From November 1994 to March 1997, we harvested 137 grafts of the femoral head from 125 patients for donation during total hip arthroplasty according to the guidelines of the American Associations of Tissue Banks (AATB) and the European Association of Musculo-Skeletal transplantation (EAMST). In addition to the standards recommended by these authorities, we performed histopathological examination of a core biopsy of the retrieved bone allograft and of the synovium. Of the 137 allografts, 48 (35.0%) fulfilled all criteria and were free for donation; 31 (22.6%) were not regarded as suitable for transplantation because the serological retests at six months were not yet complete and 58 (42.3%) were discarded because of incomplete data. Of those discarded, five showed abnormal histopathological findings; three were highly suspicious of low-grade B-cell lymphoma, one of monoclonal plasmacytosis and the other of non-specific inflammation of bone marrow. However, according to the standards of the AATB or EAMST they all met the criteria and were eligible for transplantation. Our findings indicate that the incidence of abnormal histopathology in these retrieved allografts was 3.6%. Since it is essential to confirm the quality of donor bones in bone banking, we advise that histopathological screening of donor bone should be performed to exclude abnormal allografts

Objective. To determine the reliability, reproducibility, variability and validity of the Osteoarthritis Research Society International (OARSI) Osteoarthritis Cartilage Histopathology (OACH) system and Mankin Histopathology – Histochemical Grading System (HHGS) when applied to the characterisation of the osteoarthritic human knee. Method. Kellgren-Lawrence and Line Drawing Atlas (LDA) radiology scores clinically graded the knees of ten patients undergoing total knee arthroplasty due to osteoarthritis. The tibial plateaux were scored using the Modified Collins (MC) and Société Française d'Arthroscopie (SFA). Three observers, twice scored, using both the OACH and HHGS systems across a single complete medial and lateral tibial plateau transect taken to include the region with the most severe OA lesion. Intra and inter-observer reliability, reproducibility, variability and validity were quantified, and the correlation between the two histopathology scoring systems was calculated. Results. We identified that both histopathology scoring systems are reliable and reproducible exhibiting similar variability, when applied to characterise OA specimens sampled from a well defined patient group with knee osteoarthritis. A strong correlation between the mean OACH and HHGS scores was identified (Spearman'sρ 0.973). Conclusion. Both scoring systems provide useful measures in the characterisation of knee osteoarthritis. It is of note that an additional parameter within the OACH score over the HHGS that defines the extent of the disease, where the HHGS is a grade attributed to the most representative level of the biological aggression within the OA lesions. This study has confirmed the OACH system's utility in human knee OA and is supported by good correlation with the established Mankin HHGS

Our aim was to evaluate bursal involvement at different stages of the impingement syndrome as judged by conventional histopathological examination and expression of tenascin-C, which is known to reflect active reparative processes in different tissues and disorders. Samples of subacromial bursa were taken from 33 patients with tendinitis, 11 with a partial tear and 18 with a complete tear of the rotator cuff, and from 24 control shoulders. We assessed the expression of tenascin-C, the thickness of the bursa, and the occurrence and degree of fibrosis, vascularity, haemorrhage and inflammatory cells. The expression of tenascin-C was significantly more pronounced in the complete tear group (p < 0.001) than in the partial tear, tendinitis or control groups. It was more pronounced in the tendinitis group than in the control group (p = 0.06), and there was more fibrosis in all the study groups than in the control group. The changes in the other parameters were not equally distinctive. Expression of tenascin-C did not correlate with the conventional histopathological parameters, suggesting that these markers reflect different phases of the bursal reaction. Tenascin-C seems to be a general indicator of bursal reaction, being especially pronounced at the more advanced stages of impingement and this reaction seems to be an essential part of the pathology of impingement at all its stages

Although autografts represent the gold standard for anterior cruciate ligament (ACL) reconstruction, tissue-engineered ACLs provide a prospect to minimize donor site morbidity and limited graft availability. This given study characterizes the ligamentogenesis in embroidered poly(L-lactide-co-ε-caprolactone) (P(LA-CL)) / polylactic acid (PLA) constructs using a dynamic nude mice xenograft model. (P(LA-CL))/PLA scaffolds remained either untreated (co) or were functionalized by gas fluorination (F), collagen foam cross-linked with hexamethylene diisocyanate (HMDI) (coll), or gas fluorination combined with the foam (F+coll). Cell free constructs or those seeded for 1 week with lapine ACL ligamentocytes were implanted into nude mice for 12 weeks. Following explantation, biomechanical properties, cell vitality and content, histopathology of scaffolds (including organs: liver, kidney, spleen), sulphated glycosaminoglycan (sGAG) contents and biomechanical properties were assessed. Implantation of the scaffolds did not negatively affect mice weight development and organs, indicating biocompatibility. All scaffolds maintained their size and shape for the duration of the implantation. A high cell viability was detected in the scaffolds prior to and following implantation. Coll or F+coll scaffolds seeded with cells yielded superior macroscopic properties when compared to the controls. Mild signs of inflammation (foreign-body giant cells, hyperemia) were limited to scaffolds without collagen. Microscopical score values and sGAG content did not differ significantly. Although remaining stable in vivo, elastic modulus, maximum force, tensile strength and strain at Fmax were significantly lower in the in vivo compared to the samples cultured 1 week in vitro, but did not differ between scaffold subtypes, except for a higher maximum force in F+coll compared with F samples (in vivo). Scaffold functionalization with fluorinated collagen foam provides a promising approach for ACL tissue engineering. (shared first authorship). Acknowledgement: The study was supported by DFG grants SCHU1979/9-1 and SCHU1979/14-1

TGF-β/Smad2 signaling is considered to be one of the important pathways involved in osteoarthritis (OA) and protein phosphatase magnesium-dependent 1A (PPM1A) functions as an exclusive phosphatase of Smad2 and regulates TGF-β signaling, here, we investigated the functional role of PPM1A in OA pathogenesis. PPM1A expressions in both human OA cartilage and experimental OA mice chondrocytes were analyzed immunohistochemically. Besides, the mRNA and protein expression of PPM1A induced by IL-1β treatment were also detected by q-PCR and immunofluorescence in vitro. OA was induced in PPM1A knockout (KO) mice by destabilization of the medial meniscus (DMM), and histopathological examination was performed. OA was also induced in wild-type (WT) mice, which were then treated with an intra-articular injection of a selective PPM1A inhibitor for 8 weeks. PPM1A protein expressions were increased in both human OA cartilage and experimental OA mice chondrocytes. We also found that treatment with IL-1β in mouse primary chondrocytes significantly increased both mRNA and protein expression of PPM1A in vitro. Importantly, our data showed that PPM1A deletion could substantially protect against surgically induced OA. Concretely, the average OARSI score and quantification of BV/TV of subchondral bone in KO mice were significantly lower than that in WT mice 8 weeks after DMM surgery. Besides, TUNEL staining revealed a significant decrease in apoptotic chondrocytes in PPM1A-KO mice with DMM operation. With OA induction, the rates of chondrocytes positive for Mmp-13 and Adamts-5 in KO mice were also significantly lower than those in WT mice. Moreover, compared with WT mice, the phosphorylation of Smad2 in chondrocytes was increased in KO mice underwent DMM surgery. However, articular-injection with SD-208, a selective inhibitor of TGF-β/Smad2 signaling could significantly abolish the chondroprotective phenotypes in PPM1A-KO mice. Additionally, both cartilage degeneration and subchondral bone subchondral bone sclerosis in DMM model were blunted following intra-articular injection with BC-21, a small-molecule inhibitor for PPM1A. Our study demonstrated that PPM1A inhibition attenuates OA by regulating TGF-β/Smad2 signaling. Furthermore, PPM1A is a potential target for OA treatment and BC-21 may be employed as alternative therapeutic agents for the management of OA

Mitochondrial dysfunction has been demonstrated in aging and osteoarthritic tissues. We investigated knee joints of prematurely aging mitochondrial DNA mutator mice (PolgD275A) to evaluate a relationship between mitochondrial dysfunction and osteoarthritis. Cartilage damage was evaluated using OARSI histopathology grading and osteoclast numbers were quantified by tartrate-resistant acid phosphatase staining in wild type, heterozygous and homozygous PolgD275A mice. Subchondral cortical plate and epiphyseal trabecular bone structures were determined by micro-computed tomography. Apoptosis in cartilage and subchondral bone tissues was studied using an indirect TUNEL method. Homozygous mutants displayed osteopenia of the epiphyseal trabecular bone and subchondral cortical plate in comparison to wild type and heterozygous mutants. Subchondral osteopenia was associated with a strong increase of osteoclast numbers (0.88±0.30/mm bone perimeter) compared to heterozygous (0.25±0.03/mm) and wild type mice (0.12±0.04/mm). Wild type mice as well as hetero- and homozygous mutants displayed low-grade cartilage degeneration due to loss of cartilage proteoglycans. In contrast, chondrocyte hypertrophy was more abundant in the homozygous mice. There were no differences in chondrocyte apoptosis rates between groups. Prematurely ageing mtDNA mutator mice with or without further mechanic or metabolic stimuli might serve as a valuable model for further experimental studies on aging-induced osteoporotic OA phenotype

Chronic glucocorticoid use causes osteogenesis loss, accelerating the progression of osteoporosis. Histone methylation is shown to epigenetically increase repressive transcription, altering lineage programming of mesenchymal stem cells (MSC). This study is undertaken to characterize the action of histone demethylase UTX to osteogenic lineage specification of bone-marrow MSC and bone integrity upon glucocorticoid treatment. Bone-marrow MSC were incubated in osteogenic medium containing supraphysiological dexamethasone. Osteogenic gene expression and mineralized nodule formation were probed using RT-PCR and von Kossa staining. The enrichment of trimethylated lysine 27 at histone 3 (H3K27me3) in Dkk1 promoter was quantified using chromatin immunoprecipitation-PCR. Bone mass and trabecular morphometry in methylprednisolone-treated skeletons were quantified using microCT analysis. Supraphysiological dexamethasone decreased osteogenic genes Runx2 and osteocalcin expression and mineralized matrix production along with reduced UTX expression in MSC. Forced UTX expression attenuated the glucocorticoid-mediated loss of osteogenic differentiation, whereas UTX knockdown provoked osteogenesis loss and cytoplasmic oil overproduction. UTX demethylated H3K27 and reduced the glucocorticoid-mediated the H3K27 enrichment in Dkk1 promoter, reversing beta-catenin signal, but downregulating Dkk1 production by MSC. In vivo, treatment with UTX inhibitor GSK-J4 significantly suppressed bone mineral density, trabecular volume, and thickness along with porous trabecular, fatty marrow and disturbed beta-catenin/Dkk1 histopathology comparable with glucocorticoid-induced osteoporosis condition. This study offers a productive insight into how UTX protects MSC from methylated histone-mediated osteogenesis repression in the development of glucocorticoid-induced osteoporosis

Abstract. Objectives. To analyse the costs and benefits of sending femoral head specimens for histopathological analysis and whether our practice had changed since the original study five years ago. Methods. The cohort definition was patients who had both undergone hip hemiarthroplasties (HHAs) and had femoral head specimens sent for histopathological analysis at our tertiary care institution from 2013 to 2016. Retrospective review of clinical and electronic notes was performed on these patients for history of malignancy, histopathological diagnosis of femoral head, indication for histopathological examination and radiological studies. The total number of HHAs performed at the centre and the costs involved in analysing each femoral head specimen were identified. Results. A total of 805 HHAs were performed at the centre. We identified 56 femoral head specimens from 56 patients (6.96%) that were sent for histopathological analysis after HHA. 29 patients (51.79%) had a known history of malignancy. Three femoral head specimens (10.34%) were histologically positive for malignancy. Two patients had hip radiographs demonstrating metastasis to the femoral head. The third patient had a PET-CT scan two weeks prior to fracture that did not show signs of metastatic disease. 27 patients (48.21%) had no history of malignancy. None of their femoral head specimens were found to be histologically positive for malignancy. 10 patients had no appropriate indication for histopathological analysis. The cost savings for 27 patients with no previous history of malignancy ranged from €2,295 to €9,504. The cost savings for 10 patients with no appropriate indication ranged from €850 to €3,520. Conclusions. Histopathological analysis of femoral head specimens after HHA has little benefit for patients without a history of malignancy. The practice at our institution had not changed significantly in the past five years. 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

Objectives. In this study, we compared the pain behaviour and osteoarthritis (OA) progression between anterior cruciate ligament transection (ACLT) and osteochondral injury in surgically-induced OA rat models. Methods. OA was induced in the knee joints of male Wistar rats using transection of the ACL or induction of osteochondral injury. Changes in the percentage of high limb weight distribution (%HLWD) on the operated hind limb were used to determine the pain behaviour in these models. The development of OA was assessed and compared using a histological evaluation based on the Osteoarthritis Research Society International (OARSI) cartilage OA histopathology score. Results. Both models showed an increase in joint pain as indicated by a significant (p < 0.05) decrease in the values of %HLWD at one week post-surgery. In the osteochondral injury model, the %HLWD returned to normal within three weeks, while in the ACLT model, a significant decrease in the %HLWD was persistent over an eight-week period. In addition, OA progression was more advanced in the ACLT model than in the osteochondral injury model. Furthermore, the ACLT model exhibited a higher mean OA score than that of the osteochondral injury model at 12 weeks. Conclusion. The development of pain patterns in the ACLT and osteochondral injury models is different in that the OA progression was significant in the ACLT model. Although both can be used as models for a post-traumatic injury of the knee, the selection of appropriate models for OA in preclinical studies should be specified and relevant to the clinical scenario. Cite this article: T. Tawonsawatruk, O. Sriwatananukulkit, W. Himakhun, W. Hemstapat. Comparison of pain behaviour and osteoarthritis progression between anterior cruciate ligament transection and osteochondral injury in rat models. Bone Joint Res 2018;7:244–251. DOI: 10.1302/2046-3758.73.BJR-2017-0121.R2

The use of antifibrinolytic drugs and many other agents have a critical importance in bleeding control. Tranexamic acid [4- (aminomethyl) cyclohexanecarboxylic acid] is a synthetic amino acid lysine derivative with antifibrinolytic activity in humans. There are many studies in the literature that show that it is effective and effective both systemically and locally in spinal surgery. However, all of these studies have investigated the effects of topical tranexamic acid on bleeding and its effect on fusion has not been investigated yet. Aim of this study is to investigate the effect of topical tranexamic acid on fusion using macroscopic, radiologic and microscopic techniques. After approve of ethics committee with the protocol number 19/2019 for 28 Wistar Albino rats underwent intertransvers fusion. All rats were randomized into four (4) groups, using sealed envelopes. Local tranexamic acid (Transamin® 100 mg/ml, Teva İlaç, İstanbul) doses was determined based on previously conducted studies; 1mg/kg (D1 group), 10mg/kg (D10 group), 100 mg/kg (D100 group) and no tranexamic acid (D0 group). At the end of 8. th. weeks all rats were evaluated with manuel palpation, mammography and histopathologic analysis. Radiographic examination was performed two times to evaluate the intra and inter observer differences. 2 rats in-group D0 died after the radiographic examination. Assessment of fusion with manual palpation revealed that use of local 1mg / kg tranexamic acid had no effect on fusion (p=0.32), however with increasing doses of tranexamic acid had negative effect on fusion (p=0.002). On radiologic examination, spearman's rho correlation coefficient was found to be moderate in the first evaluation (r=0.46) and high in second evaluation (r=0.61). Radiological examination revealed that the control group was the best in fusion (p=0.007), and that tranexamic acid affected fusion adversely, independent of dosage (p=0.27). Among the groups in histopathologic examination, no statistical difference was found (p=0.134). Local administration of tranexamic acid affects the intertransverse fusion adversely depending on the dosage macroscopically and it also affects fusion adversely independent of the dosage radiologically and histopathologically

Background. Epigenetic regulation of gene transcription affects metabolism of chondrocytes and synovial fibroblasts and is associated with the prevalence of osteoarthritis (OA) of knees. Histone lysine demethylase (KDMs) reportedly modulates tissue homeostasis and deterioration. This study investigated whether KMD6a inhibitor treatment affected the joint injuries in the progression of OA. Methods. Collagenase-induced OA knees in mice were intra-articular administered with KDM6a inhibitor GSK-J4. Walking patterns and footprints of affected animals were detected by Catwalk. Articular cartilage injury was quantified by OARSI scoring; and subchondral bone microstructure was analysed by μCT imaging. Histopathology and mRNA expression of cartilage, fibrosis and bone matrices in joint micro-compartments were detected by histomorphometry and quantitative RT-PCR. Methylation states of chondrogenic transcription factor SOX9 promoter was detected by methylation-specific PCR and chromatin immuno-precipitation. Results. Declined KDM6a expression and SOX9 gene transcription was associated with the pathogenesis of collagenase-induced joint injures. GSK-J4 administration dose-dependently improved gait profiles and footprint characteristics of affected feet and alleviated histopathology of severe cartilage degradation, synovial inflammation, fibrotic matrix accumulation and subchondral bone microarchitecture deterioration in injured joints. Treatment with GSK-J4 decreased expression of fibrogenic factor (TGF-β1, PLOD2 and TIMP) and restored expression of cartilage and bone matrices (collagen II, I, aggrecan, and osteocalcin). KDM6a inhibitor curtailed the hypomethylation of SOX9 promoter and lysine 27 of histone H3 (H3K27) and restored SOX9 mRNA and protein levels in joint tissues. Conclusions. KDM6a enhanced SOX9 promoter and H3K27 hypomethylation that accelerated the progression of OA. KDM6a inhibitor had mitigated effects on SOX9 promoter demethylation thereby restored SOX9 signaling and stabilised homeostasis of cartilage, synovium and subchondral bone compartments in affected joints. This study sheds a new light on the KDM6a-mediated epigenetic dysfunction in OA joints and has a perspective that pharmaceutical KDM6a inhibitor has therapeutic potential for OA knee pathogenesis. Level of evidence. II

Introduction. It is an example of tendon to bone healing of rotator cuff tears. Low Level Laser Therapy (LLLT) is used in pain literature, pain palliation, tendinopathies, osteoarthritis treatment, implant osteointegration in jaw surgery, wound healing, fracture healing, tendon healing, nerve healing. But; there is not a study on tendon-bone healing. It is aimed to investigate the effects of tendon to bone healing with the rotator cuff experimental tear model. Material and Methods. 60 Wistor Albino Rat right shoulders were used in our project in four groups. Effectiveness of the study in each study group to increase and use the minimum number of animals that would be significant it was planned to use 15 (6 histology + 9 biomechanical) subjects. In our study, there are 4 groups in total. 1. Group 4. Week sacrified control group 2. Group 4. Week sacrificed LLLT group 3. Group 8. Week sacrified control group 4. Group is postoperative LLLT group. The 4 round SSP tendons have been cut with a full course. A total of eight sessions of biostimulation were performed with 24 j energy per session. Biomechanical tensile test and histopathological examination were performed on rats sacrificed at 4 and 8 weeks. In histological examination, cellularity at the repair site with hemotoxylin-eosin staining, extracellular matrix localization with Masson trichrome staining and fibrosis, TRAP (Tartrate Resistance Acid Phosphatase) and osteoclast activity, collagen fibril organization with picrochucine were evaluated. In immunohistological examination, proliferation activity was evaluated by CD-31 (Abcam, Cambridge, MA, USA) through vascular endothelial cells, Ki-67 (Tucson, AZ) and tendon proliferation index. Failure load for comparison of biomechanical stability between groups drawing will be done. Biomechanical pulling applications Linear pulling force over tendon It will be realized by applying. Last failure load (Newton), elongation (mm) and hardness values was recorded. Results. Two rats died in the postoperative first group and one rat died in the other groups. Six animals from each group were examined histopathologically. While the mean of stifness was higher in the patient who underwent LLLT at the 4th week biomechanically compared to the control group, there was no difference in the 8th week between the control group LLLT biomechanically. Histologically, the group with LLLT at 4 weeks showed increased fibroblastic activity and osteoclastic activity, but at 8 weeks there was no significant difference. Discussion. There are studies on the benefits of biostimulation with LLLT in fracture healing, implant integration, wound healing, tendon healing. Biostimulation experiments with LLLT for tendon healing were evaluated in rotator cuff healing as they were not available in literature. Especially early contributions were thought to be beneficial for postoperative rupture

Decellularised extracellular matrix scaffolds show great promise for the regeneration of damaged musculoskeletal tissues (cartilage, ligament, meniscus), however, adequate fixation into the joint remains a challenge. Here, we assess the osseo-integration of decellularised porcine bone in a sheep model. This proof-of-concept study supports the overall objective to create composite decellularised tissue scaffolds with bony attachment sites to enable superior fixation and regeneration. Porcine trabecular bone plugs (6mm diameter, 10mm long) were decellularised using a novel bioprocess incorporating low-concentration sodium dodecyl sulphate with protease inhibitors. Decellularised bone scaffolds (n=6) and ovine allograft controls (n=6) were implanted into the condyle of skeletally mature sheep for 4 and 12 weeks. New bone growth was visualised by oxytetracycline fluorescence and standard resin semi-quantitative histopathology. Scaffolds were found to be fully decellularised and maintained the native microarchitecture. Following 4-week implantation in sheep, both scaffold and allograft appeared well integrated. The trabecular spaces of the scaffold were filled with a fibro-mesenchymal infiltrate, but some areas showed a marked focal lymphocytic response, associated with reduced bone deposition. A lesser lymphocytic response was observed in the allograft control. After 12-weeks the lymphocytic reaction was minimised in the scaffold and absent in allografts. The scaffold showed a higher density of new mineralized bone deposition compared to allograft. New marrow had formed in both the scaffold and allografts. Following the demonstration of osteointegration this bioprocess can now be transferred to develop decellularised composite musculoskeletal tissue scaffolds and decellularised bone scaffolds for clinical regeneration of musculoskeletal tissues

Sclerostin (SOST) is an endogenous inhibitor of Wnt/β-catenin signalling pathway to impair osteogenic differentiation and bone anabolism. SOST immunotherapy like monoclonal antibody has been observed to control bone remodeling and regeneration. This study is aimed to develop a SOST vaccine and test its protective effects on estrogen deficiency-induced bone loss in mice. Gene sequences coded SOST peptide putative targeting Wnt co-receptor LRP5 were cloned and constructed into vectors expressing Fc fragment to produced SOST-Fc fusion protein. Mice were subcutaneously injected SOST-Fc to boost anti-SOST antibody. Bone mineral density, microstructure, and mechanical property were quantified using μCT scanning and material testing system. Serum bone formation and resorption markers and anti-SOST levels were measured using ELISA. SOST-Fc injections significantly increased serum anti-SOST antibody levels but reduced serum SOST concentrations. SOST-Fc vaccination significantly reduced estrogen deficiency-induced serum bone resorption markers CTX-1 increased serum bone formation marker osteocalcin. Of note, it significantly alleviated the severity of estrogen-induced loss of bone mineral density, trabecular morphometric properties, and biomechanical forces of bone tissue. Mechanistically, SOSF-Fc vaccination attenuated trabecular loss histopathology and restored immunostaining of Wnt pathway like Wnt3a, β-catenin, and TCF4 in bone tissue along with increased serum osteoclast inhibitor OPG levels but decreased serum osteoclast enhancer RANKL concentrations. Taken together, SOST-Fc vaccination boosts anti-SOST antibody to neutralize SOST and mitigates the estrogen deficiency-induced bone mass and microstructure deterioration through preserving Wnt signalling. This study highlights an innovative remedial potential of SOST vaccine for preventing osteoporosis

Subacromial bursa fibrosis are linked to rotator cuff lesion with shoulder stiffness; however, the mechanism underlying this shoulder disorder remain elusive. MicroRNA-29s (miR-29s) are emerging fibrosis inhibitor targeting fibrogenic matrices during tissue fibrosis. This study is aimed to investigate clinical relevance and function of miR-29 signalling to subacromial bursa homeostasis in shoulder stiffness. Subacromial bursa in patients with rotator cuff lesion with or without shoulder stiffness who required open acromioplasty were harvested for assessing fibrosis histopathology using Manson's trichrome staining. Expressions of proinflammatory cytokines, fibrotic matrices, and miR-29s were quantified using RT-PCR and in situ hybridization. Range of motion and pain scores of the stiffness group were higher than those of non-stiffness group. Upregulated proinflammatory cytokines (IL-1β, IL-6, and TNF-α) and fibrotic matrices (collagen 1α1, 3α1, and 4α1) but decreased miR-29a and b expression existed in the stiffness group. Affected tissues exhibited severe fibrotic matrix accumulation, synovial hyperangiogenesis, hyperplasia, and strong miR-29a transcripts. In vitro, IL-1β rather than IL-6 and TNF-α decreased miR-29a expression of subacromial bursa fibroblasts. miR-29a knockdown escalated fibrotic matrix expression, whereas forced miR-29a expression alleviated the IL-1β-induced fibrotic matrix expression. Of interest, miR-29a transgenic mice displayed moderate responses to supraspinatus and infraspinatus tenotomy-induce fibrosis and gait irregularity of affected shoulders. Weak miR-29 signalling causes excessive fibrosis and remodelling in subacromial bursa and ultimately increases the prevalence of shoulder stiffness. This study reveals a new mechanistic underlying shoulder stiffness and highlights that sustained miR-29a potentially ameliorates the severity and function of stiff shoulder

Introduction. Osteoarthritis (OA) of the knee, a prevalently degenerative joint disorder provoked by articular cartilage loss, accounts for the leading cause of total knee arthroplasty. Autophagy is an indispensable intracellular event that maintains chondrocyte survival and metabolism. MicroRNAs are non-coding small RNAs participating in tissue morphogenesis, remodeling, and homeostasis. This study was undertaken to investigate the effect of microRNA-128 (miR-128) knockdown on the development of OA knees. Materials/Methods. Knee joints in rats were subjected to anterior cruciate ligament transection (ACLT) for inducing OA. Articular cartilage, synovium, and subchondral bone microarchitecture were assessed by OARSI scoring system, histomorphometry, and μCT imaging. Chondrocyte autophagy in terms of the expression of autophagic markers Atg4, Atg12, microtubule-associated protein 1 light chain 3 (LC3), and autophagosome formation was verified. Expression of microRNA, mRNA and signaling transduction were quantified with in situ hybridization, RT- quantitative PCR, and immunoblotting. Results. Chondrocytes in the affected knees showed weak expression of autophagic markers Atg4, Atg12, and LC3-II abundances in conjunction with significant increases in OARSI scores and a 2.5-fold elevation in miR-128 expression. The gain of miR-128 signaling in intact joints through intra-articular injection of miR-128 precursor resulted in 1.8–2.1-fold elevations in serum cartilage breakdown products CTX-II and COMP concentrations. miR-128 overexpression caused the joints to show evident chondrocyte apoptosis as evidenced by TUNEL staining concomitant with severe cartilage damage. Of note, antisense oligonucleotide knockdown of miR-128 (miR-128-AS) enabled the affected knee joints to show minor responses to the ACLT escalation of autophagy dysfunction in chondrocytes, cartilage breakdown histopathology, and OARSI scores. Administration with miR-128-AS also attenuated the ACLT-induced synovial membrane thickening, hyper-angiogenesis, and hypercellularity, which subsequently alleviated osteophyte accumulation, subchondral plate destruction, and trabecular microstructure loss. Conclusion. miR-128 signaling impairs chondrocyte autophagy, which ramps up chondrocyte apoptosis and OA knee development. This study highlights an emerging miR-128 knockdown strategy that sustains cartilage microarchitecture integrity and thereby delays OA knee pathogenesis

Introduction. Excessive bone mass and microarchitecture loss exacerbate the risk of osteoporotic fracture, a skeletal disorder attributable to disability in the elder. Excessive marrow adipose development at the expense of osteoblastic bone acquisition is a prominent feature of aging-induced osteoporotic skeletons. MicroRNA-29a (miR-29a) modulates osteogenic and adipogenic commitment of mesenchymal progenitor cells. The purposes of this study were to test if miR-29a overexpression changed bone mass or microstructure in aged skeletal tissues. Materials/Methods. Transgenic mice that overexpressed miR-29a in osteoblasts driven by osteocalcin promoter (miR-29aTg) were generated. Littermates without carrying construct of interest were used as wild-type mice (WT). 3- and 12-month-old mice were designated into young and aged groups respectively. Bone mineral density (BMD), cortical, trabecular microarchitecture and morphometric profiles were quantified with ultrahigh resolution μCT system. Primary bone-marrow mesenchymal stem cells (BMMSCs) were incubated in osteogenic and adipogenic conditions. Expressions of osteogenic and adipogenic marker were quantified with RT-PCR. Results. Skeletons in the aged WT group showed 65% decrease in BMD in association with 72% reduction in miR-29a expression and 2.3-fold elevation in marrow fat volume as compared with those in young WT group. The young miR-29aTg mice showed 35–48% increases in serum osteocalcin and bone alkaline phosphatase levels concomitant with 22–35% increases in BMD, trabecular BV/TV, Tb.Th, Tb.N, and cortical morphology than those of young WT mice. Intriguing analyses are that miR-29aTg mice exhibited mild responses to the aging provocation of BMD loss, trabecular, cortical microstructure deterioration, and fatty marrow histopathology. In vitro, primary BMMSCs in miR-29aTg mice showed significant increases in osteogenic gene expression and mineralized matrices as probed with von Kossa staining, whereas adipogenic gene expression and adipocyte formation were evidently reduced as evidenced by fluorescence Nile Red. Conclusion. miR-29a overexpression in osteoblasts facilitates skeletal tissue anabolism. High osteogenic lineage commitment of bone-marrow mesenchymal progenitor cells contributes to high bone mass and microstructure phenotypes promoted by miR-29a signaling. Analyses shed a new light on the miR-29a signaling protection against the aging escalation of osteoporosis pathogenesis

Background. MicroRNAs are non-coding small RNAs that reportedly regulate mRNA targets or protein translation of various tissues in physiological and pathological contexts. This study was undertaken to characterise the contributions of microRNA-29a (miR-29a) to the progression of estrogen deficiency-mediated excessive osteoclast resorption and bone loss. Methods. Osteoblast-specific transgenic mice overexpressing miR-29a driven by osteocalcin promoter (C57BL/6JNarl-TgOCN-mir29a) or wild-type mice were subjected to bilateral ovariectomy. Bone mineral density, trabecular microarchitecture and osteoclast distribution was quantified by μCT and histomorphometry. Primary CD11b+CSF-1R+ preosteoclasts were isolated for detecting ex vivo osteoclast differentiation. Gene expression and transcription factor-promoter interaction were quantified by RT-PCR and chromatin immunoprecipitation. Results. Estrogen depletion deteriorated bone integrity in concomitant with decrement of miR-29a expression. Transgenic mice had increased bone mass and skeletal microstructure and mitigated responses to the deleterious effects of estrogen deficiency on bone mineral density, B.Ar/T.Ar, Tb.Th and Tb.No. miR-29a overexpression attenuated the estrogen loss-mediated histopathology of osteoclast number, surface and erosion surface. Ex vivo, miR-29a transgenic mice had decreased osteoclast differentiation, osteoclastogenic marker expression (osteoclastogenic transcription factor NFATc1, TRAP, MMP-9, cathepsin K, and V-ATPase), F-actin ring and pit formation of primary preosteoclast cells. miR-29a alleviated the estrogen deficiency-induced promotion of interleukin-17 (IL-17) expression and enrichment of suppressor of cytokine signaling 2 (SOCS2) and signal transducer and activator of transcription 4 (STAT4) on IL-17 proximal promoter regions. Conclusions. Estrogen deficiency-mediated interruption of miR-29a expression exacerbates bone tissue resorption. miR-29a signalling via suppression of proinflammatory cytokine IL-17 action counteracts osteoclast differentiation and resorption reactions, thereby attenuates the deleterious effect of estrogen loss on bone integrity. This study highlights the skeletal-protective actions of miR-29a against excessive bone remodelling. Sustained miR-29a in bone tissue is beneficial for ameliorating osteoporosis. Level of evidence. II

Summary. Neurological deficits resulting from spinal cord compression occur infrequently. When presented with neurological compromise, the most common management was radiotherapy, with surgery only being offered to patients who developed neurological deficit or pathological fracture resulting in unresolved severe pain post radiotherapy. Introduction. Nasopharyngeal carcinoma has been reported to have a higher incidence of distant metastases to the spine. This study was conducted to evaluate the incidence, presentation and management of neurological involvement related to spinal metastasis from nasopharyngeal carcinoma. Patients and Methods. 814 patients with the diagnosis of NPC who presented to the National University Hospital (NUH), Singapore, over a 5-year period (2007–2011) were recruited for this study. Case records from clinics, wards, operating theatres at NUH and nationwide electronic records of polyclinics and Emergency Medical Department (EMD) were obtained and reviewed. The data collected included demographics, medical history, radiologic and histopathology reports. Results. Of 814 patients with NPC, 99 had spinal metastasis. 26 were treated with radiotherapy, 25 with chemotherapy, 5 with both chemo and radiotherapy and 6 with surgery. Out of 6 patients requiring spinal surgical procedure, 3 had neurological deficits in the form of focal sensory or motor deficits and 4 had symptoms of pathologic fracture. One patient had both neurological deficit and pathological fracture. All these 6 patients were treated with a spinal surgical procedure of stabilization and/or decompression. Discussion/Conclusion. Spinal metastasis is common in patients with NPC and back pain is the usual presentation. Neurological deficits resulting from nerve root or spinal cord compression occur infrequently. When presented with neurological compromise, the most common management was radiotherapy, with surgery only being offered to patients who developed neurological deficit or pathological fracture resulting in unresolved severe pain post radiotherapy

Introduction. Subchondral insufficiency fracture (SIF) needs to be differentiated from osteonecrosis. The purpose of this study was to evaluate the imaging and histopathological findings of patients 60 years or older with radiological evidence of subchondral collapse of the femoral head. Methods. We reviewed 77 consecutive hips in 56 patients aged 60 years or older, which showed subchondral collapse on radiographs. According to the shapes of low-intensity bands on T1-weighted images of magnetic resonance imaging (MRI), the patients were divided into 2 groups. Group A showed a concavity of the articular surface: characteristic appearances of osteonecrosis, and Group B showed an irregular convexity of the articular surface: characteristic appearances of SIF. Results. Thirty-four patients (60.7%) were categorized as Group A and 22 patients (39.3%) as Group B. All the cases in Group A had a history of corticosteroid intake or alcohol abuse. In Group B, the proportion of women as well as unilateral involvement was significantly higher than those in Group A. In 30 cases with histopathological examination, 16 were in Group A and 14 were in Group B. All the cases in Group A demonstrated characteristic features of osteonecrosis. In Group B, the band on T1-weighted images corresponded to viable reparative tissue including granulation tissue and fracture callus, which are characteristic histological findings in SIF. Conclusion. The results of this study suggest that the patient's clinical features as well as the shapes of the low-intensity bands on T1-weighted images provide a clinically concise tool for the differentiation of SIF from osteonecrosis