Innovative Ultrasound Imaging Techniques
S. Lori Bridal
(1)
,
Enrico Boni
(2)
,
Alessandro Ramalli
(2)
,
Alessandro Stuart Savoia
(3)
,
Piero Tortoli
,
Stefan Catheline
(4)
,
Bruno Giammarinaro
(4)
,
Alfred C.H. Yu
(5)
,
Konstantina Papangelopoulou
(6)
,
Marta Orlowska
(6)
,
Sjoerd Nooijens
(6)
,
Jan d'Hooge
(6)
,
Simona Turco
(7)
,
Peiran Chen
(7)
,
Andrej Lyshchik
(8)
,
Ahmed El Kaffas
(9)
,
Massimo Mischi
(7)
,
Vincent Hingot
(1)
,
Olivier Couture
(1)
,
Guillaume Renaud
(10)
,
Danai E. Soulioti
(11, 12)
,
Gianmarco Pinton
(11, 12)
,
Théotim Lucas
(1, 13)
,
Jérôme Gateau
(1)
1
LIB -
Laboratoire d'Imagerie Biomédicale [Paris]
2 UniFI - Università degli Studi di Firenze = University of Florence = Université de Florence
3 ROMA TRE - Università degli Studi Roma Tre = Roma Tre University
4 LabTAU - Laboratoire des applications thérapeutiques des ultrasons / Application des ultrasons à la thérapie
5 University of Waterloo [Waterloo]
6 Department of Cardiovascular Sciences [Leuven]
7 TU/e - Eindhoven University of Technology [Eindhoven]
8 Jefferson (Philadelphia University + Thomas Jefferson University)
9 Stanford Medicine
10 TU Delft - Delft University of Technology
11 UNC - University of North Carolina [Chapel Hill]
12 NC State - North Carolina State University [Raleigh]
13 MSC - Matière et Systèmes Complexes
2 UniFI - Università degli Studi di Firenze = University of Florence = Université de Florence
3 ROMA TRE - Università degli Studi Roma Tre = Roma Tre University
4 LabTAU - Laboratoire des applications thérapeutiques des ultrasons / Application des ultrasons à la thérapie
5 University of Waterloo [Waterloo]
6 Department of Cardiovascular Sciences [Leuven]
7 TU/e - Eindhoven University of Technology [Eindhoven]
8 Jefferson (Philadelphia University + Thomas Jefferson University)
9 Stanford Medicine
10 TU Delft - Delft University of Technology
11 UNC - University of North Carolina [Chapel Hill]
12 NC State - North Carolina State University [Raleigh]
13 MSC - Matière et Systèmes Complexes
Piero Tortoli
- Fonction : Auteur
Stefan Catheline
- Fonction : Auteur
- PersonId : 885493
- ORCID : 0000-0002-5524-4120
- IdRef : 169635767
Résumé
This book provides an understanding of ultrasound imaging principles and how the field is evolving to better probe living systems. Today, widely-used imaging systems visualize structures and blood flow within the body in real-time. Signal analysis, hardware and contrast agent innovations are extending the capacity of ultrasound to assess tissue elasticity, to enable three-dimensional viewing of moving structures and to detect vessels smaller than the wavelength-limited resolution. Techniques are also being designed so that we are less impeded by bones in the sound path, as well as to combine light and sound to detect optically-absorbent structures within the body.
After an introductory chapter reviewing the key basic concepts, each chapter presents a detailed explanation focusing on a specific set of key principles and then shows the related techniques in each domain that are currently being refined to evaluate living systems in greater depth.