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Handbook of Single-Cell Technologies, m. 1 Buch, m. 1 E-Book; .

  • 1070 Nombre de pages
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This book provides a brief overview of single-cell analysis using recent advanced technologies. The different sections cover diff... Lire la suite
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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.

Offers a comprehensive overview of single-cell technology

Features contributions from respected experts in the fields

Serves as an essential resource for students, academics and professionals with various backgrounds in biotechnology

Dr. Tuhin Subhra Santra received his PhD degree in Bio-Nano Electro Mechanical Systems (Bio-NEMS), especially for single cell analysis from the Institute of Nanoengineering and Microsystems (NEMS), National Tsing Hua University (NTHU), Taiwan in 2013, under the supervision of Professor Fan-Gang Tseng. Dr. Santra joined as an Assistant Professor at Indian Institute of Technology Madras India in 2016. Dr. Santra was a Post-Doctoral researcher at the California Nano System Institute (CNSI), University of California, Los Angeles (UCLA), USA. His main research areas are Single Cell Technology, bio-NEMS, MEMS, bio-micro/nano fabrication, biomedical microdevices, nanomedicine. Dr. Santra serves as a Guest Editor for the Journal of Micromachines, AIMS Biophysics, Sensors Journal, Journal of Molecules, International Journal of Molecular Science, Sensors and Transducers Journal, American Journal of Nanoresearch and Application, among others. Dr. Santra has received many awards such as the NTHU outstanding student award in 2011 and 2013, IEEE-NEMS best conference paper award in 2014, best poster award at 15th Nano/Microsystem Conference in 2012, Junior Research Fellowship at IIT-Kharagpur in 2008, outstanding student awards at NTHU and Jadavpur University in 2005, 2006, 2010 and 2012, silver medal from Vidyasagar University in 2004. Dr. Santra has published more than 15 international journal papers, has two US and Taiwan pending patents, three books, seven book chapters, six proceedings and 25 International Conference papers in his research field.
Dr. Fan-Gang (Kevin) Tseng received his PhD in Microelectro Mechanical System (MEMS) from the University of California, Los Angeles, USA (UCLA), under the supervision of Professor C-M. Ho and C.J. Kim. Dr. Tseng joined as an Assistant Professor in the Department of Engineering and System Science, National Tsing Hua University, Taiwan in August 1999. Currently he is a Distinguished Professor in the Department of Engineering and System Science (ESS). He has also been a Deputy Director of the Biomedical Technology Research Center, National Tsing-Hua University since 2009. Further, he is also an affiliated Professor at the Institute of Nanoengineering and Microsystems (NEMS), National Tsing Hua University and a Research Fellow in Academia Sinica, Taiwan. Dr. Tseng focuses his research in the following areas: MEMS, bio-MEMS, nano-biotechnology, nanomedicine, fuel cell, MEMS packaging, and integration. Dr. Tseng has been on the Editorial Board of Applied Sciences from 2010, the Journal of Circuits and Systems from 2010, the Open Micromachine Journal from 2009, the Open Nanomedicine Journal from 2008, the MEMS special issue, Electronic Magazine from 2009, the Chinese Micro Electromechanical System magazine in 2002 and 2004. He was the editor of a book entitled Micro Electromechanical System Technology and Applications, published by the Precision Instrument Development Center of National Science Council, in 2003. Dr. Tseng was elected an ASME fellow in 2014, and received several awards, including Outstanding in Research Awards (2010 and 2014) and Mr. Wu, Da-Yo Memorial Award (2005) from MOST, Taiwan, National Innovation Award in 2014, nine Best Paper/Poster awards (1991, 2003, 2004, 2005, 2008, 2010, 2012, 2013, 2014), among others. He has received 40 patents, written eight books/book chapters, published more than 200 SCI Journal papers and 350 conference technical papers in biosensors, bio-N/MEMS, micro fuel cells, and micro/nano fluidics related fields, and coorganized or co-chaired many conferences including IEEE MEMS, IEEE NEMS, IEEE Transducers, Micro TAS, ISMM, IEEE Nano, and IEEE Nanomed.

Texte du rabat

This book provides an overview of single-cell manipulation, injection, lysis, and dynamics analysis with the aid of various miniaturized devices. The role of single cell analysis in system biology, proteomics, genomics, metabolomics and fluxomics, the applications of single cell analysis for bio-catalysis, metabolic and bioprocess engineering, and the future challenges for single cell analysis given its advantages and limitations are also elaborated. The respective chapters introduce readers to various approaches for single cell analysis. Further, they address the fabrication of different types of bio-micro/nano devices in the context of cutting-edge analysis and screening for e.g. cancers, HIV etc., which is beneficial for society at large.

This book is intended for academic researchers, undergraduate and graduate students in the fields of Biomedical Engineering, Bio-nanoengineering, and Bio-micro/nano Fabrication. It can be used for courses on Bio-MEMS/Bio-NEMS, Biomicrofluidics, Biomicrofabrications, Micro/Nanofluidics, Biophysics, Single Cell Analysis, Bionanotechnology, Drug Delivery Systems and Biomedical Microdevices. Bringing together contributions from respected experts, it will also benefit researchers and practitioners in the biotechnology industry, where diseases analysis, diagnosis and drug screening continue to grow in importance.

In addition to hard copies, the book is also published online and is often updated by the authors.


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.

Informations sur le produit

Titre: Handbook of Single-Cell Technologies, m. 1 Buch, m. 1 E-Book; .
Code EAN: 9789811089541
ISBN: 978-981-10-8954-1
Editeur: Springer, Berlin
Genre: Médecine
nombre de pages: 1070
Poids: g
Taille: H235mm x B235mm x T155mm
Année: 2021
Auflage: 1st ed. 2022