Acosta, F. L., L. Metz, H. D. Adkisson, J. Liu, E. Carruthers-Liebenberg, C. Milliman, M. Maloney, and J. C. Lotz. Porcine intervertebral disc repair using allogeneic juvenile articular chondrocytes or mesenchymal stem cells. Tissue Eng. Pt. A 17(23–24):3045–3055, 2011.
Adams, M. A., and P. J. Roughley. What is intervertebral disc degeneration, and what causes it? Spine 31(18):2151–2161, 2006.
An, H. S., P. A. Anderson, V. M. Haughton, J. C. Iatridis, J. D. Kang, J. C. Lotz, R. N. Natarajan, T. R. Oegema, Jr, P. Roughley, L. A. Setton, J. P. Urban, T. Videman, G. B. Andersson, and J. N. Weinstein. Introduction: disc degeneration: summary. Spine (Phila Pa 1976) 29(23):2677–2678, 2004.
Andersson, G. B. J. Epidemiological features of chronic low-back pain. Lancet 354(9178):581–585, 1999.
Bibby, S. R., D. A. Jones, R. M. Ripley, and J. P. Urban. Metabolism of the intervertebral disc: effects of low levels of oxygen, glucose, and pH on rates of energy metabolism of bovine nucleus pulposus cells. Spine (Phila Pa 1976) 30(5):487–496, 2005.
Bibby, S. R. S., D. A. Jones, R. M. Ripley, and J. P. G. Urban. Metabolism of the intervertebral disc: effects of low levels of oxygen, glucose, and pH on rates of energy metabolism of bovine nucleus pulposus cells. Spine 30(5):487–496, 2005.
Boubriak, O. A., N. Watson, S. S. Sivan, N. Stubbens, and J. P. Urban. Factors regulating viable cell density in the intervertebral disc: blood supply in relation to disc height. J. Anat. 222(3):341–348, 2013.
Bron, J. L., A. J. van der Veen, M. N. Helder, B. J. van Royen, T. H. Smit, S. T. E. G. Amsterdam, and R. I. Move. Biomechanical and in vivo evaluation of experimental closure devices of the annulus fibrosus designed for a goat nucleus replacement model. Eur. Spine J. 19(8):1347–1355, 2010.
Burnstock, G. The past, present and future of purine nucleotides as signalling molecules. Neuropharmacology 36(9):1127–1139, 1997.
Chida, J., K. Yamane, T. Takei, and H. Kido. An efficient extraction method for quantitation of adenosine triphosphate in mammalian tissues and cells. Anal. Chim. Acta 727:8–12, 2012.
Croucher, L. J., A. Crawford, P. V. Hatton, R. G. G. Russell, and D. J. Buttle. Extracellular ATP and UTP stimulate cartilage proteoglycan and collagen accumulation in bovine articular chondrocyte pellet cultures. Bba-Mol. Basis Dis. 1502(2):297–306, 2000.
Drazin, D., J. Rosner, P. Avalos, and F. Acosta. Stem cell therapy for degenerative disc disease. Adv. Orthop. 2012:961052, 2012.
Elliott, D. M., C. S. Yerramalli, J. C. Beckstein, J. I. Boxberger, W. Johannessen, and E. J. Vresilovic. The effect of relative needle diameter in puncture and sham injection animal models of degeneration. Spine (Phila Pa 1976) 33(6):588–596, 2008.
Feng, G. J., X. F. Zhao, H. Liu, H. N. Zhang, X. J. Chen, R. Shi, X. Liu, X. D. Zhao, W. L. Zhang, and B. Y. Wang. Transplantation of mesenchymal stem cells and nucleus pulposus cells in a degenerative disc model in rabbits: a comparison of 2 cell types as potential candidates for disc regeneration laboratory investigation. J. Neurosurg.Spine 14(3):322–329, 2011.
Fernando, H. N., J. Czamanski, T. Y. Yuan, W. Gu, A. Salahadin, and C. Y. Huang. Mechanical loading affects the energy metabolism of intervertebral disc cells. J. Orthop. Res. 29(11):1634–1641, 2011.
Gawri, R., F. Mwale, J. Ouellet, P. J. Roughley, T. Steffen, J. Antoniou, and L. Haglund. Development of an organ culture system for Long-Term survival of the intact human intervertebral disc. Spine 36(22):1835–1842, 2011.
Gilson, A., M. Dreger, and J. P. G. Urban. Differential expression level of cytokeratin 8 in cells of the bovine nucleus pulposus complicates the search for specific intervertebral disc cell markers. Arthritis Res. Ther. 12(1):R24, 2010.
Gonzales, S., B. Rodriguez, C. Barrera, and C. Y. C. Huang. Measurement of ATP-induced membrane potential changes in IVD cells. Cell. Mol. Bioeng. 7(4):598–606, 2014.
Gonzales, S., C. Wang, H. Levene, H. S. Cheung, and C. Y. C. Huang. ATP promotes extracellular matrix biosynthesis of intervertebral disc cells. Cell Tissue Res. 359(2):635–642, 2015.
Grunhagen, T., A. Shirazi-Adl, J. C. Fairbank, and J. P. Urban. Intervertebral disk nutrition: a review of factors influencing concentrations of nutrients and metabolites. Orthop. Clin. North Am. 42(4):465–477, 2011.
Grunhagen, T., G. Wilde, D. M. Soukane, S. A. Shirazi-Adl, and J. P. Urban. Nutrient supply and intervertebral disc metabolism. J. Bone Joint Surg. Am. 88(Suppl 2):30–35, 2006.
Gu, W. Y., and H. Yao. Effects of hydration and fixed charge density on fluid transport in charged hydrated soft tissues. Ann. Biomed. Eng. 31(10):1162–1170, 2003.
Guehring, T., G. Wilde, M. Sumner, T. Grunhagen, G. B. Karney, U. K. Tirlapur, and J. P. G. Urban. Notochordal intervertebral disc cells sensitivity to nutrient deprivation. Arthritis Rheum. 60(4):1026–1034, 2009.
Henriksson, H. B., T. Svanvik, M. Jonsson, M. Hagman, M. Horn, A. Lindahl, and H. Brisby. Transplantation of human mesenchymal stems cells into intervertebral discs in a xenogeneic porcine model. Spine 34(2):141–148, 2009.
Hirschberg, C. B., P. W. Robbins, and C. Abeijon. Transporters of nucleotide sugars, ATP, and nucleotide sulfate in the endoplasmic reticulum and Golgi apparatus. Annu. Rev. Biochem. 67:49–69, 1998.
Horner, H. A., and J. P. G. Urban. 2001 Volvo Award winner in basic science studies: effect of nutrient supply on the viability of cells from the nucleus pulposus of the intervertebral disc. Spine 26(23):2543–2549, 2001.
Hsieh, A. H., D. Hwang, D. A. Ryan, A. K. Freeman, and H. Kim. Degenerative anular changes induced by puncture are associated with insufficiency of disc biomechanical function. Spine 34(10):998–1005, 2009.
Huang, C. Y. C., M. A. Deitzer, and H. S. Cheung. Effects of fibrinolytic inhibitors on chondrogenesis of bone-marrow derived mesenchymal stem cells in fibrin gels. Biomech. Model. Mechan. 6(1–2):5–11, 2007.
Huang, C. Y., and W. Y. Gu. Effects of mechanical compression on metabolism and distribution of oxygen and lactate in intervertebral disc. J. Biomech. 41(6):1184–1196, 2008.
Huang, Y. C., J. P. G. Urban, and K. D. K. Luk. Opinion intervertebral disc regeneration: do nutrients lead the way? Nat. Rev. Rheumatol. 10(9):561–566, 2014.
Jackson, A., and W. Gu. Transport Properties of Cartilaginous Tissues. Curr. Rheumatol. Rev. 5(1):40, 2009.
Jackson, A. R., C. Y. Huang, and W. Y. Gu. Effect of endplate calcification and mechanical deformation on the distribution of glucose in intervertebral disc: a 3D finite element study. Comput. Method Biomec. 14(2):195–204, 2011.
Johnson, K., A. Jung, A. Murphy, A. Andreyev, J. Dykens, and R. Terkeltaub. Mitochondrial oxidative phosphorylation is a downstream regulator of nitric oxide effects on chondrocyte matrix synthesis and mineralization. Arthritis Rheum. 43(7):1560–1570, 2000.
Johnson, S., and P. Rabinovitch. Ex vivo imaging of excised tissue using vital dyes and confocal microscopy. Curr. Protoc. Cytom. 9:9–39, 2012.
Johnson, K., C. I. Svensson, D. Van Etten, S. S. Ghosh, A. N. Murphy, H. C. Powell, and R. Terkeltaub. Mediation of spontaneous knee osteoarthritis by progressive chondrocyte ATP depletion in Hartley guinea pigs. Arthritis Rheum. 50(4):1216–1225, 2004.
Katz, J. N. Lumbar disc disorders and low-back pain: socioeconomic factors and consequences. J. Bone Joint Surg. Am. 88a:21–24, 2006.
Korecki, C. L., J. J. Costi, and J. C. Iatridis. Needle puncture injury affects intervertebral disc mechanics and biology in an organ culture model. Spine 33(3):235–241, 2008.
Levene, H. B. Analysis of Tyrosine-Derived Novel Synthetic Polymer Scaffold Devices for Guided Tissue Regeneration, Rutgers University and the University of Medicine and Dentistry of New Jersey, New Brunswick, NJ, 1999, p. 167.
Likhitpanichkul, M., M. Dreischarf, S. Illien-Junger, B. A. Walter, T. Nukaga, R. G. Long, D. Sakai, A. C. Hecht, and J. C. Iatridis. Fibrin-genipin adhesive hydrogel for annulus fibrosus repair: performance evaluation with large animal organ culture, situ biomechanics, and in vivo degradation tests. Eur. Cells Mater. 28:25–38, 2014.
Long, R. G., S. G. Rotman, W. W. Hom, D. J. Assael, D. W. Grijpma, and J. C. Iatridis. In vitro and biomechanical screening of polyethylene glycol and poly(trimethylene carbonate) block copolymers for annulus fibrosus repair, J. Tissue Eng. Regen. Med. 2016.
Long, R. G., O. M. Torre, W. W. Hom, D. J. Assael, and J. C. Iatridis. Design requirements for annulus fibrosus repair: review of forces, displacements, and material properties of the intervertebral disk and a summary of candidate hydrogels for repair. J. Biomech. Eng. 138(2):021007, 2016.
MacLean, J. J., C. R. Lee, S. Grad, K. Ito, M. Alini, and J. C. Iatridis. Effects of immobilization and dynamic compression on intervertebral disc cell gene expression in vivo. Spine 28(10):973–981, 2003.
Martin, J. A., A. Martini, A. Molinari, W. Morgan, W. Ramalingam, J. A. Buckwalter, and T. O. McKinley. Mitochondrial electron transport and glycolysis are coupled in articular cartilage. Osteoarthr. Cartilage 20(4):323–329, 2012.
Masuda, K., T. R. Oegema, and H. S. An. Growth factors and treatment of intervertebral disc degeneration. Spine 29(23):2757–2769, 2004.
Michalek, A. J., M. R. Buckley, L. J. Bonassar, I. Cohen, and J. C. Iatridis. The effects of needle puncture injury on microscale shear strain in the intervertebral disc annulus fibrosus. Spine J. 10(12):1098–1105, 2010.
Neidlinger-Wilke, C., A. Mietsch, C. Rinkler, H. J. Wilke, A. Ignatius, and J. Urban. Interactions of environmental conditions and mechanical loads have influence on matrix turnover by nucleus pulposus cells. J. Orthop. Res. 30(1):112–121, 2012.
Osada, R., H. Ohshima, H. Ishihara, K. Yudoh, K. Sakai, H. Matsui, and H. Tsuji. Autocrine/paracrine mechanism of insulin-like growth factor-1 secretion, and the effect of insulin-like growth factor-1 on proteoglycan synthesis in bovine intervertebral discs. J. Orthopaed. Res. 14(5):690–699, 1996.
Pattappa, G., Z. Li, M. Peroglio, N. Wismer, M. Alini, and S. Grad. Diversity of intervertebral disc cells: phenotype and function. J. Anat. 221(6):480–496, 2012.
Pratsinis, H., and D. Kletsas. PDGF, bFGF and IGF-I stimulate the proliferation of intervertebral disc cells in vitro via the activation of the ERK and Akt signaling pathways. Eur. Spine J. 16(11):1858–1866, 2007.
Prydz, K., and K. T. Dalen. Synthesis and sorting of proteoglycans—commentary. J. Cell. Sci. 113(2):193–205, 2000.
Schmidt, H., A. Shirazi-Adl, F. Galbusera, and H. J. Wilke. Response analysis of the lumbar spine during regular daily activities–a finite element analysis. J. Biomech. 43(10):1849–1856, 2010.
Smith, L. J., N. L. Nerurkar, K. S. Choi, B. D. Harfe, and D. M. Elliott. Degeneration and regeneration of the intervertebral disc: lessons from development. Dis. Model Mech. 4(1):31–41, 2011.
Sobajima, S., J. F. Kompel, J. S. Kim, C. J. Wallach, D. D. Robertson, M. T. Vogt, J. D. Kang, and L. G. Gilbertson. A slowly progressive and reproducible animal model of intervertebral disc degeneration characterized by MRI, X-ray, and histology. Spine 30(1):15–24, 2005.
Urban, J. P. G., and S. Roberts. Degeneration of the intervertebral disc. Arthritis Res. Ther. 5(3):120–130, 2003.
Urban, J. P. G., S. Smith, and J. C. T. Fairbank. Nutrition of the intervertebral disc. Spine 29(23):2700–2709, 2004.
Waldman, S. D., J. Usprech, L. E. Flynn, and A. A. Khan. Harnessing the purinergic receptor pathway to develop functional engineered cartilage constructs. Osteoarthr. Cartilage 18(6):864–872, 2010.
Walter, B. A., C. L. Korecki, D. Purmessur, P. J. Roughley, A. J. Michalek, and J. C. Iatridis. Complex loading affects intervertebral disc mechanics and biology. Osteoarthr. Cartilage 19(8):1011–1018, 2011.
Wang, Y. F., C. M. Barrera, E. A. Dauer, W. Gu, F. Andreopoulos, and C. C. Huang. Systematic characterization of porosity and mass transport and mechanical properties of porous polyurethane scaffolds. J. Mech. Behav. Biomed. Mater. 65:657–664, 2016.
Wang, C., S. Gonzales, H. Levene, W. Y. Gu, and C. Y. C. Huang. Energy metabolism of intervertebral disc under mechanical loading. J. Orthopaed. Res. 31(11):1733–1738, 2013.
Wang, D. L., S. D. Jiang, and L. Y. Dai. Biologic response of the intervertebral disc to static and dynamic compression in vitro. Spine (Phila Pa 1976) 32(23):2521–2528, 2007.
Wu, Y. R., S. Cisewski, B. L. Sachs, and H. Yao. Effect of cartilage endplate on cell based disc regeneration: a finite element analysis. Mol. Cell. Biomech. 10(2):159–182, 2013.
Yao, H., M. A. Justiz, D. Flagler, and W. Y. Gu. Effects of swelling pressure and hydraulic permeability on dynamic compressive behavior of lumbar annulus fibrosus. Ann. Biomed. Eng. 30(10):1234–1241, 2002.
Zhou, S., Z. Cui, and J. P. Urban. Nutrient gradients in engineered cartilage: metabolic kinetics measurement and mass transfer modeling. Biotechnol. Bioeng. 101(2):408–421, 2008.
RetroSearch is an open source project built by @garambo | Open a GitHub Issue
Search and Browse the WWW like it's 1997 | Search results from DuckDuckGo
HTML:
3.2
| Encoding:
UTF-8
| Version:
0.7.4