Abstract

Abstract

Abstract

Abstract

Introduction:

Wear debris from articulating joint implants is inevitable. Small debris particles are phagocytosed by macrophages. Larger particles initiate the fusion of many macrophages into multi-nucleated giant cells for particle encasement. Macrophages are recruited into inflamed tissues from the circulating monocyte population. Approximately 10% of white blood cells are monocytes which after release from the bone marrow circulate for 2–3 days, before being recruited into tissues as inflammatory macrophages or undergoing apoptosis. Circulating MRP8/14 (S100A8/A9) is a measure of monocyte recruitment, part of the monocyte-endothelial docking complex, and shed during monocyte transmigration across the endothelium. The higher the S100A8/A9 the more monocytes being recruited giving an indirect measure of debris production.

Introduction:

The risk factors for degenerative joint disease are well established: increasing age, obesity, joint abnormalities, trauma and overuse, together with female gender, ethnic and genetic factors. That obesity is a significant risk factor for developing osteoarthritis in non-weight-bearing as well as weight-bearing and joints was one of the first indications that the risk was nor purely that of aberrant biomechanical loading. Low grade chronic systemic inflammation is a component of each of ageing and obesity, atherosclerosis and diabetes, culminating in Metabolic Syndrome. In our study of 1684 patients with joint degeneration 85% were overweight or obese and 65% older than 65 years with 62% being both, 73% of patients were taking medications for serious, ‘non-orthopaedic’ health problems such as cardiovascular or respiratory disease, obesity or NIDDM. Monocytes are a major component of chronic inflammation, approximately 10% of white blood cells are monocytes which circulate for 2–3 days, before being recruited into tissues as inflammatory macrophages or undergoing apoptosis. Circulating S100A8/A9 (MRP8/14) is a measure of monocyte recruitment being shed during monocyte transmigration across the endothelium. The higher the S100A8/A9 the more monocytes being recruited giving an indirect measure of chronic inflammatory status.

Introduction

Shoulder motion results from a complex interaction between the interconnected segments of the shoulder girdle. Coordination is necessary for normal shoulder function and is achieved by synchronous and coordinated muscle activity. During rotational movements, the humeral head translates on the glenoid fossa in the anterior-posterior plane. Tension developed by the rotator cuff muscles compresses the humeral head into the glenoid fossa. This acts to limit the degree of humeral head translation and establishes a stable GH fulcrum about which the arm can be moved. Previous studies have been limited by the use of contrived movement protocols and muscular coordination has not been previously considered with regard to shoulder rotation movements. This study reports the activation profile and coordination of 13 muscles and 4 muscle groups during a dynamic rotational movement task based on activities of daily living.

Introduction and Aims: To determine differences in rotator cuff tissue with duration of symptoms and tear size

Method: Rotator cuff tissue was obtained at debridement from 44 patients undergoing surgical repair. Pathological assessment was performed on H& E sections. Features evaluated included inflammation, micro-calcification, tendolipomatosis and fibroblast hypocellularity. Matrix quality and endothelial cell proliferation were examined. Patient details – age, tear size and duration of symptoms were extracted from notes.

Results: Matrix quality was significantly worse in small tears (p=0.028), particularly the extent of mucoid degeneration in the debrided tissue (p=0.017). Presence of a healthy cut margin was more likely in a large tear (10/14). Poor matrix was significantly associated with symptom duration > 15months (p=0.006) especially microcalicification (p=0.019) and mucoid degeneration (p=0.047). Endothelial cell proliferation was significantly more apparent in patients with longer duration of symptoms: previous vascular tufting (p=0.001) and ongoing vascular proliferation (p=0.019). Of 27 patients > 15months symptoms, vascular proliferation was strongly correlated with split collagen fibres (p< 0.018) and mucoid degeneration (p< 0.018) but not microcalcification. Tendolipomatosis was strongly correlated with ongoing vascular proliferation (p< 0.0006).

Conclusion: Successful surgical repair is only achieved in 30% patients with rotator cuff tears. Improvements in this success rate will be essential in order to maintain the independent lifestyle of an elderly population. Although the tissue examined here is debrided, and hence worst case tissue, several time-dependent processes are ongoing, degeneration, repair and remodelling. Matrix quality is deteriorating, however, this maybe supportive of the angiogenic component of repair. Remodelling may be seen in the increased probability of a healthy cut margin from patients with longer symptom duration.

Introduction and Aims: To determine whether non-steroidal anti-inflammatory drugs (NSAID) administration influences ongoing endothelial cell proliferation in tom rotator cuff?

Method: Rotator cuff tissue, obtained at debridement from 53 patients undergoing surgical repair, was fixed and embedded. Pathological assessment was performed on H& E sections. Ongoing vascular proliferation was identified by plump endothelial cells and budding of vessels. Patient cuff details and pre-operative drug prescription data was obtained from patients’ notes and by telephone from general practitioners. The drugs used were NSAIDs (including Aspirin, Ibuprofen and Diclofenac), COX 2 inhibitors and Opiates. The data was analysed using the SPSS program and the Pearson Chi-square test.

Results: Of the 35 patients taking analgesics, vascular proliferation was absent or reduced in 22 (63%). Twenty of these patients were taking NSAIDs. Four patients were taking only COX-2 inhibitor drugs; all these patients had increased vascularity. Twenty-three patients were taking codeine-based analgesics. Of 10 patients using codeine without NSAIDs, eight demonstrated active ongoing vascular proliferation (p=0.027).

Conclusion: Patients taking NSAIDs showed a significant reduction in ongoing vascular proliferation. If endothelial cell proliferation is an important component of repair in either the onset or post-operative stages of rotator cuff pathology, then attempts at repair could be compromised by inadequate local function of the vascular system. We have previously identified strong p27 positivity in rotator cuff endothelial 0 cells. NSAIDs can impair healing by inhibiting angiogenesis; the mechanism includes upregulation of p27 in endothelial cells. More work should be done to clarify this matter in the rotator cuff.

Introduction: The rotator cuff is subject to constant pressure from the head of the humerus. This tends to ‘wring out’ the blood supply resulting in a functionally avascular critical zone, although microvessels can be identified. This zone is the site of degeneration and tears. Damage repair under these conditions would be difficult. Myofibroblasts are characteristic of the contractile phase of wound healing. We have examined their distribution in both healthy resected and torn, degenerating rotator cuff tissue and correlated their presence with vascularity and hypoxia in the surrounding tissue. Methods: Rotator cuff tissue was obtained from ten patients undergoing surgical repair. The size of tear was 1–4.5cm, Immunohistochemical staining with commercial monoclonal antibodies to HIF-1α (Hypoxia inducible factor), vimentin, smooth muscle actin (SMA), CD31 and VEGF was performed on formalin fixed paraffin embedded tissues. Visualisation used standard DAB chromagen technique. Results: Focal myofibroblast positivity (SMA+/VIM+) was detected, areas of positivity were found at the interface between torn and degenerating tissues adjacent to the tear. Myofibroblasts were absent in degenerating tissue. The areas of myofibroblast positivity were well vascularized, with strong VEGF positivity. Nuclear HIF-1α positivity was identified in the adjacent endothelial cell population and sporadically in fibroblast population, although not in the myofibroblasts. Conclusion: Evidence of an ongoing wound healing response was found in tissue from torn rotator cuffs. However, it was patchy and infrequent.

Background: Microvessels have been identified in the functionally avascular critical zone of the rotator cuff. Inadequate local sprouting of these capillaries might impair attempts at repair. We have identified widespread VEGF positivity in endothelial cells. However, this was accompanied by strong positivity for the cell cycle inhibitor p27 and little proliferation (Ki-67 positivity). Non-steroidal anti-inflammatory drugs (NSAID) can impair healing by inhibiting angiogenesis. The mechanisms include upregulation of p27 in endothelial cells. Objective: Does NSAIDs influence endothelial cell proliferation in torn rotator cuff? Methods: Pathological assessment of Rotator cuff tissue, obtained from 35 patients undergoing surgical repair, was performed on H& E sections. Ongoing vascular proliferation was identified by plump endothelial cells and budding of vessels. Preoperative drug prescription data was obtained from patient’s General practitioners. The drugs used were NSAIDs (including Ibuprofen and Diclofenac), COX2 inhibitors & Opiates. Results: Ongoing vascular proliferation was not identified in 20/35 patients. 25 patients were taking analgesics; vascular proliferation was absent in 15. 20 patients were taking NSAIDs of these 15 demonstrated no ongoing vascular proliferation, (p≤0.014). No significant effect of opiates or COX2inhibitors was found. Discussion: Patients taking NSAIDs showed a significant reduction in vascular proliferation. If endothelial cell proliferation is an important component of repair in rotator cuff tears, more work should be done to clarify this matter.

The role of matrix metalloproteinases (MMPs) in the aseptic loosening of hip prostheses is well established. Gelatinase MMPs have been identified in the interface membranes and the pseudosynovial tissues in the hips. Little data are available on gelatinase MMPs and their major regulators, including specific tissue inhibitors of matrix metalloproteinases (TIMPs) in the loosening of shoulder prostheses. The objectives of this study were to determine whether A) gelatinase MMPs and their regulators (MMP14, TIMP-1,-2) are produced by periprosthetic tissues in cases of aseptic loosening of shoulder prostheses, and, B) to identify which cell types, in both interface and synovial tissues, localize the enzymes.

Interface tissues and synovial tissues were obtained during revision surgery for loose shoulder implants. In 9 patients (6-Total Shoulder Replacement, 3-Hemiarthro-plasty (Bipolar), 9 samples of interface tissues and 8 samples of synovial tissues were obtained. Of the interface tissues 2 were from the interface of the bipolar and the unresurfaced glenoid. Formalin-fixed paraffin embedded sections were stained using primary antibodies for MMP2 (Neomarkers), MMP9 (Oncogene Ltd), TIMP1, TIMP2 & MMP14 (Chemicon Ltd). Antigen retrieval required pressure cooker treatment for MMP2 and MMP9 and trypsin for TIMP1. Visualisation used a standard DAB chromagen technique (Envision, Dako Ltd.). Appropriate control sections ensured reproducibility of the staining. The antibodies selected bind to both active and inactive forms of the MMPs.

Both HDPE and metal debris were seen in both the synovial and interface tissues. Transformation of macrophages to giant cells was associated with PE debris, and was not observed with metal debris alone.

The presence of gelatinase MMPs in both interface and synovial tissues in aseptic loosening of shoulder prostheses was demonstrated. Differences between the MMP content of macrophages and giant cells between the tissues was detected, positivity was associated with the presence of metallic and/or HDPE debris. Activation of endothelial MMP2 by both MMP14 and low levels of TIMP2 would support the development of a vascular network.

The overall incidence of cuff tears increases with age, individuals over 80years having a 51% incidence of a tear. Currently, the aetiology of rotator cuff tears remains unclear and successful repair is achieved in only 30% patients. Matrix metalloproteinases (MMPs) have roles in a wide range of physiological processes including placentation and embryogenesis, tissue remodelling and wound healing. However, the ability of MMPs to dissolve extracellular matrix has been linked to a variety of pathological processes including rheumatoid arthritis, osteoarthritis, periodontitis and multiple sclerosis, which involve excessive matrix destruction. Production of gelatinase MMPs by torn rotator cuff has been demonstrated. The objectives of this study were to examine the expression of MMPs and their association with histological changes in full thickness tears of the rotator cuff.

Rotator cuff tissue was obtained from ten patients (age 40–80years) undergoing surgical repair. The size of tear was 1–4.5cm; time from presentation to surgery was 1 month (acute) to between 0.5–4years (chronic). Immunohistochemical staining with commercial monoclonal antibodies to a range of MMPs, endothelial, macrophage and fibroblast markers was performed. Production of gelatinase MMPs was measured by gelatin zymography on tissue culture supernatant. Visualisation used a standard DAB chromagen technique.

In the acute specimens there was an infiltrate of macrophages with little collagen degeneration; the fibro-blasts were MMP1 positive and endothelial cells MMP2 positive. At 12 months post-tear mature collagen, plump fibroblasts and proliferating endothelial cells were identified adjacent to the resection edge. Towards the torn edge areas of lower cellularity, sparse vascularity and collagen degeneration were observed. Vimentin positive, CD68 negative cells within this matrix were rounded with foamy cytoplasm, and intensely positive for MMP1 and MMP2, and positive for MMP-3, -10, -11, -13 and -14. Tissue culture supernatant demonstrated active and latent MMP2 production in all cases.

The prolonged interval between trauma and surgical repair, with potential pharmacological intervention, remedial physiotherapy and disuse immobility, make assessment of the factors contributing to tendon degeneration difficult to determine. Fatty infiltration, dystrophic calcification and patchy collagen degeneration were common. However, clear evidence of cellular activities typical of wound repair were also identified, including fibroblast and endothelial cell proliferation. The most striking finding was the association between areas of poor collagen structure with fibroblasts staining intensely for both MMP1 and MMP2 and positive for other matrix metalloproteinases. The production of MMP1 and MMP2 may contribute to active remodelling of the tendon matrix. Success of repair could be influenced by both the quality of the matrix and the cell types and activities in the tissue at the resection edge.

Purpose: To investigate the relationships between vascular endothelial growth factor (VEGF), a proliferation marker (Ki-67) and the cell cycle inhibitor p27 (cyclin-dependent kinase inhibitor p27), in endothelial cells in chronic degeneration of the rotator cuff.

Background: The rotator cuff is subject to constant pressure from the head of the humerus. This tends to ‘wring out’ the blood supply resulting in a functionally avascular critical zone, although microvessels can be identified. This zone is the site of degeneration and tears. Attempts at repair under these circumstances could be compromised by inadequate local function of the vascular system particularly sprouting of the capillaries to support the repair process.

Methods: Rotator cuff tissue was obtained from ten patients (age 40–80y) undergoing surgical repair. The size of tear was 1–4.5cm, time from presentation to surgery was 1 month (acute) to between 0.5–4y (chronic). Immunohistochemical staining with commercial mono-clonal antibodies to VEGF, p27, Ki-67 was performed on formalin fixed paraffin embedded tissues. Endothelial cells were identified by CD31 and smooth muscle actin (SMA) positivity. Visualisation used a standard DAB chromagen technique.

Results: Microvessel distribution varied according to tissue location, being pronounced towards the muscle insertion and torn edges of tissue, but much reduced in areas of healthy tendon and absent from areas with clear signs of advanced matrix degeneration without tears. Widespread VEGF positivity was observed in fibroblast and endothelial cell populations and diffusely within the matrix. Strong P27 positivity was observed in many endothelial cells which consequently demonstrated little Ki-67 staining.

Conclusion: Thus the endothelial cells appear to be simultaneously under both a mitogenic, VEGF drive, and subject to an inhibition of proliferation i.e. p27 positivity.