Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
about
Biomechanical factors in osteoarthritisDistinctive subcellular inhibition of cytokine-induced SRC by salubrinal and fluid flowEffect of dynamic compressive loading and its combination with a growth factor on the chondrocytic phenotype of 3-dimensional scaffold-embedded chondrocytesDifferential effects of hydrostatic pressure on cation transport pathways of isolated articular chondrocytes.Alphav and beta1 integrins regulate dynamic compression-induced proteoglycan synthesis in 3D gel culture by distinct complementary pathwaysOccupational activity and osteoarthritis of the kneeLidocaine cytotoxicity to the bovine articular chondrocytes in vitro: changes in cell viability and proteoglycan metabolism.Regional cell density distribution and oxygen consumption rates in porcine TMJ discs: an explant study.The regional sensitivity of chondrocyte gene expression to coactive mechanical load and exogenous TNF-α stimuli.Dynamic mechanical loading enhances functional properties of tissue-engineered cartilage using mature canine chondrocytes.The effects of physical forces on cartilage tissue engineering.Dynamic culturing of cartilage tissue: the significance of hydrostatic pressureSequential outcome following autologous chondrocyte implantation of the knee: a six-year follow-up.Scapular deformity in obstetric brachial plexus palsy and the Hueter-Volkmann law; a retrospective studyA Comparative Study of Fibronectin Cleavage by MMP-1, -3, -13, and -14Modelling cartilage mechanobiology.Articular chondrocytes derived from distinct tissue zones differentially respond to in vitro oscillatory tensile loading.Dynamic compressive loading enhances cartilage matrix synthesis and distribution and suppresses hypertrophy in hMSC-laden hyaluronic acid hydrogels.Atelosteogenesis type II is caused by mutations in the diastrophic dysplasia sulfate-transporter gene (DTDST): evidence for a phenotypic series involving three chondrodysplasias.In Vivo Dynamic Deformation of Articular Cartilage in Intact Joints Loaded by Controlled Muscular Contractions.Hsp70 accumulation in chondrocytic cells exposed to high continuous hydrostatic pressure coincides with mRNA stabilization rather than transcriptional activationMechanical and biochemical characterization of cartilage explants in serum-free cultureActivity vs. rest in the treatment of bone, soft tissue and joint injuriesDevelopment of functional specializations within the maturing rabbit flexor digitorum profundus tendon.Site-specific effects of compression on macromolecular diffusion in articular cartilage.Cell colonization in degradable 3D porous matricesAcidification changes affect the inflammasome in human nucleus pulposus cells.Mini-review: Mechanical factors affecting cartilage regeneration in vitro.Acid-sensing ion channel 1a regulates the survival of nucleus pulposus cells in the acidic environment of degenerated intervertebral discs.Integrative repair of the meniscus: lessons from in vitro studies.Engineering functional anisotropy in fibrocartilage neotissues.Responses and adaptations of intervertebral disc cells to microenvironmental stress: a possible central role of autophagy in the adaptive mechanism.Time evolution of deformation in a human cartilage under cyclic loading.Interleukin-1 inhibits osmotically induced calcium signaling and volume regulation in articular chondrocytes.Mapping Chondrocyte Viability, Matrix Glycosaminoglycan, and Water Content on the Surface of a Bovine Metatarsophalangeal Joint.The effect of extracellular pH on matrix turnover by cells of the bovine nucleus pulposusMonitoring of metabolite gradients in tissue-engineered constructs.Techniques for cell and tissue culture mechanostimulation: historical and contemporary design considerations.Differential regulation of stress proteins by high hydrostatic pressure, heat shock, and unbalanced calcium homeostasis in chondrocytic cells.Sulfate transport in chondrodysplasia.
P2860
Q27026034-D79E89CF-1C48-4198-AAF0-7C9FD1CD2C65Q28542557-9FE77BEE-D402-40D6-9E2B-70416A549CE6Q28580323-D6BED436-4F0B-4CD0-B468-0D0CC5FC4D94Q33420338-B89CEE50-E00F-477E-A139-4AF4AD9232C7Q33508334-55EF0E33-60AF-4D4C-A94E-0A2B2D64B98DQ33566082-3477B337-4BE9-4632-AFD2-BD5184F44A43Q33791917-35D3668C-7303-4819-86D0-1F34AEE63495Q33844171-6130227D-5040-46E8-A73C-38FE86B29A74Q33958967-92AB9C5C-954C-4EE8-A761-859C12154757Q34185970-5A0477A8-C599-4E74-8B05-0966FF1AF8B1Q34187920-3C7A4912-59B6-4C0B-B33D-2B29220B7432Q34272879-B31A9B7E-03DD-47C6-A2D9-98C4BD08E75CQ34336973-7A34080D-36AF-4470-89CD-A3F214F26D08Q34632921-2AA68CB5-B738-4727-AAE5-7CD708E58BA7Q34978046-86FC8AA1-92DE-4A7E-8BFD-7F4D96058161Q35213689-808A8538-BA53-44E9-B3A3-C81259E0740DQ35755239-9DFD7024-0FA5-4676-A653-EE1E367E0A69Q35855692-9076A355-7D83-4275-BB1E-4818CFB68489Q35881452-FEDF0332-E761-4DB8-B234-9589BC839C02Q35903247-9B559601-F6BD-4EC5-A156-7090ED0E3495Q35913988-AC2FD937-02BF-4473-9C2B-E5B6D2C2F7E4Q36069358-9130E303-DBE6-4B11-A0DD-FC239897840BQ36578548-899FABC7-3F96-44C3-9CD3-4816B1C2DF77Q36746438-5A08E9D3-0DDE-4404-A608-D1C48B435A41Q36957357-DC0AA9F5-978B-4CDC-B18B-66ECDED6B394Q37081819-64DE6313-5A9A-425D-A820-0FE4F55CFDC5Q37203550-57F5A546-E304-44DE-B7FE-AF82D1361372Q37216516-2F48383C-27BE-4B93-B000-B859E0FC5C7EQ37306921-C01F9ED5-8AC3-4287-A6D5-0C6521A0A778Q37310030-D95244D0-8C0A-4909-85D9-C7BE4FFD3846Q37451688-11491DA5-BCA7-402D-9A81-4DA52099626CQ38226918-68686FE5-22AA-4994-B1A5-FDC01D067332Q38394388-FBBB9BA2-19B6-48A2-AD72-99BC913E4818Q39135449-032CA15E-B1D6-4346-A1C8-82F397F9B05BQ39141037-CE22739E-3FA6-4361-9246-58E48CC228EEQ39656019-FE489685-30EA-49C0-96EC-52480936108BQ39768620-8C20B553-1187-4898-AEAB-6572109BAD0DQ40459627-8FCBFD70-B719-4DFB-A437-F70529AF2C02Q40853778-FD53DB1B-C879-4A0F-B3D2-953BDA66C38FQ41029773-E7F9677C-FC06-4793-92A6-0DA25A98347B
P2860
Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年学术文章
@wuu
1988年学术文章
@zh-cn
1988年学术文章
@zh-hans
1988年学术文章
@zh-my
1988年学术文章
@zh-sg
1988年學術文章
@yue
1988年學術文章
@zh
1988年學術文章
@zh-hant
name
Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
@en
Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
@nl
type
label
Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
@en
Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
@nl
prefLabel
Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
@en
Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
@nl
P2093
P2860
P356
P1476
Mechanical and physiochemical determinants of the chondrocyte biosynthetic response.
@en
P2093
A J Grodzinsky
A M Pizzanelli
P2860
P304
P356
10.1002/JOR.1100060602
P577
1988-01-01T00:00:00Z