Background: Polymethylmethacrylate (PMMA) is a potent stimulant of inflammatory response. This study investigated the role of Prostaglandin E2 (PGE2), Platelet activating factor (PAF) and histamine and their specific antagonists in bone changes. Materials: 120 white-male-wistar rats were divided into ten groups. Using sterile technique, a 2mm drill hole was made in the tibia 1cm distal to the knee joint bilaterally. The left tibia was filled with Simplex particulate cement polymer (PMMA) and the right tibia was used as control. The first nine groups respectively received terfenadine 1mg/kg, 10mg/kg and 25mg/kg, alprazolam 0.08mg/kg, 0.32mg/kg and 0.64mg/kg, and naproxen 1mg/kg, 5mg/kg and 25mg/kg; however, the tenth group received no drug and served as control. The animals were killed after 16 weeks and implant areas were harvested aseptically and studied by one pathologist. Results: Our study revealed that the cellular reaction in the left side was statistically more than the right one in all cases (p< 0.05). Also, a significant decrease in histiocytes and giant cells was seen just in those groups that had received 10mg/kg and 25mg/kg of terfenadine, 0.32mg/kg and 0.64mg/kg of alprazolam and 5mg/kg and 25mg/kg of naproxen (P< 0.05) while administration of 1mg/kg naproxen resulted in significant decrease only in giant cells (P< 0.05) but not in histiocytes. Discussion: Previous studies have suggested that particulate debris, PGE2 production and inflammatory response are associated with arthroplasty loosening. This experiment has demonstrated that the increased cellular reaction by the membrane surrounding particulate cement polymer can be suppressed by administration of PGE2, PAF and histamine specific inhibitors. The use of these agents may be indicated in retarding the bone loss associated with early prosthetic loosening

Summary. Particulate wear debris with different chemical composition induced similar periprosthetic tissue reactions in patients with loosened uncemented and cemented titanium hip implants, which suggests that osteolysis can develop independent of particle composition. Introduction. Periprosthetic osteolysis is a serious long-term complication in total hip replacements (THR). Wear debris-induced inflammation is thought to be the main cause for periprosthetic bone loss and implant loosening. The aim of the present study was to compare the tissue reactions and wear debris characteristics in periprosthetic tissues from patients with failed uncemented (UC) and cemented (C) titanium alloy hip prostheses. We hypothesised that implant wear products around two different hip designs induced periprosthetic inflammation leading to osteolysis. Patients & Methods. Thirty THR-patients undergoing revision surgery were included: Fifteen patients had loose cemented titanium stems (Titan. ®. , DePuy) and 15 had well-fixed uncemented titanium stems (Profile, DePuy), but loose or worn uncemented metal-backed cups with conventional UHMWPE liners (Gemini, Tropic and Tri-Lock Plus, DePuy; Harris/Galante and Trilogy, Zimmer). A semi-quantitative histological evaluation was performed in 59 sections of periprosthetic tissues using light microscopy. Wear particles were counted by polarised light and high resolution dark-field microscopy. Additionally, particle composition was determined by SEM-EDXA following particle isolation using an enzymatic digestion method. Blood metal ions were determined with high resolution-ICP-MS. Results. The implants in the uncemented group were revised after a median of 15.7 years (range: 7.25–19.3) due to osteolysis and high wear of the polyethylene liner and metal backing resulting in gross metallosis, and/or cup loosening. The average lifetime of implants in the cemented group was only 6.5 years (range: 1.5–11.75) due to early stem loosening with large osteolysis pockets in the femur close to the cement mantle. Tissue examination revealed similar results for both groups: numerous mononuclear histiocytes and chronic inflammatory cells, a few neutrophils and multinucleated giant cells, and to some extent necrosis. The amount of metal particles per histiocyte positively correlated with the tissue reactions in the cemented, but not in the uncemented group. A higher particle load (medians: C: 14727 vs. UC: 1382 particles/mm. 2. , p<0.0001) was found in tissues adjacent to cemented stems, which contained mainly submicron ZrO. 2. particles. Particles containing pure Ti or Ti alloy elements (size range: 0.21 to 6.46 µm) were most abundant in tissues from the uncemented group. Here, also PE was more frequent, but accounted only for a small portion of total particles (2.8 PE/mm. 2. ). The blood concentrations of titanium (range: 3.8–138.5 microgram/L) and zirconium (cemented cases, range: 0.6–3.5 microgram/L) were highly elevated in cases with high abrasive wear and metallosis. Discussion/Conclusion. Phagocytosis of different wear particles by histiocytes induced a similar chronic inflammatory reaction in the periprosthetic tissues in both groups. ZrO. 2. particles, originating from bone cement degradation, dominated in the cemented group, while in the uncemented group the high abundance of pure Ti and Ti alloy particles of various sizes indicates wear of the metal-backed cups. The low density of polyethylene particles in the tissues suggests that they are not solely responsible for the tissue reactions and accompanying osteolysis. Our findings suggest that the chemical composition of wear particles plays a minor role in the mechanism of osteolysis. Particle size, load and ionic exposure might be more important

Total joint arthroplasty is the most significant advance in the treatment of end-stage arthritic disease of major joints. Despite the clinical success of this surgical procedure, however, some total joint prostheses fail, and although a failed prosthesis can be replaced, the results of revision arthroplasty are not as good as the first time. Studying the failed prosthesis and the associated bone and soft tissues provides insight into the causes of failure. Most prosthetic failures are the result of structural limitations of the implant components. Although material failure may be sudden, a much more common cause is gradual aseptic loosening of the prostheses. Aseptic loosening is caused by both mechanical (gradual loss of material by wear) and biological (osteoclastic resorption of adjacent bone) factors. Wear particles induce a foreign body reaction characterized by a pseudomembrane composed of granulomatous tissues including macrophages, fibroblasts, giant cells, and osteoclasts in addition to debris particles. The extent of this response is driven by the number, size, composition, surface area, and types of particles present. Although there are differences in the relative local toxicity of each of these particles, the end result is the same. These mechanical and biological factors are unavoidable, and the success of a total joint prosthesis depends on the rate with which they occur. Polyethylene wear particles (1–200 ?) are the primary cause of loosening. They are strongly birefringent under polarized light microscopy. Smaller particles are phagocytized by histiocytes, whereas larger particles are surrounded by foreign body giant cells. Fragmentation of PMMA may also cause particulate debris. The presence of these particles (30–100 ?) may be deduced by empty spaces into the soft tissues, often bordered by foreign body giant cells, since PMMA is dissolved by xylene during routine histological techniques. Metal oxides form on the surface of chrome-cobalt or titanium alloys due to an electrolytic process, and stresses on the surface of the metal shear the oxides into the surrounding tissues, causing a black pigmentation of the tissues. Histologically, the black deposits of oxidized metals are seen extracellularly as well as in the cytoplasm of histiocytes. In addition to oxidation, metal undergoes corrosion and, as a result, metal ions enter the soft tissues and the bloodstream. A ceramic-on-ceramic coupling generates a significantly lower amount of debris as compared to the conventional metal-on polyethylene solution. When present, ceramic debris cause a mild histiocytic reaction without giant cells and virtually no osteoclastic bone resorption. There are various secretory proteins at the interfacial membrane that can affect bone turnover, including the cytokines IL-1, IL-6, Il-10, and TNF-a. Other factors involved with bone resorption include the enzymes responsible for catabolism of the organic component of bone, such as MMPs. Prostaglandins, in particular PGE2, are also known to be important intercellular messengers in the osteolytic cascade. More recently, several mediators known to be involved in stimulation or inhibition of osteoclast differentiation and maturation, such as RANKL and osteoprotegerin, have been suggested as key factors in the development and progression of osteolysis. Infection around a prosthesis also causes loosening in approximately 1–5% of cases. Total joint prostheses become infected by two mechanisms, wound contamination at the time of surgery by Staph. aureus or Staph.epidermidis, and late hematogenous spread of organisms (Staphylo- and Streptococci, E. Coli, Pseudomonas, and anaerobes). The following factors facilitate bacterial growth. First, reaming and sawing, as well as PMMA polymerization, cause necrosis of necrotize bone adjacent to the implant, and such nonvascularized area permits bacteria to grow, safe from circulating host defenses. Second, a highly hydrated matrix of extracellular polymeric substances (biofilm) is formed that defends bacteria from antibiotics and phagocytosis. Third, some metals, such as nickel or cobalt, may depress macrophage function. The distinguishing histologic features of an infected prosthesis is an acute inflammatory reaction: a finding of > 5 PMN or of > 50 lymphocytes/hp field are presumptive for infection. Because some low-grade infections fail to stimulate an acute inflammatory reaction, they go undiagnosed until postoperative period when microbacterial culture results are available. To date, no single routinely used clinical or laboratory test has been shown to achieve ideal sensitivity and specificity for the diagnosis of prosthetic joint infection, and in most cases the diagnosis depends on a combination of clinical features, radiographic findings, and laboratory results. Intra-operative tissue cultures may be falsely negative because of prior antimicrobial exposure, a low number of organisms, inappropriate culture media, or atypical organisms. Conversely, cultures may be falsely positive because of contamination in the operating room, during transport, or in the laboratory. If the implant is removed, the entire prosthesis can be cultured. Moreover, because prosthetic joint infection is a biofilm-mediated infection, techniques that sample bacteria in biofilm, such as sonication or enzymatic treatment, may improve the diagnosis of prosthetic joint infection. More recently, molecular techniques are being used to detect nucleic acid in samples from infected patients even when conventional techniques are negative because of unusual microbial growth requirements or failure to grow after antimicrobial exposure or due to unfavourable environmental conditions. A disadvantage of such approach is its extreme sensitivity, leading to the possibility of false positive results. The clinical presentation of prosthetic joint infection may be indistinguishable from that of aseptic implant failure. In many cases, culture of granulomatous tissue around failed prostheses, preoperatively diagnosed as aseptically loosened, reveals the presence of bacteria that may per se significantly contribute to the recruitment, maturation and activation of osteoclasts and that superimpose to the foreign body reaction to wear debris. The presence of a smouldering infection in case of “aseptic” failure observed in revision arthroplasties. A systematic investigation on all retrieved implants is mandatory to define the precise role of each potential factor contributing to the pathogenesis of failure, in order to further improve the quality of care of patients having total joint arthroplasty

Introduction:. Sinus histiocytosis with massive lymphadenopathy (SHML) also known as Rosai – Dorfman disease is a disease of bone marrow stem cell origin. It affects lymph nodes primarily. Solitary bone lesions are very rare and can cause diagnostic difficulty. Aim:. To increase the awareness of SHML as a cause of cystic bone lesions. Materials and methods:. A 2 year old presented with 4 months history of pain and swelling of the distal forearm. There was no history of tuberculosis or HIV disease. The swelling was 4 × 3 cm firm, non-fluctuant and slightly tender. There were no lymph nodes. Radiographs showed an oval cystic lesion expanding with a well-defined margin. The ulnar cortex was deficient. CT scan confirmed a cystic lesion with contents of granulation tissue. The Hb and WCC were normal, ESR 20 was, CRP<5 and mantoux was negative. At surgery the lesion was curretted. The contents resembled tuberculous granulation but there was no caseation. The borders were well formed, the ulnar cortex was deficient. Results:. The histology revealed granulation tissue with numerous large histiocytes and immuno chemistry confirmed Rosai Dorfman disease. Healing with sclerosis was seen at 6 months. Discussion:. Rosai Dorfman disease is a systemic disease of bone marrow stem cells and lymphadenopathy is the prominent manifestation. Only ±8% of cases have been reported with bone involvement and 4% of these had no lymphadenopathy. The lesions are cystic and medullary but cortical involvement can occur. Solitary ossseous lesions characterized by a background of histocytes without eosinophils can mimic Langerhans histocytosis, localized osteomyelitis, fibrous dysplasia, tuberculosis, simple or aneurysmal bone cysts and metastatic deposits. Conclusion:. Lesions of haematopoetic origin should be considered in the diagnosis of lucent bone lesions in children

Introduction. Silicon nitride (SiN) is a recently introduced bearing material for THR that has shown potential in its bulk form and as a coating material on cobalt-chromium (CoCr) substrates. Previous studies have shown that SiN has low friction characteristics, low wear rates and high mechanical strength. Moreover, it has been shown to have osseointegration properties. However, there is limited evidence to support its biocompatibility as an implant material. The aim of this study was to investigate the responses of peripheral blood mononuclear cells (PBMNCs) isolated from healthy human volunteers and U937 human histiocytes (U937s) to SiN nanoparticles and CoCr wear particles. Methods. SiN nanopowder (<50nm, Sigma UK) and CoCr wear particles (nanoscale, generated in a multidirectional pin-on-plate reciprocator) were heat-treated for 4 h at 180°C and dispersed by sonication for 10 min prior to their use in cell culture experiments. Whole peripheral blood was collected from healthy donors (ethics approval BIOSCI 10–108, University of Leeds). The PBMNCs were isolated using Lymphoprep® as a density gradient medium and incubated for 24 h in 5% (v/v) CO2at 37°C to allow attachment of mononuclear phagocytes. SiN and CoCr particles were then added to the phagocytes at a volume concentration of 50 µm3 particles per cell and cultured for 24 h in RPMI-1640 culture medium in 5% (v/v) CO2 at 37°C. Cells alone were used as a negative control and lipopolysaccharide (LPS; 200ng/ml) was used as a positive control. Cell viability was measured after 24 h by ATPLite assay and tumour necrosis factor alpha (TNF-α) release was measured by sandwich ELISA. U937s were co-cultured with SiN and CoCr particles at doses of 0.05, 0.5, 5 and 50 µm3 particles per cell for 24h in 5% (v/v) CO2 at 37 C. Cells alone were used as a negative control and camptothecin (2 µg/ml) was used as a positive control. Cell viability was measured after 0, 1, 3, 6 and 9 days. Results from cell viability assays and TNF-α response were expressed as mean ±95% confidence limits and the data was analysed using one-way ANOVA and Tukey-Kramer post-hoc analysis. Results and Discussion. At a high volume concentration of particles (50µm3 per cell), SiN did not affect the viability of PBMNCs, while CoCr significantly reduced the viability over a 24 h period [Figure 1A]. Similarly, SiN particles had no effect on the viability of U937s up to 9 days with a range of particle doses (0.05–50 µm3 per cell) [Figure 2A]. In contrast, CoCr particles significantly reduced the viability of U937s after 6 days [Figure 2B]. Additionally, CoCr particles caused significantly elevated levels of pro-inflammatory cytokine TNF-α, whereas no inflammation was associated with SiN particles [Figure 1B]. Conclusion. This study has demonstrated the in-vitro biocompatibility of SiN nanoparticles. Therefore, SiN is a promising orthopaedic bearing material not only due to its suitable mechanical and tribological properties, but also due to its biocompatibility. Acknowledgements. The research leading to these results has received funding from the European Union's Seventh Framework Programme (FP7/2007-2013) under grant agreement no. GA-310477 LifeLongJoints

In our independent centre, from 2002 to 2009, 155 BHRs (mean F/U 60 months) have been implanted as well as 420 ASR resurfacings and 75 THRs using ASR XL heads on SROM stems (mean F/U 35). During this period we have experienced a number of failures with patients complaining of worsening groin pain at varying lengths of time post operatively. Aspiration of the hip joints yielded a large sterile effusion on each occasion. At revision, there were copious amounts of green grey fluid with varying degrees of necrosis. There were 17 failures of this nature in patients with ASR implants (12 females) and 0 in the BHR group. This amounts to a failure of 3.5% in the ASR group. Tissue specimens from revision surgery showed varying degrees of “ALVAL” as well as consistently high numbers of histiocytes. Particulate metal debris was also a common finding. The mean femoral size and acetabular anteversion and inclination angles of the ARMeD group/all asymptomatic patients was 45/49mm (p< 0.001), 27/20°(p< 0.001) and 53/48°(p< 0.08). Median blood chromium(Cr) and cobalt(Co) was 29 and 69 μg/L respectively in the ARMeD group versus 3.9 and 2.7 μg/L in the asymptomatic patients (n=160 with ion levels). Explant analysis confirmed greater rates of wear than expected. Lymphocyte proliferation studies involving ARMeD patients showed no hyper reactivity to Cr and Co in vitro implying that these adverse clinical developments are mediated by a toxic reaction or a localised immune response. Our overall results suggest that the reduced arc of cover of the fourth generation ASR cup has led to an increased failure rate secondary to the increased generation of metal debris. This failure rate is 7% in ASR devices with femoral components _47mm

In our independent centre, in the period from January 2003 to august 2008, over 1100 36mm MoM THRs have been implanted as well as 155 Birmingham Hip Resurfacing procedures, 402 ASR resurfacings and 75 THRs using ASR XL heads on SROM stems. During this period we have experienced a number of failures with patients complaining of worsening groin pain at varying lengths of time post operatively. Aspiration of the hip joints yielded a large sterile effusion on each occasion. At revision, there were copious amounts of green grey fluid with varying degrees of necrosis. There were 11 failures of this nature in patients with ASR implants (10 females) and 2 in the 36 MoM THR group (one male one female). Tissue specimens from revision surgery showed varying degrees of ‘ALVAL’ as well as consistently high numbers of histiocytes. Metal debris was also a common finding. A fuller examination of our ASR cohort as a whole has shown that smaller components placed with inclinations > 45° and anteversions < 10 or > 20° are associated with increased metal ion levels. The 11 ASR failed joints were all sub optimally positioned (by the above definition), small components. Explant analysis using a coordinate measuring machine and out of roundness device confirmed greater than expected wear of each component. The lower number of failures in the 36mm MoM group, as well as the equal sex incidence, suggests that the majority of these failures are due to the instigation of an immune reaction by large amounts of wear debris rather than adverse reactions to well functioning joints. It is likely that small malpositioned ASRs function in mixed to boundary lubrication, and this, combined with the larger radius of these joints compared to the 36mm MoM joints, results in more rapid wear

Langerhans-cell histiocytosis (LCH) is a reactive proliferative disease characterized by the accumulation of abnormal histiocytes. The disease is broadly divided into two groups, unisystem and multisystem disease. The aetiology of LCH is unknown; the disease is currently accepted to be a reactive process rather than a malignancy. Localized LCH of bone is a benign tumour-like condition, which is characterized by a clonal proliferation of Langerhan’s-type histocytes, which infiltrate bone and cause osteolytic lesions. The common bones involved include – skull, pelvis, and diaphysis of long bones. We wanted to determine whether patient demographics at the time of presentation could help determine the clinical course and eventual outcome of the disease. We prospectively reviewed 68 patients with a primary diagnosis of LCH. Forty-six patients had unisystem disease, 22 had multisystem disease. There was a statistically significant difference in the age of presentation between the two groups. There were 6 deaths, all had multisystem disease. Of the 46 patients with unisystem disease, 31 (67.3%) underwent orthopaedic surgical intervention, 26 open biopsies and 5 curettage and bone grafting of lesions of the humeras (2), skin, clavicle and skull (1 each). There was a statistically significant difference in the average length of follow-up, between the 2 groups. We recommend closed and prolonged multidisciplinary follow-up of patient initially presenting with multisystem disease. Patients with unisystem disease can safely be discharged after a short follow-up period

Aims: Wood is a product of nature, has a structural architecture resembling bone and is chemically polymer-like. Birchwood modified with heat and humid air was selected to study its possibilities for bone reconstruction. Methods: Bulk birchwood was prepared for 2–3 hours at temperature of 220°C in humid air, this modifies the wood chemically and physically. 16 cone shaped implants 7x4 mm in size were carved from the heat treated material (Bioactive Wood Bone, BWB) and implanted by press-fit technique into holes drilled in the distal femurs of rabbits. Untreated cones served as controls. The resected knees were embedded in plastic (Techmont, Kulzer GmBH). For evaluation histology, histomorfometry and scanning electron microscopy (SEM) were carried out. Results: In vitro SEM showed the canal structures of the wood. In vivo no articular hydrops or wound infections were seen. At 4 and 8 weeks an inflammatory cellular reaction of a mild degree with some histiocytes was observed. At 8 and 20 weeks the implant’s surface was in connection with the surrounding bone and connective tissue. Bone-implant contact at the interface required proper press-fit technique. At 8 and 20 weeks histometry revealed new bone growth covering 21% (mean, range 6–41%) of the implant surface resembling the osteoconductive bonding characteristic of biomaterials. Conclusions: Modified heat treated wood showed biocompatibility and osteoconductivity in cancellous bone defect. A bone bonding-like-phenomenon observed at the interface between the birch implant and bone illustrates it’s potentials for use as a bone substitute

Metallosis is a combined chemical and toxic reaction which, if the wear of a metal implant is large, may cause extensive reaction of synovial membrane and thus triggering the loosening. We present a case of a 72 year-old man, who underwent to a cemented unicompartimental porous metal coated knee implant because affected by rheumatoid arthritis complicated by osteonecrosis of medial femoral condyle of the knee. Four years after replacement, the patient presented symptoms included moderate swelling, pain, synovitis inability to bear full weight as well as grinding; plain radiographs shows well fixed implant and not finding of loosening of prosthesis; arthroscopy revealed the diagnosis of metallosis. The specimens of synovial tissue were prepared to observation to light and electron microscopy. Total synovialectomy and revison with total knee replacement were successful in relieving the symptoms. Arthroscopy examination revealed a posterior break of tibial component, source of the release of multiple metal beads; we observe alsogray black discoloration of hypertofic and hyperplastic synovium pannus like; metal beads were detected in the joint space soft tissue and were also embedded in the articulating surface of the tibia component. Microscopic examination shows metal debris as black aggregates and a diffuse sheet like proliferation inside histiocytes of villous membrane. Ultrastructural study demonstrate that the presence of metallic fragments, measuring less than 0.3 micron in diameter is predominantly concentrated inside the macrophage’s phagolisosomes. Delivery of large number of metal beads from implant and the release of smallest size metal debris play a pivotal role in the development of a foreign body granulomatous reaction. The failure of unicompartimental prosthesis has been accellerated by unperformed sinoviectomy during the first implant; the cells of synovial membrane are continuosly activated, by wear of implant material, to phagocitate and to secrete inflammatory response

Introduction: There is little data available about numerical analysis of polyethylene particles from regions with different degrees of osteolysis in aseptic loosening of total hip replacements. Hence, it was the purpose of the present study to investigate, whether particles from large ostolitic lesions are different in size or shape to particles from regions with little or no osteolysis. Methods: during hip revision surgery tissue samples from regions with maximal and minimal osteolysis at the stem and acetabulum were collected in five patients. The samples were examined histologically and numerically for each region. The polyethylene particles were isolated from one gram soft tissue by papain digestion and analyzed with a scanning electron microscope (SEM). Size, elongation, area, form factor and perimeter were calculated for a total of 6526 particles. Results: The histological examination showed significantly more lymphocytes (p < 0,001), histiocytes (p < 0,01) und giant cells (p < 0,001) in large osteolitic lesions. The numerical SEM analysis also revealed significantly larger particles (p< 0,001) in regions with maximal osteolysis (Median acetabulum 1,44mmm und femur 1,89mmm) than in regions with minimal osteolysis (acetabulum 1,21mmm und femur 0,76mmm). Discussion: Presently only the small micro particles were thought of importance for aseptic loosening. The present paper showed, that regions with large osteolitic lesions have not only more but also larger particles than small osteolitic lesions. The question arises whether the larger particles and giant cells may have an influence on the progression of osteolysis or not. Furthermore, periprosthetic tissue for wear particle analysis in revision surgery must be harvested from the same region in order to obtain conclusive results