Dual-energy CT: theoretical principles and clinical applications

被引:0
|
作者
Andrea Agostini
Alessandra Borgheresi
Alberto Mari
Chiara Floridi
Federico Bruno
Marina Carotti
Nicolò Schicchi
Antonio Barile
Stefania Maggi
Andrea Giovagnoni
机构
[1] University Politecnica delle Marche,Department of Clinical, Special and Dental Sciences
[2] University Hospital “Umberto I – Lancisi – Salesi”,Department of Radiology – Division of Special and Pediatric Radiology
[3] University Hospital “Umberto I – Lancisi – Salesi”,Department of Radiology – Division of Medical Physics
[4] Hospital “San Paolo”,Department of Health Sciences, Diagnostic and Interventional Radiology
[5] University of Milan,Department of Biotechnological and Applied Sciences
[6] University of L’Aquila,undefined
来源
La radiologia medica | 2019年 / 124卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
The physical principles of dual-energy computed tomography (DECT) are as old as computed tomography (CT) itself. To understand the strengths and the limits of this technology, a brief overview of theoretical basis of DECT will be provided. Specific attention will be focused on the interaction of X-rays with matter, on the principles of attenuation of X-rays in CT toward the intrinsic limits of conventional CT, on the material decomposition algorithms (two- and three-basis-material decomposition algorithms) and on effective Rho-Z methods. The progresses in material decomposition algorithms, in computational power of computers and in CT hardware, lead to the development of different technological solutions for DECT in clinical practice. The clinical applications of DECT are briefly reviewed in relation to the specific algorithms.
引用
收藏
页码:1281 / 1295
页数:14
相关论文
共 50 条
  • [1] Dual-energy CT: theoretical principles and clinical applications
    Agostini, Andrea
    Borgheresi, Alessandra
    Mari, Alberto
    Floridi, Chiara
    Bruno, Federico
    Carotti, Marina
    Schicchi, Nicolo
    Barile, Antonio
    Maggi, Stefania
    Giovagnoni, Andrea
    [J]. RADIOLOGIA MEDICA, 2019, 124 (12): : 1281 - 1295
  • [2] Dual-Energy CT Principles and Applications
    Chellini, David
    Kinman, Karen
    [J]. RADIOLOGIC TECHNOLOGY, 2020, 91 (06) : 561CT - 576CT
  • [3] Dual-energy CT revisited with multidetector CT: review of principles and clinical applications
    Karcaaltincaba, Musturay
    Aktas, Aykut
    [J]. DIAGNOSTIC AND INTERVENTIONAL RADIOLOGY, 2011, 17 (03): : 181 - 194
  • [4] Clinical Applications of Dual-Energy CT
    Hamid, Saira
    Nasir, Muhammad Umer
    So, Aaron
    Andrews, Gordon
    Nicolaou, Savvas
    Qamar, Sadia Raheez
    [J]. KOREAN JOURNAL OF RADIOLOGY, 2021, 22 (06) : 970 - 982
  • [5] Dual-energy CT: Principles, clinical value and potential applications in forensic imaging
    Alkadhi, Hatem
    Leschka, Sebastian
    [J]. JOURNAL OF FORENSIC RADIOLOGY AND IMAGING, 2013, 1 (04) : 180 - 185
  • [6] Dual-energy CT: technical considerations and clinical applications
    Fernandez-Perez, G. C.
    Fraga Pineiro, C.
    Onate Miranda, M.
    Diez Blanco, M.
    Mato Chain, J.
    Collazos Martinez, M. A.
    [J]. RADIOLOGIA, 2022, 64 (05): : 445 - 455
  • [7] Cardiac Dual-Energy CT Applications and Clinical Impact
    Albrecht M.H.
    De Cecco C.N.
    Nance J.W., Jr.
    Varga-Szemes A.
    De Santis D.
    Eid M.
    Tesche C.
    Apfaltrer G.
    von Knebel Doeberitz P.L.
    Jacobs B.
    Vogl T.J.
    Joseph Schoepf U.
    [J]. Current Radiology Reports, 5 (9)
  • [8] Dual-energy CT in oncology: technical principles and clinical prospects
    D Simons
    M Kachelrieß
    HP Schlemmer
    [J]. Cancer Imaging, 15 (Suppl 1)
  • [9] Dual-Energy CT: General Principles
    Johnson, Thorsten R. C.
    [J]. AMERICAN JOURNAL OF ROENTGENOLOGY, 2012, 199 (05) : S3 - S8
  • [10] Dual-Energy CT: Dual-KV Techniques and Clinical Applications
    McCollough, C.
    [J]. MEDICAL PHYSICS, 2008, 35 (06)
12345