Description
Book SynopsisEmerging imaging techniques have opened new fronts to investigate tissues, cells, and proteins. Transformative technologies such as microCT scans, super-resolution microscopy, fluorescence-based tools, and other methods now allow us to study the mechanics of cancer, dissect the origins of cellular force regulation, and examine biological specimens at the nanoscale.
The Handbook of Imaging in Biological Mechanics presents the spectrum of imaging techniques used for noninvasive visualization of the morphology and mechanics of the large and smallfrom organs to individual macromolecules.
The handbook presents optimal imaging technologies to study deformation, stress, and constitutive behavior of tissues, cells, and proteins. It also describes a suite of technologies available for probing the mechanics of surfaces, membranes, and single molecules. With chapters authored by highly recognized experts in their area, the handbook covers the entire spectrum of biomechanica
Table of Contents
Introduction. Tissue and Organ Imaging Methods: Magnetic Resonance Imaging Methods. Tissue and Organ Imaging Methods: Ultrasound. Tissue and Organ Imaging Methods: Radiography and Computed Tomography. Tissue and Organ Imaging Methods: High Throughput and Image Quantification. Tissue and Organ Imaging Methods: Multiscale Imaging and Modeling. Cellular and Molecular Imaging Methods: Microenvironments: Native ECM. Cellular and Molecular Imaging Methods: Microenvironments: In Vitro Culture Systems. Cellular and Molecular Imaging Methods: Cellular and Subcellular Biophysics. Cellular and Molecular Imaging Methods: Nuclear Biophysics. Cellular and Molecular Imaging Methods: Channels. Cellular and Molecular Imaging Methods: Surfaces and Single Molecule Measurements.
