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2)Chae EJ, Seo JB, Goo HW, et al. Xenon ventilation CT with a dual-energy technique of dual-source CT: initial experience. Radiology. 2008; 248: 615-24
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12)Ohno Y, Nishio M, Koyama H, et al. Dynamic contrast-enhanced CT and MRI for pulmonary nodule assessment. AJR Am J Roentgenol. 2014; 202: 515-29
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13)Ohno Y, Nishio M, Koyama H, et al. Comparison of quantitatively analyzed dynamic area-detector CT using various mathematic methods with FDG PET/CT in management of solitary pulmonary nodules. AJR Am J Roentgenol. 2013; 200: W593-602
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17)Holmes JH, Korosec FR, Du J, et al. Imaging of lung ventilation and respiratory dynamics in a single ventilation cycle using hyperpolarized He-3 MRI. J Magn Reson Imaging. 2007; 26: 630-6
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18)Fain SB, Panth SR, Evans MD, et al. Early emphysematous changes in asymptomatic smokers: detection with 3He MR imaging. Radiology. 2006; 239: 875-83
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19)Kirby M, Svenningsen S, Owrangi A, et al. Hyperpolarized 3He and 129Xe MR imaging in healthy volunteers and patients with chronic obstructive pulmonary disease. Radiology. 2012; 265: 600-10
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20)Ouriadov A, Farag A, Kirby M, et al. Lung morphometry using hyperpolarized (129) Xe apparent diffusion coefficient anisotropy in chronic obstructive pulmonary disease. Magn Reson Med. 2013; 70: 1699-706
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21)Liu Z, Araki T, Okajima Y, et al. Pulmonary hyperpolarized noble gas MRI: recent advances and perspectives in clinical application. Eur J Radiol. 2014; 83: 1282-91
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22)Ohno Y, Hatabu H, Takenaka D, et al. Dynamic oxygen-enhanced MRI reflects diffusing capacity of the lung. Magn Reson Med. 2002; 47: 1139-44
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23)Ohno Y, Hatabu H, Higashino T, et al. Oxygen-enhanced MR imaging: correlation with postsurgical lung function in patients with lung cancer. Radiology. 2005; 236: 704-11
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24)Ohno Y, Koyama H, Nogami M, et al. Dynamic oxygen-enhanced MRI versus quantitative CT: pulmonary functional loss assessment and clinical stage classification of smoking-related COPD. AJR Am J Roentgenol. 2008; 190: W93-9
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25)Ohno Y, Iwasawa T, Seo JB, et al. Oxygen-enhanced magnetic resonance imaging versus computed tomography: multicenter study for clinical stage classification of smoking-related chronic obstructive pulmonary disease. Am J Respir Crit Care Med. 2008; 177: 1095-102
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26)Ohno Y, Koyama H, Yoshikawa T, et al. Pulmonary magnetic resonance imaging for airway diseases. J Thorac Imaging. 2011; 26: 301-16
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27)Ohno Y, Koyama H, Matsumoto K, et al. Oxygen-enhanced MRI vs. quantitatively assessed thin-section CT: pulmonary functional loss assessment and clinical stage classification of asthmatics. Eur J Radiol. 2011; 77: 85-91
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28)Ohno Y, Koyama H, Yoshikawa T, et al. Comparison of capability of dynamic O₂-enhanced MRI and quantitative thin-section MDCT to assess COPD in smokers. Eur J Radiol. 2012; 81: 1068-75
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29)Ohno Y, Nishio M, Koyama H, et al. Oxygen-enhanced MRI, thin-section MDCT, and perfusion SPECT/CT: comparison of clinical implications to patient care for lung volume reduction surgery. AJR Am J Roentgenol. 2012; 199: 794-802
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30)Ohno Y, Nishio M, Koyama H, et al. Oxygen-enhanced MRI for patients with connective tissue diseases: comparison with thin-section CT of capability for pulmonary functional and disease severity assessment. Eur J Radiol. 2014; 83: 391-7
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31)Ohno Y, Nishio M, Koyama H, et al. Asthma: comparison of dynamic oxygen-enhanced MR imaging and quantitative thin-section CT for evaluation of clinical treatment. Radiology. 2014 Aug 6:132660. [Epub ahead of print]
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32)Ohno Y, Hatabu H, Takenaka D, et al. Contrast-enhanced MR perfusion imaging and MR angiography: utility for management of pulmonary arteriovenous malformations for embolotherapy. Eur J Radiol. 2002; 41: 136-46
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33)Ohno Y, Higashino T, Takenaka D, et al. MR angiography with sensitivity encoding (SENSE) for suspected pulmonary embolism: comparison with MDCT and ventilation-perfusion scintigraphy. AJR Am J Roentgenol. 2004; 183: 91-8
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34)Kluge A, Luboldt W, Bachmann G. Acute pulmonary embolism to the subsegmental level: diagnostic accuracy of three MRI techniques compared with 16-MDCT. AJR Am J Roentgenol. 2006; 187: W7-14
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35)Ohno Y, Hatabu H, Higashino T, et al. Dynamic perfusion MRI versus perfusion scintigraphy: prediction of postoperative lung function in patients with lung cancer. AJR Am J Roentgenol. 2004; 182: 73-8
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36)Ohno Y, Hatabu H, Murase K, et al. Quantitative assessment of regional pulmonary perfusion in the entire lung using three-dimensional ultrafast dynamic contrast-enhanced magnetic resonance imaging: Preliminary experience in 40 subjects. J Magn Reson Imaging. 2004; 20: 353-65
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37)Ohno Y, Hatabu H, Murase K, et al. Primary pulmonary hypertension: 3D dynamic perfusion MRI for quantitative analysis of regional pulmonary perfusion. AJR Am J Roentgenol. 2007; 188: 48-56
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38)Ohno Y, Koyama H, Nogami M, et al. Dynamic perfusion MRI: capability for evaluation of disease severity and progression of pulmonary arterial hypertension in patients with connective tissue disease. J Magn Reson Imaging. 2008; 28: 887-99
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39)Ohno Y, Koyama H, Nogami M, et al. Postoperative lung function in lung cancer patients: comparative analysis of predictive capability of MRI, CT, and SPECT. AJR Am J Roentgenol. 2007; 189: 400-8
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40)Ohno Y, Koyama H, Nogami M, et al. Dynamic perfusion MRI: capability for evaluation of disease severity and progression of pulmonary arterial hypertension in patients with connective tissue disease. J Magn Reson Imaging. 2008 ; 28: 887-99
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41)Ohno Y, Koyama H, Matsumoto K, et al. Dynamic MR perfusion imaging: capability for quantitative assessment of disease extent and prediction of outcome for patients with acute pulmonary thromboembolism. J Magn Reson Imaging. 2010; 31: 1081-90
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42)Ohno Y, Koyama H, Nogami M, et al. State-of-the-art radiological techniques improve the assessment of postoperative lung function in patients with non-small cell lung cancer. Eur J Radiol. 2011; 77: 97-104
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43)Ohno Y, Koyama H, Yoshikawa T, et al. Contrast-enhanced multidetector-row computed tomography vs. Time-resolved magnetic resonance angiography vs. contrast-enhanced perfusion MRI: assessment of treatment response by patients with inoperable chronic thromboembolic pulmonary hypertension. J Magn Reson Imaging. 2012; 36: 612-23
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44)Miyazaki M, Akahane M. Non-contrast enhanced MR angiography: established techniques. J Magn Reson Imaging. 2012; 35: 1-19
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45)Ohno Y, Nishio M, Koyama H, et al. Journal Club: Comparison of assessment of preoperative pulmonary vasculature in patients with non-small cell lung cancer by non-contrast- and 4D contrast-enhanced 3-T MR angiography and contrast-enhanced 64-MDCT. AJR Am J Roentgenol. 2014; 202: 493-506
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46)Sanz J, Kuschnir P, Rius T, et al. Pulmonary arterial hypertension: noninvasive detection with phase-contrast MR imaging. Radiology. 2007; 243: 70-9
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48)Nogami M, Ohno Y, Koyama H, et al. Utility of phase contrast MR imaging for assessment of pulmonary flow and pressure estimation in patients with pulmonary hypertension: comparison with right heart catheterization and echocardiography. J Magn Reson Imaging. 2009; 30: 973-80
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49)Kreitner KF, Wirth GM, Krummenauer F, et al. Noninvasive assessment of pulmonary hemodynamics in patients with chronic thromboembolic pulmonary hypertension by high temporal resolution phase-contrast MRI: correlation with simultaneous invasive pressure recordings. Circ Cardiovasc Imaging. 2013; 6: 722-9
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50)Kauczor HU, Kreitner KF. MRI of the pulmonary parenchyma. Eur Radiol. 1999; 9: 1755-64
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51)Liszewski MC, Hersman FW, Altes TA, et al. Magnetic resonance imaging of pediatric lung parenchyma, airways, vasculature, ventilation, and perfusion: state of the art. Radiol Clin North Am. 2013; 51: 555-82
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52)Takahashi M, Togao O, Obara M, et al. Ultra-short echo time (UTE) MR imaging of the lung: comparison between normal and emphysematous lungs in mutant mice. J Magn Reson Imaging. 2010; 32: 326-33
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53)Togao O, Tsuji R, Ohno Y, et al. Ultrashort echo time (UTE) MRI of the lung: assessment of tissue density in the lung parenchyma. Magn Reson Med. 2010; 64: 1491-8
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54)Togao O, Ohno Y, Dimitrov I, et al. Ventilation/perfusion imaging of the lung using ultra-short echo time (UTE) MRI in an animal model of pulmonary embolism. J Magn Reson Imaging. 2011; 34: 539-46
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55)Ohno Y, Koyama H, Yoshikawa T, et al. T2* measurements of 3-T MRI with ultrashort TEs: capabilities of pulmonary function assessment and clinical stage classification in smokers. AJR Am J Roentgenol. 2011; 197: W279-85
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56)Ohno Y, Nishio M, Koyama H, et al. Pulmonary MR imaging with ultra-short TEs: utility for disease severity assessment of connective tissue disease patients. Eur J Radiol. 2013; 82: 1359-65
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57)Ohno Y, Nishio M, Koyama H, et al. Pulmonary 3 T MRI with ultrashort TEs: influence of ultrashort echo time interval on pulmonary functional and clinical stage assessments of smokers. J Magn Reson Imaging. 2014; 39: 988-97
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