Microarray analysis of bone marrow lesions in osteoarthritis demonstrates upregulation of genes implicated in osteochondral turnover, neurogenesis and inflammation

Objective Bone marrow lesions (BMLs) are well described in osteoarthritis (OA) using MRI and are associated with pain, but little is known about their pathological characteristics and gene expression. We evaluated BMLs using novel tissue analysis tools to gain a deeper understanding of their cellular and molecular expression. Methods We recruited 98 participants, 72 with advanced OA requiring total knee replacement (TKR), 12 with mild OA and 14 non-OA controls. Participants were assessed for pain (using Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC)) and with a knee MRI (using MOAKS). Tissue was then harvested at TKR for BML analysis using histology and tissue microarray. Results The mean (SD) WOMAC pain scores were significantly increased in advanced OA 59.4 (21.3) and mild OA 30.9 (20.3) compared with controls 0.5 (1.28) (p<0.0001). MOAKS showed all TKR tissue analysed had BMLs, and within these lesions, bone marrow volume was starkly reduced being replaced by dense fibrous connective tissue, new blood vessels, hyaline cartilage and fibrocartilage. Microarray comparing OA BML and normal bone found a significant difference in expression of 218 genes (p<0.05). The most upregulated genes included stathmin 2, thrombospondin 4, matrix metalloproteinase 13 and Wnt/Notch/catenin/chemokine signalling molecules that are known to constitute neuronal, osteogenic and chondrogenic pathways. Conclusion Our study is the first to employ detailed histological analysis and microarray techniques to investigate knee OA BMLs. BMLs demonstrated areas of high metabolic activity expressing pain sensitisation, neuronal, extracellular matrix and proinflammatory signalling genes that may explain their strong association with pain

IRM dans la coxarthrose sévère (aspects rencontrés et corrélations histo-pathologiques)

AIX-MARSEILLE2-BU Méd/Odontol. (130552103) / SudocPARIS-BIUM (751062103) / SudocSudocFranceF

"Bone Marrow Edema" of the Femoral Head in Hip Osteoarthritis: MRI Findings with Histological Correlation

110th Annual Meeting of the American-Roentgen-Ray-Society, San Diego, CA, MAY 02-07, 2010International audienceno abstrac

Advanced hip osteoarthritis: magnetic resonance imaging aspects and histopathology correlations

International audienceObjectives: To correlate magnetic resonance imaging (MRI) aspects of the femoral head with histological findings in advanced hip osteoarthritis (OA), with special emphasis on bone marrow edema (BME).Methods: MRI was performed in patients with advanced hip OA scheduled for hip arthroplasty. Coronal T1-, fat-suppressed T2-, T1 with gadolinium intravenous injection sequences were obtained on a 1.5T MR-scanner within 1 month before surgery. Coronal MR images corresponding to the ligamentum teres plane were analyzed by two independent readers blinded to histological data. Normal bone marrow, subchondral cyst, subchondral fracture, edema-like, necrosis-like, and necrosis MR patterns were reported on a synthesis scheme. After surgery, the femoral heads specimens were cut through the ligamentum teres plane and histologically analyzed for correlations.Results: Twenty-three femoral heads were analyzed (female 56.5%, mean age 64.5 years). Edema-like MR pattern was correlated with histological (H) edema (Kappa (K): 0.77). Necrosis-like MR pattern was correlated with H fibrosis (K: 0.49) and with H necrosis (K: 0.24). Cyst MR pattern was correlated with H bone cysts (K: 0.58). Necrosis MR pattern corresponded to a mixture of histological lesions. Sensitivity and specificity of MRI varied from 26% to 80% and from 86% to 95% respectively.Conclusion: In advanced hip OA, the so-called ``BME'' MR lesion corresponds to a combination of edema, fibrosis, and necrosis at histopathology. When the classical ``BME'' is more specifically separated into edema-like and necrosis-like MR patterns, MR Imaging and histological findings show substantial agreement, with edema-like MR pattern mainly corresponding to histological edema

High-resolution ultrasonography and 3.0 T magnetic resonance imaging in erosive and nodal hand osteoarthritis: high frequency of erosions in nodal osteoarthritis

Erosive osteoarthritis (EOA) is defined as hand osteoarthritis (OA) with interphalangeal joint erosions on plain radiographs. We sought to find ultrasound (US) and magnetic resonance imaging (MRI) features that could distinguish EOA from nodal hand OA (NOA). Symptomatic consecutive patients with hand OA as defined by the American College of Rheumatology criteria (13 EOA patients as defined by erosion in a parts per thousand yen1 interphalangeal joint and seven nodal OA patients) and five normal individuals were examined by plain radiography, US, and MRI. Patients and controls underwent evaluation of metacarpophalangeal and interphalangeal joints by US, and all fingers from second to fifth digit by MRI. A total of 240 joints in symptomatic patients were examined by both imaging modalities. Synovitis, osteophytes, cartilage loss, and erosions were frequently detected in the joints of patients with EOA and NOA. Six of seven patients with NOA had joint erosions that were seen on MRI or US scan but seen on plain radiographs. The overall concordance between MRI and US findings was substantial for osteophytes (kappa = 0.79) and excellent for cysts (kappa = 0.85), erosions (kappa = 0.84), synovitis (kappa = 0.82), and tenosynovitis (kappa = 0.83) in both groups. Inflammatory changes, such as effusions and synovitis, and structural changes, such as erosions, were frequently detected by US and MRI in EOA and nodal OA. These findings may support the hypothesis that EOA could not be a separate entity but may represent the severe end of the spectrum of hand OA