Skeletal structural adaptations to mechanical usage (SATMU): 3. The hyaline cartilage modeling problem.
about
Signaling mechanisms implicated in cranial sutures pathophysiology: CraniosynostosisHistological evidence for muscle insertion in extant amniote femora: implications for muscle reconstruction in fossilsJoint anatomy, design, and arthroses: insights of the Utah paradigm.Scapular deformity in obstetric brachial plexus palsy and the Hueter-Volkmann law; a retrospective studyRegional variations in growth plate chondrocyte deformation as predicted by three-dimensional multi-scale simulationsBiomechanical simulations of the spine deformation process in adolescent idiopathic scoliosis from different pathogenesis hypotheses.The "Mechanostat Theory" of Frost and the OPG/RANKL/RANK System.Modulation of endochondral development of the distal femoral condyle by mechanical loading.Primary cilia modulate Ihh signal transduction in response to hydrostatic loading of growth plate chondrocytes.Stress relaxation of swine growth plate in semi-confined compression: depth dependent tissue deformational behavior versus extracellular matrix composition and collagen fiber organization.Perspectives: a proposed general model of the "mechanostat" (suggestions from a new skeletal-biologic paradigm).Development of the post-natal growth plate requires intraflagellar transport proteins.Temporomandibular joint in miniature pigs: anatomy, cell replication, and relation to loading.Strain relaxation of fibroblasts in the marginal periodontium is the common trigger for alveolar bone resorption: a novel hypothesis.Bioinspired Technologies to Connect Musculoskeletal Mechanobiology to the Person for Training and Rehabilitation.Indirect way to estimate peak joint loads in life and in skeletal remains (insights from a new paradigm).Multiscale modeling of growth plate cartilage mechanobiology.Static compressive loading reduces the mRNA expression of type II and X collagen in rat growth-plate chondrocytes during postnatal growth.Changing concepts in skeletal physiology: Wolff's Law, the Mechanostat, and the "Utah Paradigm".
P2860
Q28073737-350FF510-EB0E-4EBA-AAC4-8C2EDDB04DE3Q28709518-36FB9A75-699F-4794-BDCF-06114AA784DFQ33652928-9F809BCD-A371-416D-A5E7-266B05DDA3C2Q34632921-11E819A5-8055-41AF-8046-E021CF2B7B83Q35606029-1CB02BB6-317A-49ED-844F-6C66E2179A3EQ36307915-1DFD8CBA-716E-43D5-A969-DC00A7FE2245Q38533801-36ED1DEE-575A-4CFD-8A4D-7C84195B01E5Q39971275-D21BE314-638B-4374-9E8B-1119A3E04EDAQ40003783-1B16337B-D3D7-473C-8BAA-3BCF86C62F65Q40027731-F226D5F2-DF0A-463E-9203-27866AFD8569Q40950894-92F174D5-6D9F-4835-9830-4F2332D789CFQ42434330-67D2DEE6-F44E-4F58-B2C5-14D4EF7061E6Q43900055-73141437-642F-44CB-ABE5-2FA68EB5D5D5Q44204944-C21FA576-C890-427E-B1BE-65C149100847Q47095925-C88F1D5D-60F9-481F-A133-0CF06F429D40Q47787336-4056DBB3-F244-417D-9824-7962F5F97E3DQ50482703-63189C8D-F8D5-4C8A-BCC5-4995B3C6C432Q51244866-E862A962-660D-425F-857D-0334B7F9AA26Q54227296-099D155C-65CE-4B2A-B97F-82FCC64A7C51
P2860
Skeletal structural adaptations to mechanical usage (SATMU): 3. The hyaline cartilage modeling problem.
description
1990 nî lūn-bûn
@nan
1990年の論文
@ja
1990年論文
@yue
1990年論文
@zh-hant
1990年論文
@zh-hk
1990年論文
@zh-mo
1990年論文
@zh-tw
1990年论文
@wuu
1990年论文
@zh
1990年论文
@zh-cn
name
Skeletal structural adaptation ...... ne cartilage modeling problem.
@ast
Skeletal structural adaptation ...... ne cartilage modeling problem.
@en
type
label
Skeletal structural adaptation ...... ne cartilage modeling problem.
@ast
Skeletal structural adaptation ...... ne cartilage modeling problem.
@en
prefLabel
Skeletal structural adaptation ...... ne cartilage modeling problem.
@ast
Skeletal structural adaptation ...... ne cartilage modeling problem.
@en
P356
P1476
Skeletal structural adaptation ...... ne cartilage modeling problem.
@en
P2093
P304
P356
10.1002/AR.1092260404
P577
1990-04-01T00:00:00Z