Chronic pain is recognised as a problem worldwide. Interdisciplinary multimodal pain therapy (MMPT) is currently the gold standard of treatment. The aim of the present prospective observational study is to research whether chronic pain patients form an intention for lifestyle change during a 4-week-long treatment at the Outpatient Clinic for Pain Therapy and Conservative Orthopedics in Heidelberg, Germany, and how sustainable this change is after 3 months. In addition, we theorized a connection between standardised survey endpoints and the number of therapy units perceived as helpful (TPAH). Finally, the effect of socio-demographic factors on patient perceptions were put into perspective. Clinical data was collected via 3-part-questionnaires from 95 German-speaking patients at 4 checkpoints between 05/2020 and 11/2021 at admission (T1), after 2 weeks (T2), at discharge (T3) and 3 months post-treatment (T4). The questionnaires consisted of already established scores for surveying chronic pain patients, such as the von Korff Chronification Scale, ODI, HADS, PSEQ/FESS, and FABQ, a grading scale for each therapy unit, and free answers. Patients were most likely to implement Group Walking in their everyday lives. A higher number of TPAH neither lowered nor improved significantly the change in lifestyle, but both a higher number and bigger lifestyle changes improved significantly the scores across the standardised surveys. Furthermore, no significant change in intention happened between the second and the fourth week. Physical components were perceived throughout as more helpful. The results of this research support the efficacy of MMPT in multi-faceted improving of the patient's well-being and lowering the possibility for pain chronification. A higher number of TPAH could be translated as having more available techniques to combat chronic pain in everyday life. The number of TPAH and the amount of lifestyle change both influence positively the survey scores, yet no connection between them was found. A third factor could be the reason for this constellation. The possibility that the more mental therapies are offered, the more likely it is for those to be perceived as helpful, cannot be excluded either. Further research is required on both topics

Low back pain affects 80% of the population with half of cases attributed to intervertebral disc (IVD) degeneration. However, the majority of treatments focus on pain management, with none targeting the underlying pathophysiological causes. PCRX-201 presents a novel gene therapy approach that addresses this issue. PCRX-201 codes for interleukin-1 receptor antagonist (IL-1Ra), the natural inhibitor of the pro-inflammatory cytokine IL-1, which orchestrates the catabolic degeneration of the IVD. Our objective here is to determine the ability of PCRX-201 to infect human nucleus pulposus (NP) cells and tissue to increase the production of IL-1Ra and assess downstream effects on catabolic protein production. Degenerate human NP cells and tissue explants were infected with PCRX-201 at 0 or 3000 multiplicities of infection (MOI) and subsequently cultured for 5 days in monolayer (n=7), 21 days in alginate beads (n=6) and 14 days in tissue explants (n=5). Cell culture supernatant was collected throughout culture duration and downstream targets associated with pain and degeneration were assessed using ELISA. IL-1Ra production was increased in NP cells and tissue infected with PCRX-201. The production of downstream catabolic proteins such as IL-1β, IL-6, MMP3, ADAMTS4 and VEGF was decreased in both 3D-cultured NP cells and tissue explants. Here, we have demonstrated that a novel gene therapy, PCRX-201, is able to infect and increase the production of IL-1Ra in degenerate NP cells and tissue in vitro. The increase of IL-1Ra also resulted in a decrease in the production of a number of pro-inflammatory and catabolic proteins, suggesting PCRX-201 enables the inhibition of IL-1-driven IVD degeneration. At present, no treatments for IVD degeneration target the underlying pathology. The ability of FX201 to elicit anti-catabolic responses is promising and warrants further investigation in vitro and in vivo, to determine the efficacy of this exciting, novel gene therapy

Autologous micro-fragmented adipose tissue (MFAT) for the treatment of symptomatic knee osteoarthritis (OA) is gaining interest although there is still a lack of supportive data on safety and clinical efficacy. This study primarily aimed to identify patient- and pathology-related parameters to tighten patient selection criteria for future clinical MFAT application. Secondly, the overall (1) therapeutic response rate (TRR), (2) short-term clinical effect, (3) effect durability and (4) therapeutic safety was investigated at a minimal follow-up of 1 year. Sixty-four subjects (91 knees) with symptomatic knee OA (mild-severe on MRI) were enrolled in a prospective single-centre case series. Ethical approval was obtained from the local and academic ethical committee (#B300201733775). After liposuction, the adipose tissue was mechanically processed in a Lipogem® device which eventually produced 6–9cc MFAT. Subjects were clinically assessed by means of the KOOS, NRS, UCLA and EQ-5D at baseline and 1, 3, 6 and 12 months after injection. Adverse events were meticulously recorded. The TRR was defined according to the OMERACT-OARSI criteria. A baseline MRI was scored following the MOAKS system. Paired sample t-tests, independent t-test and Fischer's exact test were applied on appropriate variables. Multiple regression models were fit separately for patient-and pathology-specific factors. Significance level was set at α=0.05. The overall TRR was 66% at 3 months and 50% at 12 months after injection. Subgroup analysis revealed that specifically patients with no-mild bone marrow lesions (BML) had a TRR of 88% at 3 months and 75% at 12 months after MFAT injection. Therapy responders at these timepoints improved with 29.3±14.1 points and 30.8±15.3 points on KOOS pain, while non-responders deteriorated mildly. All clinical scores were significantly higher at follow-up compared to baseline (p<0.05). BMI (factor 0.17, p=0.002) and age (factor −0.48, p=0.048) were prognosticators for the TRR% at 1 month and for absolute KOOS pain improvement at 6 months, respectively. Posterior horn lesions (PHL) in the medial meniscus (p<0.001) and bone marrow lesions (p=0.003) were negative prognosticators for the TRR at respectively 6 and 12 months post-injection. An inflammatory reaction (pain, swelling or stiffness) to MFAT was reported in 79% knees and resolved spontaneously within 16.6±13.5 days after administration. The study showed a durable and satisfying TRR (up to 75% at 1 year in selected patients without BML) and clinical improvement after a single intra-articular injection with autologous MFAT. The availability of an index knee MRI is mandatory to select MFAT patients, preferably with no or mild BML and without PHL of the medial meniscus. High BMI and younger age are associated with better early outcomes. In comparison to other injection therapies such as cortisone, hyaluronic acid and PRP, MFAT appears very attractive with an effect durability of at least 1 year

Abstract. Osteoarthritis (OA) is a degenerative disorder associated with cartilage loss and is a leading cause of disability around the world. In old age, the capacity of cartilage to regenerate is diminished. With an aging population, the burden of OA is set to rise. Currently, there is no definitive treatment for OA. However, cell-based therapies derived from adipose tissue are promising. A PRISMA systematic review was conducted employing four databases (MEDLINE, EMBASE, Cochrane, Web of Science) to identify all clinical studies that utilized adipose tissue derived mesenchymal stem cells (AMSCs) or stromal vascular fraction (SVF) for the treatment of knee OA. Eighteen studies were included, which met the inclusion criteria. Meta-analyses were conducted on fourteen of these studies, which all documented WOMAC scores after the administration of AMSCs. Pooled analysis revealed that cell-based treatments definitively improve WOMAC scores, post treatment. These improvements increased with time. The studies in this meta-analysis have established the safety and efficacy of both AMSC therapy and SVF therapy for knee OA in old adults and show that they reduce pain and improve knee function in symptomatic knee OA suggesting that they may be effective therapies to improve mobility in an aging population

Abstract. Objectives. Bone marrow aspirate concentrate (BMAC), together with fibrin glue (Tisseel, Baxter, UK) and Hyaluronic acid (HA) were used as a one-step cell therapy treating patients with ankle cartilage defects in our hospital. This therapy was proven to be safe, with patients demonstrating a significant improvement 12 months post-treatment. Enriched mesenchymal stem cells (MSCs) in BMAC are suggested inducers of cartilage regeneration, however, currently there is no point-of-care assessment for BMAC quality; especially regarding the proportion of MSCs within. This study aims to characterise the cellular component of CCR-generated BMAC using a point-of-care device, and to investigate if the total nucleated cell (TNC) count and patient age are predictive of MSC concentration. Methods. During surgery, 35ml of bone marrow aspirate (BMA) was collected from each patients’ iliac crest under anaesthesia, and BMAC was obtained via a commercial kit (Cartilage Regeneration kit, CCR, Innotec. ®. , UK). BMAC was then mixed with thrombin (B+T) for injection with HA and fibrinogen. In our study, donor-matched BMA, BMAC and B+T were obtained from consented patients (n=12, age 41 ± 16years) undergoing surgery with BMAC therapy. TNC, red blood cell (RBC) and platelet (PLT) counts were measured via a haematology analyser (ABX Micros ES 60, Horiba, UK), and the proportion of MSCs in BMA, BMAC and B+T were assessed via colony forming unit-fibroblast (CFU-F) assays. Significant differences data in matched donors were tested using Friedman test. All data were shown as mean ± SD. Results. Mean TNC counts in BMA and BMAC were not significantly different (14.0 ± 4.4 million/ml and 19.4 ± 32.9 million/ml, respectively, P>0.9999). However, TNC counts were significantly lower in B+T compared to BMAC (9.7 ± 24.5 million/ml and 19.4 ± 32.9 million/ml, respectively, P=0.0167). Similarly, PLT counts were decreased in B+T compared to BMAC (40.7 ± 30.7 million/ml and 417.5 ± 365.5 million/ml, respectively, P<0.0001), however, PLTs were significantly concentrated in BMAC compared to BMA (417.5 ± 365.5 million/ml and 114.8 ± 61.6 million/ml, respectively, P=0.0429). RBC counts were significantly decreased in BMAC and B+T compared to BMA (P=0.0322 and P<0.0001, respectively). Higher concentration of MSCs were observed in BMAC compared to BMA (0.006% ± 0.01% and 0.00007% ± 0.0001%, respectively, P=0.0176). Similar to TNCs and PLTs, the proportion of MSCs significantly decreased in B+T compared to BMAC (0.0004% ± 0.001% and 0.006% ± 0.01%, respectively, P=0.0023). Furthermore, patient age and TNC counts did not correlate with MSC concentration (Spearman's Rank test, P=0.3266 and P=0.4880, respectively). Conclusions. BMAC successfully concentrated PLTs, but BMAC preparations were highly variable. Mixing BMAC and thrombin however, as described in the CCR protocol, resulted in a dramatic reduction in TNCs, PLTs and MSCs. TNC counts and patient age could not be used to predict the MSC proportion in the BMAC based on current data. Future work aims to look at the biomolecule profile of BMAC plasma, and to correlate them to patient clinical outcomes. Declaration of Interest. (a) fully declare any financial or other potential conflict of interest

Intra-articular injection is a common way to deliver biologics to joints, but their effectiveness is limited by rapid clearance from the joint space. This barrier can be overcome by genetically modifying cells within the joint such that they produce anti-arthritic gene products endogenously, thereby achieving sustained, therapeutic, intra-articular concentrations of the transgene products without re-dosing. A variety of non-viral and viral vectors have been subjected to preclinical testing to evaluate their suitability for delivering genes to joints. The first transfer of a gene to a human joint used an ex vivo protocol involving retrovirally transduced, autologous, synovial fibroblasts. Recent advances in vector technology allow in vivo delivery using adeno-associated virus (AAV). We have developed an AAV vector encoding the interleukin-1 receptor antagonist (AAV.IL-1Ra) for injection into joints with osteoarthritis (OA). It showed efficacy and safety in equine and rat models of OA, leading to a recently-completed, investigator-initiated, Phase I, dose-escalation clinical trial in 9 subjects with mid-stage OA of the knee (. ClinicalTrials.gov. Identifier: NCT02790723). Three cohorts of three subjects with mild to moderate OA in the index knee were injected intra-articularly under ultrasound guidance with a low (10e11 viral genomes) medium (10e12 viral genomes) or high (10e13 viral genomes) dose of AAV.IL-1Ra and followed for one year. The data confirm safety, with evidence of sustained intra-articular expression of IL-1Ra and a clinical response in certain subjects. Funding for a subsequent Phase Ib trial involving 50 subjects (. ClinicalTrials.gov. Identifier: NCT05835895), expected to start later this year, has been acquired. Progress in this area has stimulated commercial activity and there are now at least seven different companies developing gene therapies for OA and a number of clinical trials are in progress. Acknowledgement: Clinical trial funded by US Department of Defense Clinical Trial Award W81XWH-16-1-0540

To analyse the efficacy and safety of cellular therapy utilizing Mesenchymal Stromal Cells (MSCs) in the management of rotator cuff(RC) tears from clinical studies available in the literature. We conducted independent and duplicate electronic database searches including PubMed, Embase, Web of Science, and Cochrane Library on August 2021 for studies analyzing the efficacy and safety of cellular therapy (CT) utilizing MSCs in the management of RC tears. VAS for pain, ASES Score, DASH Score, Constant Score, radiological assessment of healing and complications and adverse events were the outcomes analyzed. Analysis was performed in R-platform using OpenMeta [Analyst] software. RESULTS:. 6 studies involving 238 patients were included for analysis. We noted a significant reduction in VAS score for pain at 3 months (WMD=-2.234,p<0.001) and 6 months (WMD=-3.078,p<0.001) with the use of CT. Concerning functional outcomes, utilization of CT produced a significant short-term improvement in the ASES score (WMD=17.090,p<0.001) and significant benefit in functional scores such as Constant score (WMD=0.833,p=0.760) at long-term. Moreover, we also observed a significantly improved radiological tendon healing during the long-term follow-up (OR=3.252,p=0.059). We also noted a significant reduction in the retear rate upon utilization of CT in RC tears both at short- (OR=0.079,p=0.032) and long-term (OR=0.434,p=0.027). We did not observe any significant increase in the adverse events as compared with the control group (OR=0.876,p=0.869). Utilization of CT in RC tear is safe and it significantly reduced pain severity, improved functional outcome, enhanced radiological tendon healing, and mitigated retear rates at short- and long-term follow-up

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

Low back pain is strongly associated with degeneration of the intervertebral disc (IVD). During degeneration, altered matrix synthesis and increased matrix degradation, together with accompanied cell loss is seen particularly in the nucleus pulposus (NP). It has been proposed that notochordal (NC) cells, embryonic precursors for the cells within the NP, could be utilized for mediating IVD regeneration. However, injectable biomaterials are likely to be required to support their phenotype and viability within the degenerate IVD. Therefore, viability and phenotype of NC cells were analysed and compared within biomaterial carriers subjected to physiological oxygen conditions over a four-week period were investigated. Porcine NC cells were incorporated into three injectable hydrogels: NPgel (a L-pNIPAM-co-DMAc hydrogel), NPgel with decellularized NC-matrix powder (dNCM) and Albugel (an albumin/ hyaluronan hydrogel). The NCs and biomaterials constructs were cultured for up to four weeks under 5% oxygen (n=3 biological repeats). Histological, immunohistochemical and glycosaminoglycans (GAG) analysis were performed to investigate NC viability, phenotype and extracellular matrix synthesis and deposition. Histological analysis revealed that NCs survive in the biomaterials after four weeks and maintained cell clustering in NPgel, Albugel and dNCM/NPgel with maintenance of morphology and low caspase 3 staining. NPgel and Albugel maintained NC cell markers (brachyury and cytokeratin 8/18/19) and extracellular matrix (collagen type II and aggrecan). Whilst Brachyury and Cytokeratin were decreased in dNCM/NPgel biomaterials, Aggrecan and Collagen type II was seen in acellular and NC containing dNCM/NPgel materials. NC containing constructs excreted more GAGs over the four weeks than the acellular controls. NC cells maintain their phenotype and characteristic features in vitro when encapsulated into biomaterials. NC cells and biomaterial construct could potentially become a therapy to treat and regenerate the IVD

The HIPGEN study funded under EU Horizon 2020 (Grant 7792939) has the aim to investigate the potential of the first regenerative cell therapy for the improvement of recovery after muscle injury in hip fracture patients. For this aim we intramuscularly injected placental derived mesenchymal stromal cells during hip fracture arthroplasty. Despite not having reached the primary endpoint, which was the Short Physical Performance Battery, we could observe an increase in abductor muscle strength and a faster return to balance looking at symmetry in insole measurements during follow up

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

Osteoarthritis (OA) is an important cause of pain, disability and economic loss in humans, and is similarly important in the horse. Recent knowledge on post-traumatic OA has suggested opportunities for early intervention, but it is difficult to identify the appropriate time of these interventions. The horse provides two useful mechanisms to answer these questions: 1) extensive experience with clinical OA in horses; and 2) use of a consistently predictable model of OA that can help study early pathobiological events, define targets for therapeutic intervention and then test these putative therapies. This paper summarises the syndromes of clinical OA in horses including pathogenesis, diagnosis and treatment, and details controlled studies of various treatment options using an equine model of clinical OA

Intervertebral disc degeneration (IDD) affects more than 80% of the population and is often linked to a reduction of the proteoglycan content within the nucleus pulposus (NP). The nutritional decline and accumulation of degraded matrix products promote the inflammatory process favoring the onset of disease. Several regenerative approaches based on cell therapy have been explored. Recently, paracrine factors and extracellular vesicles (EVs) such as exosomes have been described to play a fundamental role in the cross-talk between mesenchymal stem cells (MSCs) and NP in the microenvironment. EVs vehicule different molecules: proteins, nucleic acids and lipids involved in intercellular communication regulating the homeostasis of recipient cells. Therefore, MSCs-derived exosomes are an interesting emerging tool for cell-free therapies in IDD. The aim of this study was to evaluate the in vitro effects of MSCs derived exosomes on human NP cells (hNPCs). Exosomes were isolated through a multistep ultracentrifugation of bone marrow-MSCs (BM-MSCs) conditioned media (CM), obtained by culturing BM-MSCs without fetal bovine serum (FBS) for 48 hours. Exosomal morphology was characterized by transmission electron microscope (TEM). The exosomes were quantified by bicinchoninic acid assay (BCA) and cryopreserved at –80 °C. hNPCs derived from surgical speciments digested with type II collagenase. After culture expansion in vitro, hNPCs in alginate beads (three-dimensional culture system) were treated with growth medium (controls), exosomes, CM, interleukin-1 beta (IL-1b), IL-1b plus exosomes, IL-1b plus CM. After 24 hours, total RNA was extracted and reverse-transcribed. Gene expression levels of catabolic and anabolic genes were analyzed through real time-polymerase chain reaction (qPCR). TEM analysis confirmed the cup-shaped vescicles in our preparations. Gene expression levels resulted to be modulated by both exosomes and CM compared to controls. In addition, both treatments were capable to alter the inflammatory stimuli of IL-1b. Interestingly, exosomes were able to change anabolic and catabolic gene expression levels differently from CM. In our experimental conditions, both exosomes and CM from BM-MSCs could be an interesting alternative strategy in intervertebral disc regeneration, overcoming the costs and translational limits of cell therapy to the clinical practice

The clinical translation of regenerative therapies, whether in the form of mesenchymal cells, macromolecules or small molecules, is hampered by several factors: the poor retention and short biological half-life of the therapeutic agent, the adverse side effects from systemic delivery, and difficulties with the administration of multiple doses to a target site. We report the development and application of a therapeutic reservoir device that enables sustained and repeated administration of small molecules, macromolecules and cells directly to organs and tissues of interest via a polymer-based reservoir connected to a subcutaneous port. In a myocardial infarct rodent model, we show that repeated administration of cells over a four-week period using the reservoir provided functional compared to a single injection of cells and to no treatment. Recent advances of the system include a multi-port and multi-reservoir system that can be tailored to cargo and application need. The pre-clinical use of our therapeutic reservoir as a research model may enable insights into regenerative orthopaedic therapy, particularly those therapies that require multi-dose approaches

Objectives. Osteoporosis has become an increasing concern for older people as it may potentially lead to osteoporotic fractures. This study is designed to assess the efficacy and safety of ten therapies for post-menopausal women using network meta-analysis. Methods. We conducted a systematic search in several databases, including PubMed and Embase. A random-effects model was employed and results were assessed by the odds ratio (OR) and corresponding 95% confidence intervals (CI). Furthermore, with respect to each outcome, each intervention was ranked according to the surface under the cumulative ranking curve (SUCRA) value. Results. With respect to preventing new vertebral fractures (NVF), all ten drugs outperformed placebo, and etidronate proved to be the most effective treatment (OR 0.24, 95% CI 0.14 to 0.39). In addition, zoledronic acid and parathyroid hormone ranked higher compared with the other drugs. With respect to preventing clinical vertebral fractures (CVF), zoledronic acid proved to be the most effective drug (OR = 0.25, 95% CI 0.08 to 0.92), with denosumab as a desirable second option (OR = 0.48, 95% CI 0.22 to 0.96), when both were compared with placebo. As for adverse events (AE) and severe adverse events (SAE), no significant difference was observed. According to SUCRA, etidronate ranked first in preventing CVF; parathyroid hormone and zoledronic acid ranked highly in preventing NVF and CVF. Raloxifene was safe with a high rank in preventing AEs and SAEs though performed unsatisfactorily in efficacy. Conclusions. This study suggests that, taking efficacy and safety into account, parathyroid hormone and zoledronic acid had the highest probability of satisfactory performance in preventing osteoporotic fractures. Cite this article: G. Wang, L. Sui, P. Gai, G. Li, X. Qi, X. Jiang. The efficacy and safety of vertebral fracture prevention therapies in post-menopausal osteoporosis treatment: Which therapies work best? a network meta-analysis. Bone Joint Res 2017;6:452–463. DOI: 10.1302/2046-3758.67.BJR-2016-0292.R1

Inflammation has been associated with early degradative changes in articular cartilage and immune responses are key factor influencing normal tissue regeneration and repair. With synovitis a prominent feature in osteoarthritis (OA) and associated with the progressive degradation of articular cartilage, immune factors need to be factored into efforts to achieve efficient cartilage repair/regeneration. Recent efforts have focused on the use of autologous or allogeneic mesenchymal stem/stromal cells (MSCs) to modulate the inflammatory environment in the injured or osteoarthritic joint. Intraarticular injection of MSCS has modulated cartilage degradation in a variety of pre-clinical OA models. Results from early clinical trials have also shown effects on pain and function-associated outcome measures. Other cell types may also have some capacity for use as a therapy for OA. For example, primary allogeneic chondrocytes also seem to have some immune-privilege in the synovial joint and are immunomodulatory in a rat model. Although MSCs isolated from bone marrow that are induced to undergo chondrogenic differentiation do not retain these properties, MSCs isolated from the synovium or chondroprogenitors generated from cartilage itself may represent the future of cell therapy for OA

Introduction. Carriers of Staphylococcus aureus, both methicillin sensitive (MSSA) and methicillin resistant (MRSA), have an increased risk for health-care associated infections. Despite WHO recommendations there is currently no national screening and eradication policy for the detection of MSSA in the UK or USA. This study aimed to evaluate the effectiveness of current standard MRSA eradication therapies in the context of S. aureus decolonisation prior to joint replacement surgery. Methods. Pre-operative PCR nasal screening was performed in 273 Orthopaedic patients awaiting joint replacement surgery. In all 100 patients were positive for S. aureus and enrolled into the study. All enrolled patients received and were instructed to administer the decolonisation regimen for five days. Prior to commencement of the eradication therapy swabs of the anterior nares, throat, and perineum were taken for culture. Further culture swabs were taken at; 48–96 hours after completion of the five-day eradication regimen, at hospital admission for surgery, and at hospital discharge. Patients were followed up for six weeks post-surgery. Following completion of the five-day course patients were asked to provide feedback on their experience using Likert rating scales. The primary outcome of this study was S. aureus clearance 48–96 hours post-completion of eradication therapy. Results. At 48–96 hours post-completion there was S. aureus clearance from: the anterior nares 93.8% (95% Confidence Interval (CI) 79.2–99.2%), throat 65.6% (95% CI 46.8–81.4%), and groin 87.5% (95%CI 71–96.5). Mean compliance with nasal mupirocin was 98.2% (standard deviation ±5.2). There was no statistically significant recolonisation effect between completion of eradication therapy and the day of surgery (P>0.05) at a median time of 9.5 days (Interquartile range 6–13 days) at all sites. Discussion and Conclusion. Current MRSA decolonisation regimens are well-tolerated and effective for S. aureus decolonisation for the anterior nares and groin. The decolonisation effect is preserved for up to 10 days following completion

Adipose derived mesenchymal stromal cells (ASC) are adult stem cells exhibiting functional properties that have open the way for cell-based clinical therapies. Primarily, their capacity of multilineage differentiation has been explored in a number of strategies for skeletal tissue regeneration. More recently, MSCs have been reported to exhibit immunosuppressive as well as healing capacities, to improve angiogenesis and prevent apoptosis or fibrosis through the secretion of paracrine mediators. Among the degenerative diseases associated with aging, osteoarthritis is the most common pathology and affects 16% of the female population over 65 years. Up to now, no therapeutic option exists to obtain a sustainable improvement of joint function beside knee arthroplasty. This prompted us to propose adipose derived stem cells as a possible cell therapy. We performed pre-clinical models of osteoarthritis and showed that a local injection of ASC showed a reduction of synovitis, reduction of osteophytes, joint stabilization, reducing the score of cartilage lesions. This work was completed by toxicology data showing the excellent tolerance of the local injection of ADSC and biodistribution showing the persistence of cells after 6 months in murine models. The aim of the ADIPOA trial is to demonstrate the efficacy of adipose derived stem cells therapy in knee osteoarthritis (OA) in a phase 2/3 controlled multicenter study controlled against standard of care. Safety and feasibility as well as dose response was previously assessed in the ADIPOA FP7 project. The bi-centric phase I clinical trial in Montpellier (France) and Würzburg (Germany) included 18 patients with moderate to severe knee OA, each patient received a single injection of autologous ADSC, in a open scale up dose trial, starting form 2 10 6 cells to 50 106 cells. The 107 dose appears to be well tolerated and showed preliminary response in terms of decreasing local inflammation. This first study confirmed the feasibility and safety of local injection of ADSC in knee OA and suggested the most effective dose (107 autologous ADSC). This work constituted a significant step forward treating this disease with ADSC to demonstrate safety of the procedure. we conduct a prospective multicenter randomized Phase 2/3 study with 86 patients with moderate to severe knee OA to demonstrate superiority of stem cell-based therapy compared to standard of care (SOC) in terms in reduction in clinical symptoms (WOMAC score) and structural benefit (assessed by T1rhoMRI that allow quantification of cartilage proteoglycan content). This project will offer EU a unique leadership in OA with strong positions in EU and US due to patents and quality of the methodology to demonstrate efficiency of ADSC. ADIPOA brings together a unique combination of expertises and leaders in clinical rheumatology, MRI specialists, Stem cell Institutes, national GMP grade adipose derived stem cell production platform (ECELLFRANCE) and SME specialized in cell therapy trials in the EU. The production of the cells will be granted to EFS through ECELLFRANCE national platform, which have the GMP facility and will work as a contracting manufacturing organization. The expertise, leadership and critical mass achieved by this Consortium should enable breakthroughs in ASC engineering directly amenable for clinical applications in OA

Abstract. Objective. In this systematic review we aim to analyse the economical impact of using Negative Pressure Wound Therapy (NPWT) in primary total knee arthroplasty (TKA). Methods. Four medical electronic databases were searched. Eligible studies included those investigating the costs of NPWT in primary TKA. Exclusion criteria included studies investigating cost of NPWT not related to primary TKA. We also excluded studies with poor scientific methodology. We retrieved and analysed data on dressing costs and hospital length of stay (LOS). Results. Three studies (359 patients) reported on dressing and associated health care costs, and two further studies (330 patients) reported on hospital LOS in primary TKA. The cost of NPWT ranged between £125 and £196; with an average cost of £155, compared to £23 for the regular surgical dressing. The hospital LOS in NWPT patients ranged from 1.9 – 3.8 days, while LOS in patients managed with regular surgical dressing ranged between 2.3 – 4.7 days. The hospital LOS accounted for delayed discharge due to wound complications. Any extended LOS secondary to medical comorbidities or for other reasons were not included here. Conclusion. Our pooled analysis found a decrease in hospital LOS from wound related problems when using NWPT instead of regular dressings after accounting for other variables responsible for LOS. If the mean cost of overnight inpatient hospital stay for elective TKA is estimated as £275, the range of overnight admission cost for one TKA patient would be £522 - £1045 when NPWT dressing is used, and £632.5 - £1292 when using regular dressings. The cost savings from reduced LOS amounts to £110 - £247 per patient when NPWT is used. We hypothesize that in primary TKA patients with high risk of wound related problems that may delay discharge from hospital, there may be an overall cost saving when using NWPT dressings. Declaration of Interest. (b) declare that there is no conflict of interest that could be perceived as prejudicing the impartiality of the research reported:I declare that there is no conflict of interest that could be perceived as prejudicing the impartiality of the research project

Matrix therapy is a newly coined name emphasizing the importance of the extracellular matrix in regenerative medicine. Heparan sulfates (HS) are key elements of the extracellular matrix (ECM) scaffold which store and protect most growth factors/cytokines controlling the cell migration and differentiation required for healing processes. We have engineered biodegradable nano-polymers (alpha 1–6 polyglucose carboxymethyl sulfate) mimicking (RGTA®) to replace destroyed HS in the damaged ECM scaffolding and to protect cytokines produced by healthy neighbouring cells, thereby restoring the ECM microenvironment and tissue homeostasis and, if needed, provide a homing niche for cell therapy. This matrix therapy approach has considerably improved the quality of healing in various animal models, including muscle and tendon, with reduction or absence of fibrosis resulting in a regeneration process. Over 50 000 patients have been treated in the last years for skin and corneal wounds with dedicated products based on this technology. A randomized controlled trial was performed on 22 racing French Standardbred Trotters (ST) horses to evaluate the efficacy of another polymer, OTR4131 Equitend®, to treat tendinopathies. We evaluated the effect versus placebo on acute superficial digital flexor tendonitis over 4 months by clinical and ultrasonographic measures and their racing performances followed up over the 2 years after treatment. A significant reduction on tendon cross section area was measured in treated animals, racing was 2–3 times more often than placebo, with 3.3 times fewer recurrences and pre-injury performance level was maintained. This study may pave the way for development in humans