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During osteoarthritis (OA), angiogenesis is increased in the synovium, osteophytes and menisci and leads to ossification in osteophytes and the deep layers of articular cartilage. Angiogenic and antiangiogenic factors might both be upregulated in the osteoarthritic joint; however, vascular growth predominates, and the articular cartilage loses its resistance to vascularization. In addition, blood vessel growth is increased at--and disrupts--the osteochondral junction. Angiogenesis in this location is dependent on the creation of channels from subchondral bone spaces into noncalcified articular cartilage. Inflammation drives synovial angiogenesis through macrophage activation. Blood vessel and nerve growth are linked by common pathways that involve the release of proangiogenic factors, such as vascular endothelial growth factor, β-nerve growth factor and neuropeptides. Proangiogenic factors might also stimulate nerve growth, and molecules produced by vascular cells could both stimulate and guide nerve growth. As sensory nerves grow along new blood vessels in osteoarthritic joints, they eventually penetrate noncalcified articular cartilage, osteophytes and the inner regions of menisci. Angiogenesis could, therefore, contribute to structural damage and pain in OA and provide potential targets for new treatments.

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Angiogenesis and nerve growth factor at the osteochondral junction in rheumatoid arthritis and osteoarthritis

Walsh

et al. 2010

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Objectives. The osteochondral junction can be a source of pain in both RA and OA. Growth of blood vessels and nerves from the subchondral bone into articular cartilage may mediate the association between joint pathology and symptoms. We have investigated associations between angiogenesis, inflammation and neurovascular growth factor expression at the osteochondral junction in human arthritis.Methods. Osteochondral junctions from medial tibial plateaux of patients undergoing arthroplasty for RA (n = 10) or OA (n = 11), or from non-arthritic post-mortem controls (n = 11) were characterized by immunohistochemistry for CD34 and smooth muscle α-actin (blood vessels), CD68 (macrophages), CD3 (lymphocytes), proliferating cell nuclear antigen, vascular endothelial, platelet-derived and nerve growth factor (NGF).Results. Osteochondral angiogenesis was demonstrated as increased endothelial cell proliferation and vascular density in non-calcified articular cartilage, both in RA and OA. Osteochondral angiogenesis was associated with subchondral bone marrow replacement by fibrovascular tissue expressing VEGF, and with increased NGF expression within vascular channels. RA was characterized by greater lymphocyte infiltration and PDGF expression than OA, whereas chondrocyte expression of VEGF was a particular feature of OA. NGF was observed in vascular channels that contained calcitonin gene-related peptide-immunoreactive sensory nerve fibres.Conclusions. Osteochondral angiogenesis in RA and OA is associated with growth factor expression by cells within subchondral spaces, vascular channels and by chondrocytes. NGF expression and sensory nerve growth may link osteochondral angiogenesis to pain in arthritis.

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Activation of the transcription factor nuclear factor‐κB in human inflamed synovial tissue

Marok

Winyard

Coumbe

et al. 1996

Arthritis & Rheumatism

294

167

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Objective. The transcription factor–κB (NF‐κB) has been implicated in the inflammatory response and is known to be activated by a process involving reactive oxygen intermediates. The purpose of the present study was to demonstrate the presence and distribution of activated NF‐κB in synovium samples from patients with rheumatoid arthritis (RA) and osteoarthritis (OA) and from autopsy subjects with no known history of arthritis. Methods. Immunohistochemical staining was performed using both polyclonal and monoclonal “activity‐specific” antibodies to the Rel‐A (p65) subunit of NF‐κB (anti‐Rel‐A nuclear location sequences). Histologic features of inflammation were also scored. Results. Both antibodies demonstrated positive staining of synovial tissue, with a cellular distribution that was nuclear. The staining was associated with specific cell types within the tissue, in particular, type A synoviocytes and vascular endothelium. Notably, lymphoid aggregates were unstained. Using the monoclonal antibody, a further study was carried out to investigate the distribution of staining in tissues from patients with different disease activities and clinical diagnoses, as well as in normal control tissue obtained at autopsy. Patients with acute RA more commonly showed vessel staining (P = 0.05) and, conversely, showed less frequent staining of the synovial lining (P < 0.005) compared with OA patients. Synovial tissue from controls exhibited either no staining or only weak staining in the synovial lining. Conclusion. The activation of NF‐κB in vascular endothelium and type A synovial lining cells is a feature of synovial tissue from both RA and OA patients. The distribution of this staining appears to be related to the clinical diagnosis.

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Increased vascular penetration and nerve growth in the meniscus: a potential source of pain in osteoarthritis

et al. 2010

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The synovial membrane in osteoarthritis: a histological study including the characterisation of the cellular infiltrate present in inflammatory osteoarthritis using monoclonal antibodies.

Revell

Mayston

Lalor

et al. 1988

Annals of the Rheumatic Diseases

165

117

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SUMMARY Inflammatory infiltration of the synovial membrane has been described in a proportion of cases of osteoarthritis (OA). Using conventional histology, lymphoid follicles, diffuse fibrosis, and perivascular fibrosis were shown to be present to a significantly greater extent and in more synovial membranes in osteoarthritis than in those cases where there was a mechanical or traumatic background to the joint disease. Calcium pyrophosphate dihydrate crystals (five patients) and detritic fragments of bone and cartilage (seven patients) were present in small numbers of the total cases of OA (38) studied. Neither of these features was related to the presence of an inflammatory infiltrate. Examination of 20 osteoarthritic synovial membranes using monoclonal antibodies showed the presence of lymphoid follicles containing T helper and T suppressor lymphocytes, B lymphocytes, and macrophages expressing HLA-DR in five cases. The T helper:suppressor ratio varied between 1:1 and 2-5:1 in these follicles. In addition, half of the OA samples, including these five cases, showed the presence of a diffuse cellular infiltrate containing T and B lymphocytes and macrophages, which were HLA-DR positive. Granulocytes were present in this diffuse infiltrate in those cases containing lymphoid follicles. The results confirm the presence of an inflammatory form of osteoarthritis but also show that the proportions of lymphoid cells are not the same as those considered to be typical of rheumatoid arthritis.

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Hypoxia, oxidative stress and rheumatoid arthritis

1995

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Contributions of angiogenesis to inflammation, joint damage, and pain in a rat model of osteoarthritis

Ashraf

Mapp

Walsh

2011

Arthritis & Rheumatism

153

112

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Objective. To determine the contributions of angiogenesis to inflammation, joint damage, and pain behavior in a rat meniscal transection model of osteoarthritis (OA).Methods. OA was induced in male Lewis rats (n ‫؍‬ 8 per group) by meniscal transection. Animals were orally dosed with dexamethasone (0.1 mg/kg/day), indomethacin (2 mg/kg/day), or the specific angiogenesis inhibitor PPI-2458 (5 mg/kg every other day). Controls consisted of naive and vehicle-treated rats. Synovial inflammation was measured as the macrophage fractional area (expressed as the percentage), thickness of the synovial lining, and joint swelling. Synovial angiogenesis was measured using the endothelial cell proliferation index and vascular density. Channels positive for vessels at the osteochondral junction were assessed (osteochondral angiogenesis). Medial tibial plateaus were assessed for chondropathy, osteophytosis, and channels crossing the osteochondral junction. Pain behavior was measured as weight-bearing asymmetry.Results. Dexamethasone and indomethacin each reduced pain behavior, synovial inflammation, and synovial angiogenesis 35 days after meniscal transection. Dexamethasone reduced, but indomethacin had no significant effect on, the total joint damage score. PPI-2458 treatment reduced synovial and osteochondral angiogenesis, synovial inflammation, joint damage, and pain behavior.Conclusion. Our findings indicate that synovial inflammation and joint damage are closely associated with pain behavior in the meniscal transection model of OA. Inhibition of angiogenesis may reduce pain behavior both by reducing synovitis and by preventing structural change. Targeting angiogenesis could therefore prove useful in reducing pain and structural damage in OA.

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Structural Associations of Symptomatic Knee Osteoarthritis

Stoppiello

Mapp

Wilson

et al. 2014

Arthritis & Rheumatology

115

106

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ObjectiveStructural changes of osteoarthritis (OA) may occur in the absence of pain. In this study, we aimed to identify histopathologic features that are associated with symptomatic knee OA.MethodsMedial tibial plateaus and synovium samples were obtained at the time of total knee replacement (TKR) surgery for OA (advanced OA group) or were obtained postmortem from subjects who had not sought medical attention for knee pain during the last year of life (non-OA control group). To identify features of OA, we compared the patients with advanced OA with the age-matched non-OA controls (n = 26 per group). To identify OA features associated with symptoms, we compared two additional groups of subjects who were matched for severity of chondropathy (n = 29 per group): patients undergoing TKR for symptomatic OA (symptomatic chondropathy group) and postmortem subjects with similar severity of chondropathy who were asymptomatic during the last year of life (asymptomatic chondropathy group). The histologic features of the samples were graded, and immunoreactivities for macrophages (CD68) and nerve growth factor (NGF) in the synovium were quantified. The cellular localization of synovial NGF was determined by double immunofluorescence analysis.ResultsAdvanced OA cases displayed more severe changes in the synovium (synovitis, increased synovial NGF, and CD68-immunoreactive macrophages) and cartilage (loss of cartilage surface integrity, loss of proteoglycan, tidemark breaching, and alterations in chondrocyte morphology) than did the non-OA controls. Synovial NGF was localized predominantly to fibroblasts and to some macrophages. The symptomatic chondropathy group displayed greater levels of synovitis, synovial NGF, and loss of cartilage integrity, in addition to alterations in chondrocyte morphology, than did the asymptomatic chondropathy group (P < 0.05 for each comparison).ConclusionSynovitis, increased synovial NGF, alterations in chondrocyte morphology, and loss of cartilage integrity are features of knee OA that may be associated with symptoms.

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P.I. Mapp

Mechanisms and targets of angiogenesis and nerve growth in osteoarthritis

Angiogenesis and nerve growth factor at the osteochondral junction in rheumatoid arthritis and osteoarthritis

Activation of the transcription factor nuclear factor‐κB in human inflamed synovial tissue

Increased vascular penetration and nerve growth in the meniscus: a potential source of pain in osteoarthritis

The synovial membrane in osteoarthritis: a histological study including the characterisation of the cellular infiltrate present in inflammatory osteoarthritis using monoclonal antibodies.

Hypoxia, oxidative stress and rheumatoid arthritis

Contributions of angiogenesis to inflammation, joint damage, and pain in a rat model of osteoarthritis

Structural Associations of Symptomatic Knee Osteoarthritis

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