Age-related changes in the mechanical properties of the epimysium in skeletal muscles of rats.
about
The central role of muscle stem cells in regenerative failure with agingMatrix metalloproteinase and tissue inhibitor of metalloproteinase responses to muscle damage after eccentric exerciseThe Extracellular to Intracellular Water Ratio in Upper Legs is Negatively Associated With Skeletal Muscle Strength and Gait Speed in Older People.A home away from home: challenges and opportunities in engineering in vitro muscle satellite cell nichesSatellite cells and the muscle stem cell nicheIntrinsic stiffness of extracellular matrix increases with age in skeletal muscles of mice.Role of moderate exercising on Achilles tendon collagen crimping patterns and proteoglycans.Skeletal muscle fibrosis develops in response to desmin deletion.Age associated communication between cells and matrix: a potential impact on stem cell-based tissue regeneration strategies.Stuck in gear: age-related loss of variable gearing in skeletal muscleA nonlinear model of passive muscle viscosityTransversely isotropic tensile material properties of skeletal muscle tissue.Effects of aging on the lateral transmission of force in rat skeletal muscle.mTOR and the differentiation of mesenchymal stem cells.Structure and function of the skeletal muscle extracellular matrix.Fascial components of the myofascial pain syndrome.Skeletal muscle fibroblasts in health and disease.The characterization of decellularized human skeletal muscle as a blueprint for mimetic scaffolds.Modeling age-related changes in muscle-tendon dynamics during cyclical contractions in the rat gastrocnemius.Analysis of fluid movement in skeletal muscle using fluorescent microspheres.The role of transmembrane proteins on force transmission in skeletal muscle.The aponeurotic tension model of craniofacial growth in man.Influence of maximum range of motion and stiffness on the viscoelastic stretch response.Muscle and Limb Mechanics.Influence of age on passive stiffness and size, quality, and strength characteristics.Resistance to radial expansion limits muscle strain and work.Role of transforming growth factor-β in muscle damage and regeneration: focused on eccentric muscle contraction.An experimental model for the study of collagen fibers in skeletal muscle.Immunohistochemical analysis of collagen content and types in the rectus abdominis muscle of cadavers of different ages.Lateral transmission of force is impaired in skeletal muscles of dystrophic mice and very old rats.Impact of Multidirectional Transverse Calf Muscle Loading on Calf Muscle Force in Young Adults
P2860
Q26801427-EA108ACF-9F86-4476-B00D-CA041EB5EB1CQ28066118-2E733F32-4AB7-47D2-8447-237F57659345Q31115082-AA2BFA84-89FD-4197-8B50-BBB5B5E11665Q33571203-B6B22181-2A17-4499-B1FB-335237F7E6B0Q33816665-0EC043B6-ED62-4A97-8010-765823760157Q34063148-AC386293-BD02-4379-8FCA-DA46F5E10EF0Q34767960-CDFEBCE5-2CE9-4012-A366-7627DF014CA4Q36041638-95BCBD88-D1DA-4B89-B004-6B455FC3AF18Q36125123-67F3BF70-1DF7-4807-B7B7-720C53499FE8Q36856635-7A61CA84-9EF5-4A2D-8446-5DBC4295588AQ36995293-19C58CD3-C3FD-4DCD-B366-3BA00E5A15DEQ37410932-1BFCDE1B-519E-41AB-8DB5-CC8661275F86Q37672000-B411299B-5AE9-47FD-A30A-D66AA68B2F84Q37885070-1730A9C5-4254-4E51-AB83-EC05371182FCQ37939096-3D92D13A-9F0A-4D2D-AD65-18719E72B28DQ38117045-2044896B-5732-4EC2-994E-BA02374DE4AFQ38860573-4515C5E7-6976-4D40-8990-0A3EE25E5869Q39668875-0C30C2C3-D5AC-4B60-8BDF-650170617B38Q41645809-784B0EF1-4211-428D-82CD-EE2914DBB882Q41973735-71B5184A-FD3A-4AAC-933A-ACEED604C5D6Q42546241-99D5479A-7601-4521-8CC9-44D991AB94D1Q43104496-C04F0E9D-9896-4147-A571-B2D2BA3450AFQ43551088-4350E030-10C5-47B9-818B-49EB2214DBDFQ46262723-E37081C1-9CBB-4C8A-AF0B-0E70BF004005Q47293621-8B99B9F3-DA3E-4685-A2C1-8B777C486955Q47876518-11CE6EC3-9666-40ED-8C68-7251316D9D73Q49287596-5D99A772-2259-43C6-975F-BA191DCE0B46Q50502527-379B1B89-B7A4-4C8E-9596-6A0F6C663062Q50997039-5A49D1BC-1612-4DB4-B4C9-B234707ECB49Q52606781-96117FFD-326F-4C2D-8E00-BAA8BC6C8D4EQ58769647-DBE2EE7A-9048-4AAA-A8A0-7AA3A56FFA83
P2860
Age-related changes in the mechanical properties of the epimysium in skeletal muscles of rats.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Age-related changes in the mec ...... m in skeletal muscles of rats.
@en
Age-related changes in the mec ...... m in skeletal muscles of rats.
@nl
type
label
Age-related changes in the mec ...... m in skeletal muscles of rats.
@en
Age-related changes in the mec ...... m in skeletal muscles of rats.
@nl
prefLabel
Age-related changes in the mec ...... m in skeletal muscles of rats.
@en
Age-related changes in the mec ...... m in skeletal muscles of rats.
@nl
P2093
P2860
P1476
Age-related changes in the mec ...... m in skeletal muscles of rats.
@en
P2093
Alan S Wineman
John A Faulkner
Tatiana Y Kostrominova
Yingxin Gao
P2860
P304
P356
10.1016/J.JBIOMECH.2007.09.021
P577
2007-11-26T00:00:00Z