Handbook of Imaging in Biological Mechanics

Name: Handbook of Imaging in Biological Mechanics
Brand: Taylor & Francis Inc
Price: 235.6 EUR
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€235.60

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actin

adhesion

advanced imaging for mechanobiology research

Age Group_Uncategorized

articular

Articular Cartilage

Atomic Force Microscope

automatic-update

B01=Corey P. Neu

B01=Guy M. Genin

Biological Mechanics

biomechanical analysis

Biomechanical Imaging

Cancer Imaging

cartilage

Category1=Non-Fiction

Category=MQW

Category=PH

Category=PSA

Category=TJFM

Category=TQ

Category=UYD

Cell Imaging

cells

Cellular and Subcellular Biomechanics

cellular biophysics methods

Complementary SPAMM

COP=United States

Deformation in Single Cells

Delivery_Delivery within 10-20 working days

Displacement Elds

Displacement Vectors

Elasticity Imaging

eq_bestseller

eq_computing

eq_isMigrated=0

eq_isMigrated=2

eq_nobargain

eq_non-fiction

extracellular matrix imaging

Fib Milling

filaments

fluorescence microscopy

focal

Focal Adhesion

High Throughput Screening

Imaging

Language_English

Magnetic Eld

Measurement of Cellular Forces

mechanical

Mechanosensitive Channel

Mechanotransduction

mesenchymal

Micropipette Aspiration

Mineralized Tissue

MR Elastography

Mri Tag

MS Ion Channel

MSC

Nuclear Imaging in Mechanobiology

Optical Microscopy

PA=Available

Price_€100 and above

PS=Active

Sample Preparation

Shear Wave

Shear Wave Speed

single molecule force measurement

Singleparticle Tracking

softlaunch

SPAMM Tag

stem

Strain Elastography

Stress Bers

Tissue Constructs

tissue stress quantification

Unbinding Force

Product details

ISBN 9781466588134
Weight: 1837g
Dimensions: 210 x 280mm
Publication Date: 24 Oct 2014
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback
Language: English

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Emerging 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 small—from 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 biomechanical and mechanobiologic imaging technologies available today.

Corey Neu directs the Soft Tissue Bioengineering Laboratory at Purdue University and holds an appointment on the faculty in Purdue’s Weldon School of Biomedical Engineering. He earned a PhD in biomedical engineering from the University of California, Davis. Dr. Neu studies force transfer in cells and tissues in the context of disease and regeneration. His current research focuses on structural and mechanical changes to articular cartilage in the pathogenesis of osteoarthritis, and multiscale biomechanics and mechanobiology of collagen-rich tissues.

Guy Genin holds appointments on the faculty of the Department of Mechanical Engineering and Materials Science at Washington University in St. Louis, and the Department of Neurosurgery at the Washington University School of Medicine. Dr. Genin earned his PhD in applied and solid mechanics from Harvard University. He studies interfaces and adhesion in nature, physiology, and engineering. He is the recipient of numerous awards for engineering design, teaching, and research, including a Research Career Award from the National Institutes of Health and the Skalak Award from the American Society of Mechanical Engineers.