| scholarly article | Q13442814 |
| P50 | author | Stephen M Richardson | Q40727008 |
| Matthew Humphreys | Q61105976 | ||
| Lizzy Ward | Q67385357 | ||
| Judith A. Hoyland | Q67385365 | ||
| P2860 | cites work | Soft substrates promote homogeneous self-renewal of embryonic stem cells via downregulating cell-matrix tractions | Q21091073 |
| Identification of nucleus pulposus precursor cells and notochordal remnants in the mouse: implications for disk degeneration and chordoma formation | Q24649542 | ||
| Regulation of hypoxia-inducible factor 1alpha is mediated by an O2-dependent degradation domain via the ubiquitin-proteasome pathway | Q24672316 | ||
| Human disc cells in monolayer vs 3D culture: cell shape, division and matrix formation | Q24799188 | ||
| Tissue cells feel and respond to the stiffness of their substrate | Q29547613 | ||
| Geometric control of cell life and death | Q29615213 | ||
| Cell locomotion and focal adhesions are regulated by substrate flexibility | Q29615522 | ||
| Substrate rigidity regulates the formation and maintenance of tissues | Q30476924 | ||
| Matrix metalloproteinase 28, a novel matrix metalloproteinase, is constitutively expressed in human intervertebral disc tissue and is present in matrix of more degenerated discs | Q33517863 | ||
| Notochordal cell conditioned medium stimulates mesenchymal stem cell differentiation toward a young nucleus pulposus phenotype | Q33999475 | ||
| Extracellular matrix ligand and stiffness modulate immature nucleus pulposus cell-cell interactions | Q34075531 | ||
| Regulation of HIF by the von Hippel-Lindau tumour suppressor: implications for cellular oxygen sensing. | Q34497627 | ||
| Activation of intervertebral disc cells by co-culture with notochordal cells, conditioned medium and hypoxia | Q34969332 | ||
| The role of the physicochemical environment in determining disc cell behaviour | Q35003373 | ||
| Loss of notochordal cell phenotype in 3D-cell cultures: implications for disc physiology and disc repair | Q35368899 | ||
| Notochordal conditioned media from tissue increases proteoglycan accumulation and promotes a healthy nucleus pulposus phenotype in human mesenchymal stem cells. | Q35557848 | ||
| Regenerative potential of TGFβ3 + Dex and notochordal cell conditioned media on degenerated human intervertebral disc cells | Q35691009 | ||
| Notochordal cells protect nucleus pulposus cells from degradation and apoptosis: implications for the mechanisms of intervertebral disc degeneration | Q35907855 | ||
| The role of cytokines in cartilage matrix degeneration in osteoarthritis. | Q35916137 | ||
| Nutrition of the intervertebral disc | Q35963858 | ||
| Hypoxia-inducible factor 1: regulation by hypoxic and non-hypoxic activators | Q35993096 | ||
| Human mesenchymal stem cells cultured on silk hydrogels with variable stiffness and growth factor differentiate into mature smooth muscle cell phenotype | Q36505550 | ||
| Matrix synthesis and degradation in human intervertebral disc degeneration. | Q36883824 | ||
| Spatiotemporal analysis of putative notochordal cell markers reveals CD24 and keratins 8, 18, and 19 as notochord-specific markers during early human intervertebral disc development | Q37252473 | ||
| Development and regeneration potential of the mammalian intervertebral disc | Q38042320 | ||
| Transcriptional regulation by hypoxia inducible factors | Q38149945 | ||
| Influence of rabbit notochordal cells on symptomatic intervertebral disc degeneration: anti-angiogenic capacity on human endothelial cell proliferation under hypoxia | Q38401597 | ||
| Notochordal cells influence gene expression of inflammatory mediators of annulus fibrosus cells in proinflammatory cytokines stimulation | Q38482555 | ||
| Swelling pressure of the lumbar intervertebral discs: influence of age, spinal level, composition, and degeneration | Q39298783 | ||
| Cells from different regions of the intervertebral disc: effect of culture system on matrix expression and cell phenotype | Q39602300 | ||
| Notochordal intervertebral disc cells: sensitivity to nutrient deprivation | Q39879588 | ||
| The regenerative capacity of the notochordal cell: tissue constructs generated in vitro under hypoxic conditions | Q39967728 | ||
| Modified expression of the ADAMTS enzymes and tissue inhibitor of metalloproteinases 3 during human intervertebral disc degeneration | Q40006569 | ||
| Molecular phenotypes of notochordal cells purified from immature nucleus pulposus | Q40341786 | ||
| How deeply cells feel: methods for thin gels. | Q40363506 | ||
| Tumor necrosis factor alpha and nucleus-pulposus-induced nerve root injury | Q40831742 | ||
| Dose- and time-dependent effect of high glucose concentration on viability of notochordal cells and expression of matrix degrading and fibrotic enzymes | Q41046146 | ||
| The structure and degradation of aggrecan in human intervertebral disc | Q41854830 | ||
| Matrix elasticity, cytoskeletal forces and physics of the nucleus: how deeply do cells 'feel' outside and in? | Q41872279 | ||
| Nucleus pulposus cell-matrix interactions with laminins. | Q41957108 | ||
| Identifying molecular phenotype of nucleus pulposus cells in human intervertebral disc with aging and degeneration | Q42056281 | ||
| Rat Notochordal Cells Undergo Premature Stress-Induced Senescence by High Glucose | Q42146019 | ||
| p38 MAPK inhibition modulates rabbit nucleus pulposus cell response to IL-1. | Q42525115 | ||
| High glucose-induced oxidative stress promotes autophagy through mitochondrial damage in rat notochordal cells | Q42861656 | ||
| Integrin-mediated interactions with extracellular matrix proteins for nucleus pulposus cells of the human intervertebral disc | Q42909500 | ||
| The Notochord, Notochordal cell and CTGF/CCN-2: ongoing activity from development through maturation | Q43173820 | ||
| Intervertebral disc cells exhibit differences in gene expression in alginate and monolayer culture | Q43700372 | ||
| Role of cell shape in growth control | Q44152787 | ||
| Integrin expression in cells of the intervertebral disc | Q44937854 | ||
| Distinction between the extracellular matrix of the nucleus pulposus and hyaline cartilage: a requisite for tissue engineering of intervertebral disc. | Q45189368 | ||
| Environmental regulation of notochordal gene expression in nucleus pulposus cells. | Q45995067 | ||
| Notochordal cells stimulate migration of cartilage end plate chondrocytes of the intervertebral disc in in vitro cell migration assays | Q46488671 | ||
| The species-specific regenerative effects of notochordal cell-conditioned medium on chondrocyte-like cells derived from degenerated human intervertebral discs. | Q46666807 | ||
| Nucleus pulposus cells express HIF-1 alpha under normoxic culture conditions: a metabolic adaptation to the intervertebral disc microenvironment | Q46891204 | ||
| Potential application of notochordal cells for intervertebral disc regeneration: an in vitro assessment | Q46958774 | ||
| The Stimulatory Effect of Notochordal Cell-Conditioned Medium in a Nucleus Pulposus Explant Culture | Q50243640 | ||
| Relative increase of biglycan and decorin and altered chondroitin sulfate epitopes in the degenerating human intervertebral disc. | Q50525024 | ||
| Functional integrin subunits regulating cell-matrix interactions in the intervertebral disc. | Q51062139 | ||
| Nucleus pulposus notochord cells secrete connective tissue growth factor and up-regulate proteoglycan expression by intervertebral disc chondrocytes. | Q51099346 | ||
| Osmoregulatory function of large vacuoles found in notochordal cells of the intervertebral disc running title: an osmoregulatory vacuole. | Q51789515 | ||
| Positive feedback loop of interleukin-1beta upregulating production of inflammatory mediators in human intervertebral disc cells in vitro. | Q53620494 | ||
| Localization of degradative enzymes and their inhibitors in the degenerate human intervertebral disc | Q61699199 | ||
| Ultrastructure of the human intervertebral disc: II. Cells of the nucleus pulposus | Q70623627 | ||
| Herniated lumbar intervertebral discs spontaneously produce matrix metalloproteinases, nitric oxide, interleukin-6, and prostaglandin E2 | Q71350636 | ||
| Induction of matrix metalloproteinase-2 and -3 activity in ovine nucleus pulposus cells grown in three-dimensional agarose gel culture by interleukin-1beta: a potential pathway of disc degeneration | Q73015644 | ||
| Viscoelastic properties of intervertebral disc cells. Identification of two biomechanically distinct cell populations | Q73335571 | ||
| Immunolocalization of major interstitial collagen types in human lumbar intervertebral discs of various ages | Q74175553 | ||
| Normoxic stabilization of HIF-1alpha drives glycolytic metabolism and regulates aggrecan gene expression in nucleus pulposus cells of the rat intervertebral disk | Q80177979 | ||
| Cytomorphology of notochordal and chondrocytic cells from the nucleus pulposus: a species comparison | Q81087892 | ||
| Prolonged upright posture induces degenerative changes in intervertebral discs of rat cervical spine | Q85198768 | ||
| Increased osmolarity and cell clustering preserve canine notochordal cell phenotype in culture | Q86889057 | ||
| P433 | issue | 3 | |
| P304 | page(s) | e1028 | |
| P577 | publication date | 2018-07-26 | |
| P1433 | published in | JOR Spine | Q73541371 |
| P1476 | title | An optimized culture system for notochordal cell expansion with retention of phenotype | |
| P478 | volume | 1 |
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