Keywords: محرک مکانیکی; Tissue engineered cartilage; Joint movements; Shearing; Mechanical stimuli;
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: محرک مکانیکی; Bone fracture healing; Biological modeling; Mechanobiological modeling; Mechanical stimuli; Growth factors; Callus; Hematoma; Angiogenesis; Finite element; Mathematical modeling; Computational modeling;
Keywords: محرک مکانیکی; Trabecular bone; Mechanical stimuli; Micro computed tomography; Finite element models; Osteoporosis;
Keywords: محرک مکانیکی; Intervertebral disc; Glycosaminoglycan synthesis; Mechanical stimuli; Mechanobiology; Multiscale mathematical model; Finite element analysis;
Keywords: محرک مکانیکی; Bone remodelling; Strain energy density; Multi-scale modelling; Apparent density; Femur; Mechanical stimuli
Keywords: محرک مکانیکی; Hydrogen; Ignition probability; Mechanical stimuli; Friction; Clean metal
Keywords: محرک مکانیکی; Silicon nanowire array; Mesenchymal stem cell; Mechanical stimuli; Microenvironment; Signaling pathways;
Keywords: محرک مکانیکی; Osteocyte; Tooth movement; Mechanical stimuli; Mechanosignalling; Bone remodelling
Al resistance and mechanical impedance to roots in Zea mays: Reduced Al toxicity via enhanced mucilage production
Keywords: محرک مکانیکی; Aluminum stress; Mechanical stimuli; Mucilage; Root apex; Sand culture; Zea mays L.;
PYK2 mediates BzATP-induced extracellular matrix proteins synthesis
Keywords: محرک مکانیکی; PYK2; BzATP; P2X7; Mechanical stimuli; Extracellular matrix proteins;
Regulation of skeletal growth and mineral acquisition by the GH/IGF-1 axis: Lessons from mouse models
Keywords: محرک مکانیکی; Growth hormone (GH); Growth hormone receptor (GHR); Insulin-like growth factor-1 (IGF-1); Growth plate; Periosteum; Endosteum; Perichondrium; Chondrocyte; Osteocyte; Osteoblast; Mineralization; Micro-CT; Histomorphometry; Mechanical stimuli;
Signaling mechanisms implicated in cranial sutures pathophysiology: Craniosynostosis
Keywords: محرک مکانیکی; Sutures; Craniosynostosis; Molecular signaling; Polycystins; Mechanical stimuli; Craniosynostosis therapies;
MiR-494-3p induced by compressive force inhibits cell proliferation in MC3T3-E1 cells
Keywords: محرک مکانیکی; Mechanical stimuli; Compressive force; MicroRNA; Osteoblasts; Cell proliferation
A novel in vitro loading system for high frequency loading of cultured tendon fascicles
Keywords: محرک مکانیکی; Tendon; In vitro tissue culture; Mechanobiology; Extracellular matrix; Mechanical stimuli; High frequency loading
A tilting embryo culture system increases the number of high-grade human blastocysts with high implantation competence
Keywords: محرک مکانیکی; blastocyst; embryonic development; mechanical stimuli; microenvironment; tilting embryo culture system
A multilayer braided scaffold for Anterior Cruciate Ligament: Mechanical modeling at the fiber scale
Keywords: محرک مکانیکی; Tissue engineering; Anterior Cruciate Ligament; Scaffold design; Finite Element modeling; Braided scaffold; Mechanical stimuli;
Mechanical Stimuli-induced Urothelial Differentiation in a Human Tissue-engineered Tubular Genitourinary Graft
Keywords: محرک مکانیکی; Barrier function; Cell differentiation; Human; Mechanical stimuli; Tissue engineering; Ureteral reconstruction; Urethral reconstruction; Urothelium
IGF-IEc expression, regulation and biological function in different tissues
Keywords: محرک مکانیکی; IGF-I; MGF; Alternative splicing; Mechanical stimuli; Skeletal muscle; Tissue protection
Improved development of mouse and human embryos using a tilting embryo culture system
Keywords: محرک مکانیکی; blastocyst; embryo development; mechanical stimuli; shear stress; tilting embryo culture system
The influence of acoustic and static stimuli on development of inner ear sensory epithelia
Keywords: محرک مکانیکی; Inner ear; Hair cell; Mechanical stimuli; Mouse development
Regulation of cellular morphology using temperature-responsive hydrogel for integrin-mediated mechanical force stimulation
Keywords: محرک مکانیکی; Hydrogel; Poly(N-isopropylacrylamide); Cell morphology; Mechanical stimuli; Actin; Paxillin
Computational modelling of the mechanical environment of osteogenesis within a polylactic acid–calcium phosphate glass scaffold
Keywords: محرک مکانیکی; Bone tissue engineering; Scaffold; Finite element analysis; Computational fluid dynamics; Mechanical stimuli
Mechanical loading highly increases IL-6 production and decreases OPG expression by osteoblasts
Keywords: محرک مکانیکی; Osteoblasts; IL-6; OPG; Mechanical stimuli
Degenerative changes of articular cartilage in association with mechanical stimuli
Keywords: محرک مکانیکی; Temporomandibular joint-osteoarthritis (TMJ-OA); Articular chondrocyte; Condylar resorption; Extracellular matrix metalloproteinase; Mechanical stimuli
A finite element study of mechanical stimuli in scaffolds for bone tissue engineering
Keywords: محرک مکانیکی; Bone tissue engineering; Finite element analysis; Scaffolds; Mechanical stimuli
Force detection with Donnan equilibrium in polypyrrole film
Keywords: محرک مکانیکی; Electrochemical actuation; Mechanical stimuli; Conducting polymer; Polypyrrole; Donnan equilibrium
Low-magnitude mechanical signals that stimulate bone formation in the ovariectomized rat are dependent on the applied frequency but not on the strain magnitude
Keywords: محرک مکانیکی; Trabecular bone; Ovariectomy; Strain frequency; Mechanical stimuli; Bone formation; Osteoporosis; Bone strain; Anabolic; Skeleton; Osteogenic; Strain magnitude
The Uroepithelial-associated sensory web
Keywords: محرک مکانیکی; bladder; endocytosis; epithelium; exocytosis; mechanical stimuli; neural–epithelial interactions; uroepithelium; urothelium
High-frequency oscillatory motions enhance the simulated mechanical properties of non-weight bearing trabecular bone
Keywords: محرک مکانیکی; High-frequency accelerations; Finite elements; Trabecular bone; Stress; Mechanical stimuli