Henrotin, Yves ; Université de Liège - ULiège > Département des sciences de la motricité > Unité de recherche sur l'os et le cartillage (U.R.O.C.) - Didactique des sciences de la santé - Pathologie générale et physiopathologie
Sanchez, Christelle ; Université de Liège - ULiège > Département des sciences de la motricité > Unité de recherche sur l'os et le cartillage (U.R.O.C.)
Bergman B.C., Martin D.T., and Wilkinson J.G. Knee extensor torque and perceived discomfort during symmetrical biphasic electromyostimulation. J Strength Cond Res 15 (2001) 1-5
Kerin A., Patwari P., Kuettner K., et al. Molecular basis of osteoarthritis: biomechanical aspects. Cell Mol Life Sci 59 (2002) 27-35
Roos E.M., and Dahlberg L. Positive effects of moderate exercise on glycosaminoglycan content in knee cartilage: a four-month, randomized, controlled trial in patients at risk of osteoarthritis. Arthritis Rheum 52 (2005) 3507-3514
Sharma L., and Chang A. Overweight: advancing our understanding of its impact on the knee and the hip. Ann Rheum Dis 66 (2007) 141-142
Choi J.B., Youn I., Cao L., et al. Zonal changes in the three-dimensional morphology of the chondron under compression: the relationship among cellular, pericellular, and extracellular deformation in articular cartilage. J Biomech 40 (2007) 2596-2603
Gray M.L., Pizzanelli A.M., Lee R.C., et al. Kinetics of the chondrocyte biosynthetic response to compressive load and release. Biochim Biophys Acta 991 (1989) 415-425
Knobloch T.J., Madhavan S., Nam J., et al. Regulation of chondrocytic gene expression by biomechanical signals. Crit Rev Eukaryot Gene Expr 18 (2008) 139-150
Sharma G., Saxena R.K., and Mishra P. Differential effects of cyclic and static pressure on biochemical and morphological properties of chondrocytes from articular cartilage. Clin Biomech (Bristol, Avon) 22 (2007) 248-255
Fitzgerald J.B., Jin M., Chai D.H., et al. Shear- and compression-induced chondrocyte transcription requires MAPK activation in cartilage explants. J Biol Chem 283 (2008) 6735-6743
Shimazaki A., Wright M.O., Elliot K., et al. Calcium/calmodulin-dependent protein kinase II in human articular chondrocytes. Biorheology 43 (2006) 223-233
Guilak F., Meyer B.C., Ratcliffe A., et al. The effects of matrix compression on proteoglycan metabolism in articular cartilage explants. Osteoarthritis Cartilage 2 (1994) 91-101
Chowdhury T., Arghandawi S., Brand J., et al. Dynamic compression counteracts IL1beta induced inducible nitric oxide synthase and cyclooxygenase-2 expression in chondrocyte/agarose constructs. Arthritis Res Ther 10 (2008) R35
Gosset M., Berenbaum F., Levy A., et al. Prostaglandin E2 synthesis in cartilage explants under compression: mPGES-1 is a mechanosensitive gene. Arthritis Res Ther 8 (2006) R135
Gabay O., Gosset M., Levy A., et al. Stress-induced signaling pathways in hyalin chondrocytes: inhibition by avocado-soybean unsaponifiables (ASU). Osteoarthritis Cartilage 16 (2008) 373-384
Sowa G., and Agarwal S. Cyclic tensile stress exerts a protective effect on intervertebral disc cells. Am J Phys Med Rehabil 87 (2008) 537-544
Madhavan S., Anghelina M., Sjostrom D., et al. Biomechanical signals suppress TAK1 activation to inhibit NF-kappaB transcriptional activation in fibrochondrocytes. J Immunol 179 (2007) 6246-6254
Gassner R.J., Buckley M.J., Studer R.K., et al. Interaction of strain and interleukin-1 in articular cartilage: effects on proteoglycan synthesis in chondrocytes. Int J Oral Maxillofac Surg 29 (2000) 389-394
Guilak F., and Mow V.C. The mechanical environment of the chondrocyte: a biphasic finite element model of cell-matrix interactions in articular cartilage. J Biomech 33 (2000) 1663-1673
LeRoux M.A., Guilak F., and Setton L.A. Compressive and shear properties of alginate gel: effects of sodium ions and alginate concentration. J Biomed Mater Res 47 (1999) 46-53
Zhou Y., Millward-Sadler S.J., Lin H., et al. Evidence for JNK-dependent upregulation of proteoglycan synthesis and for activation of JNK1 following cyclical mechanical stimulation in a human chondrocyte culture model. Osteoarthritis Cartilage 15 (2007) 884-893
Orazizadeh M., and Salter D.M. The expression of signal regulatory protein-alpha in normal and osteoarthritic human articular cartilage and its involvement in chondrocyte mechanotransduction response. Iran Biomed J 11 (2007) 119-124
Chowdhury T.T., Salter D.M., Bader D.L., et al. Integrin-mediated mechanotransduction processes in TGFbeta-stimulated monolayer-expanded chondrocytes. Biochem Biophys Res Commun 318 (2004) 873-881
Richette P., Sautreuil P., Coudeyre E., et al. Usefulness of taping in lower limb osteoarthritis. French clinical practice guidelines. Joint Bone Spine 75 (2008) 475-478
Chen N.X., Geist D.J., Genetos D.C., et al. Fluid shear-induced NFkappaB translocation in osteoblasts is mediated by intracellular calcium release. Bone 33 3 (2003 Sep) 399-410
Inoue D., Kido S., and Matsumoto T. Transcriptional induction of FosB/DeltaFosB gene by mechanical stress in osteoblasts. J Biol Chem 279 (2004) 49795-49803
Liu J., Liu T., Zheng Y., et al. Early responses of osteoblast-like cells to different mechanical signals through various signaling pathways. Biochem Biophys Res Commun 348 (2006) 1167-1173
Singh S.P., Chang E.I., Gossain A.K., et al. Cyclic mechanical strain increases production of regulators of bone healing in cultured murine osteoblasts. J Am Coll Surg 204 (2007) 426-434
Kanno T., Takahashi T., Tsujisawa T., et al. Mechanical stress-mediated Runx2 activation is dependent on Ras/ERK1/2 MAPK signaling in osteoblasts. J Cell Biochem 101 (2007) 1266-1277
Siddhivarn C., Banes A., Champagne C., et al. Prostaglandin D2 pathway and peroxisome proliferator-activated receptor gamma-1 expression are induced by mechanical loading in an osteoblastic cell line. J Periodontal Res 41 (2006) 92-100
Tang L.L., Xian C.Y., and Wang Y.L. The MGF expression of osteoblasts in response to mechanical overload. Arch Oral Biol 51 (2006) 1080-1085
Sasaki K., Takagi M., Konttinen Y.T., et al. Upregulation of matrix metalloproteinase (MMP)-1 and its activator MMP-3 of human osteoblast by uniaxial cyclic stimulation. J Biomed Mater Res B Appl Biomater 80 (2007) 491-498
Mitsui N., Suzuki N., Maeno M., et al. Optimal compressive force induces bone formation via increasing bone morphogenetic proteins production and decreasing their antagonists production by Saos-2 cells. Life Sci 78 (2006) 2697-2706
Sanchez C, Gabay O, Salvat C, et al. Mechanical loading highly increases IL6 production and decreases OPG expression by osteoblasts. Osteoarthritis Cartilage 2008 [in press].
Cicuttini F.M., Baker J.R., and Spector T.D. The association of obesity with osteoarthritis of the hand and knee in women: a twin study. J Rheumatol 23 (1996) 1221-1226
Zhang Y., Proenca R., Maffei M., et al. Positional cloning of the mouse obese gene and its human homologue. Nature 372 (1994) 425-432
Pottie P., Presle N., Terlain B., et al. Obesity and osteoarthritis: more complex than predicted!. Ann Rheum Dis 65 (2006) 1403-1405
Aspden R.M., Scheven B.A., and Hutchison J.D. Osteoarthritis as a systemic disorder including stromal cell differentiation and lipid metabolism. Lancet 357 (2001) 1118-1120
Takeda S., Elefteriou F., and Karsenty G. Common endocrine control of body weight, reproduction, and bone mass. Annu Rev Nutr 23 (2003) 403-411
Lago F., Dieguez C., Gomez-Reino J., et al. Adipokines as emerging mediators of immune response and inflammation. Nat Clin Pract Rheumatol 3 (2007) 716-724
Gosset M., Berenbaum F., Salvat C., et al. Crucial role of visfatin/pre-B cell colony-enhancing factor in matrix degradation and prostaglandin E2 synthesis in chondrocytes: possible influence on osteoarthritis. Arthritis Rheum 58 (2008) 1399-1409