERIC FEMORAL FRACTURES. COMPLICATIONS, FRACTURE DYNAMICS, AND OUTCOME AFTER LOCKED MINIMAL INVASIVE PLATING AND INTRAMEDULLARY TREATMENTA COMPARISON OF THE PCCP, PFN AND THE PFNA. Orthop Procs. 2012 Sep 1;94-B(SUPP_XXXVII):213-213. https://doi.org/10.1302/1358-992X.94BSUPP_XXXVII.EFORT2011-213

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Abstract

Introduction

Unstable intertrochanteric hip fractures (AO 31A2) continue to be a challenge, as non-locking implants have shown a considerable rate of loss of reduction. Intramedullary fixation has been recommended, although screw cut-out has been identified as problematic. This study was performed to ascertain whether treatments with the established proximal femoral nail (PFN) and the newer PFNA with blade design (proximal femoral nail antirotation) have advantages over the use of the Percutaneous Compression Plate (PCCP, developed by Gotfried).

Methods

Cohort study. Between March 2003 and March 2008, 134 patients with unstable fractures were treated with a PCCP, (n=44, 78.3 yrs, ASA 2.8), a PFN (n=50, 77.2 yrs, ASA 2.8), or a PFNA (n=40, 75.8 yrs, ASA 2.6). The patients (31 PCCP, 33 PFN, 30 PFNA) were then reexamined clinically and radiologically after approximately 21 months.

Results

The PCCP was found to require less implantation time than the PFN and the PFNA (60 vs. 80 vs. 84 min, p<0.001) and less radiation exposition time (PCCP 139 vs. PFN 283 vs. PFNA 188 seconds, p<0.001). The rate of reoperations due to wound infections and hematomas amounted to 2% for the PCCP, 4% for the PFN, and 5% for the PFNA (p=0.799). Due to mechanical complications, 9% of patients implanted with a PCCP, 13% of those implanted with a PFN, and 5% of those implanted with a PFNA had to be reoperated (p=0.353). The cut-out rate was 2% after implantation of the PCCP, 4% after the PFN, and 5% after implantation of the PFNA (p=0.799). In one case, the shaft was fractured intraoperatively (PFNA). The tip-apex distance for the lower femoral neck screw (PCCP 22mm vs. PFN 30mm vs. PFNA 30mm, p<0.001), stress-related varisation of the collodiaphyseal (CCD) angle (4° for all implants), impaction (PCCP 5mm vs. PFN 5mm vs. PFNA 6mm, p=0.662) and femoral shortening (PCCP 3mm vs. PFN 3mm vs. PFNA 4mm, p=0.876) were not determinants of the postoperative function. On the basis of their scores according to Merle d'Aubigné and Harris, there was no variation in the results of the follow-up examinations.

Conclusions

The use of the PCCP for the treatment of unstable trochanteric fractures presents a minimally invasive method of implantation, as well as a promising therapy option with regards to operation time, radiologic examination time, and rate of complications. Processes of impaction due to stress are seldom observed. No benefits could be established in an intramedullary treatment with the PFN or the PFNA; thus, it appears that the higher cost of these implants is avoidable.

Figure 1

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UNSTABLE TROCHANTERIC FEMORAL FRACTURES. COMPLICATIONS, FRACTURE DYNAMICS, AND OUTCOME AFTER LOCKED MINIMAL INVASIVE PLATING AND INTRAMEDULLARY TREATMENTA COMPARISON OF THE PCCP, PFN AND THE PFNA

European Federation of National Associations of Orthopaedics and Traumatology (EFORT) - 12th Congress

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