Abstract
T-cells, second only to macrophages, are often considered as the potential cells involved in debris-related failure of arthroplasty. Here, we assessed the effects of particulate wear debris on T-cells and inflammatory reactions. Blood samples from 25 donors were incubated with polyether-ether-ketone (PEEK) and cobalt-chromium-molybdenum (CoCrMo) particles generated by custom cryo-milling and pulverization. The T-cell phenotypes were assessed using immunostaining and flow cytometry. For the in vivo study, 0.1 mL of each particle suspension (approximately 1.0 × 108 wear particles) was injected into murine knee joints; the synovium and spleen were collected one week after the operation for histological examination and immunofluorescence staining. The T-cell responses observed included low-level activation of Th1, Th2, Th17, and CD8+ pathways after 72 h of co-culture of the particles with peripheral blood mononuclear cells. Obvious CD8+ T-cell responses were observed in local synovium and peripheral spleen, with higher inflammatory cytokine expression in the CoCrMo group. Relatively minor cytotoxic and immunological reactions were observed in vitro, with PEEK and CoCrMo particle-induced immune responses being primarily mediated by CD8+ T-cells, rather than CD4+ T-cells, in vivo. Overall, PEEK wear particles induced fewer inflammatory reactions than CoCrMo particles. This study verified that PEEK was suitable as a potential alternative for metals in total knee replacements in terms of the immunological reaction to PEEK particles, and shed light on the effects of wear particles from polymer and metal-based implants on immune responses.
Highlights
Total joint arthroplasty is an established surgical technique that has been successfully used to relieve pain and improve the movement and quality of life of patients with severe joint diseases [1]
Blood samples from 25 donors were incubated with polyether-ether-ketone (PEEK) and cobalt-chromiummolybdenum (CoCrMo) particles generated by custom cryo-milling and pulverization
We investigated the effects of two kinds of wear particles on cytotoxic and immunological reactions
Summary
Total joint arthroplasty is an established surgical technique that has been successfully used to relieve pain and improve the movement and quality of life of patients with severe joint diseases [1]. Total knee replacement (TKR) surgeries are performed worldwide, with excellent results. Artificial knee joints are comprised of cobalt-chromium-molybdenum (CoCrMo) alloys with femoral components articulated using polyethylene (PE) on the tibial surface [2]. Kretzer et al [3] highlights that the majority of wear arises at the sites of polyethylene, clinically significant amounts of metal wear occur. CoCrMo and other metal alloys used in knee components have some further drawbacks. There are concerns regarding potential metal ion release and subsequent osteolysis or allergenicity [4, 5]. Metals used for implantation have a large elastic modulus (approximately 6–20 times greater than that of the surrounding bone) [5,6,7,8], causing impaired load force transmission at the implant-tissue interface, stress shielding, and peri-implant bone resorption [5, 9]
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