Physics of Cancer, Volume 3 (Second Edition)
- Experimental biophysical techniques in cancer research
- Claudia Tanja Mierke
- August 2021
DescriptionThis is the third volume in the Physics of Cancer (Second Edition) set. The book introduces and discusses novel and advanced applications for probing and sensing mechanical properties of cells and their microenvironment. In addition, biophysical techniques for analysing combined biophysical techniques and cellular functions are presented and discussed. However, the major scope of the book is the presentation of biophysical approaches in cancer and its major findings that contribute significantly to the field of physics of cancer from a biophysical point of view. Each chapter is a closed unit and at its end references allow the reader to step more deeply into each topic. When possible, videos will be provided as a special feature to enhance the topics.
- Written by a highly respected researcher in emerging fields within mechanics and electrics based experimental techniques in biophysics.
- Provides an authoritative coverage of cutting edge topics such as atomic force microscopy, cell-cell adhesion and traction force microscopy.
- Third volume of the Second Edition of the highly respected Physics of Cancer series.
- Features a sound introduction to cell and matrix mechanics and experimental techniques.
Claudia Tanja Mierke is a full professor at the Peter Debye Institute for Soft Matter Physics and Head of the Department of Biological Physics at the University of Leipzig. Her main areas of research have included the interaction of cancer cells and endothelial cells; effects of external mechanical stimulation of cancer cells on gene expression and tissue invasiveness on different mechanical and structural environments; the investigation of the dynamic interplay between the cells and their microenvironment from a biophysical point of view.
Table of Contents
Hardback ISBN: 9780750331135
Ebook ISBN: 9780750331159
Publisher: Institute of Physics Publishing
Series: Biophysical Society-IOP Series