Human chondrocyte apoptosis in response to mechanical injury.
about
Pathogenesis and prevention of posttraumatic osteoarthritis after intra-articular fractureMeasuring microscale strain fields in articular cartilage during rapid impact reveals thresholds for chondrocyte death and a protective role for the superficial layer.Cell Death in Chondrocytes, Osteoblasts, and OsteocytesInsights on Molecular Mechanisms of Chondrocytes Death in OsteoarthritisAltered regional loading patterns on articular cartilage following meniscectomy are not fully restored by autograft meniscal transplantationThe in vivo performance of osteochondral allografts in the goat is diminished with extended storage and decreased cartilage cellularityMechanical effects of surgical procedures on osteochondral grafts elucidated by osmotic loading and real-time ultrasoundTibiofemoral contact pressures and osteochondral microtrauma during anterior cruciate ligament rupture due to excessive compressive loading and internal torque of the human knee.Vertebral endplate trauma induces disc cell apoptosis and promotes organ degeneration in vitro.Friction-Induced Mitochondrial Dysregulation Contributes to Joint Deterioration in Prg4 Knockout Mice.Basic science of intra-articular fractures and posttraumatic osteoarthritis.Mechanical injury suppresses autophagy regulators and pharmacologic activation of autophagy results in chondroprotection.Key Pathways to Prevent Posttraumatic Arthritis for Future Molecule-Based Therapy.Clinical and Basic Science of Cartilage Injury and Arthritis in the Football (Soccer) Athlete.Chondrocyte clusters adjacent to sites of cartilage degeneration have characteristics of progenitor cells.Biomechanical considerations in the pathogenesis of osteoarthritis of the knee.Impact of storage conditions on electromechanical, histological and histochemical properties of osteochondral allografts.Chondroprotective drugs in degenerative joint diseases.Therapeutic efficacy of intra-articular hyaluronan derivative and platelet-rich plasma in mice following axial tibial loading.Bushen Zhuangjin decoction inhibits TM-induced chondrocyte apoptosis mediated by endoplasmic reticulum stress.Major biological obstacles for persistent cell-based regeneration of articular cartilage.Does dynamic immobilization reduce chondrocyte apoptosis and disturbance to the femoral head perfusion?Inhibition of CDK9 prevents mechanical injury-induced inflammation, apoptosis and matrix degradation in cartilage explants.Regional Differential Genetic Response of Human Articular Cartilage to Impact InjuryPreventing friction-induced chondrocyte apoptosis: comparison of human synovial fluid and hylan G-F 20Anti-apoptotic Activity of Ginsenoside Rb1 in Hydrogen Peroxide-treated Chondrocytes: Stabilization of Mitochondria and the Inhibition of Caspase-3.Cytoskeletal dissolution blocks oxidant release and cell death in injured cartilage.Chondrocyte apoptosis: implications for osteochondral allograft transplantationAcute and Stress-related Injuries of Bone and Cartilage: Pertinent Anatomy, Basic Biomechanics, and Imaging Perspective.Effect of impaction sequence on osteochondral graft damage: the role of repeated and varying loads.Co-culture of mechanically injured cartilage with joint capsule tissue alters chondrocyte expression patterns and increases ADAMTS5 production.Moderate dynamic compression inhibits pro-catabolic response of cartilage to mechanical injury, tumor necrosis factor-α and interleukin-6, but accentuates degradation above a strain threshold.Anti-apoptotic treatments prevent cartilage degradation after acute trauma to human ankle cartilage.Effects of cartilage impact with and without fracture on chondrocyte viability and the release of inflammatory markers.Post-Traumatic Osteoarthritis in Mice Following Mechanical Injury to the Synovial JointNew developments in osteoarthritis. Posttraumatic osteoarthritis: pathogenesis and pharmacological treatment options.The role of mitochondria in osteoarthritis.Chondrocyte apoptosis: a cause or consequence of osteoarthritis?Review of current understanding of post-traumatic osteoarthritis resulting from sports injuries.A single 60-min bout of peristaltic pulse external pneumatic compression transiently upregulates phosphorylated ribosomal protein s6.
P2860
Q26852769-3D7D23EC-7624-464A-968C-227BA4CA3600Q27310122-2DF846AB-BE49-4F82-ADB1-2D2DE62C62F1Q28067045-A49C817C-C55C-492A-BB94-663FA711E2E5Q28079781-30653157-DA12-4E43-94F0-E9D01AAA61DBQ28388544-AB5EBCC7-1C43-4457-BF37-19912A3609BCQ28658938-06F8AACC-CF14-4671-9CD6-D4432B7DC218Q30484792-377D64B2-093C-430F-80C1-79C5D56D054EQ31155879-88EB2340-7FD3-4987-9732-F0657C06D288Q33302267-0DB067CE-A803-4C28-95AB-EFCFEE2621B6Q33838887-9C3E5D28-397A-470C-A876-0CF76A272128Q34133020-4AFA6A4C-B681-4417-9E82-0F08993567B2Q34228180-B92DBE69-FDDA-4564-A25F-BF4DFA5CD072Q34977905-ABD24976-2BFB-4D22-AFD7-4A0F1E79C87FQ34978142-C35FC986-334D-4EA5-87CD-61A644A64CDDQ35679918-54B6286F-2B6A-4EA2-B049-03D74A5B68E3Q35764129-7F24D8F6-63B8-4ADD-BBE3-DDD44C2D79F0Q35819669-9E8EC040-8952-433E-AAFA-ACB78758B638Q36309644-6DD115D0-834D-4110-90A4-8C65CE835D7EQ36345941-1BE8C30A-A75A-496B-A757-FDF230C14462Q36369257-06F9BF83-E9FA-4508-B48B-F1AE7D1CB60FQ36392311-D6AD608A-F4BF-4E04-986C-B69FFB126839Q36529917-01DD46E7-FE8A-45E2-B214-E3BCB7EF6A60Q36571206-C03DAF16-6429-4D22-B766-0ACCD2DB5560Q36700942-BDF47CDD-49FD-4AD1-A9E3-53455459CEC8Q36709565-0F479362-40A8-4E24-83D4-E5D6F9D3E27CQ36861182-EF8A1A19-BB01-421D-863E-8C88FF1B3282Q36882580-85818B9F-E1EE-456E-9628-604471768184Q36975916-95D0CD14-763B-440A-96E7-51FA7F0C6977Q37090080-F67F3EC9-E606-4901-BD01-903F8A997DD3Q37307791-009A25EB-05FA-4B95-AAC2-43F8190A9BACQ37364228-781E5F51-9472-492C-B323-E711F5B6D78BQ37375067-88760608-B8A5-4273-970F-75F11A5234BDQ37450277-80116E8A-92C9-490D-AB21-2F698418079DQ37665246-F58D4D90-C783-452C-BE3E-C4EB570689BEQ37721704-7CA00479-B4D8-4BB1-81CC-A63955B67C0CQ37770129-F99D7C34-0D4A-4C44-9DAD-64D5888ABD15Q37825773-18D9C118-B004-4ACF-8848-B50B034C2D57Q37868776-E7CAB7E4-76FB-40D7-B451-D7AC06EB2A45Q38852611-A4A660C0-A349-4A76-84A8-B422EC93BC44Q38920547-1C137D8F-EB80-4B3F-845A-CBC9F94A02A0
P2860
Human chondrocyte apoptosis in response to mechanical injury.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh-hant
name
Human chondrocyte apoptosis in response to mechanical injury.
@en
Human chondrocyte apoptosis in response to mechanical injury.
@nl
type
label
Human chondrocyte apoptosis in response to mechanical injury.
@en
Human chondrocyte apoptosis in response to mechanical injury.
@nl
prefLabel
Human chondrocyte apoptosis in response to mechanical injury.
@en
Human chondrocyte apoptosis in response to mechanical injury.
@nl
P2093
P356
P1476
Human chondrocyte apoptosis in response to mechanical injury.
@en
P2093
P304
P356
10.1053/JOCA.2001.0468
P577
2001-11-01T00:00:00Z