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eBook Bone Quantitative Ultrasound download

by Pascal Laugier,Guillaume Haïat

eBook Bone Quantitative Ultrasound download ISBN: 9400700164
Author: Pascal Laugier,Guillaume Haïat
Publisher: Springer; 2011 edition (December 1, 2010)
Language: English
Pages: 468
ePub: 1834 kb
Fb2: 1752 kb
Rating: 4.1
Other formats: rtf mobi lrf txt
Category: Different
Subcategory: Medicine and Health Sciences

Pascal Laugier,. Guillaume Haı̈at. Bone Quantitative Ultrasound.

Pascal Laugier,. Guillaume Haı̈at CNRS B2OA UMR 7052 10, avenue de Verdun 75010 Paris France guillaume. ISBN 978-94-007-0016-1 e-ISBN 978-94-007-0017-8 DOI 1. 8 Springer Dordrecht Heidelberg London New York c Springer Science+Business Media .

Download now Bone quantitative ultrasound Elektronische Ressource Bone quantitative ultrasound Elektronische RessourcePascal Laugier . Personal Name: Ha?iat, Guillaume Sonstige (DE-588)143248790.

Download now Bone quantitative ultrasound Elektronische Ressource Bone quantitative ultrasound Elektronische RessourcePascal Laugier ; Guillaume Haïat, e. Download PDF book format. Choose file format of this book to download: pdf chm txt rtf doc. Download this format book. Bone quantitative ultrasound Elektronische Ressource. Download now Bone quantitative ultrasound Elektronische Ressource: Download PDF book format. Download DOC book format.

Download books for free. Pascal Laugier, Guillaume Haïat. Download (pdf, . 7 Mb) Donate Read.

Bone Quantitative Ultrasound Paperback – 26 Nov 2014. The only book on QUS of bone has been published in 1999 at a time when the propagation mechanisms of ultrasound in bone were still largely unknown and the technology was immature.

Christian Roux, Dr. Pascal Laugier;2 Introduction . Pascal Laugier;2 Introduction to the physics of ultrasound, Dr. Pascal Laugier, Dr. Guillaume Haïat - 3 Quantitative ultrasound instrumentation for bone in vivo characterization, Dr. Pascal Laugier - 4 Clinical applications, Dr. Reinhard Barkmann, P. The central part of the book covers the physics of ultrasound propagation in bone.

Bone Quantitative Ultrasound, DOI 1. 8 2, c Springer Science+Business Media . 30 P. Laugier and G. Ha¨ ıat above the range of human hearing (conventionally 20 kHz). Ultrasound and sound waves propagate in fluids (gases and liquids) and solids. The mechanical perturba- tion provokes tiny disturbances of the medium particles from their resting position. These disturbances induce a displacement of these particles and are transmitted step by step to other parts of the medium.

Bone quantitative ultrasound. Pascal Laugier, Guillaume Haiat

Bone quantitative ultrasound. Pascal Laugier, Guillaume Haiat. 1 Bone Overview, Pr. David Mitton, Pr. Christian Roux, Dr. Pascal Laugier 2 Introduction to the physics of ultrasound, Dr. Guillaume Haiat. 3 Quantitative ultrasoun. More). 4. 5. View via Publisher.

260. a Dordrecht ; a New York : b Springer Science+Business media .

Quantitative ultrasound (QUS) of bone is a relatively recent research field. The research community is steadily growing, with interdisciplinary branches in acoustics, medical imaging, biomechanics, biomedical engineering, applied mathematics, bone biology and clinical sciences, resulting in significant achievements in new ultrasound technologies to measure bone, as well as models to elucidate the interaction and the propagation of ultrasonic wave in complex bone structures. Hundreds of articles published in specialists journals are accessible from the Web and from electronic libraries. However, no compilation and synthesis of the most recent and significant research exist. The only book on QUS of bone has been published in 1999 at a time when the propagation mechanisms of ultrasound in bone were still largely unknown and the technology was immature. The research community has now reached a critical size, special sessions are organized in major international meetings (e.g., at the World Congress of Biomechanics, the annual meetings of the Acoustical Society of America, International Bone Densitometry Workshop, etc...). Consequently, the time has come for a completely up to date, comprehensive review of the topic. The book will offer the most recent experimental results and theoretical concepts developed so far and is intended for researchers, graduate or undergraduate students, engineers, and clinicians who are involved in the field. The central part of the book covers the physics of ultrasound propagation in bone. Our goal is to give the reader an extensive view of the mathematical and numerical models as an aid to understand the QUS potential and the types of variables that can be determined by QUS in order to characterize bone strength. The propagation of sound in bone is still subject of intensive research. Different models have been proposed (for example, the Biot theory of poroelasticity and the theory of scattering have been used to describe wave propagation in cancellous bone, whereas propagation in cortical bone falls in the scope of guided waves theories). An extensive review of the models has not been published so far. We intend in this book to present in details the models that are used to solve the direct problem and strategies that are currently developed to address the inverse problem. This will include analytical theories and numerical approaches that have grown exponentially in recent years. Most recent experimental findings and technological developments will also be comprehensively reviewed.