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Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_I | Pages 78 - 78
1 Mar 2008
Hamdy R Mandu M Kawaguchi M Lauzier D Rauch F
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The different pathways by which bone morphogenetic protein 7 (BMP-7) could exert its osteogenic function in distraction osteogenesis (DO) were investigated. Using immunohistochemistry, the temporal and spatial expression of markers for angiogenesis, cell proliferation, Indian hedgehog pathway, osteogenic growth factors and their receptors were investigated in a rabbit model of DO. Our results showed that local injection of BMP-7 at the lengthened site caused up-regulation of expression of growth factors and their receptors, cell proliferation and vascular markers and Indian hedgehog gene in a temporal fashion. By knowing these pathways, manipulation of DO by pharmaceutical agents may be possible. Based on preliminary data, BMP-7 can accelerate the consolidation of newly formed bone if locally injected early in the distraction phase; however, the exact mechanism remains unknown. The purpose of this study was to investigate the different pathways through which BMP-7 exerts its effects in DO. The right tibia of twenty-four rabbits was lengthened 2.0 cms. The rabbits were divided into three groups : control, placebo and treated groups. The rabbits received no injection (control), buffer (placebo) and 75 micro grams BMP7 (treated) in the distracted zone one week after the start of distraction. The rabbits were sacrificed ten minutes, one day, two days and two weeks following the injections. Using immunohistochemistry, the different pathways of bone formation were assessed by analysing the expression of markers for angiogenesis (VGEF, Vascular Endothelial Growth Factor and PECAM , platelet endothelial cell adhesion molecule) , cell proliferation markers (PCNA, proliferation cell nuclear antigen), osteogenic growth factors (TGFβ, IGF, FGF and their receptors) and Indian hedgehog gene as part of the parathyroid hormone related peptide pathway. BMP-7 may stimulate bone formation through several pathways in a temporal fashion early after local injection, by up-regulating the expression of numerous osteogenic growth factors and their receptors and Indian hedgehog, and late two weeks after the injection, by up-regulating cell proliferation and vascular markers. Our results showed the possible mechanisms of action of BMP-7 in DO and more importantly the various pathways through which pharmacological agents could be used in the manipulation of DO


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_13 | Pages 31 - 31
1 Nov 2021
Barry F
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Osteoarthritis (OA) is a major global disease with increasing prevalence. It is one of the most significant causes of disability worldwide and represents a major burden in terms of healthcare delivery and impact on the quality of life of patients. It is a cause of severe chronic pain and has given rise to alarming levels of opioid use and addiction. Despite this prevalence, there are no disease-modifying treatments which delay or reverse the degrative changes within joints which are characteristics of the disease. All treatments are symptom-modifying with the exception of joint arthroplasty, which is currently the most common surgical procedure carried out in US hospitals. Several pharmaceutical and biological interventions have been tested in recent years, including metalloproteinase inhibitors, chondrogenic agents such as Kartogenin, IL-1 antagonists and monoclonal antibodies. So far, none of these has provided an effective disease-modifying treatment. Cellular therapies have a great deal of promise because of their anti-inflammatory and regenerative effects. Mesenchymal stromal cells (MSCs) have been widely studied as a treatment for OA in preclinical and clinical assessments with generally positive results. As the clinical testing of these cells proceeds serious questions emerge relating to the quality and consistency of the therapeutic product and the need for better standardisation with regard to, for example, the tissue source and expansion conditions. Of equal importance is the need for deeper insight into the therapeutic mechanism, specifically the activity and phenotype of cells transplanted to the OA environment, their fate and interaction with local cells.


Bone & Joint Research
Vol. 2, Issue 12 | Pages 276 - 284
1 Dec 2013
Karlakki S Brem M Giannini S Khanduja V Stannard J Martin R

Objectives. The period of post-operative treatment before surgical wounds are completely closed remains a key window, during which one can apply new technologies that can minimise complications. One such technology is the use of negative pressure wound therapy to manage and accelerate healing of the closed incisional wound (incisional NPWT). . Methods. We undertook a literature review of this emerging indication to identify evidence within orthopaedic surgery and other surgical disciplines. Literature that supports our current understanding of the mechanisms of action was also reviewed in detail. . Results. A total of 33 publications were identified, including nine clinical study reports from orthopaedic surgery; four from cardiothoracic surgery and 12 from studies in abdominal, plastic and vascular disciplines. Most papers (26 of 33) had been published within the past three years. Thus far two randomised controlled trials – one in orthopaedic and one in cardiothoracic surgery – show evidence of reduced incidence of wound healing complications after between three and five days of post-operative NPWT of two- and four-fold, respectively. Investigations show that reduction in haematoma and seroma, accelerated wound healing and increased clearance of oedema are significant mechanisms of action. . Conclusions. There is a rapidly emerging literature on the effect of NPWT on the closed incision. Initiated and confirmed first with a randomised controlled trial in orthopaedic trauma surgery, studies in abdominal, plastic and vascular surgery with high rates of complications have been reported recently. The evidence from single-use NPWT devices is accumulating. There are no large randomised studies yet in reconstructive joint replacement. Cite this article: Bone Joint Res 2013;2:276–84


Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_I | Pages 1 - 1
1 Mar 2010
Galoian K Garamszegi N Garamszegi SP Scully S
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Purpose: Chondrosarcoma is the second most common malignancy in bone and results from unregulated growth of mesenchymal cells.. Chondrosarcoma does not appear to respond either to chemotherapy or radiation. Currently chondrosarcoma has no effective treatment and a new approach to adjuvant therapy for this tumor is urgently needed. We have previously reported that Matrix metalloproteinase -1 (MMP-1)gene expression is an independent predictor of survival in chondrosarcoma.(Scully, 2000). We have reported also that the expression of the large TNC splice variant may correlate with malignancy and poor clinical outcome in human chondrosarcoma and be implicated in the process of basement membrane invasion. The aim of the current study was to confirm that Tenascin-C large splice variant(TNC320) stimulates matrix metalloproteinase-1(MMP-1)expression and invasive potential and to elucidate molecular mechanisms underlying this activation.

Method: The chondrosarcoma cell line was recultured in alginate beads. (Guo et al, 1989)The beads contained exogenous proteins according to design. Alginate beads were dissociated later by chelation and the cells were pelleted by centrifugation. Gel electrophoresis and Western blotting were performed to demonstrate the expression of MMP-1 protein in the cells cultured with treatments. MMP-1 protein was detected by mouse antiMMP-1 monoclonal antibody from Chemicon. QPCR and RT-PCR were used to detect MMP-1mRNA expression with different treatments Transactivation of MMP-1 luc construct was detected in transiently transfected JJ012 human chondrosarcoma cultured cells. Reporter gene, Collagenase, Cell invasion assays and MMP-ELISA were performed for this study.

Results: The analysis of gene expression in cultured cells grown under different condition indicated significant increases of MMP-1mRNA steady-state levels in the cells with TNC 320 treatment. Gel electrophoresis demonstrated augmented MMP-1 protein in cells cultured with TNC 320. The result was confirmed by examining MMP-1 promoter transactivation of 30fold in comparison with control and other treatments. Both invasion and collagenase assays demonstrated 3 fold difference in the cells treated with TNC 320. Experiments with constitutively active expression kinases indicated that MMP-1 expression induced by TN320 was associated with MAPK cascade activation.

Conclusion: Preliminary results presented demonstrate that Tenascin-C 320kda splice variant stimulates MMP-1 expression and involves MAPK pathway. We hypothesize that Tenascin-C stimulates invasive potential of human chondrosarcoma cells via upregulation of MMP-1 expression.


Bone & Joint Research
Vol. 12, Issue 11 | Pages 691 - 701
3 Nov 2023
Dai Z Chen Y He E Wang H Guo W Wu Z Huang K Zhao Q

Aims. Osteoporosis is characterized by decreased trabecular bone volume, and microarchitectural deterioration in the medullary cavity. Interleukin-19 (IL-19), a member of the IL-10 family, is an anti-inflammatory cytokine produced primarily by macrophages. The aim of our study was to investigate the effect of IL-19 on osteoporosis. Methods. Blood and femoral bone marrow suspension IL-19 levels were first measured in the lipopolysaccharide (LPS)-induced bone loss model. Small interfering RNA (siRNA) was applied to knock down IL-19 for further validation. Thereafter, osteoclast production was stimulated with IL-19 in combination with mouse macrophage colony-stimulating factor (M-CSF) and receptor activator of nuclear factor-κB ligand (RANKL). The effect of IL-19 was subsequently evaluated using tartrate-resistant acid phosphatase (TRAP) staining and quantitative real-time polymerase chain reaction (RT-qPCR). The effect of IL-19 on osteoprotegerin (OPG) was then assessed using in vitro recombinant IL-19 treatment of primary osteoblasts and MLO-Y4 osteoblast cell line. Finally, transient transfection experiments and chromatin immunoprecipitation (ChIP) experiments were used to examine the exact mechanism of action. Results. In the LPS-induced bone loss mouse model, the levels of IL-19 in peripheral blood serum and femoral bone marrow suspension were significantly increased. The in vivo results indicated that global IL-19 deletion had no significant effect on RANKL content in the serum and bone marrow, but could increase the content of OPG in serum and femoral bone marrow, suggesting that IL-19 inhibits OPG expression in bone marrow mesenchymal stem cells (BMSCs) and thus increases bone resorption. Conclusion. IL-19 promotes bone resorption by suppressing OPG expression in BMSCs in a LPS-induced bone loss mouse model, which highlights the potential benefits and side effects of IL-19 for future clinical applications. Cite this article: Bone Joint Res 2023;12(11):691–701


Bone & Joint Research
Vol. 12, Issue 3 | Pages 189 - 198
7 Mar 2023
Ruiz-Fernández C Ait Eldjoudi D González-Rodríguez M Cordero Barreal A Farrag Y García-Caballero L Lago F Mobasheri A Sakai D Pino J Gualillo O

Aims. CRP is an acute-phase protein that is used as a biomarker to follow severity and progression in infectious and inflammatory diseases. Its pathophysiological mechanisms of action are still poorly defined. CRP in its pentameric form exhibits weak anti-inflammatory activity. The monomeric isoform (mCRP) exerts potent proinflammatory properties in chondrocytes, endothelial cells, and leucocytes. No data exist regarding mCRP effects in human intervertebral disc (IVD) cells. This work aimed to verify the pathophysiological relevance of mCRP in the aetiology and/or progression of IVD degeneration. Methods. We investigated the effects of mCRP and the signalling pathways that are involved in cultured human primary annulus fibrosus (AF) cells and in the human nucleus pulposus (NP) immortalized cell line HNPSV-1. We determined messenger RNA (mRNA) and protein levels of relevant factors involved in inflammatory responses, by quantitative real-time polymerase chain reaction (RT-qPCR) and western blot. We also studied the presence of mCRP in human AF and NP tissues by immunohistochemistry. Results. We demonstrated that mCRP increases nitric oxide synthase 2 (NOS2), cyclooxygenase 2 (COX2), matrix metalloproteinase 13 (MMP13), vascular cell adhesion molecule 1 (VCAM1), interleukin (IL)-6, IL-8, and Lipocalin 2 (LCN2) expression in human AF and NP cells. We also showed that nuclear factor-κβ (NF-κβ), extracellular signal-regulated kinase 1/2 (ERK1/2), and phosphoinositide 3-kinase (PI3K) are at play in the intracellular signalling of mCRP. Finally, we demonstrated the presence of mCRP in human AF and NP tissues. Conclusion. Our results indicate, for the first time, that mCRP can be localized in IVD tissues, where it triggers a proinflammatory and catabolic state in degenerative and healthy IVD cells, and that NF-κβ signalling may be implicated in the mediation of this mCRP-induced state. Cite this article: Bone Joint Res 2023;12(3):189–198


Bone & Joint Open
Vol. 3, Issue 4 | Pages 340 - 347
22 Apr 2022
Winkler T Costa ML Ofir R Parolini O Geissler S Volk H Eder C

Aims. The aim of the HIPGEN consortium is to develop the first cell therapy product for hip fracture patients using PLacental-eXpanded (PLX-PAD) stromal cells. Methods. HIPGEN is a multicentre, multinational, randomized, double-blind, placebo-controlled trial. A total of 240 patients aged 60 to 90 years with low-energy femoral neck fractures (FNF) will be allocated to two arms and receive an intramuscular injection of either 150 × 10. 6. PLX-PAD cells or placebo into the medial gluteal muscle after direct lateral implantation of total or hemi hip arthroplasty. Patients will be followed for two years. The primary endpoint is the Short Physical Performance Battery (SPPB) at week 26. Secondary and exploratory endpoints include morphological parameters (lean body mass), functional parameters (abduction and handgrip strength, symmetry in gait, weightbearing), all-cause mortality rate and patient-reported outcome measures (Lower Limb Measure, EuroQol five-dimension questionnaire). Immunological biomarker and in vitro studies will be performed to analyze the PLX-PAD mechanism of action. A sample size of 240 subjects was calculated providing 88% power for the detection of a 1 SPPB point treatment effect for a two-sided test with an α level of 5%. Conclusion. The HIPGEN study assesses the efficacy, safety, and tolerability of intramuscular PLX-PAD administration for the treatment of muscle injury following arthroplasty for hip fracture. It is the first phase III study to investigate the effect of an allogeneic cell therapy on improved mobilization after hip fracture, an aspect which is in sore need of addressing for the improvement in standard of care treatment for patients with FNF. Cite this article: Bone Jt Open 2022;3(4):340–347


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_2 | Pages 141 - 141
2 Jan 2024
Ruiz-Fernández C Eldjoudi D Gonzalez-Rodríguez M Barreal A Farrag Y Mobasheri A Pino J Sakai D Gualillo O
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Monomeric C reactive protein (mCRP) presents important proinflammatory effects in endothelial cells, leukocytes, or chondrocytes. However, CRP in its pentameric form exhibits weak anti-inflammatory activity. It is used as a biomarker to follow severity and progression in infectious or inflammatory diseases, such as intervertebral disc degeneration (IVDD). This work assesses for the first time the mCRP effects in human intervertebral disc cells, trying to verify the pathophysiological relevance and mechanism of action of mCRP in the etiology and progression of IVD degeneration. We demonstrated that mCRP induces the expression of multiple proinflammatory and catabolic factors, like nitric oxide synthase 2 (NOS2), cyclooxygenase 2 (COX2), matrix metalloproteinase 13 (MMP13), vascular cell adhesion molecule 1 (VCAM1), interleukin (IL)-6, IL-8, and lipocalin 2 (LCN2), in human annulus fibrosus (AF) and nucleus pulposus (NP) cells. We also showed that nuclear factor-κβ (NF-κβ), extracellular signal-regulated kinase 1/2 (ERK1/2), and phosphoinositide 3-kinase (PI3K) are at play in the intracellular signaling of mCRP. Our results indicate that the effect of mCRP is persistent and sustained, regardless of the proinflammatory environment, as it was similar in healthy and degenerative human primary AF cells. This is the first article that demonstrates the localization of mCRP in intravertebral disc cells of the AF and NP and that provides evidence for the functional activity of mCRP in healthy and degenerative human AF and NP disc cells


Aims. In this investigation, we administered oxidative stress to nucleus pulposus cells (NPCs), recognized DNA-damage-inducible transcript 4 (DDIT4) as a component in intervertebral disc degeneration (IVDD), and devised a hydrogel capable of conveying small interfering RNA (siRNA) to IVDD. Methods. An in vitro model for oxidative stress-induced injury in NPCs was developed to elucidate the mechanisms underlying the upregulation of DDIT4 expression, activation of the reactive oxygen species (ROS)-thioredoxin-interacting protein (TXNIP)-NLRP3 signalling pathway, and nucleus pulposus pyroptosis. Furthermore, the mechanism of action of small interfering DDIT4 (siDDIT4) on NPCs in vitro was validated. A triplex hydrogel named siDDIT4@G5-P-HA was created by adsorbing siDDIT4 onto fifth-generation polyamidoamine (PAMAM) dendrimer using van der Waals interactions, and then coating it with hyaluronic acid (HA). In addition, we established a rat puncture IVDD model to decipher the hydrogel’s mechanism in IVDD. Results. A correlation between DDIT4 expression levels and disc degeneration was shown with human nucleus pulposus and needle-punctured rat disc specimens. We confirmed that DDIT4 was responsible for activating the ROS-TXNIP-NLRP3 axis during oxidative stress-induced pyroptosis in rat nucleus pulposus in vitro. Mitochondria were damaged during oxidative stress, and DDIT4 contributed to mitochondrial damage and ROS production. In addition, siDDIT4@G5-P-HA hydrogels showed good delivery activity of siDDIT4 to NPCs. In vitro studies illustrated the potential of the siDDIT4@G5-P-HA hydrogel for alleviating IVDD in rats. Conclusion. DDIT4 is a key player in mediating pyroptosis and IVDD in NPCs through the ROS-TXNIP-NLRP3 axis. Additionally, siDDIT4@G5-P-HA hydrogel has been found to relieve IVDD in rats. Our research offers an innovative treatment option for IVDD. Cite this article: Bone Joint Res 2024;13(5):247–260


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 105 - 105
2 Jan 2024
Im G
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Extensive bone defects, caused by severe trauma or resection of large bone tumors, are difficult to treat. Regenerative medicine, including stem cell transplantation, may provide a novel solution for these intractable problems and improve the quality of life in affected patients. Adipose-derived stromal/stem cells (ASCs) have been extensively studied as cell sources for regenerative medicine due to their excellent proliferative capacity and the ability to obtain a large number of cells with minimal donor morbidity. However, the osteogenic potential of ASCs is lower than that of bone marrow-derived stromal/stem cells. To address this disadvantage, our group has employed various methods to enhance osteogenic differentiation of ASCs, including factors such as bone morphogenetic protein or Vitamin D, coculture with bone marrow stem cells, VEGF transfection, and gene transfer of Runx-2 and osterix. Recently, we mined a marker that can predict the osteogenic potential of ASC clones and also investigated the usefulness of the molecule as the enhancer of osteogenic differentiation of ASCs as well as its mechanism of action. Through RNA-seq gene analysis, we discovered that GSTT1 was the most distinguished gene marker between highly osteogenic and poorly osteogenic ASC clones. Knockdown of GSTT1 in high osteogenic ASCs by siGSTT1 treatment reduced mineralized matrix formation while GSTT1 overexpression by GSTT1 transfection or GSTT1 recombinant protein treatment enhanced osteogenic differentiation of low osteogenic ASCs. Metabolomic analysis confirmed significant changes of metabolites related to bone differentiation in ASCs transfected with GSTT1. A high total antioxidant capacity, low levels of cellular reactive oxygen species and increased GSH/GSSG ratios were also detected in GSTT1- transfected ASCs. GSTT1 can be a useful marker to screen the highly osteogenic ASC clones and also a therapeutic factor to enhance the osteogenic differentiation of poorly osteogenic ASC clones


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 136 - 136
2 Jan 2024
Seah M Birch M Moutsopoulos I Mohorianu I McCaskie A
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Despite osteoarthritis (OA) representing a large burden for healthcare systems, there remains no effective intervention capable of regenerating the damaged cartilage in OA. Mesenchymal stromal cells (MSCs) are adult-derived, multipotent cells which are a candidate for musculoskeletal cell therapy. However, their precise mechanism of action remains poorly understood. The effects of an intra-articular injection of human bone-marrow derived MSCs into a knee osteochondral injury model were investigated in C57Bl/6 mice. The cell therapy was retrieved at different time points and single cell RNA sequencing was performed to elucidate the transcriptomic changes relevant to driving tissue repair. Mass cytometry was also used to study changes in the mouse immune cell populations during repair. Histological assessment reveals that MSC treatment is associated with improved tissue repair in C57Bl/6 mice. Single cell analysis of retrieved human MSCs showed spatial and temporal transcriptional heterogeneity between the repair tissue (in the epiphysis) and synovial tissue. A transcriptomic map has emerged of some of the distinct genes and pathways enriched in human MSCs isolated from different tissues following osteochondral injury. Several MSC subpopulations have been identified, including proliferative and reparative subpopulations at both 7 days and 28 days after injury. Supported by the mass cytometry results, the immunomodulatory role of MSCs was further emphasised, as MSC therapy was associated with the induction of increased numbers of regulatory T cells correlating with enhanced repair in the mouse knee. The transcriptomes of a retrieved MSC therapy were studied for the first time. An important barrier to the translation of MSC therapies is a lack of understanding of their heterogeneity, and the consequent lack of precision in its use. MSC subpopulations with different functional roles may be implicated in the different phases of tissue repair and this work offers further insights into repair process


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_18 | Pages 72 - 72
14 Nov 2024
Uvebrant K Andersen C Lim HC Vonk L Åkerlund EL
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Introduction. Homogenous and consistent preparations of mesenchymal stem cells (MSCs) can be acquired by selecting them for integrin α10β1 (integrin a10-MSCs). Safety and efficacy of intra-articular injection of allogeneic integrin a10-MSCs were shown in two post-traumatic osteoarthritis horse studies. The current study investigated immunomodulatory capacities of human integrin a10-MSCs in vitro and their cell fait after intra-articular injection in rabbits. Method. The concentration of produced immunomodulatory factors was measured after licensing integrin a10-MSCs with pro-inflammatory cytokines. Suppression of T-cell proliferation was determined in co-cultures with carboxyfluorescein N-succinimidyl ester (CFSE) labelled human peripheral blood mononuclear cells (PBMCs) stimulated with anti-CD3/CD28 and measuring the CFSE intensity of CD4+ cells. Macrophage polarization was assessed in co-cultures with differentiated THP-1 cells stimulated with lipopolysaccharide and analysing the M2 macrophage cell surface markers CD163 and CD206. In vivo homing and regeneration were investigated by injecting superparamagnetic iron oxide nanoparticles conjugated with Rhodamine B-labeled human integrin a10-MSCs in rabbits with experimental osteochondral defects. MSC distribution in the joint was followed by MRI and fluorescence microscopy. Result. The production of the immunomodulatory factors indoleamine 2,3-dioxygenase and prostaglandin E2 was increased after inflammatory licensing integrin a10-MSCs. Co-cultures with integrin a10-MSCs suppressed T-cell proliferation and increased the frequency of M2 macrophages. In vivo injected integrin a10-MSCs homed to osteochondral defects and were detected in the repair tissue of the defects up to 10 days after injection, colocalized with aggrecan and type II collagen. Conclusion. This study showed that human integrin a10-MSCs have immunomodulatory capacities and in vivo can home to the site of osteochondral damage and directly participate in cartilage regeneration. This suggests that human integrin α10β1-selected MSCs may be a promising therapy for osteoarthritis with dual mechanisms of action consisting of immunomodulation and homing to damage followed by early engraftment and differentiation into chondrocyte-like cells that deposit hyaline cartilage matrix molecules


Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_9 | Pages 5 - 5
1 Sep 2019
Greenwood J Hurley M McGregor A Jones F
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Purpose. The behavioural change wheel methodology and social cognitive theory were combined to inform and develop a rehabilitation programme following lumbar fusion surgery (REFS). This qualitative study evaluated participant's experiences of lumbar fusion surgery, including REFS, to identify valued programme content (‘active ingredients’). Background. A feasibility-RCT suggested REFS achieved a meaningful impact in disability and pain self-efficacy compared to ‘usual care’ (p=0.014, p=0.007). In keeping with MRC guidance a qualitative evaluation was undertaken to understand possible mechanisms of action. Methods. Thematic analysis was utilised on data from semi-structured, face-to-face interviews, in a purposive sample (REFS n=10, ‘usual care’ n=10). Results. Three themes (8 sub-themes) were identified, which illuminated the experiences of 1) the impact of living with a chronic lumbar disorder 2) reflections on recovery, and 3) the experience of rehabilitation with(out) REFS. REFS participants identified valued programme content including the opportunity for vicarious learning, the shared rehabilitation experience, and expert physiotherapy. They were unable to identify pre-eminent programme content, in keeping with inter-dependent ‘active ingredients’. Abstraction with the overarching theme of ‘loss of self’ was evident for analysis across all themes. Conclusion. In conclusion the findings were theoretically congruous with other published works e.g. recent mega-ethnographic review of patients experience of chronic non-malignant pain. Two emergent areas were identified to inform future REFS iterations and better understand potential mechanisms of action. 1-Participants fear of harm appears directly attributable to the instillation of metalware, this association is mediated by inadequate advice. 2-Lumbar fusion surgery is not perceived as elective. No conflicts of interest. Funding; NIHR (Doctoral fellowship, awarded to J Greenwood)


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_13 | Pages 52 - 52
1 Nov 2021
Lotz J
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Chronic low back pain (cLBP) is a complex, multifaceted disorder where biological, psychological, and social factors affect its onset and trajectory. Consequently, cLBP encompasses many different disease variants, with multiple patient-specific mechanisms. The goal of NIH Back Pain Consortium (BACPAC) Research Program is to develop understanding of cLBP mechanisms and to develop algorithms that optimally match specific treatments to individual patients. To accomplish this, one research activity of BACPAC is to develop theoretical models for chronic low back pain based on the current state of knowledge in the scientific community, and to interrogate the relationships implied by the theoretical models using data generated by or available to BACPAC. The models consider biopsychosocial perspectives, and encompass both peripheral (i.e. low back) and central (i.e. spinal and supra-spinal) factors as well as proposed mechanisms of action of cLBP treatments. However, absent explanations, models/algorithms may fall short of regulatory requirements and clinician expectations, and ultimately may not be embraced by physicians and patients. To address this, BACPAC is developing a clinical utility roadmap (CUR) to clarify how models will be used in practice for selecting optimal treatments, monitoring response to treatment, and reducing health care utilization. This presentation will review the goals of BACPAC and how theoretical models and CUR are being used to support computational knowledge networks to integrate data from deeply phenotyped cLBP patients


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_15 | Pages 79 - 79
1 Dec 2021
Souche A Kolenda C Schuch R Ferry T Laurent F Josse J
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Aim. Staphylococcus epidermidis (S. epidermidis) is one of the main pathogens responsible for bone and joint infections especially those involving prosthetic materials (PJI). Although less virulent than S. aureus, S. epidermidis is involved in chronic infections notably due to its ability to form biofilm. Moreover, it is frequently multiresistant to antibiotics. In this context, the development of additional or alternative antibacterial therapies targeting the biofilm is a priority. Method. The aim of this study was to evaluate in vitro the activity of phage lysin exebacase (CF-301) against biofilms formed by 19 S. epidermidis clinical strains responsible for PJI. We determined the remaining viable bacteria inside the biofilm (counting after serial dilution and plating) and the biomass (bacteria and extracellular matrix, using crystal violet staining) after 24h of exposition to exebacase at different concentrations, alone (0.05; 0.5; 5; 50 and 150 mg/L) or in combination (5, 50 and 150 mg/L) with antibiotics commonly used to treat multi-resistant S. epidermidis PJI (rifampin (1 mg/L), vancomycin (10mg/L) and daptomycin (10mg/L)). In this study, synergy was defined as a significantly higher effect of the association in comparison to the sum of the effect of each molecule. Results. Exebacase showed a dose-dependent reduction of biomass, ranging from 11 % at 0.5 mg/L to 66 % at 150 mg/L. Exebacase showed a significant bactericidal activity at 50 and 150 mg/l, with a mean decrease of the inoculum of 0.94 and 1.7 log, respectively. In addition, synergistic effects were observed in association with i) rifampin (1 mg/L) showing a mean decrease up to 84% of the biomass and 3.5 log CFU at 150 mg/L of exebacase, ii) vancomycin (10 mg/L) showing a mean decrease up to 81% of the biomass and 2.82 log CFU at 150 mg/L of exebacase, iii) and daptomycin (10 mg/L) showing a mean decrease up to 85% of the biomass and 3.1 log CFU at 150 mg/L of exebacase. Conclusions. Exebacase showed, in vitro, synergistic activity with antibiotics against S. epidermidis biofilms. It is a promising adjuvant therapy to rifampin, vancomycin and daptomycin in the context of PJI. Further studies are needed, in vitro to understand the mechanism of action on S. epidermidis biofilm and the heterogeneity of strain behaviour and in vivo to confirm the present data


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_13 | Pages 150 - 150
1 Nov 2021
Ragni E Viganò M Orfei CP Colombini A De Luca P Libonati F de Girolamo L
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Introduction and Objective. Hyaluronic acid (HA) is an effective option for the treatment of osteoarthritis (OA) patients due to several properties such as normalization of the mechanical and rheological properties of the synovial fluid and amelioration of OA symptoms and joints function by promoting cartilage nutrition. Since OA progression is also significantly related to oxidative stress and reactive oxygen species (ROS), sodium succinate (SS) is envisioned as a promising compound for cartilage treatment by providing antioxidant defense able to normalize intracellular metabolism and tissue respiration via mitochondrial mechanism of action. The scope of this study was to investigate on an in vitro inflammatory model the efficacy of Diart. ®. product, a combination of HA and SS. Materials and Methods. Donor-matched chondrocytes and synoviocytes were obtained from KL 3–4 OA patients undergoing total knee replacement. At passage 4, inflammation was promoted with 1 ng/ml IL-1B for 48 hours in absence and presence of Diart. ®. at 1:3 dilution rate. Nitric oxide (NO) from cell culture supernatant was measured by Griess reaction. Mitochondrial and cytoplasmatic ROS evaluation was assessed by flow cytometry with MitoSox and dichlorodihydrofluorescein diacetate (DCFDA) assays. Gene expression of inflammation/oxidative stress-related transcripts (MMP1/MMP3/INOS/COX2) was evaluated by qRT-PCR using TBP as reference. Results. NO was detected only in inflamed chondrocytes and Diart® was able to abolish its levels. NO was not detected in synoviocytes in all conditions. IL-1B reduced both cytoplasmic (−66%) and mitochondrial (−68%) ROS in chondrocytes, with Diart® partially restoring (+40%) mitochondrial levels. In synoviocytes, IL-1B did not alter ROS, with Diart® modestly increasing (+27%) mitochondrial levels. Inflammation was able to increase transcript levels of all tested markers, with the exception of INOS in synoviocytes. In chondrocytes, Diart® significantly (p < 0.05) reduced COX2 (−75%) and MMP1 (−33%). In synoviocytes, Diart® significantly reduced COX2 (−77%) and MMP3 (−84%), with MMP1 53% decreased albeit without reaching statistical significance. Conclusions. Diart. ®. biochemical and physiologic properties in the tested in vitro model of inflammation on donor-matched chondrocytes and synoviocytes allowed reducing inflammation and oxidative stress-related markers, prompting the use of this combination as successful strategy to manage OA-related symptoms


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_15 | Pages 109 - 109
1 Nov 2018
Barry F
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Osteoarthritis (OA) of the spine and diarthrodial joints is by far the most common cause of chronic disability in people over 50 years of age. The disease has a striking impact on quality of life and represents an enormous societal and economic cost, a burden that will increase greatly as populations age. OA is a complex condition with broad pathology. Damage to the articular cartilage is a consistent feature, accompanied by changes to the subchondral bone and synovium. Progression of the disease involves further degeneration of the articular cartilage, damage to the underlying bone and morphological changes that include subchondral bone thickening, development of cysts, osteophytes and inflammation of the synovium. Enhanced production of proinflammatory cytokines and matrix metalloproteinases accelerates degradation of the articular cartilage. It is striking that no approved pharmacological intervention, biological therapy or procedure prevents the progressive destruction of the OA joint. All current treatments, without exception, produce symptomatic rather than regenerative results. While there have been some exciting developments in the search for OA treatments in the last decade, including matrix metalloproteinase inhibitors, anti-TNF and anti-IL1 drugs for example, none of these has to date emerged as an effective medicinal product. There is thus an urgent and compelling need to identify, validate and test new biological therapeutics. Stromal cell therapy represents one such compelling approach. The results from several early clinical studies have indicated that this approach holds a great deal of promise for the treatment of OA. Most studies have involved direct intraarticular injection of a suspension of mesenchymal stromal cells (MSCs) for treatment of knee OA. Results from a number of controlled patient studies have suggested that this treatment results in an effective repair response. Although data regarding mechanism of action are limited, it appears that the cells have an anti-inflammatory effect, possibly targeting cells within the synovium, rather than a direct cartilage repair effect. Several recent reports have highlighted a dramatic and sustained response in patients receiving MSC treatment. For example, allogeneic expanded adipose-derived MSCs have been shown to be safe and effective in the treatment of complex perianal fistulas in Crohn's disease. Also, allogeneic bone marrow-derived MSCs has a been shown to have a positive effect in pediatric acute graft versus host disease. These observations point to a mechanism of action that involves host immunomodulation, but this needs further examination. Within the field of musculoskeletal disease effective translation of MSC technology has been hindered by a lack of randomized controlled patient studies, severe inconsistencies regarding the preparation and characterization of the cell product, and an incomplete understanding of the therapeutic mechanism. Direct to consumer clinics have flourished in some countries, providing cell treatments to OA patients. Most or all of these utilize unexpanded cell fractions from marrow or fat without even rudimentary product characterization and may report an exaggerated clinical outcome. Data from these clinics is not likely to yield information that will be useful. In fact, a recent systemic review of clinical trials involving MSC treatment in OA indicated that only a limited number of studies provided high quality evidence and long term follow up. Many suffered from a lack of consistency, including a diversity of methods for MSC preparation, and thus did not contribute to a supporting evidence base. There is a compelling need to provide clear and unambiguous clinical proof of concept relating to MSC treatment for OA. The ADIPOA2 study, currently active in Europe, will go some way towards achieving this. This is a 150 patient, phase 2b study designed to to assess the efficacy of a single injection of autologous adipose-derived MSCs in the treatment of mild to moderate OA of the knee, active and unresponsive to conservative therapy for at least 12 months


Bone & Joint Research
Vol. 10, Issue 4 | Pages 237 - 249
1 Apr 2021
Chen X Chen W Aung ZM Han W Zhang Y Chai G

Aims. LY3023414 is a novel oral phosphatidylinositol 3-kinase (PI3K)/mammalian target of rapamycin (mTOR) dual inhibitor designed for advanced cancers, for which a phase II clinical study was completed in March 2020; however, little is known about its effect on bone modelling/remodelling. In this study, we aimed to explore the function of LY3023414 in bone modelling/remodelling. Methods. The function of LY3023414 was explored in the context of osteogenesis (bone formation by osteoblasts) and osteoclastogenesis (osteoclast formation and bone resorption). Murine preosteoblast MC3T3-E1 cell line and murine bone marrow-derived macrophage cells (BMMs) were subjected to different treatments. An MTS cell proliferation assay was used to examine the cytotoxicity. Thereafter, different induction conditions were applied, such as MCSF and RANKL for osteoclastogenesis and osteogenic media for osteogenesis. Specific staining, a bone resorption assay, and quantitative real-time polymerase chain reaction (qRT-PCR) were subsequently used to evaluate the effect of LY3023414. Moreover, small interfering RNA (siRNA) was applied to knockdown Akt1 or Akt2 for further validation. Lastly, western blot was used to examine the exact mechanism of action. Results. LY3023414 attenuated PI3K/protein kinase B (Akt)/GSK3-dependent activation of β-catenin and nuclear factor-activated T cell 1 (NFATc1) during osteogenesis and osteoclastogenesis, respectively. LY3023414 mainly inhibited osteoclast formation instead of mature osteoclast function. Moreover, it suppressed osteogenesis both in the early stage of differentiation and late stage of calcification. Similarly, gene knockdown of Akt isoforms by siRNA downregulated osteogenic and osteoclastogenic processes, indicating that Akt1 and Akt2 acted synergistically. Conclusion. LY3023414 can suppress osteogenesis and osteoclastogenesis through inhibition of the PI3K/Akt/GSK3 signalling pathway, which highlights the potential benefits and side effects of LY3023414 for future clinical applications. Cite this article: Bone Joint Res 2021;10(4):237–249


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_13 | Pages 85 - 85
1 Nov 2021
Viganò M Ragni E Torretta E Colombini A Orfei CP De Luca P Libonati F Gelfi C de Girolamo L
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Introduction and Objective. The use of microfragmented adipose tissue (mFAT) for the treatment of musculoskeletal disorders, especially osteoarthritis, is gaining popularity following the positive results reported in recent case series and clinical trials. The purpose of this study is to characterize mFAT in terms of structure, cell content and secretome (i.e. protein and microvescicles released as paracrine mediators), and to compare it with unprocessed lipoaspirate tissue, in order to understand the possible mechanisms of action and the benefit derived from tissue processing. Materials and Methods. Unprocessed lipoaspirate (LA) and mFAT were obtained from 7 donors. Each tissue sample was divided in four aliquots: A) fixed in formalin for histological evaluation; B) enzymatically digested to harvest cells with the exclusion of adipocytes; C) cultured for 24 hours in serum-free DMEM to harvest secretome; D) freshly frozen for proteomic evaluation. Hematoxylin and eosin staning, as well as immunohistochemistry for CD31, CD90, CD146 were performed on aliquot A. Cell count, viability, senescence and immunophenotype were assessed on aliquot B. Culture medium from aliquot C was collected and used for proteomic analysis and micro-RNA extraction and quantitation from extracellular vesicles. Aliquot D was lysed, protein were extracted and analyzed using a high-throughput proteomic approach. Results. Histological investigations showed a lower red blood cell content in mFAT with respect to LA, while the presence of blood vessels (CD31+), stromal cells (CD90) and pericytes (CD146) was similar in all samples. These results were confirmed by flow cytometry, with reduction of erythrocytes (CD235a+) by 76% and reduction of lymphocytes (CD45+) by 79% in mFAT compared to LA. Otherwise, the proportions of stromal cells, pericytes and endothelial cells in LA and mFAT remained comparable. The percentage of senescent cells resulted similar before and after tissue processing, with very low values (< 5%). The analysis of the miRNAs contained in the extracellular vesicles in culture media identified 376 miRNAs in LA secretome and 381 in mFAT secretome. A high correlation in the expression of these miRNAs within subjects (LA and mFAT of each donor) was observed (R2> 0.8), indicating that processing in mFAT does not significantly alter the portfolio of miRNAs associated with extracellular vesicles. Proteomic analysis of secretome revealed that 217 proteins significantly differ between LA and mFAT. In particular, protein associated with acute phase were less represented in mFAT secretome, while intracellular proteins were more frequent. Proteomic analysis of tissues demonstrated a reduction of protein related to extracellular matrix and of proteins closely related to peripheral blood contamination in mFAT with respect to LA. Conclusions. Taken together, these results suggest that processing of LA into mFAT allow for removal of blood elements, in terms of red blood cells, lymphocytes, acute phase and complement system proteins, and for the reduction of extracellular matrix components. Otherwise, tissue structure, cell populations, cell viability and senescence are not influenced by tissue processing. Then, microfragmentation process represents a safe and efficient method for the application of adipose tissue properties to musculoskeletal disorders, allowing for the maintenance of all the effector elements for tissue regeneration while removing possible detrimental agents such as inflammatory mediators


Orthopaedic Proceedings
Vol. 103-B, Issue SUPP_2 | Pages 94 - 94
1 Mar 2021
Harrison A
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Abstract. Objectives. Review the evidence of low intensity pulsed ultrasound (LIPUS) for fracture non-union treatment and the potential to treat fractures in patients with co-morbidities at risk of fracture non-union. Methods. Data was gathered from both animal and human studies of fracture repair to provide an overview of the LIPUS in bone healing applications to provide in-depth evidence to substantiate the use in treatment of non-union fractures and to propose a scientific rational to develop a clinical development programme. Results. LIPUS is an effective method for treating fracture non-union, with most studies showing heal rates in the mid 80%. In the UK NICE has published MTG-12 guidance for non-union treatment, which demonstrates that LIPUS is an effective and cost effective method as an alternative to surgery to treat non-union fractures. Basic science studies and evaluation of clinical trial data has led to the understanding that LIPUS can mitigate co-morbidities related to failure of bone healing such as diabetes, advancing age and tobacco use. Future clinical trials will evaluate the use of LIPUS in acute fractures in patients with high risk of low bone healing capacity to prevent the development of a non-union. As with all medical treatments, LIPUS for fracture repair needs to be used appropriately, with poorly fixed fractures or large fracture gaps, being unsuitable for LIPUS treatment. In addition, considerations such as targeting the fracture site in deep-seated bones and clinician / patient engagement to ensure good compliant usage are vital factors to ensure good clinical outcomes. Conclusion. Using basic science research, a thorough knowledge of the mechanism of action has been established, which has elucidated that co-morbidities related to the development of fracture non-union can be mitigated by the LIPUS technology. A pragmatic clinical trial in the United States is currently ongoing to test these hypothesises clinically. Declaration of Interest. (a) fully declare any financial or other potential conflict of interest