映像情報メディカル 2019年 連載 The cutting-edge of CT imaging

出版社: 産業開発機構
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発行日: 2020-07-15
分野: 臨床医学:一般  >  画像/超音波
電子書籍版: 2020-07-15
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本誌は、映像情報メディカル2019年4月号~2020年3月号まで掲載された連載「 The cutting-edge of CT imaging」全12回を仕様上の都合により適宜編集を加え電子書籍化しております。

目次

  • 表紙
  • CONTENTS
  • 連載 The cutting - edge of CT imaging
  • 模擬ファントムでわかった超高精細CTの臨床性能
  • 腹部CTにおける非剛体サブトラクション
  • ユニバーサル逐次近似再構成ソフトウェア「SafeCT」の実力を紐解く
  • Bone Bruise Image : BBIの実力
  • 心室性不整脈アブレーション治療における4DCTの有用性
  • 金属フィルタを用いた超高解像度CTスキャンの臨床適応
  • 急性虚血性脳卒中 ( AIS ) に対するイメージング戦略 ~CT FirstからCT Baseへ~
  • 小児頭部形成モデルCTにおけるTin Filter Technologyを用いた被ばく低減
  • Dual Energy CTを用いた実効原子番号表示の概説と臨床応用
  • 超高精細CTにおける冠動脈STENT評価
  • True Fidelity Imageの初期使用経験
  • Dual - energy CTの確かな実力 - 放射線治療最前線への応用 - 像
  • 奥付

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参考文献のリンクは、リンク先の都合等により正しく表示されない場合がありますので、あらかじめご了承下さい。

本参考文献は電子書籍掲載内容を元にしております。

連載 The cutting - edge of CT imaging

P.15 掲載の参考文献
1) Gozer H et al : Spiral CT angiography with digital subtraction of extra-and intracranial vessels. Journal of computer assisted tomography 18 (5) : 839-841, 1994
 
2) Imakita S et al : Subtraction CT angiography with controlled-orbit helical scanning for detection of intracranial aneurysms. American journal of neuroradiology 19 (2) : 291-295, 1998
 
3) Bull R "Lung SURESubtraction in Everyday Practice." https://pdfs.semanticscholar.org/677c/0dfd19fc-28c37f5b7508e269c50c6168e94d. pdf, 2015
 
4) 遠藤正浩ほか : 診療 肺結節の診断における造影2相CTの非剛体レジストレーションを用いたサブトラクションCTの有用性 (特集 胸部の最新画像情報 2018). 臨床放射線 63 (1) : 61-67, 2018
 
5) Sauter AP et al : Accuracy of iodine quantification in dual-layer spectral CT : influence of iterative reconstruction, patient habitus and tube parameters. European journal of radiology 102 : 83-88, 2018
PubMed
6) 大久保裕直 : 2. ラジオ波焼灼術. 日本内科学会雑誌, 103 (1) : 78-86, 2014
 
7) Lee SH et al : Dual-energy computed tomography to assess tumor response to hepatic radiofrequency ablation : potential diagnostic value of virtual noncontrast images and iodine maps. Investigative radiology 46 (2) : 77-84, 2011
PubMed
P.22 掲載の参考文献
1) McCollough CH et al : CT Dose Reduction and Dose Management Tools : Overview of Available Options. Radiographics 26 (2) : 503-512, 2006
PubMed
2) Millon D et al : Low contrast detectability and spatial resolution with model-based Iterative reconstructions of MDCT images : a phantom and cadaveric study. Eur Radiol 27 (3) : 927-937, 2017
PubMed
3) Pourjabbar S et al : Preliminary results : prospective clinical study to assess image-based iterative reconstruction for abdominal computed tomography acquired at 2 radiation dose levels. J Comput Assist Tomogr 38 (1) : 117-122, 2014
 
4) Kawashima H et al : Quality evaluation of image-based iterative reconstruction for CT : Comparison with hybrid iterative reconstruction. J Appl Clin Med Phys 2019 ; in press.
 
5) Samei E et al : Assessment of the dose reduction potential of a model-based iterative reconstruction algorithm using a task-based performance metrology. Medical Physics 42 (1) : 314-323, 2015
 
P.28 掲載の参考文献
1) 野水敏行 : 整形領域-指摘が難しい骨折編-. アールティ 61 (5) : 25-27, 2014
 
2) Roman Guggenberger et al : Diagnostic Performance of Dual-Energy CT for the Detection of Traumatic Bone Marrow Lesions in the Ankle : Comparison with MR Imaging. Radiology 264 (1) : 164-173, 2012
PubMed
3) Chien-Kuo Wang et al : Bone Marrow Edema in Vertebral Compression Fractures : Detection with Dual-Energy CT. Radiology 269 (2) : 525-533, 2013
PubMed
4) Bernhard Petritsch et al : Vertebral Compression Fractures : Third-Generation Dual-Energy CT for Detection of Bone Marrow Edema at Visual and Quantitative Analyses. Radilogy 284 (1) : 161-168, 2017
 
5) Trenton T Kellock et al : Detection of Bone Marrow edema in nondisplaced hip Fractures : Utility of a Virtual Noncalcium Dual-Energy CT Application. Radiology 284 (3) : 798-805, 2017
PubMed
6) Torsten Diekhoff et al : Osteitis : a retrospective feasibility study comparing single-sourcedual-energy CT to MRI in selected patients with suspected acute gout. Skeletal Radiol 46 (2) : 185-190, 2017
 
7) 野水敏行 : Dual Energy CTの骨折精査への応用. 映像情報メディカル 50 (2) : 99-104, 2018
 
8) 野水敏行 : 整形外科領域におけるDual Energy CTの臨床応用. 京都 : 日本放射線技術学会放射線撮影分科会誌 44-48, 2019
 
9) Torsten Diekhoff et al : Single-source dual-energy computed tomography for the assessment of bone marrow edema in vertebral compression fractures : a prospective diagnostic accuracy study. European Radiology 29 (1) : 31-39, 2019
PubMed
P.35 掲載の参考文献
1) Morady F : Radio-frequency ablation as treatment for cardiac arrhythmias. N EnglJ Med 18 ; 340 (7) : 534-44, 1999
 
2) Hsia HH et al : Characterization of endocardial electrophysiological substrate in patients with nonischemic cardiomyopathy and monomorphic ventricular tachycardia. Circulation 12 ; 108 (6) : 704-10, 2003
PubMed
3) Elattar MA et al : Dynamics of the aortic annulus in 4D CT angiography for transcatheter aortic valve implantation patients. PloS one 12 : e0184133, 2017
PubMed
4) Yoshida S et al : Skeletal myoblast sheet transplantation enhanced regional improvement of cardiac function. European heart journal cardiovascular Imaging 19 : 828-829, 2018
 
5) Xu Y et al : Strain measurement on four-dimensional dynamic-ventilation CT : quantitative analysis of abnormal respiratory deformation of the lung in COPD. International journal of chronic obstructive pulmonary disease 14 : 65-72, 2019
PubMed
P.41 掲載の参考文献
1) T. G. Flohr et al : Novel ultrahigh resolution date acquisition and image reconstruction for multi-detector row CT, Medical Physics 34 (5) : 1712-23, 2007
 
2) Mathias Meyer et al : Initial results of a new generation dual source CT system using only an in-plane comb filter for ultra-high resolution temporal bone imaging, European Radiology 25 (1) : 178-85, 2014
 
3) McCollough CH et al : Spatial resolution improvement and dose reduction potential for inner ear CT imaging using a z-axis deconvolution technique, Medical Physics 40 (6) : 061904, 2013
 
4) 川嶋広貴 : しっかりと理解しておきたいCT技術 第8弾 (面内分解能-基礎~応用まで) テクニカルレポート 12 : 2-9, 2018
 
5) Lee SY et al : Reliability and validity of lower extremity computed tomography as a screening tool for osteoporosis. Osteoporosis International 26 (4) : 1387-1394, 2015
PubMed
P.47 掲載の参考文献
1) 経皮経管的脳血栓回収用機器適正使用指針 第1版, 2013
 
2) 経皮経管的脳血栓回収用機器適正使用指針 第2版, 2015
Medical*Online
3) 経皮経管的脳血栓回収用機器適正使用指針 第3版, 2018
 
4) R. G. Nogueira et al : Thrombectomy 6 to 24 Hours after Stroke with a Mismatch between Deficit and Infarct. N Engl J Med 378 (1) : 11-21, 2018
 
5) Toshinori Takagi et al : The Current Status of Endovascular Thrombectomy for Acute Ischemic Stroke in Japan : Results of a Nationwide Questionnaire Survey in 2016. JNET 11 : 504-511, 2017
Medical*Online
6) M Bonatti et al : Iodine Extravasation Quantification on Dual-Energy CT of the Brain Performed after Mechanical Thrombectomy for Acute Ischemic Stroke Can Predict Hemorrhagic Complications. AJNR 39 (3) : 441-447, 2018
PubMed
7) 渡辺準之助 : 血液比重の測定とその意義. 検査と技術 13 : 1029-1032, 1985
 
8) Christopher D et al : Time-Dependent Computed Tomographic Perfusion Thresholds for Patients With Acute Ischemic Stroke. Stroke 46 : 3390-3397, 2015
 
P.54 掲載の参考文献
1) 緒方寿夫ほか : よくわかる子どものための形成外科. 永井書店 p181, 2005
 
2) 日和佐剛 : Tin filter technologyの原理と臨床的有用性. 日本CT技術学会雑誌 7 (1) : 20-25, 2019
 
3) 星野貴志ほか : 逐次近似再構成法が三次元CT画像の形状再現性に与える影響. 日本放射線技術学会雑誌 68 (12) : 1624-1630, 2012
 
4) 星野貴志 : 逐次近似法を応用した画像再構成による三次元画像の形状再現性評価. アールティー No.59 : 19-21, 2013
 
P.60 掲載の参考文献
1) R. A. Rutherford et al : Measurement of effective atomic number and electron density using an EMI scanner. Neuroradiology 11 (1) : 15-21, 1976
 
2) McCullough EC : Photon attenuation in computed tomography. Med Phys 2 (6) : 307-20, 1975
PubMed
3) Saito M et al : A simple formulation for deriving effective atomic numbers via electron density calibration from dual-energy CT data in the human body. Med Phys 44 (6) : 2293-2303, 2017
 
4) Thieme SF et al : Dual energy CT for the assessment of lung perfusion-correlation to scintigraphy. Eur J Radiol 68 (3) : 369-74, 2008
PubMed
5) Yoshida M et al : Dual-Energy Computed Tomography for Evaluating Acute Brain Infarction of Middle Cerebral Artery Territories : Optimization of Voltage Settings in Virtual Monoenergetic Imaging. J Comput Assist Tomogr 43 (3) : 460-466, 2019
PubMed
6) Noguchi K et al : A Novel Imaging Technique (X-Map) to Identify Acute Ischemic Lesions Using Noncontrast Dual-Energy Computed Tomography. J Stroke Cerebrovasc Dis 26 (1) : 34-41, 2017
PubMed
P.66 掲載の参考文献
1) 日本循環器学会 : 循環器疾患診療実態調査2018年報告書
 
2) 日本循環器学会 : 慢性冠動脈疾患診断ガイドライン (2018年改訂版). http://www.j-circ.or.jp/guideline/pdf/JCS2018_yamagishi_tamaki.pdf
 
3) Takagi H et al : Diagnostic performance of coronary CT angiography with ultra-high-resolution CT : Comparison with invasive coronary angiography. Eur J Radiol 101 : 30-37, 2018
PubMed
4) Motoyama S. et al. Ultra-High-Resolution Computed Tomography Angiography for Assessment of Coronary Artery Stenosis. Circ J 25 ; 82 (7) : 1844 -1851, 2018
 
5) Cassese S et al : Incidence and predictors of restenosis after coronary stenting in 10 004 patients with surveillance angiography. Heart 100 (2) : 153-9, 2014
PubMed
6) Fujii K et al : Contribution of Stent Underexpansion to Recurrence After Sirolimus-Eluting Stent Implantation for In-Stent Restenosis. Circulation 9 ; 109 (9) : 1085-8, 2004
PubMed
7) Adriaenssens T et al : Optical Coherence Tomography Findings in Patients With Coronary Stent Thrombosis : A Report of the PRESTIGE Consortium (Prevention of Late Stent Thrombosis by an Interdisciplinary Global European Effort). Circulation 12 ; 136 (11) : 1007-1021, 2017
 
8) Suzuki S et al : Assessment of coronary stent in vitro on multislice computed tomography angiography : improved in-stent visibility by the use of 140-kV tube voltage. J Comput Assist Tomogr 31 (3) : 414-21, 2007
PubMed
P.71 掲載の参考文献
1) Higaki T et al : Clinical application of radiation dose reduction at abdominal CT. Eur J of Radiol 111 : 68-75, 2019
PubMed
2) Kwon H et al : The adaptive statistical iterative reconstruction-V technique for radiation dose reduction in abdominal CT : comparison with the adaptive statistical iterative reconstruction technique. Br J Radiol 88 (1054) : 20150463, 2015
PubMed
3) 日本膵癌学会 : 膵癌診療ガイドライン 2019
 
4) McCollough CH et al : Dual-and Multi-Energy CT : Principles, Technical Approaches, and Clinical Applications. Radiology 276 (3) : 637-653, 2015
PubMed
P.76 掲載の参考文献
1) Verbakel WFAR et al : Clinical application of a novel hybrid intensity-modulated radiotherapy technique for stage III lung cancer and dosimetric comparison with four other techniques. Int J Radiat Oncol Biol Phys 83 (2) : e297-303, 2012
 
2) Ohira S et al : Volumetric modulated arc therapy planning based on virtual monochromatic images : Effect of inaccurate CT numbers on dose distributions. Phys Med 60 : 83-90, 2019
PubMed
3) Ohira S et al : Clinical implementation of contrast-enhanced four-dimensional dual-energy computed tomography for target delineation of pancreatic cancer. Radiother Oncol 129 (1) : 105-111, 2018
PubMed
4) Ohira S et al : Treatment planning based on water density image generated using dual- energy computed tomography for pancreatic cancer with contrast-enhancing agent : Phantom and clinical study. Med Phys 45 (11) : 5208-5217, 2018
PubMed
5) Ohira S et al : Stereotactic body radiation therapy planning for liver tumors using functional images from dual-energy computed tomography. Radiother Oncol 7 ; 145 : 56-62, 2020
PubMed
6) Lamb P et al : Stratification of patients with liver fibrosis. IEEE Trans Med Imaging 34 (3), 807-15, 2015
PubMed
7) Vallet-Pichard A et al : FIB-4 : an inexpensive and accurate marker of fibrosis in HCV infection. Comparison with liver biopsy and fibrotest. Hepatology 46 (1), 32-6, 2007
PubMed
8) Hu R et al : Dual-Energy Head CT Enables Accurate Distinction of Intraparenchymal Hemorrhage from Calcification in Emergency Department Patients. Radiology 280 (1) : 177-83, 2016
PubMed
9) Yamamoto T et al : The first patient treatment of computed tomography ventilation functional image-guided radiotherapy for lung cancer. Radiother Oncol 118 (2) : 227-31, 2016
PubMed
10) Pan CC et al : Radiation-associated liver injury. Int J Radiat Oncol Biol Phys 1 ; 76 (3 Suppl) : S94-100, 2010
 

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