Early response to tendon fatigue damage accumulation in a novel in vivo model
about
The interaction of force and repetition on musculoskeletal and neural tissue responses and sensorimotor behavior in a rat model of work-related musculoskeletal disordersThe Achilles tendon: fundamental properties and mechanisms governing healingSeeing through Musculoskeletal Tissues: Improving In Situ Imaging of Bone and the Lacunar Canalicular System through Optical ClearingTendon basic science: Development, repair, regeneration, and healingDelayed exercise promotes remodeling in sub-rupture fatigue damaged tendonsRecent Scientific Advances Towards the Development of Tendon Healing StrategiesFatigue loading of tendonBasic mechanisms of tendon fatigue damageMolecular response of the patellar tendon to fatigue loading explained in the context of the initial induced damage and number of fatigue loading cyclesTendon fatigue in response to mechanical loadingFascicles from energy-storing tendons show an age-specific response to cyclic fatigue loadingCreating an Animal Model of Tendinopathy by Inducing Chondrogenic Differentiation with KartogeninCycle-dependent matrix remodeling gene expression response in fatigue-loaded rat patellar tendonsBiomechanical and structural response of healing Achilles tendon to fatigue loading following acute injuryTemporal effect of in vivo tendon fatigue loading on the apoptotic response explained in the context of number of fatigue loading cycles and initial damage parameters.The relationships among spatiotemporal collagen gene expression, histology, and biomechanics following full-length injury in the murine patellar tendon.Evaluating changes in tendon crimp with fatigue loading as an ex vivo structural assessment of tendon damage.Tendon functional extracellular matrixAdaptive Remodeling of Achilles Tendon: A Multi-scale Computational ModelCollagen network strengthening following cyclic tensile loadingSecond harmonic generation imaging and Fourier transform spectral analysis reveal damage in fatigue-loaded tendons.Cross-Talk Between Human Tenocytes and Bone Marrow Stromal Cells Potentiates Extracellular Matrix Remodeling In Vitro.The role of mechanical loading in tendon development, maintenance, injury, and repairStructural and mechanical effects of in vivo fatigue damage induction on murine tendon.The relationships between cyclic fatigue loading, changes in initial mechanical properties, and the in vivo temporal mechanical response of the rat patellar tendon.Tendon mechanobiology: experimental models require mathematical underpinning.The role of animal models in tendon research.Rotator cuff biology and biomechanics: a review of normal and pathological conditions.Fatigue damage of collagenous tissues: experiment, modeling and simulation studies.Mechanobiological modelling of tendons: Review and future opportunities.An in vitro scratch tendon tissue injury model: effects of high frequency low magnitude loading.Green Tea and Glycine Modulate the Activity of Metalloproteinases and Collagen in the Tendinitis of the Myotendinous Junction of the Achilles Tendon.Interfibrillar shear stress is the loading mechanism of collagen fibrils in tendonEarly stage fatigue damage occurs in bovine tendon fascicles in the absence of changes in mechanics at either the gross or micro-structural level.Molecular level detection and localization of mechanical damage in collagen enabled by collagen hybridizing peptides.Automated image analysis method for quantifying damage accumulation in tendonImbalances in the Development of Muscle and Tendon as Risk Factor for Tendinopathies in Youth Athletes: A Review of Current Evidence and Concepts of Prevention.Predicting tenocyte expression profiles and average molecular concentrations in Achilles tendon ECM from tissue strain and fiber damage.Tendon Stem Cells: Mechanobiology and Development of Tendinopathy.Green tea and glycine aid in the recovery of tendinitis of the Achilles tendon of rats.
P2860
Q21257169-659A8F0E-A162-4DD8-A9A9-73074FAFD706Q27007206-FC3B32D5-9E1A-49C4-B5CA-FE2700105FE5Q27319970-EB86FE4D-5EF4-4281-A562-19BD4AE94427Q28085330-36895E8D-E603-4E87-9016-EF6AAFCA87FEQ28258141-16C34709-FCF6-4E97-99E0-0BB759B0E1F1Q28383397-0F8120AF-268B-4147-922D-0289F7873585Q28386133-B88AB46C-65C3-4E7D-8139-33E0F8832729Q28387607-EA8BBBAC-1EFD-4046-B144-8FCF4D5DF7CFQ28388143-F21ED3E6-27F1-48A8-9D14-7E9FB8DFCECCQ28392466-BB42535B-FCE9-4ADB-84E3-6F35B62D93E3Q28394696-209527DB-B41A-4B56-A98B-C62703171EF0Q28553209-477DA62A-B3D3-41AC-B279-A16D66268486Q28565162-678E0F07-93AB-42A3-996C-935495BD0153Q33594704-31ABFE1E-9045-4C4C-9854-3A55BEA9DF5FQ34406240-99E1FC4B-17A5-41A6-AA68-90196D29904DQ35235819-74F80E68-BB6D-450C-918A-11C8563EB249Q35561478-1AF0965F-214F-42AD-9403-DE71113850A9Q35866265-4F36AE3A-806B-4993-950F-C0B86EADFF85Q36148012-35BA3301-06DC-4394-989F-F017310F7C5CQ36390754-CB2B50A9-B87F-4AB2-8260-0EBC0B56F9B3Q36670371-AF9941F6-F9BC-4D5D-A816-E364A7C5E3E8Q37092324-0B11BCF0-E717-4377-9BE8-6B3B7E399176Q37109498-F8831A53-4942-4414-BB69-632B8264EED9Q37127023-E2180C96-C13E-4D81-A24A-36BEA90AA133Q37149499-F9130F19-C1C7-4B04-A19B-A3201FB6B1CDQ38107447-1FF5969C-4A4F-485C-B961-8A10041B30CEQ38222724-B545D80A-86F2-4FE6-9791-EC30A4DBFCB0Q38283229-0656E4A3-0733-4299-ACE9-5E3BE9245F02Q38467187-6F5B8F2F-DEF6-4213-B7BA-26627BCD8B8AQ38692651-A9D7EEBF-2382-4BD7-934D-48876A73AD94Q39688128-9B9F4AA0-E6CF-429A-BAC9-91529E7AFF01Q39816250-49D64769-B8F6-4DB4-8868-814B9ADC4279Q39951776-841302B9-4401-4C66-8181-29ACC020727AQ40205967-4CA5D8D6-27AB-4DF5-AB89-27572DDC7078Q41887191-B7344EF4-6A2A-48D0-995E-6F74745F02B9Q42428655-4E993CD5-0649-4990-9ACB-A5E539FA5C9DQ47103486-05A2E3E4-098A-4985-86E6-982E64C60392Q47931272-B6986707-85D8-434B-82E4-20DB167E1161Q48045010-751BDC66-575A-460C-A71C-0C5595B2CE06Q50446744-05425B91-E224-4657-AAF3-FBB6D523858D
P2860
Early response to tendon fatigue damage accumulation in a novel in vivo model
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
2009年论文
@zh
2009年论文
@zh-cn
name
Early response to tendon fatigue damage accumulation in a novel in vivo model
@ast
Early response to tendon fatigue damage accumulation in a novel in vivo model
@en
type
label
Early response to tendon fatigue damage accumulation in a novel in vivo model
@ast
Early response to tendon fatigue damage accumulation in a novel in vivo model
@en
prefLabel
Early response to tendon fatigue damage accumulation in a novel in vivo model
@ast
Early response to tendon fatigue damage accumulation in a novel in vivo model
@en
P2093
P2860
P1476
Early response to tendon fatigue damage accumulation in a novel in vivo model
@en
P2093
Damien M Laudier
David T Fung
Evan L Flatow
Jelena Basta-Pljakic
Karl J Jepsen
Mitchell B Schaffler
Nelly Andarawis-Puri
Yonghui Li
P2860
P304
P356
10.1016/J.JBIOMECH.2009.08.039
P50
P577
2009-11-25T00:00:00Z