Biomechanical effect of the configuration of screw hole style on locking plate fixation in proximal humerus fracture with a simulated gap: A finite element analysis.

BACKGROUND Locking plate fixation for proximal humeral fractures is a commonly used device. Recently, plate breakages were continuously reported that the implants all have a mixture of holes allowing placement of both locking and non-locking screws (so-called combi plates). In commercialized proximal humeral plates, there still are two screw hole styles included "locking and dynamic holes separated" and "locking hole only" configurations. It is important to understand the biomechanical effect of different screw hole style on the stress distribution in bone plate. METHODS Finite element method was employed to conduct a computational investigation. Three proximal humeral plate models with different screw hole configurations were reconstructed depended upon an identical commercialized implant. A three-dimensional model of a humerus was created using process of thresholding based on the grayscale values of the CT scanning of an intact humerus. A "virtual" subcapital osteotomy was performed. Simulations were performed under an increasing axial load. The von Mises stresses around the screw holes of the plate shaft, the construct stiffness and the directional displacement within the fracture gap were calculated for comparison. RESULTS The mean value of the peak von Mises stresses around the screw holes in the plate shaft was the highest for combi hole design while it was smallest for the locking and dynamic holes separated design. The stiffness of the plate-bone construct was 15% higher in the locking screw only design (132.6N/mm) compared with the combi design (115.0N/mm), and it was 4% higher than the combi design for the locking and dynamic holes separated design (119.5N/mm). The displacement within the fracture gap was greatest in the combi hole design, whereas it was smallest for the locking hole only design. CONCLUSIONS The computed results provide a possible explanation for the breakages of combi plates revealed in clinical reports. The locking and dynamic holes separated design may be a better configuration to reduce the risk of plate fracture.

[1]  P. Biberthaler,et al.  Die winkelstabile Osteosynthese am proximalen Humerus mit der PHILOS-Platte , 2006, Der Unfallchirurg.

[2]  W Mutschler,et al.  [Treatment of proximal humeral fractures with the PHILOS angular stable plate. Presentation of 225 cases of dislocated fractures]. , 2006, Der Unfallchirurg.

[3]  K Püschel,et al.  Locked vs. unlocked plate osteosynthesis of the proximal humerus - a biomechanical study. , 2007, Clinical biomechanics.

[4]  K. An,et al.  The number of screws, bone quality, and friction coefficient affect acetabular cup stability. , 2007, Medical engineering & physics.

[5]  M. Plecko,et al.  Die winkelstabile Plattenosteosynthese bei Frakturen am proximalen Humerus mit der LPHP (Locking Proximal Humerus Plate) , 2005, Operative Orthopädie und Traumatologie.

[6]  L. Claes,et al.  The effect of mechanical stability on local vascularization and tissue differentiation in callus healing , 2002, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[7]  A. Amis,et al.  Failure of humeral fracture fixation plate in a young patient using the Philos system: case report. , 2006, Journal of shoulder and elbow surgery.

[8]  R. Lopez-Ben,et al.  Pathological fractures of the proximal humerus treated with a proximal humeral locking plate and bone cement. , 2010, The Journal of bone and joint surgery. British volume.

[9]  H. Lill,et al.  [The angle stable locking-proximal-humerus-plate (LPHP) for proximal humeral fractures using a small anterior-lateral-deltoid-splitting-approach - technique and first results]. , 2004, Zentralblatt fur Chirurgie.

[10]  Henry Ahn,et al.  Biomechanical Analysis of Plate Osteosynthesis Systems for Proximal Humerus Fractures , 2008, Journal of orthopaedic trauma.

[11]  K. Schwieger,et al.  Biomechanical evaluation of a new fixation technique for internal fixation of three-part proximal humerus fractures in a novel cadaveric model. , 2010, Clinical biomechanics.

[12]  P. Messmer,et al.  Internal fixation of unstable proximal humerus fractures with an anatomically preshaped interlocking plate: a clinical and radiologic evaluation. , 2007, The Journal of trauma.

[13]  D. Rouleau,et al.  Percutaneous Humeral Plating of Fractures of the Proximal Humerus: Results of a Prospective Multicenter Clinical Trial , 2008, Journal of orthopaedic trauma.

[14]  M. Gardner,et al.  Failure of Fracture Plate Fixation , 2009, The Journal of the American Academy of Orthopaedic Surgeons.

[15]  G. Athwal,et al.  Open reduction and internal fixation of proximal humerus fractures. , 2008, The Orthopedic clinics of North America.

[16]  M. Gardner,et al.  Hybrid locked plating of osteoporotic fractures of the humerus. , 2006, The Journal of bone and joint surgery. American volume.

[17]  Lutz Claes,et al.  Shear movement at the fracture site delays healing in a diaphyseal fracture model , 2003, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[18]  M. Plecko,et al.  Internal fixation of proximal humerus fractures using the locking proximal humerus plate. , 2005, Operative Orthopadie und Traumatologie.

[19]  Swee Hin Teoh,et al.  Fatigue of biomaterials: a review , 2000 .

[20]  Philip F Stahel,et al.  Locking plates: tips and tricks. , 2007, The Journal of bone and joint surgery. American volume.

[21]  P. McGarry,et al.  Investigation of metallic and carbon fibre PEEK fracture fixation devices for three-part proximal humeral fractures. , 2013, Medical engineering & physics.

[22]  Florian Fankhauser,et al.  A New Locking Plate for Unstable Fractures of the Proximal Humerus , 2005, Clinical orthopaedics and related research.

[23]  Walter D. Pilkey Peterson's Stress Concentration Factors , 1997 .

[24]  Laurent Audigé,et al.  Open Reduction and Internal Fixation of Proximal Humerus Fractures Using a Proximal Humeral Locked Plate: A Prospective Multicenter Analysis , 2009, Journal of orthopaedic trauma.