A biomechanical matched-pair comparison of two different locking plates for tibial diaphyseal comminuted fracture: carbon fiber-reinforced poly-ether-ether-ketone (CF-PEEK) versus titanium plates

Zhou, Kaihua; He, Xi; Tao, Xin; Pan, Fugen; Yang, Huilin

doi:10.1186/s13018-020-02096-5

Cited by 7 publications

(6 citation statements)

References 43 publications

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“…In recruiting to a trial fears regarding durability could be allayed with current biomechanical evidence suggesting that carbon plates have peak failure energies and lower rates of permanent deformation compared to stainless steel implants [ 13 ]. Compared to titanium implants, carbon implants have again been demonstrated to have similar strength in axial, bending and torsional deformation; though with lower stiffness [ 14 ]. The Young’s modulus of CFR-PEEK implants can be modulated through alteration of the carbon fibre and is actually closer to that of cortical bone when compared to titanium or steel implants [ 15 ].…”

Section: Discussionmentioning

confidence: 99%

Patient perspective on the use of carbon fibre plates for extremity fracture fixation

Giannoudis

Rodham

Antypas

et al. 2023

Eur J Orthop Surg Traumatol

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Introduction Carbon fibre-reinforced polyetheretherketone (CFR-PEEK) plates represent an exciting development within trauma and orthopaedic surgery, offering advantages including radiolucency, material properties similar to bone, and lack of localised tissue reaction. As more call for trials examining their use, there is no data available as to the acceptability of these implants to patients. This study aimed to therefore examine the acceptability of CFR-PEEK plates to patients undergoing fracture surgery. Methods This was a prospective cross-sectional survey of patients undergoing surgery for a fracture of the ankle, distal femur, distal radius, or proximal humerus. Once a decision had been made to pursue operative fixation with a plate, patients were provided with descriptions of both CFR-PEEK and stainless steel and titanium metal implants alongside the current clinical evidence. All patients undertook a questionnaire examining their views as to the advantages and disadvantages of CFR-PEEK plates, and whether they would be happy to participate in a trial comparing both. Results Ninety-nine patients were happy to participate (64 females, mean age 50). Eighty-seven patients reported that they would want a CFR-PEEK implant for their fracture, and 76 reported that they would be willing to participate in an RCT comparing their use. Commonly reported advantages included radiolucency, low weight and biocompatibility. Disadvantages reported included cost and concerns regarding durability. Conclusions This study demonstrates that CFR-PEEK implants would be acceptable to patients undergoing fracture surgery, with high numbers of patients stating that they would be willing to participate in a randomised study examining their use.

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Section: Discussionmentioning

confidence: 99%

Patient perspective on the use of carbon fibre plates for extremity fracture fixation

Giannoudis

Rodham

Antypas

et al. 2023

Eur J Orthop Surg Traumatol

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“…A titanium alloy plate and a PEEK plate were fixed to a pre-manufactured sawbones tibia (#3401, Sawbones, Pacific Research Laboratories, Inc., Vashon, WA, USA) using six locking screws. Similar to the previous experiment, a 10-millimeter fracture gap was created in the tibial diaphysis under comminuted fracture conditions [ 28 , 29 ]. Two holes in the middle, which were close to the fracture gap, were emptied, and locking screws were fastened to the remaining six holes using a torque driver with a force of 4 N-m.…”

Section: Methodsmentioning

confidence: 97%

“…The titanium alloy plate and the 3D-printed PEEK plate were fixed under comminuted fracture conditions to examine the mechanical properties of the commercial titanium alloy LCP and the 3D-printed PEEK LCP under tibial non-osteoporotic comminuted diaphyseal fracture conditions, which was similar to the conditions of previous studies. Next, the results of bending, axial compression, and axial torsion tests were obtained [ 27 , 28 ]. Locking screws, which were provided by a commercial LCP manufacturer, were used to fix the LCP to the sawbone tibia.…”

Section: Methodsmentioning

confidence: 99%

Feasibility of 3D-Printed Locking Compression Plates with Polyether Ether Ketone (PEEK) in Tibial Comminuted Diaphyseal Fractures

et al. 2023

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The applicability of a polyether ether ketone locking compression plate (PEEK LCP) fabricated using FDM (fused deposition modeling)-based 3D printing to treat actual patients was studied. Three different tests—bending, axial compression, and axial torsion—were conducted on tibial non-osteoporotic comminuted diaphyseal fracture samples fixed with the commercial titanium alloy LCP and 3D-printed PEEK LCP. Comparing the outcomes of these tests revealed that the commercial titanium alloy LCP underwent plastic deformation in the bending and axial torsion tests, though the LCP did not fail even when an external force greater than the maximum allowable load of the tibia fixture of the LCP was applied. Elastic deformation occurred in the 3D-printed PEEK LCP in the bending and axial torsion tests. However, deformation occurred even under a small external force, and its stiffness was 10% compared to commercial titanium alloy LCP. Thus, 3D-printed PEEK LCP can be applied to the fracture conditions in non-weight-bearing regions. The experimental results reveal detailed insights into the treatment of actual patients by considering the stiffness and high toughness of 3D-printed PEEK LCP.

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“…The elastic modulus of CF-PEEK is closer to cortical bone, and its stiffness and strength are significantly improved. Bone screws and fracture plates have been made from CF-PEEK, which can firmly support the fractures without losing the original advantages of PEEK [29]. Additionally, CF-PEEK can also be used as the spinal substitute and joint replacement material in clinical practice and implanted permanently in vivo [23,[30][31][32].…”

Section: Injection Moldingmentioning

confidence: 99%

Modification of polyether ether ketone for the repairing of bone defects

Chen

Cao

et al. 2022

Biomed. Mater.

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Bone damage as a consequence of disease or trauma is a common global occurrence. For bone damage treatment - bone implant materials are necessary across three classifications of surgical intervention (i.e. fixation, repair, and replacement). Many types of bone implant materials have been developed to meet the requirements of bone repair. Among them, polyether ether ketone (PEEK) has been considered as one of the next generation of bone implant materials, owing to its advantages related to good biocompatibility, chemical stability, X-ray permeability, elastic modulus comparable to natural bone, as well as the ease of processing and modification. However, as PEEK is a naturally bioinert material, some modification is needed to improve its integration with adjacent bones after implantation. Therefore, it has become a very hot topic of biomaterials research and various strategies for the modification of PEEK including blending, 3D printing, coating, chemical modification and the introduction of bioactive and/or antibacterial substances have been proposed. In this systematic review, the recent advances in modification of PEEK and its application prospect as bone implants are summarized, and the remaining challenges are also discussed.

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A biomechanical matched-pair comparison of two different locking plates for tibial diaphyseal comminuted fracture: carbon fiber-reinforced poly-ether-ether-ketone (CF-PEEK) versus titanium plates

Cited by 7 publications

References 43 publications

Patient perspective on the use of carbon fibre plates for extremity fracture fixation

Patient perspective on the use of carbon fibre plates for extremity fracture fixation

Feasibility of 3D-Printed Locking Compression Plates with Polyether Ether Ketone (PEEK) in Tibial Comminuted Diaphyseal Fractures

Modification of polyether ether ketone for the repairing of bone defects

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