Particles on Surfaces 2: Detection, Adhesion, and Removal
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Design methodology for nano-engineered surfaces to control adhesion: Application to the anti-adhesion of particles. Adhesion and locomotion of lymphocytes on 2-dimensionai surfaces and in 3-dimensional matrices. On the role of electrostatic forces in the adhesion of polymer particles to solid surfaces. Treatise on adhesion and adhesives, vol 3. Other chapters in this section include shear flocculation, oil-assisted fine particle processing and microbubble flotation.
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Specific cases are discussed along with the fundamental principles behind those operations. The book can be a useful general source for researchers, students and also engineers because of the extensive bibliographies at the end of each chapter. Xiang Yu and P. Mittal, Plenum Press, New York, , pp. This book is a sequel to two books under the same title. The third symposium was held as a part of the 21st annual meeting of the fine particle society in San Diego, CA, August , The first two symposia were held in and The study of particles on surfaces is important for many fields, ranging from microelectronics, semiconductors, cosmetics, detergents, and optics to biomedicals.
Early cell adhesion events differ between osteoporotic and non-osteoporotic osteoblasts. Cho P. Effect of glucocorticoid-induced osteoporotic-like conditions on osteoblast cell attachment to implant surface microtopographies. Implant Dent. Serhan C. Resolution of inflammation: The beginning programs the end. Simon S. Molecular mechanics and dynamics of leukocyte recruitment during inflammation. Spangenberg C. Cancer Res. Zou J.
Activated Src oncogene phosphorylates R-ras and suppresses integrin activity. Mierke C. Cancer cells regulate biomechanical properties of human microvascular endothelial cells. Huang W. Temporal effects of cell adhesion on mechanical characteristics of the single chondrocyte. Wang C. Effects of passivation treatments on titanium alloy with nanometric scale roughness and induced changes in fibroblast initial adhesion evaluated by a cytodetacher.
Palmer C. Kwon K. Label-free, microfluidic separation and enrichment of human breast cancer cells by adhesion difference. Lab Chip. Saif M. Functionalized biomicroelectromechanical systems sensors for force response study at local adhesion sites of single living cells on substrates. Horwitz A. Integrins and health. Chen C. Geometric control of cell life and death. Hwang W. Energy of dissociation of lipid bilayer from the membrane skeleton of red blood cells.
Honarmandi P. A microfluidic system with optical laser tweezers to study mechanotransduction and focal adhesion recruitment. Beningo K. Nascent focal adhesions are responsible for the generation of strong propulsive forces in migrating fibroblasts. Tan J. Cells lying on a bed of microneedles: An approach to isolate mechanical force. Zhong Y. Mechanics in mechanosensitivity of cell adhesion and its roles in cell migration.
Dumbauld D. How vinculin regulates force transmission. Geiger B. Transmembrane crosstalk between the extracellular matrix and the cytoskeleton. Hynes R. Integrins: A family of cell surface receptors. Van der Flier A. Function and interactions of integrins. Cell Tissue Res. DiMilla P.
Mathematical model for the effects of adhesion and mechanics on cell migration speed. Burridge K. Rho and Rac take center stage. Hall A. Rho GTPases and the actin cytoskeleton. LeBaron R. Ex vivo synthesis of articular cartilage. Hong S. Real-time analysis of cell-surface adhesive interactions using thickness shear mode resonator. Taubenberger A.
Revealing early steps of alpha2beta1 integrin-mediated adhesion to collagen type I by using single-cell force spectroscopy. Helenius J. Single-cell force spectroscopy. Cell Sci. McEver R. Rolling cell adhesion. Cell Dev. Green C. Belloni P. Microvascular endothelial cell heterogeneity: Interactions with leukocytes and tumor cells. Cancer Metastasis Rev. Honn K. Adhesion molecules and tumor cell interaction with endothelium and subendothelial matrix. Ley K. Getting to the site of inflammation: The leukocyte adhesion cascade updated.
Petri B. The physiology of leukocyte recruitment: An in vivo perspective. Imhof B. Adhesion mechanisms regulating the migration of monocytes. Muller W. Leukocyte—endothelial-cell interactions in leukocyte transmigration and the inflammatory response. Trends Immunol.
A Review of Cell Adhesion Studies for Biomedical and Biological Applications
Stresses at the cell-to-substrate interface during locomotion of fibroblasts. Kraning-Rush C. Cellular traction stresses increase with increasing metastatic potential. Huynh J. Reinhart-King C. Endothelial cell traction forces on RGD-derivatized polyacrylamide substrata.
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Sabass B. High resolution traction force microscopy based on experimental and computational advances. Substrate stiffness regulates cadherin-dependent collective migration through myosin-II contractility. Wen J. Interplay of matrix stiffness and protein tethering in stem cell differentiation. Califano J.
Substrate stiffness and cell area predict cellular traction stresses in single cells and cells in contact. Zhou D. Measurement systems for cell adhesive forces. Micropatterning as a tool to decipher cell morphogenesis and functions. Micropatterning strategies to engineer controlled cell and tissue architecture in vitro. Mandal K.
Thermoresponsive micropatterned substrates for single cell studies. Polio S. A micropatterning and image processing approach to simplify measurement of cellular traction forces. Acta Biomater.
Ting L. Flow mechanotransduction regulates traction forces, intercellular forces, and adherens junctions. Santos E. Novel advances in the design of three-dimensional bio-scaffolds to control cell Fate: Translation from 2D to 3D. Trends Biotechnol. Baker B. Deconstructing the third dimension: How 3D culture microenvironments alter cellular cues. Legant W. Measurement of mechanical tractions exerted by cells in three-dimensional matrices. Khetan S.
Degradation-mediated cellular traction directs stem cell fate in covalently crosslinked three-dimensional hydrogels. Meseke M. Fraley S. A distinctive role for focal adhesion proteins in three-dimensional cell motility. The role of the cytoskeleton in cellular force generation in 2D and 3D environments.
Particles on Surfaces 2 - Detection, Adhesion, and Removal | K.L. Mittal | Springer
Zaman M. Migration of tumor cells in 3D matrices is governed by matrix stiffness along with cell-matrix adhesion and proteolysis. Bonakdar N. Kutys M. Park J. Garcia A. Stick and grip: Measurement systems and quantitative analyses of integrin-mediated cell adhesion strength. Cell Biochem. Chen Y. Combined integrin phosphoproteomic analyses and siRNA-based functional screening identified key regulators for cancer cell adhesion and migration. Mianabadi M. Inhibition of substrate-tumor cell adhesion under the effect of gnidilatimonoein purified from daphne mucronata.
Christ K. Methods to measure the strength of cell adhesion to substrates. Ferreira G. Acoustic wave biosensors: Physical models and biological applications of quartz crystal microbalance. Wegener J. Cell adhesion monitoring using a quartz crystal microbalance: Comparative analysis of different mammalian cell lines.
Heitmann V. Monitoring cell adhesion by piezoresonators: Impact of increasing oscillation amplitudes. Quartz crystal microbalance in cell biology studies. Biochips Tissue Chipissue Chip. Monitoring cell adhesion by using thickness shear mode acoustic wave sensors. Adhesion of eukaryotic cell lines on the gold surface modified with extracellular matrix proteins monitored by the piezoelectric sensor.
The quartz crystal microbalance in cell biology: Basics and applications. Springer Ser. Analysis of the composite response of shear wave resonators to the attachment of mammalian cells. Modin C. QCM-D studies of attachment and differential spreading of pre-osteoblastic cells on Ta and Cr surfaces. Lord M. Monitoring cell adhesion on tantalum and oxidised polystyrene using a quartz crystal Microbalance with dissipation. Le Guillou-Buffello D. Monitoring cell adhesion processes on bioactive polymers with the quartz crystal resonator technique. Zhu Y. A, Hunter W.
Temporal analysis of vascular smooth muscle cell elasticity and adhesion reveals oscillation waveforms that differ with aging. Aging Cell. Hayward L. Acoustic waves and the study of biochemical macromolecules and cells at the sensor—Liquid interface critical review. Da-Silva A. Acoustic detection of cell Adhesion to a coated quartz crystal microbalance—Implications for studying the biocompatibility of polymers.
Marx K. Quartz crystal microbalance biosensor study of endothelial cells and their extracellular matrix following cell removal: Evidence for transient cellular stress and viscoelastic changes during detachment and the elastic behavior of the pure matrix. A comparative study of the cytoskeleton binding drugs nocodazole and taxol with a mammalian cell quartz crystal microbalance biosensor: Different dynamic responses and energy dissipation effects. A quartz crystal microbalance cell biosensor: Detection of microtubule alterations in living cells at nM nocodazole concentrations.
Zhou T. The quartz crystal microbalance as a continuous monitoring tool for the study of endothelial cell surface attachment and growth. Warrick J. High-content adhesion assay to address limited cell samples. Hartmann A. Gupta V. Multi-scale simulation of l -selectin-PSGLdependent homotypic leukocyte binding and rupture. Rupprecht P. A tapered channel microfluidic device for comprehensive cell adhesion analysis, using measurements of detachment kinetics and shear stress-dependent motion. Alapan Y.
Heterogeneous red blood cell adhesion and deformability in sickle cell disease. Chaw K. Multi-step microfluidic device for studying cancer metastasis. Nalayanda D. Engineering an artificial alveolar-capillary membrane: A novel continuously perfused model within microchannels. Song J. Microfluidic endothelium for studying the intravascular adhesion of metastatic breast cancer cells. Riahi R. A microfluidic model for organ-specific extravasation of circulating tumor cells. Yamamoto A. Quantitative evaluation of cell attachment to glass, polystyrene, and fibronectin- or collagen-coated polystyrene by measurement of cell adhesive shear force and cell detachment energy.
Lee C. The technique for measurement of cell adhesion force. Yang S. Effects of calcium-phosphate topography on osteoblast mechanobiology determined using a cytodetacher. Measurement of single-cell adhesion strength using a microfluidic assay. Hochmuth R. Micropipette aspiration of living cells. Gao Z. Using selected uniform cells in round shape with a micropipette to measure cell adhesion strength on silk fibroin-based materials. Rotsch C. Dimensional and mechanical dynamics of active and stable edges in motile fibroblasts investigated by using atomic force microscopy. Muller D.
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AFM: A nanotool in membrane biology. Engel A. Structure and mechanics of membrane proteins. Hansma H. Atomic force microscopy imaging and pulling of nucleic acids. Hirano Y. Nuclear architecture and chromatin dynamics revealed by atomic force microscopy in combination with biochemistry and cell biology. Pesen D. Micromechanical architecture of the endothelial cell cortex. Collinsworth A. Apparent elastic modulus and hysteresis of skeletal muscle cells throughout differentiation.
Cell Physiol. Solon J. Fibroblast adaptation and stiffness matching to soft elastic substrates. AFM imaging and elasticity measurements on living rat liver macrophages. Quantitative measurement of changes in adhesion force involving focal adhesion kinase during cell attachment, spread, and migration. Kim W. Puech P. Measuring cell adhesion forces of primary gastrulating cells from zebrafish using atomic force microscopy.
Weder G. Measuring cell adhesion forces during the cell cycle by force spectroscopy. Hoffmann S. Beaussart A. A, Alsteens D. Quantifying the forces guiding microbial cell adhesion using single-cell force spectroscopy. Gourier C. A Nanospring named erythrocyte. The biomembrane force probe.
Evans E. Sensitive force technique to probe molecular adhesion and structural linkages at biological interfaces. Detachment of agglutinin-bonded red blood cells. Forces to rupture molecular-point attachments. Nano- to microscale dynamics of P-selectin detachment from leukocyte interfaces. Membrane separation from the cytoskeleton. Zhang H. Optical tweezers for single cells. Ashkin A. Optical trapping and manipulation of neutral particles using lasers. Thoumine O. Short-term binding of fibroblasts to fibronectin: Optical tweezers experiments and probabilistic analysis.
Tsai J. Applications of optical tweezers and an integrated force measurement module for biomedical research. Curtis J. Getting a grip: Hyaluronan-mediated cellular adhesion. Castelain M. Removal forces and adhesion properties of saccharomyces cerevisiae on glass substrates probed by optical tweezer. Single-cell adhesion probed in-situ using optical tweezers: A case study with saccharomyces cerevisiae. Schwingel M. Force mapping during the formation and maturation of cell adhesion sites with multiple optical tweezers. Askenasy N. Optical imaging of PKH-labeled hematopoietic cells in recipient bone marrow in vivo.
Stem Cells. The initial single yeast cell adhesion on glass via optical trapping and Derjaguin—Landau—Verwey—Overbeek predictions. Koo L. Co-regulation of cell adhesion by nanoscale RGD organization and mechanical stimulus. Giacomello E. Centrifugal assay for fluorescence-based cell adhesion adapted to the analysis of ex vivo cells and capable of determining relative binding strengths.
Channavajjala L. Capadona J. Fibronectin adsorption and cell adhesion to mixed monolayers of tri ethylene glycol - and methyl-terminated alkanethiols. Keselowsky B. Quantitative methods for analysis of integrin binding and focal adhesion formation on biomaterial surfaces. Reyes C. A centrifugation cell adhesion assay for high-throughput screening of biomaterial surfaces.
Mixed extracellular matrix ligands synergistically modulate integrin adhesion and signaling. Harbers G. The effect of ligand type and density on osteoblast adhesion, proliferation, and matrix mineralization. As the device dimensions are shrinking at an accelerated pace, so the benign particles of today will become the killer defects in the not too distant future. The tempo of research and development activity in the field of particles on surfaces is very high, and better and novel ways are continuously being devised to remove smaller and smaller particles.