Pages that link to "Q36835702"

The following pages link to Characterizing deformability and surface friction of cancer cells. (Q36835702):

Displaying 50 items.

• Impact of dimensionality and network disruption on microrheology of cancer cells in 3D environments (Q21145291) (← links)
• Neural regulation of cancer: from mechanobiology to inflammation (Q26746714) (← links)
• Advances in high-throughput single-cell microtechnologies (Q26996412) (← links)
• Microfluidic impedance flow cytometry enabling high-throughput single-cell electrical property characterization (Q27022663) (← links)
• Benchtop technologies for circulating tumor cells separation based on biophysical properties (Q27028049) (← links)
• Clusters of circulating tumor cells traverse capillary-sized vessels (Q27316768) (← links)
• A microfluidic pipette array for mechanophenotyping of cancer cells and mechanical gating of mechanosensitive channels (Q27335311) (← links)
• Single Cell Electrical Characterization Techniques (Q28085692) (← links)
• Entry effects of droplet in a micro confinement: Implications for deformation-based circulating tumor cell microfiltration (Q30387411) (← links)
• Towards the Biological Understanding of CTC: Capture Technologies, Definitions and Potential to Create Metastasis (Q30445250) (← links)
• Microfluidic cytometric analysis of cancer cell transportability and invasiveness (Q30665958) (← links)
• Multiparameter mechanical and morphometric screening of cells (Q30830549) (← links)
• Single-Cell Mechanical Characteristics Analyzed by Multiconstriction Microfluidic Channels (Q33455681) (← links)
• The Potential for Circulating Tumor Cells in Pancreatic Cancer Management (Q33753267) (← links)
• Macroscopic stiffness of breast tumors predicts metastasis (Q33827226) (← links)
• Bioengineering paradigms for cell migration in confined microenvironments (Q35162994) (← links)
• A monolithic glass chip for active single-cell sorting based on mechanical phenotyping (Q35533551) (← links)
• Optomechanical measurement of the stiffness of single adherent cells (Q35721647) (← links)
• High-throughput linear optical stretcher for mechanical characterization of blood cells (Q35840830) (← links)
• Nuclear mechanics in cancer (Q36116300) (← links)
• Characterizing Cellular Biophysical Responses to Stress by Relating Density, Deformability, and Size (Q36218684) (← links)
• Screening cell mechanotype by parallel microfiltration (Q36340162) (← links)
• Deformability of Tumor Cells versus Blood Cells (Q36382613) (← links)
• Biophysical changes reduce energetic demand in growth factor-deprived lymphocytes. (Q36583289) (← links)
• A microfluidic technique to probe cell deformability (Q36787987) (← links)
• Recent progress on lipid lateral heterogeneity in plasma membranes: From rafts to submicrometric domains (Q36854004) (← links)
• Deformability-based cell selection with downstream immunofluorescence analysis (Q36905494) (← links)
• Self-sustained lift and low friction via soft lubrication (Q36957284) (← links)
• Recent Progress of Microfluidics in Translational Applications (Q37041026) (← links)
• Sciellin mediates mesenchymal-to-epithelial transition in colorectal cancer hepatic metastasis (Q37295482) (← links)
• Pulled microcapillary tube resonators with electrical readout for mass sensing applications (Q37303743) (← links)
• Tumour-suppressor microRNAs regulate ovarian cancer cell physical properties and invasive behaviour. (Q37464162) (← links)
• Measuring single cell mass, volume, and density with dual suspended microchannel resonators (Q37492092) (← links)
• Physical biology in cancer. 2. The physical biology of circulating tumor cells (Q37575309) (← links)
• New technologies for measuring single cell mass (Q38169892) (← links)
• Sorting cells by their density (Q38429770) (← links)
• Quantitative diagnosis of malignant pleural effusions by single-cell mechanophenotyping (Q38444461) (← links)
• Microfluidics for research and applications in oncology (Q38502741) (← links)
• Numerical simulation of a compound capsule in a constricted microchannel. (Q38638530) (← links)
• High-throughput cell mechanical phenotyping for label-free titration assays of cytoskeletal modifications (Q38705973) (← links)
• Cancer cells become less deformable and more invasive with activation of β-adrenergic signaling (Q38729651) (← links)
• Effects of methotrexate on the viscoelastic properties of single cells probed by atomic force microscopy (Q38756828) (← links)
• Extracting Cell Stiffness from Real-Time Deformability Cytometry: Theory and Experiment (Q38818067) (← links)
• Microconstriction arrays for high-throughput quantitative measurements of cell mechanical properties (Q38855502) (← links)
• Force transmission during adhesion-independent migration. (Q38899453) (← links)
• Chemoenvironmental modulators of fluidity in the suspended biological cell (Q38962563) (← links)
• Shape in migration: quantitative image analysis of migrating chemoresistant HCT-8 colon cancer cells (Q39068292) (← links)
• Are cancer cells really softer than normal cells? (Q39154257) (← links)
• Microfluidic cell fragmentation for mechanical phenotyping of cancer cells (Q39189247) (← links)
• Stiffness of pancreatic cancer cells is associated with increased invasive potential (Q39268841) (← links)