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Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_II | Pages 279 - 279
1 May 2010
Moghtadaei M Akbarian E Farahini H Zangi M Pazouki M
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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


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 126 - 126
2 Jan 2024
Schmidt S Klampfleuthner F Diederichs S
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The signaling molecule prostaglandin E2 (PGE2), synthesized by cyclooxygenase-2 (COX-2), is immunoregulatory and reported to be essential for skeletal stem cell function. Nonsteroidal anti-inflammatory drugs (NSAIDs) are widely used in osteoarthritis (OA) analgesia, but cohort studies suggested that long-term use may accelerate pathology. Interestingly, OA chondrocytes secrete high amounts of PGE2. Mesenchymal stromal cell (MSC) chondrogenesis is an in vitro OA model that phenocopies PGE2 secretion along with a hypertrophic OA-like cell morphology. Our aim was to investigate cause and effects of PGE2 secretion in MSC-based cartilage neogenesis and hypertrophy and identify molecular mechanisms responsible for adverse effects in OA analgesia. Human bone marrow-derived MSCs were cultured in chondrogenic medium with TGFβ (10ng/mL) and treated with PGE2 (1µM), celecoxib (COX-2 inhibitor; 0.5µM), AH23848/AH6809 (PGE2 receptor antagonists; 10µM), or DMSO as a control (n=3–4). Assessment criteria were proteoglycan deposition (histology), chondrocyte/hypertrophy marker expression (qPCR), and ALP activity. PGE2 secretion was measured (ELISA) after TGFβ withdrawal (from day 21, n=2) or WNT inhibition (2µM IWP-2 from day 14; n=3). Strong decrease in PGE2 secretion upon TGFβ deprivation or WNT inhibition identified both pathways as PGE2 drivers. Homogeneous proteoglycan deposition and COL2A1 expression analysis showed that MSC chondrogenesis was not compromised by any treatment. Importantly, hypertrophy markers (COL10A1, ALPL, SPP1, IBSP) were significantly reduced by PGE2 treatment, but increased by all inhibitors. Additionally, PGE2 significantly decreased ALP activity (2.9-fold), whereas the inhibitors caused a significant increase (1.3-fold, 1.7-fold, 1.8-fold). This identified PGE2 as an important inhibitor of chondrocyte hypertrophy. Although TGFβ and WNT are known pro-arthritic signaling pathways, they appear to induce a PGE2-mediated antihypertrophic effect that can counteract pathological cell changes in chondrocytes. Hampering this rescue mechanism via COX inhibition using NSAIDs thus risks acceleration of OA progression, indicating the need of OA analgesia adjustment


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_III | Pages 217 - 217
1 Mar 2003
Syggelos S Ciannopoulou E Panagiotopoulos E Varakis J Aletras AJ
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Aim: To examine the in vitro effects of several non-steroidal anti-inflammatory drugs (NSAIDs) on pro-inflammatory cytokines and PGE. 2. production by interface membrane from loose endoprosthesis of hip or knee arthroplasty. Since these factors are strongly implicated in the bone resorption process and aseptic prosthesis failure we hypothesize that the probable inhibition of their production by prophylactic administration of NSAIDs, will retard these processes. Materials and Methods: Interface membranes were harvested from ten patients who were subjected to revision surgery for aseptic total hip or knee replacement loosening and cultured for 72h in the absence or presence of therapeutic dosages of each, of aceclofenac, piroxicam, tenoxicam and indomethacin. Paracetamol was used as neutral control. In conditioned media the levels of IL-6, IL-1 (3, TNF-a and PGE2 were determined by ELISA and the data were analyzed by the Student’s t-test (significance level p< 0.05). Results: All the tested NSAIDs caused a statistically significant decrease on IL-6 and TNF-a levels, with aceclofenac and tenoxicam to be more effective (caused decrease in 7 out of 10 samples), while they had low or controversial effect on IL-1β production, except aceclofenac that seemed to augment the IL-1β levels (statistically significant increase in 5 out of 9 samples). Finally all the tested drugs, except paracetamol, caused a marked reduction (80–99%) of PGE2 levels. Conclusions: The stimulatory effect of IL-6 and TNF-α in the osteoclastic bone resorption process is well established. Considering the above results, the tested IMSAIDs (especially aceclofenac and tenoxicam) reduce the in vitro production of these mediators by interface membranes. Hence, it is reasonable to propose that the prophylactic treatment with these drugs could delay the process of the aseptic loosening. However, in order to support this hypothesis, more experiments are required by which the effects of them on other factors implicated in the loosening process, such as metalloproteinases, will be examined


The Journal of Bone & Joint Surgery British Volume
Vol. 85-B, Issue 2 | Pages 288 - 291
1 Mar 2003
Sampathkumar K Jeyam M Evans CE Andrew JG

Aseptic loosening of orthopaedic implants is usually attributed to the action of wear debris from the prosthesis. Recent studies, however, have also implicated physical pressures in the joint as a further cause of loosening. We have examined the role of both wear debris and pressure on the secretion of two chemokines, MIP-1α and MCP-1, together with M-CSF and PGE2, by human macrophages in vitro. The results show that pressure alone stimulated the secretion of more M-CSF and PGE. 2. when compared with control cultures. Particles alone stimulated the secretion of M-CSF and PGE. 2. , when compared with unstimulated control cultures, but did not stimulate the secretion of the two chemokines. Exposure of macrophages to both stimuli simultaneously had no synergistic effect on the secretion of the chemokines, but both M-CSF and PGE. 2. were increased in a synergistic manner. Our findings suggest that pressure may be an initiating factor for the recruitment of cells into the periprosthetic tissue


Bone & Joint Research
Vol. 3, Issue 9 | Pages 280 - 288
1 Sep 2014
Shimomura K Kanamoto T Kita K Akamine Y Nakamura N Mae T Yoshikawa H Nakata K

Objective. Excessive mechanical stress on synovial joints causes osteoarthritis (OA) and results in the production of prostaglandin E2 (PGE2), a key molecule in arthritis, by synovial fibroblasts. However, the relationship between arthritis-related molecules and mechanical stress is still unclear. The purpose of this study was to examine the synovial fibroblast response to cyclic mechanical stress using an in vitro osteoarthritis model. Method. Human synovial fibroblasts were cultured on collagen scaffolds to produce three-dimensional constructs. A cyclic compressive loading of 40 kPa at 0.5 Hz was applied to the constructs, with or without the administration of a cyclooxygenase-2 (COX-2) selective inhibitor or dexamethasone, and then the concentrations of PGE2, interleukin-1β (IL-1β), tumour necrosis factor-α (TNF-α), IL-6, IL-8 and COX-2 were measured. Results. The concentrations of PGE2, IL-6 and IL-8 in the loaded samples were significantly higher than those of unloaded samples; however, the concentrations of IL-1β and TNF-α were the same as the unloaded samples. After the administration of a COX-2 selective inhibitor, the increased concentration of PGE2 by cyclic compressive loading was impeded, but the concentrations of IL-6 and IL-8 remained high. With dexamethasone, upregulation of PGE2, IL-6 and IL-8 was suppressed. Conclusion. These results could be useful in revealing the molecular mechanism of mechanical stress in vivo for a better understanding of the pathology and therapy of OA. Cite this article: Bone Joint Res 2014;3:280–8


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_16 | Pages 105 - 105
1 Nov 2018
Manferdini C Paolella F Gabusi E Gambari L Fleury-Cappellesso S Barbero A Murphy M Lisignoli G
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Synovitis has been shown to play a role in pathophysiology of OA promoting cartilage destruction and pain. Synovium is mainly composed of synovial fibroblast (SF) and macrophage (SM) that guide synovial inflammation. Adipose stromal cells (ASC) promising candidate for cell therapy in OA are able to counteract inflammation. Two different subsets of macrophages have been described showing a pro-inflammatory (M1) and an anti-inflammatory (M2) phenotype. Macrophage markers: CD68, CD80 (M1-like) and CD206 (M2-like) were evaluated in osteoarthritic synovial tissue. GMP-clinical grade ASC were isolated from subcutaneous adipose tissue and M1-macrophages were differentiated from CD14+ obtained from peripheral blood of healthy donors. ASC were co-cultured in direct and indirect contact with activated (GM-CSF+IFNγ)-M1 macrophages for 48h. At the end of this co-culture we analyzed IL1β, TNFα, IL6, MIP1α/CCL3, S100A8, S100A9, IL10, CD163 and CD206 by qRT-PCR or immunoassay. PGE2 blocking experiments were performed. In moderate grade OA synovium we found similar percentages of CD80 and CD206. M1-activated macrophage factors IL1β, TNFα, IL6, MIP1α/CCL3, S100A8 and S100A9 were down-modulated both co-culture conditions. Moreover, ASC induced the typical M2 macrophage markers IL10, CD163 and CD206. Blocking experiments showed that TNFα, IL6, IL10, CD163 and CD206 were significantly modulated by PGE2. We confirmed the involvement of PGE2/COX2 also in CD14+ OA synovial macrophages. In conclusion we demonstrated that ASC are responsible for the switching of activated-M1-like to a M2-like anti-inflammatory phenotype, mainly through PGE2. This suggested a specific role of ASC as important determinants in therapeutic dampening of synovial inflammation in OA


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_8 | Pages 38 - 38
11 Apr 2023
Stewart M Nguyen J
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Osteoprogenitors on the inner layer of periosteum are the major cellular contributors to appositional bone growth and bone repair by callus formation. Previous work showed that periosteal-derived cells have little or no osteogenic activity under standard in vitro osteogenic culture conditions. This study was conducted to determine what growth factor(s) can activate periosteal osteogenic capacity. This study was conducted with IACUC approval. Periosteum from five equine donors was digested in collagenase for 3-4 hours at 37C. Isolated periosteal cells were maintained in DMEM/10% FBS medium and exposed to PDGF, Prostaglandin E2, BMP-2 and TGF-b3 at a range of concentrations for 72 hours. Changes in osteogenic gene expression (Runx2, OSX and ALP) were measured by qPCR. Periosteal cells were pre-treated with TGF-b3 or maintained in control medium were transferred into basal or osteogenic medium. Osteogenic status was assessed by Alizarin Red staining for mineralized matrix, ALP enzymatic activity and induction of osteogenic genes. PDGF, PgE2 and BMP-2 had little impact on expression of osteogenic markers by periosteal cells. In contrast, TGF-b3 stimulated significant increases in Osterix (over 100-fold) ALP expression (over 70-fold). Pre-treating periosteal cells with TGF-b3 for 72 hours stimulated rapid cell aggregation and aggregate mineralization once cells were transferred to osteogenic medium, while cells not exposed to TGF-b3 exhibited minimal evidence of osteogenic activity. This study indicate that TGF-b signaling is vital for periosteal osteogenic activity. Transient ‘priming’ of periosteal cells through TGF-b exposure was sufficient to activate subsequent osteogenesis without requiring ongoing growth factor stimulation. TGF beta ligands are secreted by many cell types, including periosteal progenitors and osteocytes, providing opportunities for both autocrine and paracrine pathways to regulate periosteal bone formation under homeostatic and reparative conditions


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_I | Pages 154 - 154
1 Mar 2009
Dynybil C Schmidt C Backstroem M Schlichting K Duda G Perka C
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Introduction: Selective COX-2 (Cyclooxygenase-2) inhibitors have been found to impede fracture healing. The effect of selective COX-2 inhibitors on tendon healing in a bone tunnel, however, is unknown. Methods: The authors performed bilateral anterior cruciate ligament reconstructions in 32 rabbits and used peripheral quantitative computed tomography (pQCT) to compare tendon-to-bone healing between tunnel aperture and midtunnel regarding bone mineral density (BMD) and ingrowth of new bone. Each animal was assigned to one of four groups. Two groups received selective COX-2 inhibitors orally for 3 weeks (Cele-coxib; 10 mg/kg/d), the two other groups received no COX-2 inhibitors (controls). The animals were sacrificed 3 and 6 weeks after surgery. In biomechanical testing maximum load to failure and stiffness of the tendon grafts were calculated from the load displacement curve and failure modes were recorded. To assess indirectly the effect on local COX-2 activity the synovial content of Prostaglandin E2 (PGE2), the major metabolite of arachnidonic acid metabolism and catalyzed by COX-2, was measured by Enzyme-linked Immunosorbent Assay (ELISA). Results: Animals treated with selective COX-2 inhibitors had significantly lower BMD at the tunnel aperture (P=.02). In all groups the BMD at the tunnel aperture was significantly higher in comparison with the midtunnel (P< .05). In the controls ingrowth of new bone was greater at the tunnel aperture at 3 weeks (P=.028). After 3 weeks of COX-2 inhibitor administration synovial fluid concentrations of PGE2 were significantly lowered (P=.018) and increased more than threefold by 6 weeks after surgery and 3 weeks after last drug administration (P=.022), while in the controls there was a decrease in PGE2 between week 3 and 6. At 6 weeks the controls exhibited a twofold increase in maximum load to failure (3 weeeks: 28.2±20.9 N; 6 weeks: 59.6±53.6 N; P=.394), whereas the COX-2 inhibitor treated specimens decreased 1.9fold (3 weeks: 69.3±50.5 N; 6 weeks: 37.4±16.8 N; P=.24). Maximum load to failure values correlated with PGE2 changes, but not statistically significant (r. 2. = −0,502; p=0,056). Failure modes at 3 and 6 weeks were rupture and degloving, respectively, of the tendon graft. Discussion: This study revealed decreased bone mineral density at the tunnel aperture at 3 weeks, an increase of the inflammatory mediator PGE2 and decreased graft stability with time after treatment with selective COX-2 inhibitors. Untreated controls appeared to have a more physiological healing course with a continuous decrease in PGE2 and an increase in graft stability. Our results suggest, that selective COX-2 inhibitors may delay tendon healing in a bone tunnel


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_III | Pages 341 - 341
1 Mar 2004
Burke J Watson R McCormack D Fitzpatrick J Dowling F Walsh M
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Aims: The aim of this study was to investigate the ability of control and degenerate human nucleus pulposis to respond to an exogenous proinßammatory stimulus. Methods: Disc material from patients undergoing surgery for scoliosis, sciatica and low back pain was cultured under basal and lipopolysaccharride (LPS) stimulated conditions using a serumless technique. Levels of IL-1β, TNFα, LTB4, GM-CSF, IL-6, IL-8, MCP-1, PGE2, bFGF and TGFβ-1 in the media were estimated using commercially available enzyme linked immunoabsorbent assay kits. Results: Neither basal nor LPS stimulated control nucleus pulposis (NP) produced detectable levels of IL-1β, TNFα, LTB4 or GM-CSF. LPS induced a significant increase in scoliotic disc IL-8 production, p< .02. LPS induced signiþcant increases in degenerate disc IL-6, IL-8 and PGE2 production, p< .01, p< .001 and p< .005 respectively. LPS signiþcantly increased degenerate disc IL-6, IL-8 and PGE2 production compared to LPS stimulated scoliotic disc, p< .05, p< .02 and p< .003 respectively. Conclusions: Human nucleus pulposus can react to a pro-inßammatory stimulus by secreting IL-6, IL-8 and PGE2, suggesting that the NP may actively participate in the genesis of chemical radiculitis and dis-cogenic back pain


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_2 | Pages 72 - 72
1 Jan 2017
Caron M Emans P Cremers A Surtel D van Rhijn L Welting T
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Heterotopic ossi?cation is the abnormal formation of bone in soft tissues and is a frequent complication of hip replacement surgery. Heterotopic ossi?cations are described to develop via endochondral ossification and standard treatment is administration of indomethacin. It is currently unknown how indomethacin influences heterotopic ossi?cation on a molecular level, therefore we aimed to determine whether indomethacin might influence heterotopic ossi?cation via impairing the chondrogenic phase of endochondral ossification. ATDC5, human bone marrow stem cells (hBMSCs) and rabbit periosteal agarose cultures were employed as progenitor cell models; SW1353, human articular chondrocytes and differentiated ATDC5 cells were used as matured chondrocyte cell models. All cells were cultured in the presence of (increasing) concentrations of indomethacin. The action of indomethacin was confirmed by decreased PGE2 levels in all experiments, and was determined by specific PGE2 ELISA. Gene- and protein expression analyses were employed to determine chondrogenic outcome. Progenitor cell models differentiating in the chondrogenic lineage (ATDC5, primary human bone marrow stem cells and ex vivo periosteal agarose cultures) were treated with increasing concentrations of indomethacin and a dose-dependent decrease in gene- and protein expression of chondrogenic and hypertrophic markers as well as decreased glycosaminoglycan content was observed. Even when hypertrophic differentiation was provoked the addition of indomethacin resulted in decreased hypertrophic marker expression. Interestingly, when mature chondrocytes were treated with indomethacin, a clear increase in collagen type 2 expression was observed. Similarly, when ATDC5 cells and bone marrow stem cells were pre-differentiated to obtain a chondrocyte phenotype and indomethacin was added from this time point onwards, low concentrations of indomethacin also resulted in increased chondrogenic differentiation. Indomethacin induces differential effects on in vitro endochondral ossification, depending on the chondrocyte's differentiation stage, with complete inhibition of chondrogenic differentiation as the most pronounced action. This observation may provide a rationale behind the elusive mode of action of indomethacin in the treatment of heterotopic ossifications


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_II | Pages 164 - 164
1 Feb 2003
Burke J Watson R McCormack D Fitzpatrick J Stack J Walsh M
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Recently there has been considerable interest in the role of inflammatory mediator production by herniated degenerate discs. Modic has described MR endplate changes which have an inflammatory appearance and have been linked with discogenic back pain. To date there has been no biomechanical investigation of discs with associated Modic changes. The aim of this study is to determine if degenerate discs with associated Modic changes have higher levels of pro-inflammatory mediator production than those without Modic changes. Intervertebral disc tissue was obtained from 52 patients undergoing spinal surgery for sciatica [40] and discogram proven discogenic low back pain [12]. The tissue was cultured and the medium analysed for interleukin-6, interleukin-8 and prostaglandin E2 using an enzyme linked immunoabsorbetn assay method. Preoperative MR images of the patients were examined by a double blinded radiologist to determine the Modic status of the cultured disc level. Forty percent of patients undergoing surgery for discogenic low back pain had a Modic 1 change compared to only 12.5% of patients undergoing surgery for sciatica [p< .05] There was a statistically significant difference between levels of IL-6, IL-8 and PGE2 production by both the Modic1 [M1] and Modic2 [M2] groups compared to the Modic negative [NEG] group. IL-6:NEGvM1 p< .001, NEG v M2 p< .05, IL-8: NEG v M1 p< .01, NEG v M2 p> .05, PGE2: NEG v M1 p< 01, NEG v M2 p< .05. Modic changes have been associated with positive provocative discography by a number of authors. Pain generation requires the presence of nerves and hyperalgsia inducing mediators. Both IL-8 and PGE2 are known to induce hyperalgesia. The fact that Modic changes are associated with high levels of production of these mediators supports their role as an objective marker of discogenic low back pain


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_II | Pages 164 - 164
1 Feb 2003
Burke J Watson R Conhyea D McCormack D Fitzpatrick J Dowling F Walsh M
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The role of nucleus pulposus (NP) biology in the genesis of sciatica is being increasingly investigated. The aim of this study was to examine the ability of control and degenerate human nucleus pulposus to respond to an exogenous pro-inflammatory stimulus. Control disc material was obtained from surgical procedures for scoliosis and degenerate disc tissue from surgical procedures for sciatica and low back pain. Disc specimens were cultured using a serumless technique under basal and lipopolysaccharride (LPS) stimulated conditions and the media harvested, aliquoted and stored at –80°C for subsequent analysis. Levels of IL-1β,TNFα, LTB4, GM-CSF, IL-6, IL-8, MCP-1, PGE2, bFGF and TGFβ-1 in the media were estimated using commercially available enzyme linked immunoabsorbent assay kits. Neither basal nor LPS stimulated control or degenerate NP produced detectable levels of IL-1β, TNFα, LTB4 or GM-CSF. Control disc IL-8 secretion increased significantly with LPS stimulation, p< .018. Degenerate disc IL-6, IL-8 and PGE2 production increased significantly with LPS stimulation, p< .01, p< .001 and p< .005 respectively. LPS stimulated degenerate NP secreted significantly more IL-6, IL-8 and PGE2 than LPS stimulated control NP, p < 0.05, 0.02 and 0.003 respectively. LPS induces an increase in both control and degenerate NP mediator production demonstrating the ability of human NP to react to a noxious stimulus by producing pro-inflammatory mediators. The difference in levels of basal and LPS stimulated mediator production between control and degenerate discs show that as a disc degenerates it increases both its level of inflammatory mediator production and its ability to react to a pro-inflammatory stimulus. The increased sensitivity of degenerating human NP to noxious stimuli and increased ability to respond with inflammatory mediator production support the role of NP as an active participant in the genesis of lumbar radiculopathy and discogenic back pain


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_13 | Pages 45 - 45
1 Nov 2021
Ramirez SC Stoker A Cook J Ma R
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Introduction and Objective. Anterior cruciate ligament reconstruction (ACLR) with tendon autografts is the “gold standard” technique for surgical treatment of ACL injuries. Common tendon graft choices include patellar tendon (PT), semitendinosus/gracilis “hamstring” tendon (HT), or quadriceps tendon (QT). Healing of the graft after ACLR may be affected by graft type since the tissue is subjected to mechanical stresses during post-operative rehabilitation that play important roles in graft integration, remodeling and maturation. Abnormal mechanical loading can result in high inflammatory and degradative processes and altered extracellular matrix (ECM) synthesis and remodeling, potentially modifying tissue structure, composition, and function. Because of the importance of load and ligamentization for tendon autografts, this study was designed to compare the differential inflammatory and degradative metabolic responses to loading by three tendon types commonly used for autograft ACL reconstruction. Materials and Methods. With IRB approval (IRB # 2009879) and informed patient consent, portions of 9 QT, 7 PT and 6 HT were recovered at the time of standard of care ACLR surgeries. Tissues were minced and digested in 0.2 mg/ml collagenase solution for two hours and were then cultured in 10% FBS at 5% CO. 2. , 37°C, and 95% humidity. Once confluent, cells were plated in Collagen Type I-coated BioFlex® plates (1 × 10. 5. cells/well) and cultured for 2 days prior to the application of strain. Then, media was changed to supplemented DMEM with 2% FBS for the application of strain. Fibroblasts were subjected to continuous mechanical stimulation (2-s strain and 10-s relaxation at a 0.5 Hz frequency) at three different elongation strains (mechanical stress deprivation-0%, physiologic strain-4%, and supraphysiological strain-10%). 9. for 6 days using the Flexcell FX-4000T strain system. Media was tested for inflammatory biomarkers (PGE2, IL-8, Gro-α, and MCP-1) and degradation biomarkers (GAG content, MMP-1, MMP-2, MMP-3, TIMP-1, and TIMP-2). Significant (p<0.05) difference between graft sources were assessed with Kruskal-Wallis test and post-hoc analysis. Results are reported as median± interquartile range (IQR). Results. Differences in Inflammation-Related Biomarker Production (Figure 1): The production of PGE2 was significantly lower by HT fibroblasts compared to both QT and PT fibroblasts at all timepoints and strain levels. The production of Gro-α was significantly lower by HT fibroblasts compared to QT at all time points and strain levels, and significantly lower than PT on day 3 at 0% strain, and all strain levels on day 6. The production of IL-8 by PT fibroblasts was significantly lower than QT and HT fibroblast on day 3 at 10% strain. Differences in Degradation-Related Biomarker Production (Figure 2): The production of GAG by HT fibroblasts was significantly higher compared to both QT and PT fibroblasts on day 6 at 0% strain. The production of MMP-1 by the QT fibroblasts was significantly higher compared to HT fibroblasts on day 3 of culture at all strain levels, and in the 0% and 10% strain levels on day 6 of culture. The production of MMP-1 by the QT fibroblasts was significantly higher compared to PT fibroblasts at in the 0% and 4% strain groups on day 3 of culture. The production of TIMP-1 by the HT fibroblasts was significantly lower compared to PT fibroblasts on day 3 of culture. Conclusions. The results of this study identify potentially clinically relevant difference in the metabolic responses of tendon graft fibroblasts to strain, suggesting a lower inflammatory response by hamstring tendon fibroblasts and higher degradative response by quadriceps tendon fibroblasts. These responses may influence ACL autograft healing as well as inflammatory mediators of pain in the knee after reconstruction, which may have implications regarding graft choice and design of postoperative rehabilitation protocols for optimizing outcomes for patients undergoing ACL reconstruction. For any figures or tables, please contact the authors directly


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 293 - 293
1 Jul 2014
Yasuda T
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Summary. Hyaluronan suppressed lipopolysaccharide-stimulated prostaglandin E. 2. production via intercellular adhesion molecule-1 through down-regulation of nuclear factor-κB. Administration of hyaluronan into rheumatoid joints may decrease prostaglandin E. 2. production by activated macrophages, which could result in improvement of arthritic pain. Introduction. Prostaglandin E. 2. (PGE. 2. ) is one of the key mediators of inflammation in rheumatoid arthritis (RA) joints. Intra-articular injection of high molecular weight hyaluronan (HA) into RA knee joints relieves arthritic pain. Although HA has been shown to inhibit PGE. 2. production in cytokine-stimulated synovial fibroblasts, it remains unclear how HA suppresses PGE. 2. production in catabolically activated cells. Furthermore, HA effect on macrophages has rarely been investigated in spite of their contribution to RA joint pathology. Objectives. This study was aimed to investigate the inhibitory mechanism of HA on lipopolysaccharide (LPS)-stimulated PGE. 2. in U937 human macrophage culture system. Methods. With or without pretreatment with one of HA, NS-398, and BAY11-7085, differentiated U937 macrophages were stimulated with LPS. In another set of experiments, the cells were incubated with anti-ICAM-1 antibody or non-specific IgG before pretreatment with HA. PGE. 2. concentrations of the cell-free supernatants were determined using an enzyme-linked immunosorbent assay. The cell lysates and nuclear extracts were prepared for immunoblot analysis. HA binding to ICAM-1 was evaluated by fluorescence microscopic analysis. Results. Stimulation of U937 macrophages with LPS enhanced PGE. 2. production in association with increased protein levels of cyclooxygenase-2 (COX-2). Pretreatment with HA of 2,700 kDa resulted in suppression of LPS-induced COX-2, leading to a decrease in PGE. 2. production. While LPS activated NF-κB pathway, inhibition studies using BAY11-7085 revealed the requirement of NF-κB for LPS-stimulated PGE. 2. production. HA down-regulated the phosphorylation and nuclear translocation of NF-κB by LPS. Fluorescence cytochemistry demonstrated that HA bound to ICAM-1 on U937 macrophages. Anti-ICAM-1 antibody reversed the inhibitory effects of HA on LPS-activated PGE. 2. , COX-2, and NF-κB. Conclusion. These results clearly demonstrated that HA suppressed LPS-stimulated PGE2 production via ICAM-1 through down-regulation of NF-κB. Clinical administration of high molecular weight HA into RA joints may decrease PGE2 production by activated macrophages, which could result in improvement of arthritic pain


Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_II | Pages 392 - 392
1 Jul 2008
Devitt B Byrne A Patricelli A Murray D O’Byrne J Doran P
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Wear debris is a key factor in the pathophysiology of aseptic loosening of orthopaedic endoprostheses. Cobalt-chromium-molybdenum (Co-CrMo) alloys are used for metal-metal hip implants due to their enhanced wear resistance profiles. Whilst these alloys have widespread clinical application, little is known about their direct effect on osteoblast biology. To address this issue, in this study we have investigated particle-mediated inflammation, as a putative mechanism of aseptic loosening. The effects of Co2+ ions on the bone cellular milieu were assessed in vitro by profiling of classical inflammatory mediators. The inflammatory driver PGE2 was quantified and found to be increased, following osteoblast stimulation with metal ions, suggesting the initiation of a local inflammatory response to metal particle exposure. To determine the biological import of this molecular event, the role of metal ions in recruiting inflammatory cells by chemokine production was assessed. These data demonstrated significant induction of the chemokines, IL-8 and MCP-1 following both 12 and 24 hour exposure to 10ppm of Co2+. In this study, we demonstrate that Co2+ particles can rapidly induce chemotactic cytokines, IL-8 and MCP-1 early stress-responsive chemokines that function in activation and chemotaxis of monocytes, and PGE2, which stimulates bone resorption. We have shown that this induction occurs at a transcriptional level with significantly increased mRNA levels. These data lend further weight to the hypothesis that wear mediated osteolysis, is due, at least in part, to underlying chronic inflammation


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_III | Pages 244 - 244
1 Jul 2011
Mwale F Wang HT Girard-Lauriault P Wertheimer MR Antoniou J Petit A
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Purpose: Recent evidence indicates that a major drawback of current cartilage and intervertebral disc (IVD) tissue engineering is that human mesenchymal stem cells (MSCs) from osteoarthritic patients rapidly express type X collagen (COL10A1), a marker of late-stage chondrocyte hypertrophy associated with endochondral ossification. We recently discovered that a novel atmospheric-pressure plasma-polymerized thin film substrate, named “nitrogen-rich plasma-polymerized ethylene” (PPE:N), is able to inhibit COL10A1 expression in committed MSCs. However, the cellular mechanisms implicated in the inhibition of COL10A1 expression by PPE:N surfaces are unknown. Method: Human mesenchymal stem cells (MSCs) were obtained from aspirates from the intramedullary canal of donors (60–80 years of age) undergoing total hip replacement for osteoarthritis. Bone marrow aspirates were processed and MSCs were cultured on commercial polystyrene (PS control) and on PPE:N surfaces in the presence of different kinases and cyclooxygenase inhibitors for 3 days. Total RNA was extracted with TRIzol reagent (Invitrogen, Burlington, ON) and the expression of COL10A1, cyclooxygenase-1 (COX-1), and 5-lipoxygenase (5-LOX) genes was measured by real-time quantitative RT-PCR. Results: Results showed that a non-specific inhibitor of cyclooxygenases reduced the expression of COL10A1. In contrast, inhibitors of protein kinases stimulated the expression of COL10A1. Furthermore, potent and selective inhibitors of COX-1 and 5-LOX also reduced the expression of COL10A1. However, COX-2 and 12-LOX inhibitors had no significant effect on the expression of COL10A1. COX-1 gene expression was also decreased when MSCs were incubated on “S5” PPE:N surfaces. Interestingly, MSCs did not express 5-LOX. Conclusion: PPE:N surfaces suppress COL10A1 expression through the inhibition of COX-1 which is directly implicated in the synthesis of prostaglandins. The decreased expression of COX-1 and COL10A1 in human MSCs cultured on PPE:N is therefore in agreement with the induction of the osteogenic capacity of rat bone marrow and bone formation by systemic or local injection of PGE2 in rats. However, PGE2 and other prostaglandins inhibited COL10A1 expression in chick growth plate chondrocytes. This suggests that the effect of prostaglandins on COL10A1 expression may be cell-specific or may be dependent on pre-existing patho-physiological conditions


Bone & Joint Research
Vol. 11, Issue 7 | Pages 439 - 452
13 Jul 2022
Sun Q Li G Liu D Xie W Xiao W Li Y Cai M

Osteoarthritis (OA) is a highly prevalent degenerative joint disorder characterized by joint pain and physical disability. Aberrant subchondral bone induces pathological changes and is a major source of pain in OA. In the subchondral bone, which is highly innervated, nerves have dual roles in pain sensation and bone homeostasis regulation. The interaction between peripheral nerves and target cells in the subchondral bone, and the interplay between the sensory and sympathetic nervous systems, allow peripheral nerves to regulate subchondral bone homeostasis. Alterations in peripheral innervation and local transmitters are closely related to changes in nociception and subchondral bone homeostasis, and affect the progression of OA. Recent literature has substantially expanded our understanding of the physiological and pathological distribution and function of specific subtypes of neurones in bone. This review summarizes the types and distribution of nerves detected in the tibial subchondral bone, their cellular and molecular interactions with bone cells that regulate subchondral bone homeostasis, and their role in OA pain. A comprehensive understanding and further investigation of the functions of peripheral innervation in the subchondral bone will help to develop novel therapeutic approaches to effectively prevent OA, and alleviate OA pain.

Cite this article: Bone Joint Res 2022;11(7):439–452.


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_I | Pages 30 - 30
1 Jan 2003
Burke J Watson R McCormack D Fitzpatrick J McManus F Dowling F Walsh M
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The pathophysiology of discogenic low back pain is poorly understood. The morphological changes occurring in disc degeneration are well documented but unhelpful in determining if a particular degenerate disc will be painful or not. Herniated intervertebral disc tisssue has been shown to produce a number of pro-inflammatory mediators and cytokines. No similar studies have to date been done utilising disc material from patients with discogenic low back pain. The aim of this study was to compare levels of production of interleukin-6 (IL-6), interleukin-8 (IL-8) and Prostaglandin E2 (PGE2) in disc tissue from patients undergoing discectomy for sciatica with that from patients undergoing fusion for discogenic low back pain. Tissue from 50 patients undergoing discectomy for sciatica and 20 patients undergoing fusion for discogenic low back pain was cultured and the medium harvested for subsequent analysis using an enzyme linked immunoabsorbent assay method. Statistical analysis of the results was performed using the Mann-Whitney test. Disc specimens from both experimental groups produced measurable levels of all three mediators. Mean production of IL-6, IL-8 and PGE2 in the sciatica group was 26.2±75.7, 247±573 and 2255±3974 respectively. Mean production of IL-6, IL-8 and PGE2 in the low back pain group was 92±154, 776±987 and 3221±3350 respectively (data = mean production pg/ml ± 1 standard deviation). There was a statistically significant difference between the levels of IL-6 and IL-8 production in the sciatica and low back pain groups (p< 0.006 and p< 0.003 respectively). The high levels of pro-inflammatory mediator production found in disc tissue from patients undergoing fusion for discogenic LBP may indicate that nucleus pulposis pro-inflammatory mediator production is a major factor in the genesis of a painful lumbar disc. This could explain why some degenerate discs cause LBP while other morphologically similar discs do not


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_III | Pages 235 - 235
1 Sep 2005
Walsh A Watson RW Moroney P McCormack D Fitzpatrick M
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Study Design: The effects of heat on porcine intertvertebral disc were studied experimentally. Objective: To assess the effects of in-vitro heating of porcine nucleus pulposus on expression of inducible heat shock protein 70 and subsequent modification of biochemical responses to an inflammatory insult in the heated intervertebral disc tissue. Subjects: Lumbar spines were harvested from six pigs. The nucleus pulposus was dissected from each intervertebral disc, divided into control (37°C) and heat shocked (42°C) groups then cultured in medium for one hour. All samples were then cultured at 37 C for a further two hours. After three hours tissue and supernatant were harvested from one third of the samples and the expression of inducible heat shock protein 70 (HSP70) was quantified via Western immunoblotting and enzyme linked immuno-sorbent assay (ELISA). The remaining samples were cultured either in normal medium or altered (pro-inflammatory) medium containing 5ug/ml bacterial lipopolysaccharide (LPS). At 24 hours the supernatant from these samples was analysed for both interleukin-8 (IL-8) and prostaglandin E2 (PGE2) secretion using ELISA. Outcome Measures: Western immunoblotting and enzyme linked immuno-sorbent assay (ELISA) for heat shock protein 70. ELISA for interleukin-8 (IL-8) and prostaglandin E2 (PGE2). Results: HSP70 expression was significantly increased in the heat shocked specimens. IL-8 and PGE2 secretion were significantly increased in nucleus pulposus exposed to LPS at both temperatures. The concentrations of IL-8 and PGE2 secreted in the heat shocked samples were significantly less than controls, particularly after exposure to LPS (p< 0.05, paired students t test). Conclusions: In vitro heating of porcine nucleus pulposus causes overexpression of HSP70. This heat shock effect can alter aspects of the biochemical response of the intervertebral disc tissue to an inflammatory insult. Intradiscal electrothermal therapy (IDET) may, in theory, reduce discogenic pain at temperatures as low as 42°C by generating similar heat-induced changes in the nuclear biochemistry of degenerate intervertebral discs


Orthopaedic Proceedings
Vol. 84-B, Issue SUPP_II | Pages 126 - 126
1 Jul 2002
Mulhall K Kelly P Curtin W Given H
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The authors wished to determine if macrophage activation and the release of osteolytic cytokines in response to orthopaedic wear debris could be suppressed pharmacologically with the use of anti-inflammatory and anti-oxidant agents. The current long-term results of total joint arthroplasty are limited by mechanical wear of the implants with an associated immune mediated bone lysis with subsequent loosening and eventual failure. It has been demonstrated that the osteolysis seen in cases of aseptic loosening is mediated by the immune system both directly and indirectly by activated macrophages. Macrophages indirectly cause osteolysis through release of the osteoclast activating cytokines TNFα, IL-1 and PGE2. They also directly resorb bone in small amounts when activated by wear particles. We utilised established cell culture models of both peripherally derived monocyte/macrophages and lymphocyte enriched co-cultures and examined the effects of polymethylmethacrylate particles alone on the cells in culture. The effect of anti-inflammatory and anti-oxidant agents (dexamethasone, diclofenac and n-acetyl cysteine) in varying concentrations was then examined using ELISA of cytokine release and electron microscopy to examine ultra structural responses. Cell viability was also measured in cultures over 24 hour periods (at 6, 12 and 24 hours) using Trypan blue exclusion and Coulter counter, while cell type and morphology were determined cytologically, including-naphthyl acetate esterase cytochemical identification and electron microscopy. The use of N-acetyl cysteine was associated with very significant suppression of TNF, IL-1 and PGE2 in both macrophage and lymphocyte enriched co-culture with no effect on cell viability. While diclofenac was also associated with significant decreases in cytokine expression, it was associated with a decrease in cell viability that approached significance. Dexamethasone did not have a reliable effect on these cytokines. Ultra-structural electron microscopic examination of the cells also demonstrated signs of definite down-regulation of cytoplasmic and nuclear activation. Novel anti-oxidant therapies and possibly other immune modulating drugs can eliminate the activation of macrophages in response to periprosthetic wear particles without any associated decrease in cell viability and thus may provide a means of reducing the incidence of loosening and failure of total joint arthroplasty