Quantitative Ultrasound in Soft Tissues
Editat de Jonathan Mamou, Michael L. Oelzeen Limba Engleză Paperback – 27 aug 2016
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Specificații
ISBN-13: 9789402402100
ISBN-10: 9402402101
Pagini: 444
Ilustrații: XVI, 444 p. 172 illus., 104 illus. in color.
Dimensiuni: 155 x 235 mm
Ediția:Softcover reprint of the original 1st ed. 2013
Editura: SPRINGER NETHERLANDS
Colecția Springer
Locul publicării:Dordrecht, Netherlands
ISBN-10: 9402402101
Pagini: 444
Ilustrații: XVI, 444 p. 172 illus., 104 illus. in color.
Dimensiuni: 155 x 235 mm
Ediția:Softcover reprint of the original 1st ed. 2013
Editura: SPRINGER NETHERLANDS
Colecția Springer
Locul publicării:Dordrecht, Netherlands
Cuprins
State of the art methods for estimating the backscatter coefficients.-
Quantitative Ultrasound History and Successes.- Statistics of Scatterer Property Estimates.- Attenuation Compensation and Estimation.- Quantitative Ultrasound and Cell Death.- Modeling of Ultrasound Backscattering by Aggregating Red Blood Cells.- Backscatter Quantification for the Detection of Metastatic Regions in Human Lymph Nodes.- Quantitative Ultrasound for Tissue-type Imaging of the Prostate: Implications for Planning and Guiding Biopsies and Focal Treatments.- Therapy Monitoring and Assessment Using Quantitative Ultrasound.- Review of Envelope Statistics Models for Quantitative Ultrasound Imaging and Tissue Characterization.- The Quantitative Ultrasound Diagnosis of Liver Fibrosis Using Statistical Analysis of the Echo Envelope.- Recent Applications of Acoustic Microscopy for Quantitative Measurement of Acoustic Properties of Soft Tissues.- Acoustic Microscopy of Cells.- Methods for Forward and Inverse Scattering in Ultrasound Tomography.- Clinical Results with Ultrasound Computed Tomography of the Breast.
Quantitative Ultrasound History and Successes.- Statistics of Scatterer Property Estimates.- Attenuation Compensation and Estimation.- Quantitative Ultrasound and Cell Death.- Modeling of Ultrasound Backscattering by Aggregating Red Blood Cells.- Backscatter Quantification for the Detection of Metastatic Regions in Human Lymph Nodes.- Quantitative Ultrasound for Tissue-type Imaging of the Prostate: Implications for Planning and Guiding Biopsies and Focal Treatments.- Therapy Monitoring and Assessment Using Quantitative Ultrasound.- Review of Envelope Statistics Models for Quantitative Ultrasound Imaging and Tissue Characterization.- The Quantitative Ultrasound Diagnosis of Liver Fibrosis Using Statistical Analysis of the Echo Envelope.- Recent Applications of Acoustic Microscopy for Quantitative Measurement of Acoustic Properties of Soft Tissues.- Acoustic Microscopy of Cells.- Methods for Forward and Inverse Scattering in Ultrasound Tomography.- Clinical Results with Ultrasound Computed Tomography of the Breast.
Recenzii
From the reviews:
“The editors made an excellent choice of their collection of methods and applications in this rapidly evolving QUS research field. Therefore the reader whatever pre-knowledge he comes with will find basic or advanced information in this book. For newcomers to this topic the book is very suitable to get an excellent understanding for the basic and statistical methods used in QUS … . This book is recommended for lecturers or teachers … .” (Christian Kollmann, Ultraschall in der Medizin European Journal of Ultrasound, Vol. 35 (2), April, 2014)
“The editors made an excellent choice of their collection of methods and applications in this rapidly evolving QUS research field. Therefore the reader whatever pre-knowledge he comes with will find basic or advanced information in this book. For newcomers to this topic the book is very suitable to get an excellent understanding for the basic and statistical methods used in QUS … . This book is recommended for lecturers or teachers … .” (Christian Kollmann, Ultraschall in der Medizin European Journal of Ultrasound, Vol. 35 (2), April, 2014)
Textul de pe ultima copertă
Due to parallel advances in signal processing and computer hardware in the last 15 years, quantitative ultrasound techniques have reached maturity, allowing for the construction of quantitative maps or images of soft tissues.
This book will focus on 5 modern research topics related to quantitative ultrasound of soft tissues:
- Spectral-based methods for tissue characterization, tissue typing, cancer detection, etc.;
- Envelope statistics analysis as a means of quantifying and imaging tissue properties;
- Ultrasound elastography for quantifying elastic properties of tissues (several clinical ultrasound scanners now display elastography images);
- Scanning acoustic microscopy for forming images of mechanical properties of soft tissues with micron resolution (desktop size scanners are now available); and
- Ultrasound computer tomography for breast cancer imaging (new ultrasound tomography systems have been developed and are currently under evaluation clinically).
This book will focus on 5 modern research topics related to quantitative ultrasound of soft tissues:
- Spectral-based methods for tissue characterization, tissue typing, cancer detection, etc.;
- Envelope statistics analysis as a means of quantifying and imaging tissue properties;
- Ultrasound elastography for quantifying elastic properties of tissues (several clinical ultrasound scanners now display elastography images);
- Scanning acoustic microscopy for forming images of mechanical properties of soft tissues with micron resolution (desktop size scanners are now available); and
- Ultrasound computer tomography for breast cancer imaging (new ultrasound tomography systems have been developed and are currently under evaluation clinically).
Caracteristici
Comprehensive state of the art review of quantitative ultrasound methods in tissues Novel review of ultrasonic backscatter estimation Large set of clinical applications of quantitative ultrasound
Notă biografică
Dr. Jonathan Mamou graduated in 2000 from the Ecole Nationale Supérieure des Télécommunications in Paris, France. In January 2001, he began his graduate studies in Electrical and Computer Engineering at the University of Illinois in Urbana-Champaign, Urbana, IL. He received his M.S. and Ph.D. degrees in May 2002 and 2005, respectively. He previously was the Associate Research Director of the F. L. Lizzi Center for Biomedical Engineering at Riverside Research in New York, NY. He currently holds a faculty position in the Department of Radiology of Weill Cornell Medicine in New York, NY. Dr. Mamou also is an Adjunct Professor in the Department of Electrical Engineering of New York University. His fields of interest include theoretical aspects of ultrasound scattering, ultrasonic medical imaging, quantitative acoustic microscopy, ultrasound contrast agents, and biomedical image processing. Dr. Mamou is a Fellow of the American Institute of Ultrasound in Medicine (AIUM), a Seniormember of IEEE, and a member of the Acoustical Society of America. He is coeditor of the book “Quantitative Ultrasound in Soft Tissues” published by Springer, in 2013. In 2022, he was inducted into the Council of Distinguished Investigators of the Academy for Radiology & Biomedical Imaging. He served as the Chair of the AIUM High-Frequency Clinical and Preclinical Imaging Community of Practice. He is an Associate Editor of Ultrasonic Imaging and the IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, and a reviewer for numerous journals.
Michael L. Oelze was born in Hamilton, New Zealand, in 1971. He received the B.S. degree in physics and mathematics from Harding University, Searcy, AR, USA, in 1994, and the Ph.D. degree in physics from the University of Mississippi, Oxford, MS, USA. From 2000 to 2002, he was a Post-Doctoral Researcher with the Bioacoustics Research Laboratory, Department of Electrical and Computer Engineering (ECE), University of Illinois at Urbana– Champaign (UIUC), Urbana, IL, USA. From 2002 to 2004, he was an NIH Fellow conducting research in quantitative ultrasound techniques for biomedical ultrasound applications in cancer detection. He is currently a Professor and the Associate Head for Graduate Affairs in ECE at UIUC, the Frederick and Elizabeth Nearing Scholar in the Grainger College of Engineering and a Health Innovator Professor in the Carle Illinois College of Medicine. His research interests include biomedical ultrasound, quantitative ultrasound imaging for improving cancer diagnostics and monitoring therapy response, ultrasound bioeffects, ultrasound tomography techniques, ultrasound-based therapy, beamforming, and ultrasound-based medical implants. Dr. Oelze is currently a Fellow of the AIUM, and a member of ASA. He is a member of the Technical Program Committee of the IEEE Ultrasonics Symposium. He currently serves as an Associate Editor of IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, for Ultrasonic Imaging, and for IEEE Transactions on Biomedical Engineering.
Michael L. Oelze was born in Hamilton, New Zealand, in 1971. He received the B.S. degree in physics and mathematics from Harding University, Searcy, AR, USA, in 1994, and the Ph.D. degree in physics from the University of Mississippi, Oxford, MS, USA. From 2000 to 2002, he was a Post-Doctoral Researcher with the Bioacoustics Research Laboratory, Department of Electrical and Computer Engineering (ECE), University of Illinois at Urbana– Champaign (UIUC), Urbana, IL, USA. From 2002 to 2004, he was an NIH Fellow conducting research in quantitative ultrasound techniques for biomedical ultrasound applications in cancer detection. He is currently a Professor and the Associate Head for Graduate Affairs in ECE at UIUC, the Frederick and Elizabeth Nearing Scholar in the Grainger College of Engineering and a Health Innovator Professor in the Carle Illinois College of Medicine. His research interests include biomedical ultrasound, quantitative ultrasound imaging for improving cancer diagnostics and monitoring therapy response, ultrasound bioeffects, ultrasound tomography techniques, ultrasound-based therapy, beamforming, and ultrasound-based medical implants. Dr. Oelze is currently a Fellow of the AIUM, and a member of ASA. He is a member of the Technical Program Committee of the IEEE Ultrasonics Symposium. He currently serves as an Associate Editor of IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, for Ultrasonic Imaging, and for IEEE Transactions on Biomedical Engineering.