Application of Computer-Aided Navigation Technology in the Extraction of Foreign Body From the Face

Frank Echtermeyer and Michael Streit contributed equally to this work.Received for publication June 12, 2000, and accepted in revised form December 8, 2000.The syndecans make up a family of transmembrane heparan sulfate proteoglycans that act as coreceptors with integrins and growth factor tyrosine kinase receptors. Syndecan-4 is upregulated in skin dermis after wounding, and, in cultured fibroblasts adherent to the ECM protein fibronectin, this proteoglycan signals cooperatively with β 1 integrins. In this study, we generated mice in which the syndecan-4 gene was disrupted by homologous recombination in embryonic stem cells to test the hypothesis that syndecan-4 contributes to wound repair. Mice heterozygous or homozygous for the disrupted syndecan-4 gene are viable, fertile, and macroscopically indistinguishable from wild-type littermates. Compared with wild-type littermates, mice heterozygous or homozygous for the disrupted gene have statistically significant delayed healing of skin wounds and impaired angiogenesis in the granulation tissue. These results indicate that syndecan-4 is an important cell-surface receptor in wound healing and angiogenesis and that syndecan-4 is haplo-insufficient in these processes.

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Syndecan-4 signals cooperatively with integrins in a Rhodependent manner in the assembly of focal adhesions and actin stress fibers

Saoncella

Echtermeyer²,

Denhez³

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

344

319

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The assembly of focal adhesions and actin stress fibers by cells plated on fibronectin depends on adhesionmediated signals involving both integrins and cell-surface heparan sulfate proteoglycans. These two cell-surface receptors interact with different domains of fibronectin. To attempt to identify the heparan sulfate proteoglycans involved, we used fibronectin-null (FN؊͞؊) mouse fibroblasts to eliminate the contribution of endogenous fibronectin during the analysis.

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Absence of integrin α7 causes a novel form of muscular dystrophy

et al. 1997

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Calcification of articular cartilage in human osteoarthritis

Fuerst

Bertrand

Lammers

et al. 2009

Arthritis & Rheumatism

278

249

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Objective. Hypertrophic chondrocyte differentiation is a key step in endochondral ossification that produces basic calcium phosphates (BCPs). Although chondrocyte hypertrophy has been associated with osteoarthritis (OA), chondrocalcinosis has been considered an irregular event and linked mainly to calcium pyrophosphate dihydrate (CPPD) deposition. The aim of this study was to determine the prevalence and composition of calcium crystals in human OA and analyze their relationship to disease severity and markers of chondrocyte hypertrophy.Methods. One hundred twenty patients with endstage OA undergoing total knee replacement were prospectively evaluated. Cartilage calcification was studied by conventional x-ray radiography, digital-contact radiography (DCR), field-emission scanning electron microscopy (FE-SEM), and synovial fluid analysis. Cartilage calcification findings were correlated with scores of knee function as well as histologic changes and chondrocyte hypertrophy as analyzed in vitro.Results. DCR revealed mineralization in all cartilage specimens. Its extent correlated significantly with the Hospital for Special Surgery knee score but not with age. FE-SEM analysis showed that BCPs, rather than CPPD, were the prominent minerals. On histologic analysis, it was observed that mineralization correlated with the expression of type X collagen, a marker of chondrocyte hypertrophy. Moreover, there was a strong correlation between the extent of mineralization in vivo and the ability of chondrocytes to produce BCPs in vitro. The induction of hypertrophy in healthy human chondrocytes resulted in a prominent mineralization of the extracellular matrix.Conclusion. These results indicate that mineralization of articular cartilage by BCP is an indissociable process of OA and does not characterize a specific subset of the disease, which has important consequences in the development of therapeutic strategies for patients with OA.Osteoarthritis (OA) is the most common joint disorder and is characterized by cartilage loss, new bone formation at the margins of the joints (osteophytes), changes in subchondral bone, and recurrent synovitis. The incidence of OA increases with age. Calcium pyrophosphate dihydrate (CPPD) crystals are known to cause acute attacks of pseudogout in the joints, but crystal deposition has also been reported to be associated with OA (1). Aside from CPPD crystals, basic calcium phosphates (BCPs), such as carbonatesubstituted hydroxyapatite (HA), tricalcium phosphate, and octacalcium phosphate, have been found in the synovial fluid (SF), synovium, and cartilage from patients with OA (2-4). The data concerning the distribution and frequency of their occurrence vary, depending on patient selection and crystal identification methods (5-7). Identification of BCP crystals in OA

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Syndecan-4 regulates ADAMTS-5 activation and cartilage breakdown in osteoarthritis

Echtermeyer

Bertrand

Dreier

et al. 2009

Nat Med

290

263

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Aggrecan cleavage by a disintegrin and metalloproteinase with a thrombospondin type 1 motif, member 5 (ADAMTS-5) is crucial for the breakdown of cartilage matrix during osteoarthritis, a degenerative joint disease that leads to the progressive destruction of articular structures. The mechanisms of ADAMTS-5 activation and their links to the pathogenesis of osteoarthritis remain poorly understood, but syndecans have been shown to be involved in the activation of ADAMTS-4 (ref. 3). Here we show that syndecan-4 is specifically induced in type X collagen-producing chondrocytes both in human osteoarthritis and in murine models of the disease. The loss of syndecan-4 in genetically modified mice and intra-articular injections of syndecan-4-specific antibodies into wild-type mice protect from proteoglycan loss and thereby prevent osteoarthritic cartilage damage in a surgically induced model of osteoarthritis. The occurrence of less severe osteoarthritis-like cartilage destruction in both syndecan-4-deficient mice and syndecan-4-specific antibody-treated wild-type mice results from a marked decrease in ADAMTS-5 activity. Syndecan-4 controls the activation of ADAMTS-5 through direct interaction with the protease and through regulating mitogen-activated protein kinase (MAPK)-dependent synthesis of matrix metalloproteinase-3 (MMP-3). Our data suggest that strategies aimed at the inhibition of syndecan-4 will be of great value for the treatment of cartilage damage in osteoarthritis.

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Frank Echtermeyer

Delayed wound repair and impaired angiogenesis in mice lacking syndecan-4

Syndecan-4 signals cooperatively with integrins in a Rhodependent manner in the assembly of focal adhesions and actin stress fibers

Absence of integrin α7 causes a novel form of muscular dystrophy

Calcification of articular cartilage in human osteoarthritis

Syndecan-4 regulates ADAMTS-5 activation and cartilage breakdown in osteoarthritis

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