The physics of cancer: the role of physical interactions and mechanical forces in metastasis. - Wikidata - awgldk - TriplyDB

The physics of cancer: the role of physical interactions and mechanical forces in metastasis.

The physics of cancer: the role of physical interactions and mechanical forces in metastasis.

http://www.wikidata.org/entity/Q35684114

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Nano-mechanical Phenotype as a Promising Biomarker to Evaluate Cancer Development, Progression, and Anti-cancer Drug Efficacy Neural regulation of cancer: from mechanobiology to inflammation In Vitro Tumor Models: Advantages, Disadvantages, Variables, and Selecting the Right Platform Characterization of DNA Methylation in Circulating Tumor Cells Metastasis of circulating tumor cells: favorable soil or suitable biomechanics, or both?Microfluidic platforms for mechanobiology Nanoscale monitoring of drug actions on cell membrane using atomic force microscopy Etiologic field effect: reappraisal of the field effect concept in cancer predisposition and progression Physical biology in cancer. 4. Physical cues guide tumor cell adhesion and migration Epithelial cell polarity determinant CRB3 in cancer development Targeted nanotechnology for cancer imaging.Persistent activation of pancreatic stellate cells creates a microenvironment favorable for the malignant behavior of pancreatic ductal adenocarcinoma Multiscale perspectives of virus entry via endocytosis Mechanical stress impairs mitosis progression in multi-cellular tumor spheroids Investigation of Tumor Cell Behaviors on a Vascular Microenvironment-Mimicking Microfluidic Chip.Mesenchymal Stem Cells Induce Directional Migration of Invasive Breast Cancer Cells through TGF-β Tumor invasion optimization by mesenchymal-amoeboid heterogeneity Statistical analysis of cell migration in 3D using the anisotropic persistent random walk model.Cell membrane deformation and bioeffects produced by tandem bubble-induced jetting flow Smooth muscle tension induces invasive remodeling of the zebrafish intestine The influence of electric field and confinement on cell motility Antagonistic regulation of apoptosis and differentiation by the Cut transcription factor represents a tumor-suppressing mechanism in Drosophila A serial micropipette microfluidic device with applications to cancer cell repeated deformation studies.Volume regulation and shape bifurcation in the cell nucleus.An Automated High-throughput Array Microscope for Cancer Cell Mechanics.Fluorescence-based force/tension sensors: a novel tool to visualize mechanical forces in structural proteins in live cells Changes in cellular mechanical properties during onset or progression of colorectal cancer Emergent complexity of the cytoskeleton: from single filaments to tissue Hydrogels to model 3D in vitro microenvironment of tumor vascularization High expression of MnSOD promotes survival of circulating breast cancer cells and increases their resistance to doxorubicin Improved-throughput traction microscopy based on fluorescence micropattern for manual microscopy Dynamic Microenvironment Induces Phenotypic Plasticity of Esophageal Cancer Cells Under Flow.Integrated micro/nanoengineered functional biomaterials for cell mechanics and mechanobiology: a materials perspective.A high throughput approach for analysis of cell nuclear deformability at single cell level A comprehensive strategy for the analysis of acoustic compressibility and optical deformability on single cells.High Throughput Label Free Measurement of Cancer Cell Adhesion Kinetics Under Hemodynamic Flow.Melanoma upregulates ICAM-1 expression on endothelial cells through engagement of tumor CD44 with endothelial E-selectin and activation of a PKCα-p38-SP-1 pathway.Probing cell-cell communication with microfluidic devices.Perspective: Flicking with flow: Can microfluidics revolutionize the cancer research?Flow induces epithelial-mesenchymal transition, cellular heterogeneity and biomarker modulation in 3D ovarian cancer nodules.

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The physics of cancer: the role of physical interactions and mechanical forces in metastasis.

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name

The physics of cancer: the rol ...... chanical forces in metastasis.

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The physics of cancer: the rol ...... chanical forces in metastasis.

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Nature Reviews Cancer

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The physics of cancer: the rol ...... chanical forces in metastasis.

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Denis Wirtz

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Konstantinos Konstantopoulos

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Peter C Searson

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P2860

Coupling of the nucleus and cytoplasm: role of the LINC complex

Activation of endogenous Cdc42 visualized in living cells

Structural requirements for the assembly of LINC complexes and their function in cellular mechanical stiffness

Synergistic effects of L- and P-selectin in facilitating tumor metastasis can involve non-mucin ligands and implicate leukocytes as enhancers of metastasis.

Cell movement is guided by the rigidity of the substrate.

Optical deformability as an inherent cell marker for testing malignant transformation and metastatic competence

Super-resolution fluorescence microscopy

Heparin and cancer revisited: mechanistic connections involving platelets, P-selectin, carcinoma mucins, and tumor metastasis

Three-dimensional super-resolution imaging by stochastic optical reconstruction microscopy

Carcinoembryonic antigen and CD44 variant isoforms cooperate to mediate colon carcinoma cell adhesion to E- and L-selectin in shear flow

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10.1038/NRC3080

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