In situ cell nucleus deformation in tendons under tensile load; a morphological analysis using confocal laser microscopy.
about
Tendon mechanobiology: Current knowledge and future research opportunitiesIn situ deflection of tendon cell-cilia in response to tensile loading: an in vitro study.Muscle and Tendon Adaptation in Adolescence: Elite Volleyball Athletes Compared to Untrained Boys and Girls.In situ cell-matrix mechanics in tendon fascicles and seeded collagen gels: implications for the multiscale design of biomaterials.How High Glucose Levels Affect Tendon Homeostasis.Macro- to microscale strain transfer in fibrous tissues is heterogeneous and tissue-specificImpact of cellular microenvironment and mechanical perturbation on calcium signalling in meniscus fibrochondrocytesDTAF dye concentrations commonly used to measure microscale deformations in biological tissues alter tissue mechanics.Nuclear morphology and deformation in engineered cardiac myocytes and tissues.Multiscale strain analysis of tissue equivalents using a custom-designed biaxial testing device.Nanofiber Alignment Regulates NIH3T3 Cell Orientation and Cytoskeletal Gene Expression on Electrospun PCL+Gelatin Nanofibers.Transfer of macroscale tissue strain to microscale cell regions in the deformed meniscus.The mechanobiological aetiopathogenesis of tendinopathy: is it the over-stimulation or the under-stimulation of tendon cells?Human tendon behaviour and adaptation, in vivo.Role of biomechanics in the understanding of normal, injured, and healing ligaments and tendons.The role of the non-collagenous matrix in tendon function.A conceptual framework for computational models of Achilles tendon homeostasis.Multiscale strain analysis of tendon subjected to shear and compression demonstrates strain attenuation, fiber sliding, and reorganization.Evaluation of tissue displacement and regional strain in the Achilles tendon using quantitative high-frequency ultrasoundHigh magnitude, in vitro, biaxial, cyclic tensile strain induces actin depolymerization in tendon cells.Pericellular Matrix Mechanics in the Anulus Fibrosus Predicted by a Three-Dimensional Finite Element Model and In Situ Morphology.Loss of homeostatic tension induces apoptosis in tendon cells: an in vitro study.The mature athlete: aging tendon and ligament.Loss of homeostatic strain alters mechanostat "set point" of tendon cells in vitro.Cancer cell migration in 3D tissue: negotiating space by proteolysis and nuclear deformability.Tissue-to-cellular level deformation coupling in cell micro-integrated elastomeric scaffolds.Activation of stress-activated protein kinases (SAPK) in tendon cells following cyclic strain: the effects of strain frequency, strain magnitude, and cytosolic calcium.Cell Signaling in Tenocytes: Response to Load and Ligands in Health and Disease.Actin and microtubules play distinct roles in governing the anisotropic deformation of cell nuclei in response to substrate strain.Porous nanoapatite scaffolds synthesized using an approach of interfacial mineralization reaction and their bioactivity.Imbalances in the Development of Muscle and Tendon as Risk Factor for Tendinopathies in Youth Athletes: A Review of Current Evidence and Concepts of Prevention.Novel image analysis methods for quantification of in situ 3-D tendon cell and matrix strain.An investigation into the effects of the hierarchical structure of tendon fascicles on micromechanical properties.Predicting tenocyte expression profiles and average molecular concentrations in Achilles tendon ECM from tissue strain and fiber damage.Impact of rest duration on Achilles tendon structure and function following isometric training.Three-dimensional deformation and transverse rotation of the human free Achilles tendon in vivo during isometric plantarflexion contraction.High-resolution study of the 3D collagen fibrillary matrix of Achilles tendons without tissue labelling and dehydrating.Collagen Homeostasis and Metabolism.Tendon healing affects the multiscale mechanical, structural and compositional response of tendon to quasi-static tensile loading.In vitro loading models for tendon mechanobiology.
P2860
Q26829533-2E0A5481-CAEF-475D-BC73-0BF4489343C7Q33801226-B7F2E26E-EF9C-47F3-BDC5-C5617D9D0F05Q33804453-90698751-3EDE-454B-B4C8-012B254C6D94Q34511552-A1E4F0E2-6A7E-44D1-ABC3-FF3650353536Q34537713-B7DEF6B3-F3D5-41C9-AE99-D6AF531E16AAQ34913441-32ADD44F-9160-4DBD-BD2A-DFC8DBE9F466Q35183538-763E6ABB-3346-44F7-959D-D2ED23259BFBQ35184931-1781E683-A90F-464D-B7F5-B3BD953F0CA9Q35559883-A7E1FE79-1F6A-4AC1-94C1-B454D4179DD3Q35843828-E147F12A-C40E-43FF-A53F-855862E21421Q36022511-A9B3E2B0-675D-432C-B77B-4564FF133D37Q36791286-158B23AA-3277-4324-8B03-7092B7282070Q36909460-12C04C8B-0D9F-4621-8540-0774280FA876Q36940472-B711DBEE-ECD7-46C3-9B7A-3FCFCB99E297Q37224967-74BDE6AB-2A19-4234-ADC7-19518FCCAD34Q38110327-4BC4BF00-4E96-40DC-8987-7AF00F7DEF5FQ38113745-820AEF66-9823-438A-87CC-AFCE6A05064AQ40285216-6375D131-CC14-40DB-A314-FF806CA92570Q41072044-B373E0EE-91C2-4A80-8F25-EE6ACFECD8CEQ41217964-B7E147E0-87E2-4C29-9E6F-BCD7FA9C2B84Q41768338-4402C92D-DA91-4CB6-9909-EF7B9A1045C6Q41815765-4FDCCB98-BCF5-497E-A46A-BC70ECEFF37EQ41879172-D9F7B0EB-293F-4D23-879E-6D59ADF7DEB1Q42144878-FE252DC7-FE67-413B-9D1D-0155E4D83A35Q42250953-FB8BDDED-6F19-420E-A188-B711BEB48A56Q43229187-89CF55A7-991B-4C49-8DF3-8A6ABF0C630EQ44181808-323124ED-2B3E-4AA8-BE00-F0B652FEA979Q44866274-4E21B561-A666-48EE-81D5-FEF5068516A3Q45907923-A6243832-60E1-47DB-BF41-F0300B07A875Q46285250-F2A40C38-3862-426F-8232-B43886C477C9Q47103486-4B7BDDBE-CD64-478E-9884-4A1981835393Q47243387-6326F542-6BC5-418F-A62B-7284A8514EE8Q47675874-FE880D70-A133-480B-A94E-47BA542102EAQ47931272-DE5CD5C7-FE0D-44DE-BC62-1519BB71F732Q48294830-43AB5AAA-7E54-4882-9917-1F405204B2A6Q48593088-1469E156-D7F8-4863-A458-74BF45884F2BQ50982810-96126B40-6E78-4C33-BD80-C9D275B78F79Q51565511-93CA32B1-E127-473A-BCBF-F2CAAF357E97Q52691624-4CC54594-F58F-4010-BDD2-56ED641966EBQ52753292-661C307F-82D0-45DD-B05E-B39B99DA276E
P2860
In situ cell nucleus deformation in tendons under tensile load; a morphological analysis using confocal laser microscopy.
description
2002 nî lūn-bûn
@nan
2002 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
In situ cell nucleus deformati ...... ing confocal laser microscopy.
@ast
In situ cell nucleus deformati ...... ing confocal laser microscopy.
@en
type
label
In situ cell nucleus deformati ...... ing confocal laser microscopy.
@ast
In situ cell nucleus deformati ...... ing confocal laser microscopy.
@en
prefLabel
In situ cell nucleus deformati ...... ing confocal laser microscopy.
@ast
In situ cell nucleus deformati ...... ing confocal laser microscopy.
@en
P2093
P2860
P1476
In situ cell nucleus deformati ...... ing confocal laser microscopy.
@en
P2093
Amardeep Hoonjan
Joanne H Whallon
Michael Lavagnino
Steven P Arnoczky
P2860
P356
10.1016/S0736-0266(01)00080-8
P577
2002-01-01T00:00:00Z