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Journal of Imaging Informatics in Medicine

Erschienen in:

01.01.2006

Computerized Methods for Determining Respiratory Phase on Dynamic Chest Radiographs Obtained by a Dynamic Flat-Panel Detector (FPD) System

verfasst von: Rie Tanaka, Shigeru Sanada, Takeshi Kobayashi, Masayuki Suzuki, Takeshi Matsui, Osamu Matsui

Erschienen in: Journal of Imaging Informatics in Medicine | Ausgabe 1/2006

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Abstract

Chest radiography using a dynamic flat-panel detector with a large field of view can provide sequential chest radiographs during respiration. These images provide information regarding respiratory kinetics, which is effective for diagnosis of pulmonary diseases. For valid analysis of respiratory kinetics in diagnosis of pulmonary diseases, it is crucial to determine the association between the kinetics and respiratory phase. We developed four methods to determine the respiratory phase based on image information associated with respiration and compared the results in dynamic chest radiographs of 37 subjects. Here, the properties of each method and future tasks are discussed. The method based on the change in size of the lung gave the most stable results, and that based on the change in distance from the lung apex to the diaphragm was the most promising method for determining the respiratory phase.

Lam, KL, Chan, HP, MacMahon, H, et al. 1990Dynamic digital subtraction evaluation of regional pulmonary ventilation with nonradioactive xenonInvest Radiol25728735PubMed

Singh, B, Panizza, JA, Finucane, E 2003Breath-by-breath measurement of the volume displaced by diaphragm motionJ Appl Physiol9410841091PubMed

Suga, K, Tsukuda, T, Awaya, H, et al. 1999Impaired respiratory mechanics in pulmonary emphysema. Evaluation with dynamic breathing MRIJ Magn Reson Imaging10510520PubMed

Unal, O, Arslan, H, Uzun, K, et al. 2000Evaluation of diaphragmatic movement with MR fluoroscopy in chronic obstructive pulmonary diseaseClin Imaging24347350PubMed

Etlick, O, Sakarya, ME, Uzun, K, et al. 2004Demonstrating the effect of theophylline treatment on diaphragmatic movement in chronic obstructive pulmonary disease patients by MR-fluoroscopyEur J Radiol51150154

David, M, Athol, U, Michael, B, et al. 1994Bronchiectasis: functional significance of areas of decreased attenuation at expiratory CTRadiology193369374

Shirakawa, T, Fukuda, K, Miyamoto, Y, et al. 1994Parietal pleural invasion of lung masses: evaluation with CT performed during deep inspiration and expirationRadiology192809811PubMed

Tanaka R, Sanada S, Suzuki M, et al: Automated analysis for the respiratory kinetics with the screening dynamic chest radiography using a flat-panel detector system. Pro-CARS 179–186, 2003

Tanaka, R, Sanada, S, Kobayashi, T, et al. 2004Breathing chest radiography using a dynamic flat-panel detector (FPD) combined with computer analysisMed Phys3122542262CrossRefPubMed

10.

Ruschin, M, Sixel, KE 2002Integration of digital fluoroscopy with CT-based radiation therapy planning of lung tumorsMed Phys2916981709CrossRefPubMed

11.

Seppenwoolde, Y, Shirato, H, Kitamura, K, et al. 2002Precise and real-time measurement of 3D tumor motion in lung due to breathing and heartbeat, measured during radiotherapyInt J Radiat Oncol Biol Phys53822834CrossRefPubMed

12.

Shirato, H, Harada, T, Harabayashi, T, et al. 2003Feasibility of insertion/implantation of 2.0-mm-diameter gold internal fiducial markers for precise setup and real-time tumor tracking in radiotherapyInt J Radiat Oncol Biol Phys56240247CrossRefPubMed

13.

West, JB 1995Mechanics of breathingRespiratory Physiology—The Essentials5th editionWilliams & WilkinsBaltimore89116

14.

Squire, LF, Novelline, RA 1998Overexpansion and collapse of the lungFundamentals of Radiology4th editionHarvard University PressCambridge8889

15.

Barnea, DI, Silverman, HF 1972A class of algorithms for fast digital image registrationIEEE Trans Computc-21179186CrossRef

Titel: Computerized Methods for Determining Respiratory Phase on Dynamic Chest Radiographs Obtained by a Dynamic Flat-Panel Detector (FPD) System
verfasst von: Rie Tanaka
Shigeru Sanada
Takeshi Kobayashi
Masayuki Suzuki
Takeshi Matsui
Osamu Matsui
Publikationsdatum: 01.01.2006
Verlag: Springer-Verlag
Erschienen in: Journal of Imaging Informatics in Medicine / Ausgabe 1/2006
Print ISSN: 2948-2925
Elektronische ISSN: 2948-2933
DOI: https://doi.org/10.1007/s10278-004-1045-z

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Computerized Methods for Determining Respiratory Phase on Dynamic Chest Radiographs Obtained by a Dynamic Flat-Panel Detector (FPD) System

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