This comprehensive second edition provides a pedagogical introduction to cell mechanics and mechanobiology, featuring quantitative descriptions of key concepts and solved examples throughout. The textbook demonstrates how understanding cellular responses to mechanical forces allows us to predict cell behavior and functionality in various environments.

Introduction to Cell Mechanics and Mechanobiology, Second Edition asks key questions about the quantitative concepts that make up this interdisciplinary field. The authors provide clear explanations of complex mechanobiological phenomena, from single molecule mechanics to whole-cell responses. The book covers essential topics including cellular polymers, cytoskeleton networks, membrane mechanics, and mechanotransduction, with primer chapters on solid mechanics, fluid mechanics, statistical mechanics, and cell biology to ensure accessibility for students from diverse backgrounds.

Designed for advanced undergraduate and graduate students in biomedical engineering, bioengineering, and mechanical engineering, users will appreciate complete derivations of relevant equations, discussion of practical laboratory applications, and comprehensive coverage of nuclear biomechanics and mechanobiology. The twelve detailed chapters provide a complete framework for understanding both the technical and biological aspects of cellular mechanics, making this an invaluable resource for mastering the quantitative principles of mechanobiology.