Chemical basis for the histological use of safranin O in the study of articular cartilage.
about
Matrix development in self-assembly of articular cartilageSynergistic and additive effects of hydrostatic pressure and growth factors on tissue formationIntra-articular injections of high-molecular-weight hyaluronic acid have biphasic effects on joint inflammation and destruction in rat antigen-induced arthritis.A polymerase chain reaction-based method for isolating clones from a complimentary DNA library in sheepHuman circulating fibrocytes have the capacity to differentiate osteoblasts and chondrocytes.Imaging biopsy composition at ACL reconstruction.Human single-chain variable fragment that specifically targets arthritic cartilageCorrelation of histopathological features of pannus with patterns of damage in different joints in rheumatoid arthritis.Cathepsin B in osteoarthritis: zonal variation of enzyme activity in human femoral head cartilage.Evidence for a direct effect on articular cartilage and its lysosomal enzymes in filipin-induced arthritis.Early Osteoarthritis After Untreated Anterior Meniscal Root Tears: An In Vivo Animal Study.The chondrogenic response to exercise in the proximal femur of normal and mdx mice.Diagnostic performance of in vivo 3-T MRI for articular cartilage abnormalities in human osteoarthritic knees using histology as standard of reference.Temporary immobilisation facilitates repair of chemically induced articular cartilage injury.Exercise increases osteophyte formation and diminishes fibrillation following chemically induced articular cartilage injuryEffects of surgically induced instability on rat knee articular cartilage.Independent expression of fibril-forming collagens I, II, and III in chondrocytes of human osteoarthritic cartilage.Articular chondrocytes and mesenchymal stem cells seeded on biodegradable scaffolds for the repair of cartilage in a rat osteochondral defect modelMatrix metalloproteinase-3 in articular cartilage is upregulated by joint immobilization and suppressed by passive joint motion.A novel amniote model of epimorphic regeneration: the leopard gecko, Eublepharis macularius.Integrating carthage-specific T1rho MRI into knee clinic diagnostic imaging.Distribution of glycosaminoglycans and the nonreducible collagen crosslink, pyridinoline in porcine menisci.Directional fluid flow enhances in vitro periosteal tissue growth and chondrogenesis on poly-epsilon-caprolactone scaffolds.Effect of risedronate in a minipig cartilage defect model with allograft.Noninvasive assessment of glycosaminoglycan production in injectable tissue-engineered cartilage constructs using magnetic resonance imagingMolecular size of chondroitin sulfate from normal and osteochondrotic joint cartilage of adolescent boarsEffects of supplemental intra-articular lubricin and hyaluronic acid on the progression of posttraumatic arthritis in the anterior cruciate ligament-deficient rat knee.Targeting of viral interleukin-10 with an antibody fragment specific to damaged arthritic cartilage improves its therapeutic potencyCartilage matrix glycoprotein is present in serum in experimental canine osteoarthritis.Smad7 regulates terminal maturation of chondrocytes in the growth plateOsteoarthritis-like damage of cartilage in the temporomandibular joints in mice with autoimmune inflammatory arthritisIdentification of an extracellular polysaccharide network essential for cytochrome anchoring and biofilm formation in Geobacter sulfurreducensInternational Cartilage Repair Society (ICRS) Recommended Guidelines for Histological Endpoints for Cartilage Repair Studies in Animal Models and Clinical Trials.Prevalence of facet joint degeneration in association with intervertebral joint degeneration in a sample of organ donorsDeveloping an articular cartilage decellularization process toward facet joint cartilage replacementEffects of confinement on the mechanical properties of self-assembled articular cartilage constructs in the direction orthogonal to the confinement surfacePhysiological loading can restore the proteoglycan content in a model of early IVD degeneration.Mechanical regulation of vascular growth and tissue regeneration in vivo.Phenotypic modulation of chondrocytes as a potential therapeutic target in osteoarthritis: a hypothesisMacroscopic and histopathologic analysis of human knee menisci in aging and osteoarthritis.
P2860
Q21144273-8DFDC2F9-0BA3-44BB-8E44-FDEE6F3FB1BCQ21562570-67C4E3C6-CECD-42CE-B3C3-BB7731DF482DQ24816854-647BFEB2-9477-49BB-9639-F465AC2FBDC9Q28655028-A13FB272-2030-46CA-A304-B4C755247B68Q30432500-89412BC1-88BF-4E8E-B50C-CAA58E4D8C7EQ30826383-224722C6-A5AC-4E8C-B253-D82F9DF53B93Q33529418-3362D6A8-14A8-4B5E-860A-C65A77BA4D64Q33563573-D6E03DF2-2D46-4827-9C86-D58E762CC3D3Q33567201-6149C28C-5999-42DB-9FAD-5BC557767057Q33568543-EFA8668D-E926-4F5A-8476-9C31B97CFBB5Q33632474-F91247B0-1073-4FEC-A449-C6B5A6122719Q33683997-92A9B020-83D9-4AC9-AE18-CF918341D295Q33728570-9087719A-3C5A-4F89-A8D7-ED4F4999DCDAQ33875225-014C1284-B742-49C6-B28F-F20982AF960AQ33876201-3F73E82C-EF6D-4A2D-BA86-92F8862A58F8Q33882598-C4739261-94F3-442D-80D0-EFC75912D2B9Q33892588-82FCEF82-5D80-4FB5-8F9A-B4E00BA6673EQ33945255-5B236B49-261D-4207-9AD6-455E0AC60531Q33987161-B430EA28-E137-416C-97EC-373B5369723CQ33994050-3C558AFF-A159-4F67-8E18-469AD2910F80Q34077618-50FBAA8B-52E2-4B12-9CC1-F91CE281278CQ34080375-F79199F9-690F-493E-AB93-7176C4B5C5F8Q34086420-045C1A63-DD5D-4D59-8520-00DA8414DC9BQ34139901-BFECF6B1-41CA-4731-BF16-46CC0A8E305FQ34238234-D2DF8640-817F-4D0E-AAC0-667315DE5A12Q34239733-9CA4517C-A064-4601-8554-6D9A939E5D5EQ34441019-C3F9CC89-0FAC-409B-B87F-535F4CFADB32Q34478537-08355A87-BD31-46CE-B93D-CCD2B93563A7Q34578553-7816CE4A-5B11-4633-B93B-13C2479815FAQ34713687-BFEC2EDA-4BB7-4B74-8EC0-6EE15C163881Q34728844-45BC7727-26B1-4001-9D39-197E9F08AC80Q34740351-B41E896F-F7D2-42AA-B981-C79D1DE6C05AQ34991513-229A4D5F-AB8A-433D-8EC6-EEF149E4405AQ35046478-C3DBA936-851E-4D30-B45A-1555F7275193Q35188691-D7C12F66-6D1F-496D-A0EE-8E2E657DEFC1Q35196282-577478F8-5839-4AE8-8947-253E04EE85AEQ35200822-7790EA12-7AE6-45BA-A1BF-4BC33B855C70Q35216984-92689789-2F2B-4629-8070-89F40656D226Q35547255-E6128862-CA33-4331-9F8F-7DC52E9AEFAEQ35555022-6E5F8733-A82F-4941-9684-1F48AEF2FBA8
P2860
Chemical basis for the histological use of safranin O in the study of articular cartilage.
description
1971 nî lūn-bûn
@nan
1971 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1971 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1971年の論文
@ja
1971年論文
@yue
1971年論文
@zh-hant
1971年論文
@zh-hk
1971年論文
@zh-mo
1971年論文
@zh-tw
1971年论文
@wuu
name
Chemical basis for the histolo ...... study of articular cartilage.
@ast
Chemical basis for the histolo ...... study of articular cartilage.
@en
Chemical basis for the histolo ...... study of articular cartilage.
@nl
type
label
Chemical basis for the histolo ...... study of articular cartilage.
@ast
Chemical basis for the histolo ...... study of articular cartilage.
@en
Chemical basis for the histolo ...... study of articular cartilage.
@nl
prefLabel
Chemical basis for the histolo ...... study of articular cartilage.
@ast
Chemical basis for the histolo ...... study of articular cartilage.
@en
Chemical basis for the histolo ...... study of articular cartilage.
@nl
P1476
Chemical basis for the histolo ...... study of articular cartilage.
@en
P2093
L Rosenberg
P407
P577
1971-01-01T00:00:00Z