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The Bone & Joint Journal
Vol. 97-B, Issue 7 | Pages 917 - 923
1 Jul 2015
Singh G Nuechtern JV Meyer H Fiedler GM Awiszus F Junk-Jantsch S Bruegel M Pflueger G Lohmann CH

The peri-prosthetic tissue response to wear debris is complex and influenced by various factors including the size, area and number of particles. We hypothesised that the ‘biologically active area’ of all metal wear particles may predict the type of peri-prosthetic tissue response. . Peri-prosthetic tissue was sampled from 21 patients undergoing revision of a small diameter metal-on-metal (MoM) total hip arthroplasty (THA) for aseptic loosening. An enzymatic protocol was used for tissue digestion and scanning electron microscope was used to characterise particles. Equivalent circle diameters and particle areas were calculated. Histomorphometric analyses were performed on all tissue specimens. Aspirates of synovial fluid were collected for analysis of the cytokine profile analysis, and compared with a control group of patients undergoing primary THA (n = 11) and revision of a failed ceramic-on-polyethylene arthroplasty (n = 6). . The overall distribution of the size and area of the particles in both lymphocyte and non-lymphocyte-dominated responses were similar; however, the subgroup with lymphocyte-dominated peri-prosthetic tissue responses had a significantly larger total number of particles. . 14 cytokines (interleukin (IL)-1ß, IL-2, IL-4, IL-5, IL-6, IL-10, IL-13, IL-17, interferon (IFN)-γ, and IFN-gamma-inducible protein 10), chemokines (macrophage inflammatory protein (MIP)-1α and MIP-1ß), and growth factors (granulocyte macrophage colony stimulating factor (GM-CSF) and platelet derived growth factor) were detected at significantly higher levels in patients with metal wear debris compared with the control group. . Significantly higher levels for IL-1ß, IL-5, IL-10 and GM-CSF were found in the subgroup of tissues from failed MoM THAs with a lymphocyte-dominated peri-prosthetic response compared with those without this response. . These results suggest that the ‘biologically active area’ predicts the type of peri-prosthetic tissue response. The cytokines IL-1ß, IL-5, IL-10, and GM-CSF are associated with lymphocyte-dominated tissue responses from failed small-diameter MoM THA. Cite this article: Bone Joint J 2015;97-B:917–23


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_3 | Pages 103 - 103
1 Jan 2016
Omata S Sawae Y Murakami T
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It is reported that more than 10 million Japanese suffer from arthrosis. To cure these cartilage defects, total joint replacements, which are the most popular treatment methods for severe disease situation, have been operated as about two hundred thousand cases a year in Japan. Although the implants made of either ceramics, metals or plastics have high wear resistance quality, it becomes apparent that the endurance life of the artificial joints in considerable cases is limited by aseptic loosening to between 10–15 years. Here we focused on a poly(vinyl alcohol) (PVA) hydrogel as an artificial cartilage tissue to make an improvement of friction surface of the artificial joints. In this paper, we observed morphology of wear particles and assessed immune responses of wear particles from the hydrogel for confirming the validity of the gel as a biotribological material. We prepared 20 w/w% of PVA hydrogel by repeated freezing-thawing method. The number of the freezing-thawing cycles was five times. Polymerization degree and saponification degree of PVA (Kishida Chemical Co. Ltd., Japan) were 2000 and 98.4–99.8 mol%, respectively. To collect the wear particles of PVA hydrogel, we processed wear testing by using a purpose-build wear test machine of reciprocating pin-on-plate tribometer as shown in figure 1. We installed a Co-Cr-Mo ball of 26 mm in diameter as a stationary upper specimen and a PVA hydrogel plate of 2 mm in thickness as reciprocating lower specimen in a water bath. The lubricant was a distilled water containing eluted PVA which PVA-FT gel had been soaked in, filtered by 0.22 μm and autoclaved, subsequently. Siding speed was 50 mm/s and the total sliding distance was 3 km. We observed the wear particles which had been dried in a desiccator, by scanning electron microscope (SEM; SU8000, Hitachi High-Technologies). Additionally, to investigate the effect of the wear particles on response of phagocytosis of macrophages, here we used THP-1 cell line from Human acute monocytic leukemia as a macrophage, which was purchased from JCRB Cell Bank, and attached the macrophages on a dish after stimulating THP-1 by phorbol 12-myristate 13-acetate (PMA; Wako). After the wear test, we harvested the lubricant in aseptic clean hood and applied the particles to the macrophages to clarify the effect of wear particles of PVA hydrogel on immune response of the cell. To assess cytokine biosynthesis as immune responses, we assayed IL-1β and TNF-α biosynthesis in culture medium by ELISA (Thermo scientific), respectively. Figure 2 shows an SEM image of PVA hydrogel after wear test under 4.9 N loading. We observed the wear particles of varied sizes. When applying the wear particles to the macrophages in RPMI-1640 supplement with 10 v/v% fetal bovine serum, it seemed that there were not enough change on cytokine synthesis in culture medium between with/without the particles


The Bone & Joint Journal
Vol. 102-B, Issue 11 | Pages 1527 - 1534
3 Nov 2020
Orita K Minoda Y Sugama R Ohta Y Ueyama H Takemura S Nakamura H

Aims. Vitamin E-infused highly cross-linked polyethylene (E1) has recently been introduced in total knee arthroplasty (TKA). An in vitro wear simulator study showed that E1 reduced polyethylene wear. However there is no published information regarding in vivo wear. Previous reports suggest that newly introduced materials which reduce in vitro polyethylene wear do not necessarily reduce in vivo polyethylene wear. To assist in the evaluation of the newly introduced material before widespread use, we established an in vivo polyethylene wear particle analysis for TKA. The aim of this study was to compare in vivo polyethylene wear particle generation between E1 and conventional polyethylene (ArCom) in TKA. Methods. A total of 34 knees undergoing TKA (17 each with ArCom or E1) were investigated. Except for the polyethylene insert material, the prostheses used for both groups were identical. Synovial fluid was obtained at a mean of 3.4 years (SD 1.3) postoperatively. The in vivo polyethylene wear particles were isolated from the synovial fluid using a previously validated method and examined by scanning electron microscopy. Results. The total number of polyethylene wear particles obtained from the knees with E1 (mean 6.9, SD 4.0 × 10. 7. counts/knee) was greater than that obtained from those with ArCom (mean 2.2, SD 2.6 × 10. 7. counts/knee) (p = 0.001). The particle size (equivalent circle of diameter) from the knees with E1 was smaller (mean 0.5 μm, SD 0.1) than that of knees with ArCom (mean 1.5, SD 0.3 μm) (p = 0.001). The aspect ratio of particles from the knees with E1 (mean 1.3, SD 0.1) was smaller than that with ArCom (mean 1.4, SD 0.1) (p < 0.001 ). Conclusion. This is the first report of in vivo wear particle analysis of E1. E1 polyethylene did not reduce the number of in vivo polyethylene wear particles compared with ArCom in early clinical stage. Further careful follow-up of newly introduced E1 for TKA should be carried out. Cite this article: Bone Joint J 2020;102-B(11):1527–1534


The Journal of Bone & Joint Surgery British Volume
Vol. 84-B, Issue 1 | Pages 128 - 136
1 Jan 2002
Böhler M Kanz F Schwarz B Steffan I Walter A Plenk H Knahr K

We revised seven alumina-blasted cementless hip prostheses (Ti-alloy stems, cp Ti threaded sockets) with low- or high-carbon Co-alloy bearings at a mean of 20.1 months after implantation because of pain and loosening. Histological examination of the retrieved periprosthetic tissues from two cases in which the implant was stable and three in which the socket was loose showed macrophages with basophilic granules containing metal and alumina wear particles and lymph-cell infiltrates. In one of the two cases of stem loosening the thickened neocapsule also contained definite lymphatic follicles and gross lymphocyte/plasma-cell infiltrates. Spectrometric determination of the concentration of elements in periprosthetic tissues from six cases was compared with that of joint capsules from five control patients undergoing primary hip surgery. In the revisions the mean concentration of implant-relevant elements was 693.85 μg/g dry tissue. In addition to Cr (15.2%), Co (4.3%), and Ti (10.3%), Al was predominant (68.1%) and all concentrations were significantly higher (p < 0.001) than those in the control tissues. The annual rates of linear wear were calculated for six implants. The mean value was 11.1 μm (heads 6.25 μm, inserts 4.82 μm). SEM/EDXA showed numerous fine scratches and deep furrows containing alumina particles in loosened sockets, and stems showed contamination with adhering or impacted alumina particles of between 2 and 50 μm in size


Bone & Joint Research
Vol. 5, Issue 9 | Pages 370 - 378
1 Sep 2016
Munir S Oliver RA Zicat B Walter WL Walter WK Walsh WR

Objectives. This study aimed to characterise and qualitatively grade the severity of the corrosion particles released into the hip joint following taper corrosion. Methods. The 26 cases examined were CoC/ABG Modular (n = 13) and ASR/SROM (n = 13). Blood serum metal ion levels were collected before and after revision surgery. The haematoxylin and eosin tissue sections were graded on the presence of fibrin exudates, necrosis, inflammatory cells and corrosion products. The corrosion products were identified based on visible observation and graded on abundance. Two independent observers blinded to the clinical patient findings scored all cases. Elemental analysis was performed on corrosion products within tissue sections. X-Ray diffraction was used to identify crystalline structures present in taper debris. Results. The CoC/ABG Modular patients had a mean age of 64.6 years (49.4 to 76.5) and ASR/SROM patients had a mean age of 58.2 years (33.3 to 85.6). The mean time in situ for CoC/ABG was 4.9 years (2 to 6.4) and ASR/SROM was 6.1 years (2.5 to 8.1). The blood serum metal ion concentrations reduced following revision surgery with the exception of Cr levels within CoC/ABG. The grading of tissue sections showed that the macrophage response and metal debris were significantly higher for the ASR/SROM patients (p < 0.001). The brown/red particles were significantly higher for ASR/SROM (p < 0.001). The taper debris contained traces of titanium oxide, chromium oxide and aluminium nitride. Conclusion. This study characterised and qualitatively graded the severity of the corrosion particles released into the hip joint from tapers that had corrosion damage. Cite this article: S. Munir, R. A. Oliver, B. Zicat, W. L. Walter, W. K. Walter, W. R. Walsh. The histological and elemental characterisation of corrosion particles from taper junctions. Bone Joint Res 2016;5:370–378. DOI: 10.1302/2046-3758.59.2000507


The Journal of Bone & Joint Surgery British Volume
Vol. 87-B, Issue 8 | Pages 1157 - 1163
1 Aug 2005
Peter B Zambelli P Guicheux J Pioletti DP

In an attempt to increase the life of cementless prostheses, an hydroxyapatite-coated implant which releases a bisphosphonate has been suggested as a drug-delivery system. Our in vitro study was designed to determine the maximum dose to which osteoblasts could be safely exposed. Our findings demonstrated that zoledronate did not impair the proliferation of human osteoblasts when used at concentrations below 1 μ. m. Murine cells can be exposed to concentrations as high as 10 μ. m. . A concentration of 0.01% of titanium particles did not impair the proliferation of either cell line. Zoledronate affected the alkaline phosphatase activity of murine osteoblasts through a chelation phenomenon. The presence of titanium particles strongly decreased the alkaline phosphatase activity of murine osteoblasts. We did not detect any synergic effect of zoledronate and titanium particles on the behaviour of both human and murine osteoblasts


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XL | Pages 152 - 152
1 Sep 2012
Reinders J Sonntag R Nadorf J Bitsch R Rieger JS Kretzer JP
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Background. Polyethylene (PE) as a bearing material for total joint replacements (TJR) represents the golden standard for the past forty years. However, over the past decade it becomes apparent that PE wear and the biological response to wear products are the limiting factor for the longevity of TJRs. For this reason research has focused onto PE wear particle analysis. A particle analysis highly depends on the methodological work and results often show discrepancies between different research groups. From there, our hypothesis was, that an often unattended influencing factor is the optical magnification which has been used for particle analyses. Material and Methods. In the present study samples of a previous conducted knee wear simulator test were used. Wear particles were isolated from the bovine serum using an established method. 1. Briefly the serum was digested with hydrochloric acid and a continuous stirring and heating. Particles were filtered onto 20nm alumina filters and analyzed using high resolution field emission gun scanning electron microscopy (FEG-SEM). Filters were analyzed on the same points using three different magnifications: 5000, 15000 and 30000. To describe the size and morphology of the particles the equivalent circle diameter (ECD), aspect ratio (AR), roundness (R) and form factor (FF) were specified according to ASTM F 1877-05. The estimated total number (ETN) of particles was calculated based on the number of particles recovered on the filter, the analyzed area, the dilution, evaporation and the total serum volume. Results. The results showed significant differences between the different magnifications. Examples of the analyzed pictures are depicted in Fig. 1. The results are summarized in Tab. 1. In particular the size of the particles highly depends on the choosen optical magnification which becomes apparent in a more than twofold increase when comparing wear particles at magnification of 5k or 30k (p≤0.001). The mean particle diameter distribution (Fig. 2) also shows a shift in the distribution of wear particles: A higher magnification results in a higher fraction of smallest particles (e.g. over 50 percent between 0–0.2µm with magnification 30.000 compared to only 3 percent with a magnification of 5.000) and nearly no particles above 1µm could be verified. The results regarding the particle morphology show smaller but significant differences. The ETN of particles quadruplicates when comparing results with magnifications of 5.000 and 30.000. Conclusion. This study shows great differences in particle size, which can be directly attributed to the differences in optical magnification. According to ASTM F1877-05 a magnification of 10.000 for the analysis of wear particles between 0.1–1µm is recommended. However, results show that this magnification is not sufficient especially for particle sizes below 0.2µm, which account for the greatest number of particles. To the authors opinion a more detailed recommendation concerning the magnification is needed. Additional, a standardized evaluation system which takes the magnification into account is necessary to allow comparison of different research groups


The Journal of Bone & Joint Surgery British Volume
Vol. 90-B, Issue 8 | Pages 1106 - 1113
1 Aug 2008
Richards L Brown C Stone MH Fisher J Ingham E Tipper JL

Nanometre-sized particles of ultra-high molecular weight polyethylene have been identified in the lubricants retrieved from hip simulators. Tissue samples were taken from seven failed Charnley total hip replacements, digested using strong alkali and analysed using high-resolution field emission gun-scanning electron microscopy to determine whether nanometre-sized particles of polyethylene debris were generated in vivo. A randomised method of analysis was used to quantify and characterise all the polyethylene particles isolated. We isolated nanometre-sized particles from the retrieved tissue samples. The smallest identified was 30 nm and the majority were in the 0.1 μm to 0.99 μm size range. Particles in the 1.0 μm to 9.99 μm size range represented the highest proportion of the wear volume of the tissue samples, with 35% to 98% of the total wear volume comprised of particles of this size. The number of nanometre-sized particles isolated from the tissues accounted for only a small proportion of the total wear volume. Further work is required to assess the biological response to nanometre-sized polyethylene particles


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 153 - 153
1 Jul 2014
Song L Loving L Xia W Song Z Zacharias N Wooley P
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Summary Statement. Antioxidant containing UHMWPE particles induced similar levels of in vitro macrophage proliferation and in vivo inflammation in the mouse air pouch model as UHMWPE particles alone. Benefit of antioxidant in reducing wear particle induced inflammation requires further investigation. Introduction. Wear particles derived from UHMWPE implants can provoke inflammatory reaction and cause osteolysis in the bone, leading to aseptic implant loosening. Antioxidants have been incorporated into UHMWPE implants to improve their long term oxidative stability. However it is unclear if the anti-inflammatory property of the antioxidant could reduce UHMWPE particle induced inflammation. This study evaluated the effect of cyanidin and vitamin E on UHMWPE induced macrophage activation and mouse air pouch inflammation. Methods. Four types of UHMWPE were used: (1) compression molded (CM) conventional GUR1020 (PE); (2) CM GUR1020 blended with 300 ppm cyanidin (C-PE); (3) CM GUR1020 blended with 1000 ppm α-tocopherol (BE-PE); and (4) CM GUR1020, gamma irradiated at 100kGy, diffused with α-tocopherol, and sterilised at 30kGy (DE-PE). Particles were generated by cryomilling. Particle count, size, and aspect ratio were determined using SEM and Image Pro. Each particle group was cultured with RAW264.7 macrophage cells at four concentrations (0.625, 1.25, 2.5, and 5 μg/mL) in a standard medium for 4 days. Cell numbers were quantified using MTT assay. Cytokine expression (IL-1β, TNFα, and IL-6) was measured using RT-PCR and ELISA. Particles were also suspended in PBS at 2 concentrations (0.2 or 1 mg) and injected into subcutaneous air pouches in BALB/c mice. Control animals were injected with PBS alone. Six days post-injection air pouches were harvested, half of which were fixed for histology to measure membrane thickness and inflammatory cell quantity. Remaining air pouches were frozen and analyzed by ELISA for cytokine production. Data were analyzed using one-way ANOVA with post hoc testing. P<0.05 was considered significant. Results. All 4 materials showed similar particle characteristics after cryomilling. Particle size ranged from 1 to 19 μm with 33% of particle population smaller than 2 μm. All particle groups supported macrophage proliferation, showing an inverse correlation between proliferation rate and particle dose. Gene expression of IL-1β and TNFα also showed an inverse correlation with particle dose. Expression of IL-1β, TNFα, and IL-6 appeared lower in cells cultured with C-PE than the other 3 materials. The accumulative protein productions of IL-1β and TNFα were significantly lower while IL-6 production was moderately lower in C-PE, BE-PE and DE-PE when compared to PE. Injection of polyethylene particles increased the air pouch membrane thickness significantly compared to the PBS control in all particle types and doses. Higher particle dose induced thicker membrane in all 4 materials. A similar trend was also observed in the percentage of inflammatory cell infiltration in the pouch membrane. C-PE and DE-PE particles at low dose and C-PE particles at high dose induced lower levels of IL-1β and TNFα than PE. IL-6 production was similar between PE and other 3 groups. Discussion/Conclusion. Antioxidant incorporated in UHMWPE did not alter the level of macrophage proliferation and air pouch inflammation induced by UHMWPE particles, although it reduced cytokine gene expression. Future investigation in a synovial joint environment is desired to evaluate the chronic inflammation response to antioxidant containing UHMWPE wear particles and to verify the effect of antioxidant in UHMWPE properties


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_10 | Pages 98 - 98
1 May 2016
Utzschneider S Paulus A Hasselt S Jansson V Giurea A Neuhaus H Grupp T
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Introduction. The complex process of inflammation and osteolysis due to wear particles still is not understood in detail. So far, Ultra-high-molecular-weight-polyethylene (UHMWPE) is the bearing material of choice in knee arthroplasty and revision knee arthroplasty, but there is a growing demand for alternative bearing materials with improved wear properties. Lately, increasing interest developed in the use of natural and carbon-fiber-reinforced-poly-ether-ether-ketones (CFR-PEEK). While there is a lack of data concerning the effects of CFR-PEEK particles on human tissue, the effects of such wear debris in vitro and in animal studies is controversially discussed. The aim of this study was to analyze human tissue containing CFR-PEEK as well as UHMWPE wear debris. The authors hypothesized no difference between the used biomaterials because of similar size parameters of the wear particles in a prior knee simulator study of this implant. Methods and Materials. Synovial tissue samples of 10 patients while knee revision surgery of a rotating hinge knee implant design (Enduro®, Aesculap, Germany) were achieved. The tibial inserts of this design were made from UHMWPE (GUR 1020), whereas the bushings and flanges are made of CFR-PEEK containing 30% polyacrylonitrile (PAN) based carbon fibers (PEEK-Optima LT1, Invibio Ltd. Thornton-Cleveleys, UK). In a prior in vitro test most of the released CFR-PEEK particles were in a size range between 0.1 and 2μm. The implant survival until revision surgery was 22 (2.5–48 min.-max.) months. As a control synovial tissue out of a patient also got knee revision surgery without any PEEK components. The tissue was fixed with 4% paraformaldehyde, embedded in paraffin, sliced into 2 µm thick sections. stained with hematoxylin and eosin in a standard process. A modified panoptical staining (preincubation in propylenglycol; >3h; 35°C) was also done which stained the UHMWPE particles turquoise. The study was approved by the ethics committee of the local university. Results. Overall, histologically a “wear-type” reaction was seen in the testing and the control group similar as described for other materials in the common literature. In all samples of the testing group the UHMWPE particles were scattered in the tissue similar to the control. Larger UHWMPE particles were incorporated in giant cells. In contrast to these findings, CFR-PEEK particles were not scattered in tissue but located only as conglomerates. In addition, these conglomerates have been found exclusively near to or in vessels. Furthermore, CFR-PEEK particles were collected in macrophages, no CFR-PEEK particles were seen in giant cells. In conclusion, the hypothesis has to be rejected. Interestingely, different behaviour of UHMWPE and PEEK particles has been found in human synovial tissue. This aspect needs further investigation concerning the cytokine expression and also the surface texture of particles. Acknowledgement. This study was supported by Aesculap, Germany


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_2 | Pages 82 - 82
1 Jan 2017
Dozza B Lesci I Della Bella E Martini L Fini M Lucarelli E Donati D
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Demineralized bone matrix (DBM) is a natural, collagen-based, well-established osteoinductive biomaterial. Nevertheless, there are conflicting reports on the efficacy of this product. The purpose of this study was to evaluate whether DBM collagen structure is affected by particle size and can influence DBM osteoinductivity. Sheep cortical bone was ground and particles were divided in three fractions with different sizes, defined as large (L, 1–2 mm), medium (M, 0.5–1 mm), and small (S, < 0.5 mm). After demineralization, the three DBM samples were characterized by DTA analysis, XRD, ICP-OES, and FTIR. Data clearly showed a particle size-dependent alteration in collagen structure, with DBM-M being altered but not as much as DBM-S. The in vivo study showed that only DBM-M was able to induce new bone formation in a subcutaneous ectopic mouse model. When sheep MSC were seeded onto DBM particles before implantation, all DBM particles were able to induce new bone formation with the best incidence for DBM-M and DBM-S. Gene expression analysis performed on recovered implants supports the histological results and underlines the supportive role of MSC in DBM osteoinduction through the regulation of host cells. In conclusion, our results show a relation between DBM particle size, structural modification of the collagen and in vivo osteoinductivity. The medium particles represent a good compromise between no modification (largest particles) and excessive modification (smallest particles) of collagen structure, yielding highest osteoinduction. We believe that these results can guide researchers to use DBM particles of 0.5–1 mm size range in applications aimed at inducing new bone formation, obtaining results more comparable and reliable among different research groups. Furthermore, we suggest to carefully analyze the structure of the collagen when a collagen-based biomaterial is used alone or in association with cells to induce new bone formation


The Journal of Bone & Joint Surgery British Volume
Vol. 79-B, Issue 5 | Pages 849 - 856
1 Sep 1997
Wang W Ferguson DJP Quinn JMW Simpson AHRW Athanasou NA

Abundant implant-derived biomaterial wear particles are generated in aseptic loosening and are deposited in periprosthetic tissues in which they are phagocytosed by mononuclear and multinucleated macrophage-like cells. It has been stated that the multinucleated cells which contain wear particles are not bone-resorbing osteoclasts. To investigate the validity of this claim we isolated human osteoclasts from giant-cell tumours of bone and rat osteoclasts from long bones. These were cultured on glass coverslips and on cortical bone slices in the presence of particles of latex, PMMA and titanium. Osteoclast phagocytosis of these particle types was shown by light microscopy, energy-dispersive X-ray analysis and SEM. Giant cells containing phagocytosed particles were seen to be associated with the formation of resorption lacunae. Osteoclasts containing particles were also calcitonin-receptor-positive and showed an inhibitory response to calcitonin. Our findings demonstrate that osteoclasts are capable of phagocytosing particles of a wide range of size, including particles of polymeric and metallic bio-materials found in periprosthetic tissues, and that after particle phagocytosis, they remain fully functional, hormone-responsive, bone-resorbing cells


The Journal of Bone & Joint Surgery British Volume
Vol. 94-B, Issue 9 | Pages 1221 - 1227
1 Sep 2012
Kim Y Park J Kim J

Despite many claims of good wear properties following total knee replacement (TKR) with an oxidised zirconium (OxZr) femoral component, there are conflicting clinical results. We hypothesised that there would be no difference in either the mid-term clinical and radiological outcomes or the characteristics of the polyethylene wear particles (weight, size and shape) in patients using an OxZr or cobalt-chrome (CoCr) femoral component. In all 331 patients underwent bilateral TKR, receiving an OxZr femoral component in one knee and a CoCr femoral component in the other. The mean follow-up was 7.5 years (6 to 8). Following aspiration, polyethylene wear particles were analysed using thermogravimetric methods and scanning electron microscopy. At the most recent follow-up, the mean Knee Society score, Western Ontario and McMaster Universities Osteoarthritis Index score, range of movement and satisfaction score were not significantly different in the two groups. The mean weight, size, aspect ratio and roundness of the aspirated wear particles were similar for each femoral component. Survivorship of the femoral, tibial and patellar components was 100% in both groups. In the absence of evidence of an advantage in the medium term we cannot justify the additional expense of an OxZr femoral component.


The Journal of Bone & Joint Surgery British Volume
Vol. 89-B, Issue 12 | Pages 1655 - 1659
1 Dec 2007
Anwar HA Aldam CH Visuvanathan S Hart AJ

The biological significance of cobalt-chromium wear particles from metal-on-metal hip replacements may be different to the effects of the constituent metal ions in solution. Bacteria may be able to discriminate between particulate and ionic forms of these metals because of a transmembrane nickel/cobalt-permease. It is not known whether wear particles are bacteriocidal. We compared the doubling time of coagulase negative staphylococcus, Staphylococcus aureus and methicillin resistant S. aureus when cultured in either wear particles from a metal-on-metal hip simulator, wear particles from a metal-on-polyethylene hip simulator, metal ions in solution or a control. Doubling time halved in metal-on-metal (p = 0.003) and metal-on-polyethylene (p = 0.131) particulate debris compared with the control. Bacterial nickel/cobalt-transporters allow metal ions but not wear particles to cross bacterial membranes. This may be useful for testing the biological characteristics of different wear debris. This experiment also shows that metal-on-metal hip wear debris is not bacteriocidal


Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_I | Pages 101 - 101
1 Mar 2010
Kinbrum A Vasilliou K Lee SM Unsworth A
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The generation of particle debris from ultra high molecular weight polyethylene (UHMWPE) against metal hip joints has been shown to cause osteolysis leading to joint loosening in the medium term. This is known as late aseptic loosening since infection is absent. 1. . In an attempt to reduce the volume of wear debris, attention has moved to metal-on-metal prostheses as the total volume of wear debris is less. However, the size, shape and number of the particles are important as well as the total volume as these affect the biological response of the body leading to aseptic loosening. The Durham Mk I Hip Joint Simulator was used to generate CoCrMo wear particles in a series of tests. Four simulator tests took place in succession, initially 50 mm Birmingham hip replacements were tested where both the head and the cup were as-cast CoCrMo alloy. A second test was conducted where the components were 38 mm and both head and cup were as-cast CoCrMo. A third test using 50 mm components was completed where both head and cup were double heat treated CoCrMo alloy and a final test took place where both components were 50 mm the head was as-cast and the cup was as-cast which had been pre-worn to 5 million cycles. Bovine serum with a concentration of 17 g/l of protein was used as a lubricant and particles were sampled every half million cycles. The volumetric wear was also obtained gravimetrically. A double enzymatic protocol was used to cleave the proteins from the particles taking great care to minimise any effect on the particles. Finally the particles were suspended in distilled, de-ionised water to enable them to be analysed using a NanoSight LM10 particle analyser. This yielded the size distribution of the particles. This was then confirmed by placing an aliquot of the suspended particles onto a carbon coated copper grid and drying them under a lamp. These particles were then imaged in the TEM. Energy Dispersive X-ray analysis was also used to obtain the chemical composition of the particles. The results indicated a strong correlation between the gravimetric wear and the number of particles. All the as-cast CoCrMo alloy tests showed a consistent particle modal average size. The double heat treated particles were shown to be smaller, with occasional large flake like particulates which were identified under the TEM. This particle data correlates extremely well with previous data from simple material testing pin on plate experiments. Previous studies have used microscopy to investigate the size and morphology of the particulate debris. 2. , however these studies are limited due to the time taken to image the particles individually. This current method allows many more particles to be analysed, thus the data accumulated is more statistically significant and may be compared with the wear volumes calculated gravimetrically


INTRODUCTION. Loosening is concerned to be the major cause of revision in the artificial prosthesis. Wear debris of UHMWPE dispersed into the implant-bone interface are phagocytosed by macrophages releasing inflammatory cytokines such as TNF-α which leads to osteolysis and loosening eventually. It is known that the size and structure [1] as well as attached substances on particle surface such as endotoxin could affect the amount of cytokines released [2]. An in vivo study using rat femurs showed that the presence of polyethylene particles around implants could result in accumulation of lipopolysaccharide (LPS) from exogenous sources that may affect bone remodeling around implants [3]. It is also reported that LPS is transported throughout the body with lipoproteins or LPS binding proteins [4] and Circulating LPS may originate from local sites of infection or via bloodborne bacteria [5]. In this study, we evaluated the effects of LPS that attached to UHMWPE particle surface by measuring TNF-α released from macrophages. MATERIALS AND METHODS. We cultured mouse macrophage cell line RAW 264 with spherical UHMWPE particles (8.7µm and 23µm diameter in average, Mitsui chemicals Co., LTD.) and LDPE particles (3.6µm and 5.8µm diameter in average, Sumitomo Seika Chemicals Co., LTD.) using the Inverse Culture Method for 24 hours before estimating the TNF-α generation by TNF- ALPHA QUANTIKINE ELISA KIT (R&D). Spherical UHMWPE particles (10µm diameter in average, Mitsui chemicals Co., LTD.) with E.coli original LPS (Enzo Life Sciences) attached to them were incubated with cells to see the effects of LPS on the bio-reactivity tests. REAULTS AND DISCUSSIONS. Figure 1 shows the TNF-α concentration of different materials and sizes of polyethylene particles. TNF-α concentration was shown to be dose-dependent to the total surface area of particles added regardless of the materials and sizes. Figure 2 shows TNF-α concentration relative to the particle surface area inverse and non-inverse cultured. No significant difference was observed in TNF-α concentration between particles that were attached to LPS and virgin particles in non-inverse culture method. However, when cultured inversely, the effect of LPS became more significant in higher surface area range in which dose-dependent relationship was not observed. The results suggest that saturation may occur caused by size exclusion, production limitation, etc. However, LPS attached to particle surface may alter the production limitation due to increased presence of particles around macrophages. For any figures or tables, please contact the authors directly


The Journal of Bone & Joint Surgery British Volume
Vol. 72-B, Issue 6 | Pages 988 - 992
1 Nov 1990
Murray D Rushton N

We investigated in vitro a mechanism by which particulate debris may induce bone resorption and cause implant loosening. We first studied two standard particles: latex, which is considered to be inert, and zymosan, which is inflammatory. Macrophages that phagocytosed either particle became activated, and stimulated 15 times as much bone resorption as did control macrophages. For activation to occur, 100 times more latex than zymosan had to be phagocytosed. We also found that bone cement and polyethylene particles activated macrophages in a similar manner, and that the necessary amounts of these were intermediate between those of latex and zymosan. None of the particles were toxic. It was concluded that implant loosening may result from bone resorption stimulated by mediators released by macrophages that have phagocytosed particles of bone cement or polyethylene


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_3 | Pages 86 - 86
1 Jan 2016
Nishi N Chikaura H Kuwahata K Matsubara T Nakashima Y Nakanishi Y
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Today's aging society is seeing an increase of patients with rheumatoid arthritis and osteoarthritis, as well as an increase in joint replacement surgery. The artificial joints used in this surgery frequently uses ultra-high molecular weight polyethylene (UHMWPE) as a bearing material. However, UHMWPE wear particles are considered to be a major factor in long-term osteolysis, and implant loosening. Many researchers have reported that the volume and size of particles are critical factors in macrophage activation, with particles in the size range of 0.1 – 1.0 μm being the most biologically active. The micro slurry-jet erosion (MSE) apparatus was introduced to minimize the amount of wear, and increase the size of UHMWPE wear particles by texturing the surfaces of Co-Cr-Mo alloy implants. The MSE apparatus uses a slurry of alumina particles (WA#8000: average diameter 1.2 μm) mixed with water. The slurry and compressed air are mixed within an injection nozzle, which is then applied to the Co-Cr-Mo alloy at high speed to achieve a desired nano-textured surface. In this study, four Co-Cr-Mo alloy surface profiles were prepared. The MSE injection nozzle was fed 40.0 mm in alternating directions across each surface with an orthogonal step of 0.5 mm. The surface M-1 was processed with an injection nozzle feed rate of 1.0 mm/s, and obtained a surface roughness of 5.7 nm. M-2 was processed with a feed rate of 2.0 mm/s, and had a surface roughness of 2.3 nm. The M-4 surface used a 40.0 mm alternating directions surface feed, but with a 1.0 mm orthogonal step, and an injection nozzle feed rate of 0.5 mm/s. It obtained a surface roughness of 4.0 nm. The G-1 surface, with a roughness of 10.0 nm, was processed with the typical lapping method, which is used in conventional artificial joints [Fig. 1]. A pin-on-disk wear tester, capable of multidirectional motion, was used to assess which surface was the most appropriate for artificial joints. The UHMWPE pins were flat ended cylinders, 12.0 mm in diameter, and were placed on the disk with a contact pressure of 6.0 MPa. Tests were carried out in 25% (v/v) fetal calf serum with sodium azide to retard bacterial growth. A sliding speed of 12.1 mm/s, and a total sliding distance of 15.0 km were applied. The wear weight of the MSE textured surface M-1 was significantly lower than the wear weight of the conventional surface. Moreover, the percentages of various wear particle sizes obtained from MSE surface texturing was significantly different from those obtained from the traditional surface


The Journal of Bone & Joint Surgery British Volume
Vol. 77-B, Issue 6 | Pages 962 - 966
1 Nov 1995
Shahgaldi B Heatley F Dewar A Corrin B

Tissue reaction to wear particles from metal implants may play a major role in the aseptic loosening of implants. We used electron microprobe elemental analysis to determine the chemical composition of wear particles embedded in the soft tissues around hip and knee implants from 11 patients at revision surgery for aseptic loosening. The implants were made of cobalt-chromium-molybdenum alloy or titanium-aluminium-vanadium alloy. Histological examination showed a widespread giant-cell reaction to the particles. Elemental analysis showed that the chemical composition of the particles was different from that of the implanted alloys: cobalt and titanium were reduced, often down to zero, whereas chromium and aluminium persisted. Our findings indicate that corrosion is continually changing the shape, size and chemical composition of the implanted alloy. This may alter the biochemical environment of the tissue surrounding an implant to favour bone resorption


The Journal of Bone & Joint Surgery British Volume
Vol. 81-B, Issue 6 | Pages 1069 - 1075
1 Nov 1999
Goodman SB Song Y Chun L Regula D Aspenberg P

We implanted bone harvest chambers (BHCs) bilaterally in ten mature male New Zealand white rabbits. Polyethylene particles (0.3 ± 0.1 −m in diameter, 6.4×10. 12. particles/ml) were implanted for two, four or six weeks bilaterally in the BHCs, with subsequent removal of the ingrown tissue after each treatment. In addition to the particles, one side also received 1.5 −g of recombinant transforming growth factor ß1 (TGFβ1). At two weeks, the bone area as a percentage of total area was less in chambers containing TGFβ compared with those with particles alone (7.8 ± 1.3% v 16.9 ± 2.7% respectively; 95% confidence interval (CI) for difference -14.0 to -4.30; p = 0.002). At four weeks, the percentage area of bone was greater in chambers containing TGFβ compared with those with particles alone (31.2 ± 3.4% v 22.5 ± 2.0% respectively; 95% CI for difference 1.0 to 16.4; p = 0.03). There were no statistical differences at six weeks, despite a higher mean value with TGFβ treatment (38.2 ± 3.9% v 28.8 ± 3.5%; 95% CI for difference -4.6 to 23.3; p = 0.16). The number of vitronectin-receptor-positive cells (osteoclast-like cells) was greater in the treatment group with TGFβ compared with that with particles alone; most of these positive cells were located in the interstitium, rather than adjacent to bone. TGFβ1 is a pleotropic growth factor which can modulate cellular events in the musculoskeletal system in a time- and concentration-dependent manner. Our data suggest that there is an early window at between two and six weeks, in which TGFβ may favourably affect bone ingrowth in the BHC model. Exogenous growth factors such as TGFβ may be a useful adjunct in obtaining osseointegration and bone ingrowth, especially in revisions when there is compromised bone stock and residual particulate debris