RT Journal Article SR Electronic T1 23 Diversity Of Macrophage Signatures Across A Spectrum Of Supraspinatus Pathology JF British Journal of Sports Medicine JO Br J Sports Med FD BMJ Publishing Group Ltd and British Association of Sport and Exercise Medicine SP A15 OP A16 DO 10.1136/bjsports-2014-094114.23 VO 48 IS Suppl 2 A1 Dakin, Stephanie G A1 Martinez, Fernando O A1 Wells, Graham A1 Yapp, Clarence A1 Carr, Andrew YR 2014 UL http://bjsm.bmj.com/content/48/Suppl_2/A15.abstract AB Introduction Inflammation is increasingly recognised as an important contributor to the development of tendon pathology.1,2 Macrophages (M&varphi;) are key orchestrators of inflammation and fibrosis in connective tissues, yet little is known about their phenotype in pathological human tendons. The aim of this study was to characterise M&varphi; signatures in samples of tendinopathic and torn human supraspinatus. We hypothesised that M&varphi; signatures would exhibit diverse profiles throughout the spectrum of tendon pathology. Methods Normal and tendinopathic supraspinatus were collected via ultrasound guided biopsy performed under local anaesthetic. Torn supraspinatus was collected after routine surgical debridement of the torn tendon. M&varphi; were identified as CD68+ cells in formalin fixed paraffin embedded sections by immunohistochemistry. Subsequently, quadruple immunofluorescent labelling and confocal microscopy was performed to better characterise M&varphi; protein signatures. To identify genes associated with M&varphi; activation status, quantitative real time PCR for chemokines, cytokines and M&varphi; markers was performed in samples of normal subscapularis (n = 2) and torn supraspinatus (n = 11). Results There were significantly increased numbers of CD68+ stained cells in tendinopathic (p < 0.01) and torn (p < 0.01) supraspinatus compared to normal samples. The level of expression of genes associated with macrophage activation in torn supraspinatus showed distinct alterations at different pathological stages compared to normal subscapularis. M&varphi; in small-medium sized tears (1–3 cm) exhibited a complex heterogeneous signature, with genes from LPS, IFNγ, glucocorticoid (GC) and IL-4 signalling pathways represented. In contrast, the M&varphi; gene signature of large-massive tears (3–5 cm) was more representative of IL-4 and glucocorticoid signalling pathways (Table 1). Immunofluorescent labelling of tendon sections supported these findings, with a mixed M&varphi; signature in tendinopathic and small-medium tears (IDOhighIRF5highCD163highCD206low) and a glucocorticoid/IL-4 signature (CD163highCD206high) in massive tears. View this table:Abstract 23 Table 1 Up regulation of M&varphi; activation genes and their signalling pathways in torn supraspinatus Discussion These data highlight the complexity and diversity of M&varphi; signatures in supraspinatus tendons throughout the spectrum of pathology. We propose that M&varphi; signatures in pathological supraspinatus tendons are implicated in driving the development of chronic inflammation and the formation of a fibrotic repair. References 1 Dakin, et al. PLoS ONE. 2012;7(2):e32333 2 Dakin, et al. Vet Immunol Immunopath. 2014;158(3–4):21–127