Keywords: فیبر کلاژن; BMD; bone mineral density; HAP; hydroxyapatite; AFM; atomic force microscopy; CDF; cumulative distribution function; K-S test; Kolmogorov-Smirnov test; Collagen fibril; Bone; in situ elastic modulus; Atomic force microscopy; Deformation mechanism;
مقالات ISI فیبر کلاژن (ترجمه نشده)
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Keywords: فیبر کلاژن; Cornea; Stroma; Transparency; Collagen fibril; Nano structure;
Keywords: فیبر کلاژن; Collagen fibril; Pelvic organ prolapse; Biomechanics; D-period;
Keywords: فیبر کلاژن; Bone; Hydroxyapatite; Collagen fibril; Simulation; Biomineralization;
Keywords: فیبر کلاژن; Collagen fibril; Bone formation; Osteoblast; Bone marrow stromal cell; Mesenchymal stem cell
Keywords: فیبر کلاژن; MPS; multipurpose solutions; ED; equivalent diameter; IFD; inter-fibrillar distance; EFD; edge-fibrillar distance; CF; collagen fibril; NSDEFD; normalized standard deviation of EFD; NSDIFD; normalized standard deviation of IFD; Bovine cornea; Multipurpose
Keywords: فیبر کلاژن; Collagen fibril; Mechanical overload; Discrete plasticity; Tendon; Denaturation; Differential scanning calorimetry;
Atomic force microscopy measurements probing the mechanical properties of single collagen fibrils under the influence of UV light in situ
Keywords: فیبر کلاژن; AFM; Collagen fibril; UV; Thermal treatment; Modulus; In situ;
Decorin and biglycan are necessary for maintaining collagen fibril structure, fiber realignment, and mechanical properties of mature tendons
Keywords: فیبر کلاژن; SLRP; small leucine rich proteoglycan; FDL; flexor digitorum longus; Â |Â E*|; Â dynamic modulus; TM; Tamoxifen; Cre; Cre recombinase; ROI; region of interest; Tendon; Decorin; Biglycan; Collagen fibril; Fiber realignment; Structure; Mechanical properties
Handedness-dependent hyperelasticity of biological soft fibers with multilayered helical structures
Keywords: فیبر کلاژن; Helical structure; Mechanical property; Hyperelasticity; Collagen fibril; Soft tissue
Full length articleCollagen fibrils in functionally distinct tendons have differing structural responses to tendon rupture and fatigue loading
Keywords: فیبر کلاژن; Collagen fibril; Structure-function; Mechanics; Tendon; Damage;
Osteomodulin regulates diameter and alters shape of collagen fibrils
Keywords: فیبر کلاژن; Osteomodulin; Collagen fibril; Fibril diameter; Fibril shape; Extracellular matrix; Bone;
In situ fibril stretch and sliding is location-dependent in mouse supraspinatus tendons
Keywords: فیبر کلاژن; Collagen fibril; Sliding; Stretch; AFM; Tendon; Insertion site; Midsubstance
Prediction of equibiaxial loading stress in collagen-based extracellular matrix using a three-dimensional unit cell model
Keywords: فیبر کلاژن; Tissue engineering; Collagen fibril; Microscale modeling; Cellular solids; Biaxial model;
The effect of point mutations on structure and mechanical properties of collagen-like fibril: A molecular dynamics study
Keywords: فیبر کلاژن; Collagen fibril; Molecular dynamics simulations; Point mutations; Osteogenesis Imperfecta; Mechanical properties;
Collagen fibril stiffening in osteoarthritic cartilage of human beings revealed by atomic force microscopy
Keywords: فیبر کلاژن; Osteoarthritis; Articular cartilage; Collagen fibril; Atomic force microscopy; Nanoindentation
Nanoscale characterization of acid and thermally treated collagen fibrils
Keywords: فیبر کلاژن; Collagen fibril; Acidic and thermal treatment; AFM (atomic force microscopy); ToF-SIMS (time-of-flight secondary ion mass spectroscopy); CR-FM (contact-resonance force microscopy)
Modeling the lateral organization of collagen molecules in fibrils using the paracrystal concept
Keywords: فیبر کلاژن; Collagen fibril; X-ray scattering; Modeling; Paracrystal; Lateral order
Surface characterisation and biomechanical analysis of the sclera by atomic force microscopy
Keywords: فیبر کلاژن; AFM; Nanoindentation; Sclera; Elastic modulus; Collagen fibril
Mechanical response of individual collagen fibrils in loaded tendon as measured by atomic force microscopy
Keywords: فیبر کلاژن; Collagen fibril; Atomic force microscope; Collagen network; Tendon
A mechanistic study for strain rate sensitivity of rabbit patellar tendon
Keywords: فیبر کلاژن; Collagen fibril; D-Period; Tendon microstructure; Fibril recruitment
In vitro osteogenic differentiation of HOS cells on two types of collagen gels
Keywords: فیبر کلاژن; HOS cell; Osteoblast; Osteogenesis; Calcium; Collagen; Collagen fibril
Development of a three-dimensional unit cell to model the micromechanical response of a collagen-based extracellular matrix
Keywords: فیبر کلاژن; Tissue engineering; Collagen fibril; Microscale modeling; Cellular solids
Ultrastructural changes in the retinopathy, globe enlarged (rge) chick cornea
Keywords: فیبر کلاژن; Corneal stroma; Chick; Collagen fibril; Biomechanics; Proteoglycan;
Cell response to matrix mechanics: Focus on collagen
Keywords: فیبر کلاژن; Extracellular matrix; Collagen; Type 1 collagen; Collagen gel; Collagen thin film; Collagen fibril; Vascular smooth muscle cell; Integrin; Mechanical cue; Myosin light chain; Cell spreading; Actin cytoskeleton; Proliferation
Collagen organization in the chicken cornea and structural alterations in the retinopathy, globe enlarged (rge) phenotype—An X-ray diffraction study
Keywords: فیبر کلاژن; Cornea; Chicken; Collagen fibril; X-ray diffraction; Biomechanics
Skewness angle of interfibrillar proteoglycans increases with applied load on mitral valve chordae tendineae
Keywords: فیبر کلاژن; Collagen fibril; Proteoglycan; Fibril-to-fibril interaction; Mitral valve chordae tendineae
Molecular basis of organization of collagen fibrils
Keywords: فیبر کلاژن; Collagen fibril; Collagen II; Collagen self-assembly; Recombinant collagen; Extracellular matrix;
Collagen fibril diameter distribution does not reflect changes in the mechanical properties of in vitro stress-deprived tendons
Keywords: فیبر کلاژن; Collagen fibril; Stress-deprived; MMP-1; Tendon; Cells;
Estimation of the binding force of the collagen molecule-decorin core protein complex in collagen fibril
Keywords: فیبر کلاژن; Decorin; Collagen molecule type I; Collagen fibril;