Mesenchymal stem cells-derived extracellular vesicles (MSC-EVs) have great promise in the field of orthopaedic nanomedicine due to their regenerative, as well as immunomodulatory and anti-inflammatory properties. Researchers are interested in harnessing these biologically sourced nanovesicles as powerful therapeutic tools with intrinsic bioactivity to help treat various orthopaedic diseases and defects. Recently, a new class of EV mimetics has emerged known as nanoghosts (NGs). These vesicles are derived from the plasma membrane of ghost cells, thus inheriting the surface functionalities and characteristics of the parent cell while at the same time allowing for a more standardized and reproducible production and significantly greater yield when compared to EVs. This study aims to investigate and compare the osteoinductive potential of MSC-EVs and MSC-NGs in vitro as novel tools in the field of bone tissue engineering and nanomedicine. To carry out this investigation, MSC-EVs were isolated from serum-free MSC conditioned media through differential ultracentrifugation. The remaining cells were treated with hypotonic buffer to produce MSC-ghosts that were then homogenized and serially extruded through 400 and 200 nm polycarbonate membranes to form the MSC-NGs. The concentration, size distribution, zeta potential, and protein content of the isolated nanoparticles were assessed. Afterwards, MSCs were treated with either MSC-EVs or MSC-NGs under osteogenic conditions, and their differentiation was assessed through secreted ALP assay, qPCR, and Alizarin Red mineralization staining. Isolation of MSC-EVs and MSC-NGs was successful, with relatively similar mean diameter size and colloidal stability. No effect on MSC viability and metabolic activity was observed with either treatment. Both MSC-EV and MSC-NG groups had enhanced osteogenic outcomes compared to the control; however, a trend was observed that suggests MSC-NGs as better osteoinductive mediators compared to MSC-EVs. Acknowledgements: The authors would like to acknowledge Canada Research Chair – Tier 1 in Regenerative Medicine and Nanomedicine, CHRP, and McGill's Faculty of Dental Medicine and Oral Health Sciences for their financial support

Abstract. Cranial cruciate ligament (CrCL) disease/rupture is a highly prevalent orthopaedic disease in dogs and common cause of pain, lameness, and secondary joint osteoarthritis (OA). Previous experiments investigating the role of glutamate receptors (GluR) in arthritic degeneration and pain revealed that OA biomarkers assessing early bone turnover and inflammation, including osteoprotegerin (OPG) and the receptor activator of nuclear factor kappa-B ligand (RANKL) are more likely to be influenced by glutamate signalling. Moreover, interleukin-6 (IL-6) has a complex and potentially bi directional (beneficial and detrimental) effect, and it is a critical mediator of arthritic pain, OA progression and joint destruction. Objectives. 1) to recruit dogs undergoing CrCL disease/rupture surgery and obtain discarded synovial fluid (SF) and serum/plasma (ethics approval, RCVS:2017/14/Alves); 2) to quantify the biomarkers listed above in the SF and serum/plasma by enzyme linked immunosorbent assay (ELISA); 3) to assess radiographic OA at the time of surgery and correlate it with the biomarkers and clinical findings. Methods. Abnova, Abcam and AMSBIO ELISA kits were tested using a validation protocol relating the standard curve to a dilution series of SF and serum/plasma (1× to 1/50×), with and without SF hyaluronidase treatment to evaluate linearity, specificity and optimal dilutions. Validated ELISA kits were used to measure [IL-6], glutamate [glu], [RANKL] and [OPG] in SF and serum/plasma. For each dog, CrCL disease pre-operative lameness scores were graded as: (1) mild, (2) moderate (easily visible), (3) marked (encumbered), (4) non-weightbearing lameness. Blinded OA scoring was performed on radiographs [15–60, normal-severe OA]. Results. canine population (n=14) was of various breeds, aged between 2–10 years and weighing 17.1–45.5Kg; 42.86% male; 57.14% female; 83.33% males and 62.5% females were neutered. Lameness scores varied from 1 and 4 (average 2.07±1.12) and radiographic OA scores from 18 and 36 (average 27.86±5.11). Individual correlations in concentrations with respect to age, weight, lameness score (1–4) and OA scores (15–60) were tested. SF [glu] and lameness score were inversely correlated with higher levels of lameness corresponding to lower SF [glu] (P=0.0141). SF [RANKL] inversely correlated with weight (P=0.0045) and lameness score (P=0.0135), and serum [RANKL] inversely correlated with weight (P=0.0437). There was also a negative correlation between SF and serum [OPG] and weight (P=0.0165 and P=0.0208, respectively). No other significant correlations were detected. Overall, [glu] and [IL-6] are increased in SF compared to serum/plasma, by 12.84 and 1.28, respectively, whereas all the remaining biomarkers are higher (2–3 times) in the serum/plasma compared to SF. Principal component analysis (PCA) and Pearson correlation coefficient matrix [IL-6/glu/RANKL/OPG] (n=7) showed SF [IL-6] correlates with SF [glu] (rs=0.64) and strong positive correlations between SF/serum [RANKL] and SF/serum [OPG] (rs 0.68–0.96). Conclusions. Dogs with CrCL disease show an association between the bone remodelling markers RANKL and OPG, and the inflammatory cytokine IL-6, and to a lesser extent SF [glu]. Therapeutics targeting bone remodelling, IL-6 or GluR/[glu] may be of interest for the management of OA in dogs. 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

Abstract. Cranial cruciate ligament (CrCL) disease/rupture causes pain and osteoarthritis (OA) in dogs. α-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA)-2 and kainate (KA)-1 glutamate receptors (GluR) and the excitatory amino acid transporter-1 (EAAT-1) and EAAT-3 are expressed in joint tissues from OA patients and rodent arthritis models and represent potential therapeutic targets. Objectives. To evaluate glutamate signalling in canine diseased and normal CrCL and meniscus by immunohistochemistry (IHC). Methods. Surgical waste (CrCL, n=5 and medial meniscus, n=3) were obtained from canines with CrCL disease (RCVS ethics approval:2017/14/Alves) and normal analogous tissues (n=2). IHC optimization was performed for rabbit polyclonal (AMPA-2:ab52176, KA-1:ab67402, EAAT-1:ab416) and monoclonal (EAAT-3:ab124802) antibodies from Abcam. IHC was optimised over antibody dilutions from 1:100 to 1:5000 alongside equivalent IgG isotype controls (ab37415 and ab172730) and negative controls (TBS/Tween buffer without primary antibodies). IHC staining was compared in diseased and normal tissues and disclosed with 3,3’-Diaminobenzidine (DAB). Results. Specific immunostaining was observed for all primary antibodies, at concentrations between 2.0×10. −4. mg/mL to 1.0×10. −2. mg/mL, depending on the tissue and primary antibody. All GluR and transporters were expressed in the cellular membrane, in the normal and diseased CrCL and meniscus. Healthy CrCL showed a well-organized microstructure, with normal positively labelled ligamentocytes, whereas diseased CrCL microstructure was disrupted, with many positively stained fibroblastic cells in the epiligamentous region and evident neovascularization, indicative of ongoing repair. The normal and diseased meniscal tissues showed similar chondrocytes-like cells labelling and microstructure. Negative controls demonstrated no labelling. Conclusions. GluR and transporters expression is altered in canine diseased CrCLs, implicating glutamate signalling in this pathology. Since AMPA/KA GluR antagonists alleviate joint degeneration in post-traumatic OA in rodent models, they may be useful for the treatment of CrCL disease in dogs, as well as translated to other veterinary and human orthopaedic diseases