Handbook of single-cell technologies / Tuhin Subhra Santra, Fan-Gang Tseng, editors.
2022
QH585 .H36 2022
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Title
Handbook of single-cell technologies / Tuhin Subhra Santra, Fan-Gang Tseng, editors.
ISBN
9789811089534 (electronic bk.)
9811089531 (electronic bk.)
9789811089527
9811089523
9811089531 (electronic bk.)
9789811089527
9811089523
Published
Singapore : Springer, [2022]
Copyright
©2022
Language
English
Description
1 online resource : illustrations (chiefly color)
Item Number
10.1007/978-981-10-8953-4 doi
Call Number
QH585 .H36 2022
Dewey Decimal Classification
611/.0181
Summary
This book provides a brief overview of single-cell analysis using recent advanced technologies. The different sections cover different aspect of single cell analysis and applications with their advantages, limitations, and future challenges. The book has covered how different physical energies such as optical, electrical, and mechanical energy have been applied for single cell therapy and analysis. The recent advanced micro/nanofluidic devices have been employed for single-cell counting, manipulation, cultivation, separation, isolation, lysis, printing and patterning and host-viral interaction at single-cell level. Various chemical approaches for single-cell analysis have been discussed, such as liposome mediated materials transfer at single-cell and their analysis, discovery of antibody via single-cell, high-throughput screening of antigen-specific antibody-secreting cells, and biomolecular secretion analysis of individual cells. Moreover, different single-cell omics such as genomics, proteomics and transcriptomics have been discussed using microfluidic technologies as well as conventional approaches. The role of single cell analysis in system biology and biocatalysis have been discussed in detail. The book describes single-cell phenotyping of heterogeneous tissue, stimulation, and instant reaction quenching technology for biochemical kinetic analysis, large scale single-cell assay for the identification of biocatalysts and analytical techniques for single-cell studies in microbiology. The role of single-cell analysis in cancer, such as single-cell adhesion and cancer progression, single-cell technologies for cancer therapy, analytical technology for single cancer cell analysis, and biophysical markers for cancer cell analysis have been discussed. The flow cytometry based high throughput single-cell analysis have been well emphasized. Finally this book has covered single-cell electrophysiology, single-cell sensing and size measurement using mechanical and microwave resonators, molecular force spectroscopy for cell adhesion measurement, micro-tweezers and force microscopy techniques for single-cell mechanobiological analysis, mass spectrometry and acoustic tweezers for single-cell manipulation and analysis. This book is intended for academic and industrial researchers, undergraduate and graduate students in the fields of biomedical engineering, bio-micro/nanoengineering, and bio-micro/nano fabrication for single-cell analysis. It can be used for courses on bio-MEMS/bio-NEMS, biomicrofluidics, bio-micro/nanofabrications, micro/nanofluidics, biophysics, single cell analysis, bionanotechnology, drug delivery systems and biomedical microdevices. Collective contributions from respected experts, have brought diverse aspects of single-cell technologies in a single hand book. This will benefit researchers and practitioners in the biotechnology industry for different diseases analysis, therapeutics, diagnostics, drug discovery, drug screening etc. In addition to hard copies, the book will be available online and will often be updated by the authors.
Note
Includes index.
Bibliography, etc. Note
References -- Part II: Fluidic System and Integration -- 5 Single-Cell Manipulation -- Introduction -- Flow Modeling of Hydrodynamic Cell Manipulation -- Fluidic Resistance Versus Electric Resistance -- Conservation of Mass and Energy Versus KirchhoffÂś Current Law and Voltage Law -- Division of Pressure and Flow Rate Versus Division of Voltage and Current -- Examples of Microfluidic Manipulation -- Single-Cell Trapping -- Co-culture of Single Cells -- Deforming, Sorting, and Separating Single Cells -- Integration with Other Methods -- Optical Integration -- Dielectrophoretic Integration.
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Source of Description
Online resource; title from PDF title page (SpringerLink, viewed November 8, 2021).
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Table of Contents
Physical methods for single-cell technology
Fluidic System and Integration
Chemical methods for single-cell technology
Single-cell analysis in system biology and omics
Single-cell analysis for biocatalysis
Single-cell technology in cancer
Flow cytometry based single cell analysis
Spectrum analysis method, targets, imaging and applications.
Fluidic System and Integration
Chemical methods for single-cell technology
Single-cell analysis in system biology and omics
Single-cell analysis for biocatalysis
Single-cell technology in cancer
Flow cytometry based single cell analysis
Spectrum analysis method, targets, imaging and applications.