Osteoarthritis Structural Changes Research Articles

Influence of the Synthetic Cannabinoid Agonist on Normal and Inflamed Cartilage: An In Vitro Study.

Medical marijuana (versus Marijuana derivatives) has been reported to possess analgesic, immunomodulatory, and anti-inflammatory properties. Recent studies in animal models of arthritis showed that cannabinoids, a group of compounds produced from marijuana, may attenuate joint damage. However, whether marijuana byproducts can suppress osteoarthritis (OA)-associated cartilage degradation has not been previously reported. In this study, human chondrocytes were isolated from healthy articular cartilage, expanded in vitro, and subjected to pellet culture in a chondrogenic medium to form cartilage tissues. We first examined the influence of marijuana byproducts on normal cartilage by treating chondrocyte-derived tissues with a synthetic cannabinoid agonist, Win-55,212-2 (Win), at different concentrations ranging from 0.01 to 10 µM. After treatment, the tissue phenotype was assessed using glycosaminoglycan (GAG) assay and real-time PCR. Next, cartilage tissues were pre-treated with interleukin-1β (IL-1β) to generate an inflamed phenotype and then cultured with Win to assess its therapeutic potential. The results showed that at concentrations lower than 1 µM, Win treatment did not significantly impair chondrocyte growth or cartilage formation capacity, but at a high level (>10 µM), it remarkably suppressed cell proliferation. Interestingly, under the condition of IL-1β pre-treatment, Win was able to partially preserve the cartilage matrix and decrease the production of interleukin-6, although the protective effect was mild. Taken together, our results indicated that the variable effects of Win on chondrocytes occur in a concentration-dependent manner. Whether cannabinoid derivatives can be used to treat cartilage degradation or can alter other structural changes in OA deserve further investigation.

Fundamentals of osteoarthritis: Inflammatory mediators in osteoarthritis

As more has become known of the pathophysiology of osteoarthritis (OA), evidence that inflammation plays a critical role in its development and progression has accumulated. Here, we aim to review current knowledge of the complex inflammatory network in the OA joint. This narrative review is presented in three main sections: local inflammation, systemic inflammation, and therapeutic implications. We focused on inflammatory mediators and their link to OA structural changes in the joint. OA is characterized by chronic and low-grade inflammation mediated mostly by the innate immune system, which results in cartilage degradation, bone remodeling and synovial changes. Synovitis is regarded as an OA characteristic and associated with increased severity of symptoms and joint dysfunction. However, the articular cartilage and the subchondral bone also produce several pro-inflammatory mediators thus establishing a complex interplay between the different tissues of the joint. In addition, systemic low-grade inflammation induced by aging, obesity and metabolic syndrome can contribute to OA development and progression. The main inflammatory mediators associated with OA include cytokines, chemokines, growth factors, adipokines, and neuropeptides. Future research is needed to deeper understand the molecular pathways mediating the inflammation in OA to provide new therapeutics that target these pathways, or to repurpose existing drugs.

Role of Doxycycline as an Osteoarthritis Disease-Modifying Drug.

Doxycycline is a drug that has been proposed to modify osteoarthritis (OA) progression, in addition to its role as an antibiotic. However, available evidence thus far comprises sporadic reports, with no consensus on its benefits. Hence, this review attempts to analyze the evidence available thus far on the role of doxycycline as a disease-modifying osteoarthritis drug (DMOAD) in knee osteoarthritis. The earliest evidence of doxycycline in OA appeared in 1991 when doxycycline was found to inhibit the type XI collagenolytic activity of extracts from the human osteoarthritic cartilage, and gelatinase and tetracycline were found to inhibit this metalloproteinase activity in articular cartilage in vivo, which could modify cartilage breakdown in osteoarthritis. Apart from the inhibition of cartilage damage by metalloproteinases (MMPs) and other cartilage-related mechanisms, doxycycline also affects the bone and interferes with many enzyme systems. The most significant finding after reviewing various studies was that doxycycline has a definitive role in structural changes in osteoarthritis progression and radiological joint space width, but its role in the improvement of clinical outcomes as a DMOAD has not been established. However, there is much of a gap and lack of evidence in this regard. Doxycycline, as an MMP inhibitor, has theoretical advantages for clinical outcomes, but the present studies reveal only beneficial structural changes in osteoarthritis and very minimal or nonexistent advantages in clinical outcomes. Current evidence does not favor the regular use of doxycycline for the treatment of osteoarthritis as an individual treatment option or in combination with others. However, multicenter large cohort studies are warranted to determine the long-term benefits of doxycycline.

Medial meniscus extrusion is directly correlated with medial tibial osteophyte in patients received reconstruction surgery for anterior cruciate ligament injury: A longitudinal study

ObjectiveAnterior cruciate ligament (ACL) injury is one of the causes for post-traumatic knee osteoarthritis (OA), and ACL reconstruction surgery is reportedly unable to prevent OA development. In early-stage knee OA, medial meniscus extrusion (MME) is closely correlated with tibial medial osteophyte width, which consists of bone and cartilage -parts. However, the relationship between MME and osteophyte in ACL-injured patients remains elusive. We examined MME and osteophyte and their relationship in ACL-injured patients before and after surgery. DesignThirty ACL-injured patients who underwent surgery (30.7 years old, on average) were enrolled. Correlations between magnetic resonance imaging (MRI)-detected OA changes and MME before and after surgery (7.6 months interval) were analyzed. ResultsMME (>3 ​mm) was present in 16.7% and 26.7% of the patients before and after surgery, respectively, and MME was significantly increased after surgery (2.4 ​± ​1.3 ​mm) than before surgery (1.9 ​± ​1.2 ​mm) (p ​< ​0.0001). Full-length tibial osteophyte width measured by T2 mapping MRI was significantly increased after surgery (1.9 ​± ​0.7 ​mm) than before surgery (1.4 ​± ​0.6 ​mm) (p ​< ​0.0001). Among OA structural changes, only medial tibial osteophyte width directly correlated with MME before surgery (β ​= ​0.962) (p ​< ​0.001) and after surgery (β ​= ​0.928) (p ​= ​0.001). All the patients with MME had medial tibial osteophyte before and after surgery. A direct correlation was observed between changes of MME and those of medial tibial osteophyte width before and after surgery (r ​= ​0.63) (p ​< ​0.0001). ConclusionMME and medial tibial osteophyte were simultaneously increased after surgery. In addition to close correlation between MME and medial tibial osteophyte width, changes of MME and medial tibial osteophyte width before and after surgery were directly correlated.

Melatonin abolished proinflammatory factor expression and antagonized osteoarthritis progression in vivo

Progressive structural changes in osteoarthritis (OA) involve synovial inflammation and angiogenesis, as well as activation of the proinflammatory cytokines tumor necrosis factor alpha (TNF-α) and interleukin (IL)-8, and the angiogenic factor vascular endothelial growth factor (VEGF). The endogenous hormone melatonin (N-acetyl-5-methoxytryptamine) is involved in antioxidative and anti-inflammatory activities, but how it antagonizes OA progression via its specific receptors is unclear. Here, we demonstrate that the MT1 melatonin receptor, but not the MT2 receptor, is highly expressed in normal tissue and only minimally in OA tissue. By targeting the MT1 receptor, melatonin reversed OA-induced pathology and effectively reduced levels of TNF-α, IL-8, and VEGF expression in OA synovial fibroblasts and synovium from rats with severe OA. Interestingly, we found that the anabolic activities of melatonin involved the MT1 receptor, which upregulated microRNA-185a through the PI3K/Akt and ERK signaling pathways in OA synovial fibroblasts. Our investigation confirms the role of the MT1 receptor in melatonin-induced anti-catabolic effects in OA disease.

Effects of intra-articular corticosteroid versus platelet- rich plasma on induced knee osteoarthritis in adult albino rats. Histological and anatomical study

ABSTRACTBackground: Osteoarthritis (OA) is a common degenerative joint disease. Intra-articular injection of microcrystalline corticosteroid and platelet- rich plasma (PRP) are used for pain relief of knee OA.Aim of the Study: the goal of this study was to assess the possible therapeutic effects of corticosteroid compared to PRP in a rat model of induced OA.Material and Methods: Intra-articular injection of monosodium iodoacetate (MIA) was used for induction of OA in rats. Blood was collected from12 adult male rats for PRP preparation. 54 adult female albino rats were divided into control groups, OA model group and treated groups which received CS or PRP. All rats were euthanized after 28 days. Left knee joints were processed for histological examination by light microscope after staining by H& E, toluidine blue and masson’s trichrome stains. Right knee joints were grossly examined by stereomicroscope and scanning electron microscope (SEM). The obtained data were examined, further statistically analyzed and interpreted. Results: MIA caused gross anatomical and histological alterations in rat’s articular cartilage similar to human knee OA. Articular cartilage of corticosteroid and PRP treated knee joints showed thinning of the articular cartilage, fibrillation and presence of pannus- like tissue. These groups also showed significant increase in histopathological scores compared to the control group and OA model group in addition to gross macroscopic changes that were confirmed by SEM.Conclusion: This study showed that neither corticosteroid nor PRP could limit the structural changes in osteoarthritis and that different PRP preparation techniques have yielded varying results.

Pain highly correlates to collagenase-induced oa-like damage in female mice but not in males.

Pain highly correlates to collagenase-induced oa-like damage in female mice but not in males.

Tibial cartilage, subchondral bone plate and trabecular bone microarchitecture in varus-and valgus-osteoarthritis versus controls.

This preliminary study quantified tibia cartilage thickness (Cart.Th), subchondral bone plate thickness (SBPl.Th)and subchondral trabecular bone (STB) microarchitecture in subjects with varus- or valgus- malaligned knees diagnosed with end-stage knee osteoarthritis (OA) and compared them to controls (non-OA). Tibial plateaus from 25 subjects with knee-OA (undergoing knee arthroplasty) and 15 cadavers (controls) were micro-CT scanned (17 µm/voxel). Joint alignment was classified radiographically for OA subjects (varus-aligned n = 18, valgus-aligned n = 7). Cart.Th, SBPl.Th, STB bone volume fraction (BV/TV) and their medial-to-lateral ratios were analyzed in anteromedial, anterolateral, posteromedial and posterolateral subregions. Varus-OA and valgus-OA were compared to controls. Compared to controls (1.19-1.54 mm), Cart.Th in varus-OA was significantly lower anteromedially (0.58 mm, -59%) and higher laterally (2.19-2.47 mm,+60-63%); in valgus-OA, Cart.Th was significantly higher posteromedially (1.86 mm,+56%). Control medial-to-lateral Cart.Th ratios were around unity (0.8-1.1), in varus-OA significantly below (0.2-0.6) and in valgus-OA slightly above (1.0-1.3) controls. SBPl.Th and BV/TV were significantly higher medially in varus-OA (0.58-0.72 mm and 37-44%, respectively) and laterally in valgus-OA (0.60-0.61 mm and 32-37%), compared to controls (0.26-0.47 mm and 18-37%). In varus-OA, the medial-to-lateral SBPl.Th and BV/TV ratios were above unity (1.4-2.4) and controls (0.8-2.1); in valgus-OA they were closer to unity (0.8-1.1) and below controls. Varus- and valgus-OA tibia differ significantly from controls in Cart.Th, SBPl.Thand STB microarchitecture depending on joint alignment, suggesting structural changes in OA may reflect differences in medial-to-lateral load distribution upon the tibial plateau. Here we identified an inverse relationship between cartilage thickness and underlying subchondral bone, suggesting a whole-joint response in OA to daily stimuli.

Visfatin increases ICAM-1 expression and monocyte adhesion in human osteoarthritis synovial fibroblasts by reducing miR-320a expression.

Pathophysiological events that modulate the progression of structural changes in osteoarthritis (OA) include monocyte adhesion and infiltration, and synovial inflammation. In particular, the adhesion protein intercellular adhesion molecule type 1 (ICAM-1) promotes monocyte recruitment into the synovial tissue. Visfatin is an adipocyte hormone that promotes the release of inflammatory cytokines during OA progression. We report that visfatin enhances ICAM-1 expression in human OA synovial fibroblasts (OASFs) and facilitates the adhesion of monocytes with OASFs. AMPK and p38 inhibitors, as well as their respective siRNAs, attenuated the effects of visfatin upon ICAM-1 synthesis and monocyte adhesion. We also describe how miR-320a negatively regulates visfatin-induced promotion of ICAM-1 expression and monocyte adhesion. We detail how visfatin affects ICAM-1 expression and monocyte adhesion with OASFs by inhibiting miR-320a synthesis via the AMPK and p38 signaling pathways.

Intra-articular corticosteroid knee injection induces a reduction in meniscal thickness with no treatment effect on cartilage volume: a case\u2013control study

Although intra-articular corticosteroid injections (IACI) are commonly used for the treatment of knee osteoarthritis (OA), there is controversy regarding possible deleterious effects on joint structure. In this line, this study investigates the effects of IACI on the evolution of knee OA structural changes and pain. Participants for this nested case–control study were from the Osteoarthritis Initiative. Knees of participants who had received an IACI and had magnetic resonance images (MRI) were named cases (n = 93), and each matched with one control (n = 93). Features assessed at the yearly visits and their changes within the follow-up period were from MRI (cartilage volume, meniscal thickness, bone marrow lesions, bone curvature, and synovial effusion size), X-ray (joint space width), and clinical (Western Ontario and McMaster Universities Osteoarthritis Index [WOMAC] pain score) data. Participants who received IACI experienced a transient and significantly greater rate of loss of the meniscal thickness (p = 0.006) and joint space width (p = 0.011) in the knee medial compartment in the year they received the injection, compared to controls. No significant effect of the IACI was found on the rate of cartilage loss nor on any other knee structural changes or WOMAC pain post-treatment. In conclusion, a single IACI in knee OA was shown to be safe with no negative impact on structural changes, but there was a transient meniscal thickness reduction, a phenomenon for which the clinical relevance is at present unknown.

Pharmacologic iron chelation reduces markers of chondrocyte hypertrophy and osteoarthritis-associated cartilage lesions in an animal model of idiopathic disease

Purpose: It has previously been documented that chondrocytes from joints afflicted with osteoarthritis (OA) undergo improper dedifferentiation into hypertrophic chondrocytes; thus, it is postulated that this process may contribute to the progression of OA. Relative to unaffected adult chondrocytes, hypertrophic chondrocytes mimic cellular processes for endochondral ossification observed during initial development of long bones. In particular, they express markers of hypertrophic differentiation such as runx family transcription factor 2 (runx2), collagen type x, and the matrix degrading enzyme matrix metalloproteinase-13 (MMP-13). In addition to these markers, hypertrophic chondrocytes exhibit increased apoptosis, decreased autophagy, and promote cartilage vascularization and mineralization of the extracellular matrix. One theory for why this hypertrophic state occurs is that oxidative stress from reactive oxygen species (ROS) contributes to this shift in chondrocyte phenotype. We had previously demonstrated the ability of systemic iron reduction, achieved by an iron deficient diet, to reduce ROS production and thereby decrease structural changes of OA in an animal model of idiopathic/spontaneous disease. Given the success of this study, we hypothesized that systemic iron chelation - achieved by administration of the pharmacologic iron chelator deferoxamine (DFO) - would reduce markers of chondrocyte hypertrophy and decrease the development of knee OA in this animal model. Methods: All procedures received University approval and were performed in accordance with the NIH Guide for the Care and Use of Laboratory Animals. Three-month-old male Dunkin-Hartley guinea pigs were randomly assigned to receive either DFO or vehicle control (n=8 per group). Animals within the DFO group received 46 mg/kg of DFO injected subcutaneously twice daily while animals within the control group received an equivalent dose of saline. Animals were subjected to 10-minute sessions of open field behavior monitoring once per month for the duration of the study, with baseline activity levels collected prior to initiating treatment. The study was terminated when animals were 8-months-old, at which time body weights were recorded. Hind limbs were removed and the right tibia was measured using calipers. Articular cartilage was collected from the right knee joint for gene expression analysis using Nanostring nCounter technology. Femoral head cartilage and liver tissue were collected for iron quantification by atomic absorption spectroscopy. Left knee joints were formalin-fixed, paraffin-embedded, and stained with toluidine blue. For histologic analysis, all joint compartments were blindly scored by two assessors using OARSI published guidelines. Data were compared using non-parametric Mann-Whitney U tests, Welch’s t-tests, or unpaired student’s t-tests as appropriate given the normality and heteroscedasticity of the data. All statistical analyses were performed with Prism 8.0; statistical significance was set at P≤0.05. Results: No significant differences in body weight (p=0.576) or tibia length (p=0.628) were present between groups. As anticipated, animals treated with DFO had lower levels of iron within the liver (p=0.0218) and articular cartilage (p=0.0005) tissue than control animals. Histologic grading of knee joints confirmed that animals treated with DFO had lower total joint OA scores than control animals (p<0.0001). Gene transcript analysis demonstrated that, relative to controls, animals treated with DFO had lower expression of runx2 (p=0.0010), MMP-13 (p=0.0151), vascular endothelial growth factor (VEGF; p=0.0140), β- catenin (p<0.0001), wnt (p=0.0008), mammalian target of rapamycin (mTOR; p=0.0018), and the serine/threonine protein kinase AKT (p=0.0041). Animals treated with DFO also had increased expression of b cell lymphoma 2 (BCL-2; p<0.0001), a prototypical anti-apoptotic marker. There was no significant difference in the gene expression of collagen type x between groups (p=0.3163). Open field behavior monitoring indicated that DFO treated animals maintained their baseline activity level throughout the study, while the movement of control animals declined throughout the study. Conclusions: Administration of a pharmacologic iron chelator was successful in reducing iron levels both systemically and within articular cartilage tissue, which was associated with a reduced development of OA-associated cartilage lesions and maintained mobility in these animals. Gene transcript analysis of cartilage tissue revealed that DFO treated animals had a decreased expression of: select markers of chondrocyte hypertrophy (runx2 and MMP-13), negative regulators of autophagy (AKT and mTOR), the angiogenesis promoter VEGF, and genes associated with chondrocyte dedifferentiation (β- catenin and wnt); while displaying increased expression of the anti-apoptotic protein BCL-2. These results indicate that removal of excess iron may help prevent chondrocyte hypertrophy and development of OA-related changes within the cartilage of knee joints.

The interactions between MRI-detected osteophytes and bone marrow lesions or effusion-synovitis on knee symptoms in patients with knee osteoarthritis

Purpose: Early diagnosis of osteoarthritis (OA) facilitates early treatment to prevent disease progression. Osteophytes (OPs) have long been regarded as landmark structural changes of OA. However, radiography can only detect OPs in the advanced stage of OA. Magnetic resonance imaging (MRI) has higher sensitivity than radiography, and can detect OPs at an earlier stage of OA. Previous studies were controversial about the relationship between OPs and knee symptoms, and few researches focused on the interactions between OPs and other structure changes on the progression of knee symptoms.

MORPHOLOGICAL ASSESSMENT OF STRUCTURAL CHANGES IN KNEE JOIN IN MODELED OSTEOARTHROSIS AND APPLICATION OF AUTOLOGICAL BONE MARROW ASPIRATE

Background. Treatment of knee join osteoarthritis is one of challenging medico-social issues. Sometimes the conservative treatment fails to produce therapeutic effect, therefore, the use of cellular technologies in the treatment for progressive degenerative changes of the knee joint has been proposed. The objective of this study was to investigate the effect of bone marrow aspirate on the structural changes in the knee joint in modelled osteoarthritis. Materials and methods. The experimental osteoarthritis was simulated in rabbits. Autologous bone marrow aspirate was injected into the knee cavity in 1 month after surgery, and then in 2, 5 months the structural changes of the capsule, meniscus, proximal epiphysis of the tibia were studied. Results. There were the following structural changes in the capsule of the knee joint: stratification of structural elements and reduction of the cell density of the capsule, cell necrosis of the inner surface of the capsule. The defect area of the epiphyseal cartilage was lacking in cartilage, and the peripheral cartilage thickness was decreased by 30, 4% (p&lt;0,05); subchondral bone density made up an average 55,9% compared with the control. In the group with bone marrow aspirate, the density of fibroblasts in the joint capsule increased and the surface of the meniscus was partially preserved; the density of subchondral bone tissue was significantly higher by 79,5% (p&lt;0.05) compared with the control. Structural changes in osteoarthritis include progressive dystrophic changes of the joint surface, subchondral bone, meniscus, and joint capsule. The use of autologous bone marrow aspirate can prevent damage to the subchondral bone, meniscus and joint capsule and promote reticular tissue formation and induction of angiogenesis. The morphological changes of bone marrow through progressive osteoarthritis and its renovation after local application of autological bone marrow aspirate concentrate are promising approaches for the further studies.

Моделювання остеоартрозу колінного суглоба у собак

У статті висвітлено результати проведених досліджень з моделювання остеоартрозу у собак із використанням хірургічного методу Pond-Nuki. Описано методику проведення оперативного втручання та виготовлення гістопрепаратів. Описано наявність у них виразних мікроскопічних змін тканини та макроскопічних змін у макропрепараті. Відзначено, що за остеоартрозу колінного суглоба собак у суглобовому хрящі стегнової кістки виявляються руйнування поверхневих шарів суглобового хряща, невпорядковане розташування хондроцитів, руйнування й лізис частини хондроцитів та зменшення вмісту глікопротеїдів у міжклітинній речовині.

Platelet-Rich Plasma for the Management of Hip and Knee Osteoarthritis.

Knee and hip osteoarthritis (OA) are major public health problems worldwide causing pain, disability and impaired quality of life. This narrative paper discusses platelet-rich plasma (PRP) as a treatment for hip and knee OA, with a focus on evidence from randomised controlled trials (RCTs). Since the first RCT of PRP in 2012, there has been 15 RCTs in knee OA and three in hip OA, mostly comparing PRP to another intra-articular injection therapy, hyaluronic acid. All studies are of low to moderate methodological quality and use variable PRP protocols. In general, results showed that PRP is a safe treatment with potential to provide symptomatic benefit for OA at least in the short term (up to 12months). Younger patients with less severe disease may be more responsive. There are no RCTs investigating the effects of PRP on OA structural changes. No definitive conclusions can be made about the effects of PRP in OA given methodological concerns and considerable heterogeneity between studies. Further high-quality research is needed to establish the clinical and cost-effectiveness of PRP, the patients most likely to benefit and the optimal PRP protocol.

Soya-cerebroside, an extract of Cordyceps militaris, suppresses monocyte migration and prevents cartilage degradation in inflammatory animal models

Pathophysiological events that modulate the progression of structural changes in osteoarthritis (OA) include the secretion of inflammatory molecules, such as proinflammatory cytokines. Interleukin-1beta (IL-1β) is the prototypical inflammatory cytokine that activates OA synovial cells to release cytokines and chemokines in support of the inflammatory response. The monocyte chemoattractant protein-1 (MCP-1/CCL2) is one of the key chemokines that regulate migration and infiltration of monocytes in response to inflammation. We show in this study that IL-1β-induced MCP-1 expression and monocyte migration in OA synovial fibroblasts (OASFs) is effectively inhibited by soya-cerebroside, an extract of Cordyceps militaris. We found that soya-cerebroside up-regulated of microRNA (miR)-432 expression via inhibiting AMPK and AKT signaling pathways in OASFs. Soya-cerebroside also effectively decreased monocyte infiltration and prevented cartilage degradation in a rat inflammatory model. Our findings are the first to demonstrate that soya-cerebroside inhibits monocyte/macrophage infiltration into synoviocytes, attenuating synovial inflammation and preventing cartilage damage by reducing MCP-1 expression in vitro and in vivo. Taken together, we suggest a novel therapeutic strategy based on the use of soya-cerebroside for the management of OA.

Chondroitin sulfate efficacy versus celecoxib on knee osteoarthritis structural changes using magnetic resonance imaging: a 2-year multicentre exploratory study.

BackgroundIn osteoarthritis (OA) treatment, although chondroitin sulfate (CS) was found in a number of studies using radiography to have a structure-modifying effect, to date CS use is still under debate. A clinical study using quantitative magnetic resonance imaging (qMRI) is therefore of the utmost importance. Here we report data from a 24-month, randomised, double-blind, double-dummy, controlled, comparative exploratory study of knee OA. The primary endpoint was to determine the effect of CS 1200 mg/day versus celecoxib 200 mg/day on cartilage volume loss (CVL) in the lateral compartment over time as measured by qMRI. Secondary endpoints included assessment of the OA structural changes and signs and symptoms of OA.MethodsqMRI was performed at baseline and at 12 and 24 months. CVL, bone marrow lesion size, and synovial thickness were evaluated using qMRI. The primary statistical analysis was carried out on the modified intention-to-treat (mITT) population (n = 138) using chi-squared, Fisher’s exact, Wilcoxon Mann–Whitney, and Student’s t tests and analysis of covariance. Analyses were also conducted on the according-to-protocol (ATP; n = 120) population.ResultsIn the adjusted mITT analysis, compared with celecoxib treatment, patients treated with CS had a significant reduced CVL at 24 months in the medial compartment (celecoxib –8.1 % ± 4.2, CS –6.3 % ± 3.2; p = 0.018) and medial condyle (–7.7 % ± 4.7, –5.5 % ± 3.9; p = 0.008); no significant effect was seen in the lateral compartment. In the ATP population, CS reduced CVL in the medial compartment at 12 months (celecoxib –5.6 % ± 3.0, CS –4.5 % ± 2.6; p = 0.049) and 24 months (celecoxib –8.4 % ± 4.2, CS –6.6 % ± 3.3; p = 0.021), and in the medial condyle at 24 months (celocoxib –8.1 % ± 4.7, CS –5.7 % ± 4.0; p = 0.010). A trend towards a statistically reduced synovial thickness (celecoxib +17.96 ± 33.73 mm, CS –0.66 ± 22.72 mm; p = 0.076) in the medial suprapatellar bursa was observed in CS patients. Both groups experienced a marked reduction in the incidence of patients with joint swelling/effusion and in symptoms over time. Data showed similar good safety profiles including cardiovascular adverse events for both drugs.ConclusionThis study demonstrated, for the first time in a 2-year randomised controlled trial using qMRI, the superiority of CS over celecoxib at reducing CVL in knee OA patients.Trial registrationClinicalTrials.gov NCT01354145. Registered 13 May 2011.Electronic supplementary materialThe online version of this article (doi:10.1186/s13075-016-1149-0) contains supplementary material, which is available to authorized users.

Synovial changes detected by ultrasound in people with knee osteoarthritis – A meta-analysis of observational studies

Purpose: To examine the prevalence of synovial effusion, synovial hypertrophy and positive Doppler signal detected by ultrasound (US) in people with knee osteoarthritis (OA) or knee pain compared to that in the general population. Methods: A systematic literature search was undertaken in Medline, EMBASE, Allied and Complementary Medicine, PubMed Web of Science, and SCOPUS databases in May 2015. Frequencies of US abnormalities in people with knee OA/pain, in the general population or asymptomatic controls were pooled using the random effects model. Publication bias and heterogeneity between studies were examined. Quality assessment was performed using Newcastle-Ottava scale. Results: Twenty four studies in people with knee OA/pain (n=3173) and five studies of the general population (n=1007) met the inclusion criteria. The pooled prevalence of US effusion, synovial hypertrophy and positive Doppler signal in people with knee OA/pain were 51.5% (95%CI 40.2 to 62.8), 41.5% (26.3 to 57.5) and 32.7% (8.34 to 63.24), respectively, which were higher than those in the general population or asymptomatic controls (19.9% (95%CI 7.8% to 35.3%), 14.5% (0 to 58.81), and 15.8 (3.08 to 35.36), respectively). In addition, people with knee OA (ACR criteria or radiographic OA) had greater prevalence of US abnormalities than people with knee pain (pooled prevalence for effusion 58.7% (95% CI 47 to 69.9) and 26% (5.6 to 54.4), p=0.037, for synovial hypertrophy 49% (95% CI 30.5 to 67.6) and 15.2% (3.3 to 33.3), p=0.010 and for Doppler signal 43.8% (95% CI 11.7 to 79.0) and 4.8% (1.9 to 8.7), p=0.009, respectively). Sensitivity analysis in studies on people with knee OA/pain revealed that studies with sample size less than 100 reported significantly higher prevalence of effusion and synovial hypertrophy (p=0.034 and p=0.015, respectively). A significant difference was observed in prevalence of Doppler signal between higher (overall score ≥50%) and lower quality studies (pooled prevalence 6.0% (95%CI 2.4 to 10.9) and 77% (54.5 to 93.7), respectively) (Figure 1). A positive association between knee effusion and pain was reported in 7 of 10 studies. Most studies found no association between synovial hypertrophy and pain (4 of 6), and there were no data for DS. Conclusions: US detected effusion, synovial hypertrophy and Doppler signal are more common in people with knee OA/pain, compared to the general population. These abnormalities relate more to presence of OA structural changes than to pain.

Synovial changes detected by ultrasound in people with knee osteoarthritis – a meta-analysis of observational studies

SummaryObjectivesTo examine the prevalence of synovial effusion, synovial hypertrophy and positive Doppler signal (DS) detected by ultrasound (US) in people with knee osteoarthritis (OA) and/or knee pain compared to that in the general population.MethodA systematic literature search was undertaken in Medline, EMBASE, Allied and Complementary Medicine, PubMed Web of Science, and SCOPUS databases in May 2015. Frequencies of US abnormalities in people with knee OA/pain, in the general population or asymptomatic controls were pooled using the random effects model. Publication bias and heterogeneity between studies were examined.ResultsTwenty four studies in people with knee pain/OA and five studies of the general population or asymptomatic controls met the inclusion criteria. The pooled prevalence of US effusion, synovial hypertrophy and positive DS in people with knee OA/pain were 51.5% (95% CI 40.2 to 62.8), 41.5% (26.3–57.5) and 32.7% (8.34–63.24), respectively, which were higher than those in the general population or asymptomatic controls (19.9% (95%CI 7.8–35.3%), 14.5% (0–58.81), and 15.8 (3.08–35.36), respectively). People with knee OA (ACR criteria or radiographic OA) had greater prevalence of US abnormalities than people with knee pain (P = 0.037, P = 0.010 and P = 0.009, respectively).ConclusionsUS detected effusion, synovial hypertrophy and DS are more common in people with knee OA/pain, compared to the general population. These abnormalities relate more to presence of OA structural changes than to pain.

Impact of disease treatments on the progression of knee osteoarthritis structural changes related to meniscal extrusion: Data from the OAI progression cohort

ObjectiveIn the perspective of personalized management of osteoarthritis (OA), a clinically relevant concern is the impact of meniscal extrusion (Ext) on response to treatment. This study aimed at determining the effects of conventional OA pharmacological treatments and those of the combination of glucosamine and chondroitin sulfate (Glu/CS) on knee structural changes in the presence or absence of Ext, using data from the progression cohort of the Osteoarthritis Initiative. MethodsIn this longitudinal study, knee OA participants were stratified based on whether (+) or not (−) they received analgesics/NSAIDs (+ and −analgesics/NSAIDs) and/or Glu/CS (+ and −Glu/CS) for 24 consecutive months and on the presence (Ext+) or absence (Ext−) of medial meniscal extrusion at baseline. The main outcomes were knee structural changes including the loss of joint space width (JSW) and cartilage volume loss measured by quantitative MRI. ResultsIn both − and +analgesics/NSAIDs groups (n = 300 each), the Ext+ participants had more-advanced disease at baseline (T0) and more JSW loss and cartilage volume loss in the medial compartment (p ≤ 0.003, univariate; p ≤ 0.049, multivariate analyses) at both 12 (T12) and 24 (T24) months compared to Ext− participants. In the −analgesics/NSAIDs group, Ext+ participants taking Glu/CS had significantly less cartilage volume loss in the medial plateau at T24 (p ≤ 0.010, univariate and multivariate analyses). In the +analgesics/NSAIDs group at T24, Ext− participants taking Glu/CS had less cartilage volume loss in the global (p ≤ 0.002, univariate and multivariate analyses) and medial and lateral plateaus (p = 0.034 and p = 0.013, respectively, multivariate analysis). No significant difference in JSW loss was found between the groups. ConclusionThis study is the first to demonstrate, using qMRI, that meniscal extrusion can modify the response to Glu/CS treatment in knee OA patients, depending on the severity of the disease.