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Image-based multilevel biomechanical...

Luo, Yunhua.

Image-based multilevel biomechanical modeling for fall-Induced hip fracture

Record Type:	Electronic resources : Monograph/item
Title/Author:	Image-based multilevel biomechanical modeling for fall-Induced hip fractureby Yunhua Luo.
Author:	Luo, Yunhua.
Published:	Cham :Springer International Publishing :2017.
Description:	xvi, 165 p. :ill., digital ;24 cm.
Contained By:	Springer eBooks
Subject:	Hip jointFractures
Online resource:	http://dx.doi.org/10.1007/978-3-319-51671-4
ISBN:	9783319516714$q(electronic bk.)

Image-based multilevel biomechanical modeling for fall-Induced hip fracture
Luo, Yunhua.

Image-based multilevel biomechanical modeling for fall-Induced hip fracture[electronic resource] /by Yunhua Luo. - Cham :Springer International Publishing :2017. - xvi, 165 p. :ill., digital ;24 cm.

Introduction -- Bone Composition, Metabolism and Bone Disease -- Bone Imaging for Osteoporosis Assessment -- Bone Density and Mechanical Property -- Multilevel Biomechanics of Hip Fracture -- Risk of Fall -- Low-Trauma Accident Fall and Impact Force -- Finite Element Modeling of Femur Stresses/Strains Induced by Impact Force -- Measurements of Hip Fracture Risk -- Preliminary Clinical Studies.

Fall-induced hip fracture is an epidemic health risk among elderly people. This book presents an image-based multilevel modeling approach to understanding the biomechanics involved in fall-induced hip fracture. By hierarchically integrating a body-level dynamics model, a femur-level finite element model, and a local bone failure model, the biomechanics approach is able to simulate all stages in sideways falls and to incorporate all biomechanical variables affecting hip fracture. This book is useful for clinicians to accurately evaluate fracture risk, for biomechanical engineers to virtually test hip protective devices, and for biomedical students to learn image-based biomechanical modeling techniques. This book also covers: Biomechanical viewing on bone composition, bone remodeling, and bone strength Bone imaging and information captured for constructing biomechanical models Bone mechanical testing and mechanical properties required for biomechanical modeling.

ISBN: 9783319516714$q(electronic bk.)

Standard No.: 10.1007/978-3-319-51671-4doiSubjects--Topical Terms:

772759
Hip joint
--Fractures

LC Class. No.: RD549

Dewey Class. No.: 617.15

Image-based multilevel biomechanical modeling for fall-Induced hip fracture
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300 $a xvi, 165 p. : $b ill., digital ; $c 24 cm.
505 0 $a Introduction -- Bone Composition, Metabolism and Bone Disease -- Bone Imaging for Osteoporosis Assessment -- Bone Density and Mechanical Property -- Multilevel Biomechanics of Hip Fracture -- Risk of Fall -- Low-Trauma Accident Fall and Impact Force -- Finite Element Modeling of Femur Stresses/Strains Induced by Impact Force -- Measurements of Hip Fracture Risk -- Preliminary Clinical Studies.
520 $a Fall-induced hip fracture is an epidemic health risk among elderly people. This book presents an image-based multilevel modeling approach to understanding the biomechanics involved in fall-induced hip fracture. By hierarchically integrating a body-level dynamics model, a femur-level finite element model, and a local bone failure model, the biomechanics approach is able to simulate all stages in sideways falls and to incorporate all biomechanical variables affecting hip fracture. This book is useful for clinicians to accurately evaluate fracture risk, for biomechanical engineers to virtually test hip protective devices, and for biomedical students to learn image-based biomechanical modeling techniques. This book also covers: Biomechanical viewing on bone composition, bone remodeling, and bone strength Bone imaging and information captured for constructing biomechanical models Bone mechanical testing and mechanical properties required for biomechanical modeling.
650 0 $a Hip joint $x Fractures $x Mathematical models. $3 772759
650 0 $a Biomechanics $x Simulation methods. $3 772760
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650 2 4 $a Biomedical Engineering. $3 190464
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950 $a Biomedical and Life Sciences (Springer-11642)