Mechanical properties of the long-head of the biceps tendon are altered in the presence of rotator cuff tears in a rat model.
about
Expression of matrix metalloproteinases 1, 3, and 9 in degenerated long head biceps tendon in the presence of rotator cuff tears: an immunohistological studyEffect of return to overuse activity following an isolated supraspinatus tendon tear on adjacent intact tendons and glenoid cartilage in a rat modelThe relevance of long head biceps degeneration in the presence of rotator cuff tears.An anisotropic nanofiber/microsphere composite with controlled release of biomolecules for fibrous tissue engineering.The influence of an aligned nanofibrous topography on human mesenchymal stem cell fibrochondrogenesis.Relationship between chronic pathologies of the supraspinatus tendon and the long head of the biceps tendon: systematic reviewDynamic tensile loading improves the functional properties of mesenchymal stem cell-laden nanofiber-based fibrocartilage.Exercise protocol induces muscle, tendon, and bone adaptations in the rat shoulder.Scapular dyskinesis is detrimental to shoulder tendon properties and joint mechanics in a rat model.Regulatory role of collagen V in establishing mechanical properties of tendons and ligaments is tissue dependent.Fiber angle and aspect ratio influence the shear mechanics of oriented electrospun nanofibrous scaffoldsTargeted deletion of collagen V in tendons and ligaments results in a classic Ehlers-Danlos syndrome joint phenotype.Effect of orientation and targeted extracellular matrix degradation on the shear mechanical properties of the annulus fibrosusFiber stretch and reorientation modulates mesenchymal stem cell morphology and fibrous gene expression on oriented nanofibrous microenvironmentsMechanical, compositional, and structural properties of the post-natal mouse Achilles tendonNanofibrous biologic laminates replicate the form and function of the annulus fibrosus.Multi-scale structural and tensile mechanical response of annulus fibrosus to osmotic loadingModeling interlamellar interactions in angle-ply biologic laminates for annulus fibrosus tissue engineeringMicrostructural heterogeneity directs micromechanics and mechanobiology in native and engineered fibrocartilageUltrasonographic Validation of Anatomical Landmarks for Localization of the Tendon of the Long Head of Biceps Brachii.Rotator cuff biology and biomechanics: a review of normal and pathological conditions.Advances in biology and mechanics of rotator cuff repair.Ibuprofen Differentially Affects Supraspinatus Muscle and Tendon Adaptations to Exercise in a Rat Model.Tendon exhibits complex poroelastic behavior at the nanoscale as revealed by high-frequency AFM-based rheology.Intra-articular changes precede extra-articular changes in the biceps tendon after rotator cuff tears in a rat model.Disruption of the anterior-posterior rotator cuff force balance alters joint function and leads to joint damage in a rat model.Biceps tendon properties worsen initially but improve over time following rotator cuff tears in a rat model.Dynamic culture enhances stem cell infiltration and modulates extracellular matrix production on aligned electrospun nanofibrous scaffolds.Homologous structure-function relationships between native fibrocartilage and tissue engineered from MSC-seeded nanofibrous scaffoldsIn situ fibril stretch and sliding is location-dependent in mouse supraspinatus tendons.Biceps detachment decreases joint damage in a rotator cuff tear rat modelReturning to overuse activity following a supraspinatus and infraspinatus tear leads to joint damage in a rat model.Overuse activity in the presence of scapular dyskinesis leads to shoulder tendon damage in a rat model.The effect of altered loading following rotator cuff tears in a rat model on the regional mechanical properties of the long head of the biceps tendonEffect of scapular dyskinesis on supraspinatus repair healing in a rat model.Biaxial mechanics and inter-lamellar shearing of stem-cell seeded electrospun angle-ply laminates for annulus fibrosus tissue engineering.Alterations in tendon microenvironment in response to mechanical load: potential molecular targets for treatment strategies.Rat supraspinatus tendon responds acutely and chronically to exercise.Enhanced tendon-to-bone repair through adhesive films.Biceps tenotomy in the presence of a supraspinatus tear alters the adjacent intact tendons and glenoid cartilage.
P2860
Q28385087-5648D356-777B-4B5A-8135-7831A8C0DD42Q28397607-18DEFF3A-DED3-4E4F-AF7C-F59596993B65Q30988201-A1439171-0A25-4DD7-8E2D-E056461F961CQ33729392-589D7BD5-611E-45C4-8F9E-726A9CFC7EDCQ33907570-86CA33F1-B0D2-414A-88E4-D4B940C0AF60Q34586610-0B23EC7B-10C6-4A95-BAC5-6D5C9620431EQ34811713-599DC0A7-DA39-486F-9AA1-87A6A4FF4034Q35081563-53D04C7B-4709-4EF5-A411-DD2BE557F2D5Q35541784-C61BC5D2-0D0C-4DD8-AC30-AC18BDAA3987Q35561789-9790217A-A26E-4E34-B066-7F9585C2E673Q35566891-BA3C421D-75A8-4CEE-9F80-F65206190C92Q35568095-A497C128-37FA-4A0B-A721-2FEDDF6A3966Q35581427-B48905CC-F42C-463D-96E7-1A3FC1E6947AQ35609209-463D9691-429D-4AA1-B1C6-AF708CE7FB18Q35925332-C1EF3680-AB51-4896-BA7A-2017FB29202DQ36152358-3596496A-F48B-44E2-8423-DFFCCC8EABC8Q36406198-FF090826-69DE-467F-8FE3-16F06992CDA4Q36441809-87DA9EAA-5B9D-40AC-B598-31A4D2B99B9CQ36723070-1CD30893-F486-4F33-A425-B91336873B4AQ37680885-E2A42DB7-740D-49DA-BCDF-6370D169B362Q38283229-DB92B90D-9B53-47C2-9A87-D2DD56BE131BQ38312389-FAB1B244-BF95-4022-8405-4EFE2AE4045AQ38855780-D816D49F-9CBB-496A-B448-4A0C32E33AAAQ38944538-5296A06E-563B-4556-B6DB-9E5527030081Q38985719-B0B5520D-016D-4A5C-BCAE-A1CF6545E9CDQ39112372-7119FBCE-3F12-41EE-87BF-E86302F85ADEQ41234553-E64C626E-2C58-4D85-9EB9-3C3E5834F731Q41357257-BA930360-F564-41E2-B611-6E0AAB20EE0AQ41536307-77AC7A0D-4517-45C7-9387-8EC4162EF57AQ41734422-284388A8-1D72-4963-9458-CC5D6522590EQ41807498-6618F940-4BB4-4FF3-A5BD-C4A533380EC7Q41855034-23B2C406-6F3F-4326-A628-C9680B3A1BFCQ42089469-85C567CE-EEE5-428B-85F0-283B6F0D01FEQ42156639-FAA70CDC-362E-4A05-834A-916C3B2C7F55Q42367470-89DD48E7-7869-4661-8C2E-66AE3C694E27Q43484391-BDC7076C-FFAF-43CF-843B-EE5486310CC7Q46001074-C7B6B61A-92F1-413D-8B61-87184AB90EA6Q48198838-1839B5B8-107E-41FE-8FA7-E2DE45BF8B84Q50086352-3F3B8F17-B1EA-456E-B11A-792311F3DAFEQ50147992-491D0A77-C369-41F2-8DAD-64739C04922D
P2860
Mechanical properties of the long-head of the biceps tendon are altered in the presence of rotator cuff tears in a rat 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
Mechanical properties of the l ...... tor cuff tears in a rat model.
@en
Mechanical properties of the l ...... tor cuff tears in a rat model.
@nl
type
label
Mechanical properties of the l ...... tor cuff tears in a rat model.
@en
Mechanical properties of the l ...... tor cuff tears in a rat model.
@nl
prefLabel
Mechanical properties of the l ...... tor cuff tears in a rat model.
@en
Mechanical properties of the l ...... tor cuff tears in a rat model.
@nl
P2093
P2860
P356
P1476
Mechanical properties of the l ...... tor cuff tears in a rat model.
@en
P2093
Cathryn D Peltz
Charles L Getz
Louis J Soslowsky
Stephanie M Perry
P2860
P304
P356
10.1002/JOR.20770
P577
2009-03-01T00:00:00Z