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Flow cytometry - Select Topics is a collection of chapters that illustrate the constantly evolving application of flow cytometry to diverse areas of research or clinical investigations. It includes chapters on the utilization of flow cytometry in the fields of human reproduction and fertility, platelet function, apoptosis, inflammation research, leukemia immunophenotyping, and transplantation.

Flow cytometry. --- Cell counting, Laser --- Cell separation, Laser --- Cell sorting, Laser --- Flow cytofluorometry --- Flow cytophotometry --- Laser cell counting --- Laser cell separation --- Laser cell sorting --- Cytometry --- Medical genetics

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An outstanding compilation that reflects the state-of-the art on Dielectrophoresis (DEP) in 2020. Contributions include: - A novel mathematical framework to analyze particle dynamics inside a circular arc microchannel using computational modeling. - A fundamental study of the passive focusing of particles in ratchet microchannels using direct-current DEP. - A novel molecular version of the Clausius-Mossotti factor that bridges the gap between theory and experiments in DEP of proteins. - The use of titanium electrodes to rapidly enrich T. brucei parasites towards a diagnostic assay. - Leveraging induced-charge electrophoresis (ICEP) to control the direction and speed of Janus particles. - An integrated device for the isolation, retrieval, and off-chip recovery of single cells. - Feasibility of using well-established CMOS processes to fabricate DEP devices. - The use of an exponential function to drive electrowetting displays to reduce flicker and improve the static display performance. - A novel waveform to drive electrophoretic displays with improved display quality and reduced flicker intensity. - Review of how combining electrode structures, single or multiple field magnitudes and/or frequencies, as well as variations in the media suspending the particles can improve the sensitivity of DEP-based particle separations. - Improvement of dielectrophoretic particle chromatography (DPC) of latex particles by exploiting differences in both their DEP mobility and their crossover frequencies.

dielectrophoresis (DEP) --- microparticles --- polystyrene --- chromatography --- interdigitated electrodes --- microfluidic --- separation --- electrowetting display --- driving waveform --- aperture ratio --- exponential function --- time constant --- single-cell microfluidics --- single-cell recovery --- single-cell array --- hydrodynamic trapping --- electrokinetics --- tridimensional electrodes --- mRNA sequencing --- Drop-seq --- induced charge electrophoresis (ICEP) --- Janus particles --- optical trapping --- phase-sensitive detection --- phoretic force spectroscopy --- ICEP motility reversal --- micro-robotics --- dielectrophoresis --- microfluidics --- cell separation --- electrokinetic --- particle focusing --- electrophoretic display --- particle activation --- response speed --- reference grayscale --- cell immobilization --- lab-on-a-chip --- Clausius–Mossotti function --- dielectric spectroscopy --- interfacial polarization --- proteins --- sleeping sickness --- Human African trypanosomiasis --- trypanosoma --- titanium --- curvature-induced --- n/a --- Clausius-Mossotti function

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This reprint describes recent advances made in the field of antifungal development, especially the discovery of new drugs and drug repurposing. The articles presented in this book provide useful information and insight for the development of new antifungal drugs or intervention strategies. The identification of new, safe molecules, and cellular targets, as well as the elucidation of their antifungal mechanisms of action, will further the effective control of fungal pathogens, especially those resistant to current therapeutic agents.

nanoparticles --- fungi --- drug delivery systems --- marine --- biological synthesis --- myconanotechnology --- canesten --- clotrimazole --- vulvovaginal --- vaginitis --- mycosis --- candidosis --- yeast infection --- candida --- candida albicans --- vaginal health --- anticandidal activity --- indazole --- pyrazole --- 3-phenyl-1H-indazole --- drug design --- acetylsalicylic acid (ASA, aspirin) --- capsule --- CAP64 --- Cryptococcus --- membrane potential (ΔΨM) --- photodynamic treatment --- photosensitiser --- ultrastructure --- drug repurposing --- antifungals --- repositioning --- yeasts --- emerging fungi --- multidrug resistance --- therapeutic alternatives --- new targets --- Candida auris --- Aspergillus spp. --- antifungal --- beta-glucan --- polycations --- Galleria mellonella model --- retinoids --- Candida spp. --- onychomycosis --- Malassezia spp. --- dermatophytes --- microbiology --- mycology --- all-trans retinoic acid --- Acanthamoeba --- free-living ameba --- Acanthamoeba keratitis --- isavuconazonium sulfate --- cyst --- drug --- drug discovery --- drug targets --- invasive aspergillosis treatment --- invasive fungal infections --- fission yeast --- cell wall --- β(1,3)-D-glucan synthase --- antifungal drugs --- echinocandin drugs --- echinocandin resistance --- Fks resistance hot spots --- cytokinesis --- septation --- cell separation --- cell integrity --- cell lysis --- sporotrichosis --- Felis catus --- quinones --- hydrazones --- zoonoses --- host-directed drug therapy --- azoles --- polyenes --- echinocandins --- viral infections --- azole --- synergy --- resistance --- Candida --- natural products --- n/a