Diagnostic accuracy and added value of dynamic chest radiography in detecting pulmonary embolism: A retrospective study
This study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting pulmonary embolism (PE). Of 775 patients who underwent CR and DCR in our hospital between June 2020 and August 2022, individuals who also un...
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| Published in | European journal of radiology Open Vol. 13; p. 100602 |
|---|---|
| Main Authors | , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Elsevier Ltd
01.12.2024
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2352-0477 2352-0477 |
| DOI | 10.1016/j.ejro.2024.100602 |
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| Abstract | This study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting pulmonary embolism (PE).
Of 775 patients who underwent CR and DCR in our hospital between June 2020 and August 2022, individuals who also underwent contrast-enhanced CT (CECT) of the chest within 72 h were included in this study. PE or non-PE diagnosis was confirmed by CECT and the subsequent clinical course. The enrolled patients were randomized into two groups. Six observers, including two thoracic radiologists, two cardiologists, and two radiology residents, interpreted each chest radiograph with and without DCR using a crossover design with a washout period. Diagnostic performance was compared between CR with and without DCR in the standing and supine positions.
Sixty patients (15 PE, 45 non-PE) were retrospectively enrolled. The addition of DCR to CR significantly improved the sensitivity, specificity, accuracy, and area under the curve (AUC) in the standing (35.6–70.0 % [P < 0.0001], 84.8–93.3 % [P = 0.0010], 72.5–87.5 % [P < 0.0001], and 0.66–0.85 [P < 0.0001], respectively) and supine (33.3–65.6 % [P < 0.0001], 78.5–92.2 % [P < 0.0001], 67.2–85.6 % [P < 0.0001], and 0.62–0.80 [P = 0.0002], respectively) positions for PE detection. No significant differences were found between the AUC values of DCR with CR in the standing and supine positions (P = 0.11) or among radiologists, cardiologists, and radiology residents (P = 0.14–0.68).
Incorporating DCR with CR demonstrated moderate sensitivity, high specificity, and high accuracy in detecting PE, all of which were significantly higher than those achieved with CR alone, regardless of scan position, observer expertise, or experience.
[Display omitted] A)Images of chest radiography (left) and dynamic chest radiography (right) in a patient with acute pulmonary embolism. Large wedge-shaped perfusion defects are observed in bilateral lungs (arrows).B)Images of chest radiography (left) and dynamic chest radiography (right) in a patient without pulmonary embolism.C)Receiver operating characteristic curves for CR without DCR in the standing position, CR without DCR in the supine position, CR with DCR in the standing position, and CR with DCR in the supine position. Significant differences are observed between CR without DCR and CR with DCR both in standing and supine positions. CR, chest radiography; DCR, dynamic chest radiography.
•DCR showed moderate sensitivity, high specificity, and high accuracy in detecting PE.•The addition of DCR increased the diagnostic ability of observers for PE detection.•These findings highlight the potential of DCR as a valuable diagnostic tool for PE. |
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| AbstractList | Purpose: This study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting pulmonary embolism (PE). Methods: Of 775 patients who underwent CR and DCR in our hospital between June 2020 and August 2022, individuals who also underwent contrast-enhanced CT (CECT) of the chest within 72 h were included in this study. PE or non-PE diagnosis was confirmed by CECT and the subsequent clinical course. The enrolled patients were randomized into two groups. Six observers, including two thoracic radiologists, two cardiologists, and two radiology residents, interpreted each chest radiograph with and without DCR using a crossover design with a washout period. Diagnostic performance was compared between CR with and without DCR in the standing and supine positions. Results: Sixty patients (15 PE, 45 non-PE) were retrospectively enrolled. The addition of DCR to CR significantly improved the sensitivity, specificity, accuracy, and area under the curve (AUC) in the standing (35.6–70.0 % [P < 0.0001], 84.8–93.3 % [P = 0.0010], 72.5–87.5 % [P < 0.0001], and 0.66–0.85 [P < 0.0001], respectively) and supine (33.3–65.6 % [P < 0.0001], 78.5–92.2 % [P < 0.0001], 67.2–85.6 % [P < 0.0001], and 0.62–0.80 [P = 0.0002], respectively) positions for PE detection. No significant differences were found between the AUC values of DCR with CR in the standing and supine positions (P = 0.11) or among radiologists, cardiologists, and radiology residents (P = 0.14–0.68). Conclusions: Incorporating DCR with CR demonstrated moderate sensitivity, high specificity, and high accuracy in detecting PE, all of which were significantly higher than those achieved with CR alone, regardless of scan position, observer expertise, or experience. This study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting pulmonary embolism (PE).PurposeThis study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting pulmonary embolism (PE).Of 775 patients who underwent CR and DCR in our hospital between June 2020 and August 2022, individuals who also underwent contrast-enhanced CT (CECT) of the chest within 72 h were included in this study. PE or non-PE diagnosis was confirmed by CECT and the subsequent clinical course. The enrolled patients were randomized into two groups. Six observers, including two thoracic radiologists, two cardiologists, and two radiology residents, interpreted each chest radiograph with and without DCR using a crossover design with a washout period. Diagnostic performance was compared between CR with and without DCR in the standing and supine positions.MethodsOf 775 patients who underwent CR and DCR in our hospital between June 2020 and August 2022, individuals who also underwent contrast-enhanced CT (CECT) of the chest within 72 h were included in this study. PE or non-PE diagnosis was confirmed by CECT and the subsequent clinical course. The enrolled patients were randomized into two groups. Six observers, including two thoracic radiologists, two cardiologists, and two radiology residents, interpreted each chest radiograph with and without DCR using a crossover design with a washout period. Diagnostic performance was compared between CR with and without DCR in the standing and supine positions.Sixty patients (15 PE, 45 non-PE) were retrospectively enrolled. The addition of DCR to CR significantly improved the sensitivity, specificity, accuracy, and area under the curve (AUC) in the standing (35.6-70.0 % [P < 0.0001], 84.8-93.3 % [P = 0.0010], 72.5-87.5 % [P < 0.0001], and 0.66-0.85 [P < 0.0001], respectively) and supine (33.3-65.6 % [P < 0.0001], 78.5-92.2 % [P < 0.0001], 67.2-85.6 % [P < 0.0001], and 0.62-0.80 [P = 0.0002], respectively) positions for PE detection. No significant differences were found between the AUC values of DCR with CR in the standing and supine positions (P = 0.11) or among radiologists, cardiologists, and radiology residents (P = 0.14-0.68).ResultsSixty patients (15 PE, 45 non-PE) were retrospectively enrolled. The addition of DCR to CR significantly improved the sensitivity, specificity, accuracy, and area under the curve (AUC) in the standing (35.6-70.0 % [P < 0.0001], 84.8-93.3 % [P = 0.0010], 72.5-87.5 % [P < 0.0001], and 0.66-0.85 [P < 0.0001], respectively) and supine (33.3-65.6 % [P < 0.0001], 78.5-92.2 % [P < 0.0001], 67.2-85.6 % [P < 0.0001], and 0.62-0.80 [P = 0.0002], respectively) positions for PE detection. No significant differences were found between the AUC values of DCR with CR in the standing and supine positions (P = 0.11) or among radiologists, cardiologists, and radiology residents (P = 0.14-0.68).Incorporating DCR with CR demonstrated moderate sensitivity, high specificity, and high accuracy in detecting PE, all of which were significantly higher than those achieved with CR alone, regardless of scan position, observer expertise, or experience.ConclusionsIncorporating DCR with CR demonstrated moderate sensitivity, high specificity, and high accuracy in detecting PE, all of which were significantly higher than those achieved with CR alone, regardless of scan position, observer expertise, or experience. A)Images of chest radiography (left) and dynamic chest radiography (right) in a patient with acute pulmonary embolism. Large wedge-shaped perfusion defects are observed in bilateral lungs (arrows).B)Images of chest radiography (left) and dynamic chest radiography (right) in a patient without pulmonary embolism.C)Receiver operating characteristic curves for CR without DCR in the standing position, CR without DCR in the supine position, CR with DCR in the standing position, and CR with DCR in the supine position. Significant differences are observed between CR without DCR and CR with DCR both in standing and supine positions. CR, chest radiography; DCR, dynamic chest radiography. •DCR showed moderate sensitivity, high specificity, and high accuracy in detecting PE.•The addition of DCR increased the diagnostic ability of observers for PE detection.•These findings highlight the potential of DCR as a valuable diagnostic tool for PE. AbstractPurposeThis study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting pulmonary embolism (PE). MethodsOf 775 patients who underwent CR and DCR in our hospital between June 2020 and August 2022, individuals who also underwent contrast-enhanced CT (CECT) of the chest within 72 h were included in this study. PE or non-PE diagnosis was confirmed by CECT and the subsequent clinical course. The enrolled patients were randomized into two groups. Six observers, including two thoracic radiologists, two cardiologists, and two radiology residents, interpreted each chest radiograph with and without DCR using a crossover design with a washout period. Diagnostic performance was compared between CR with and without DCR in the standing and supine positions. ResultsSixty patients (15 PE, 45 non-PE) were retrospectively enrolled. The addition of DCR to CR significantly improved the sensitivity, specificity, accuracy, and area under the curve (AUC) in the standing (35.6–70.0 % [ P < 0.0001], 84.8–93.3 % [ P = 0.0010], 72.5–87.5 % [ P < 0.0001], and 0.66–0.85 [ P < 0.0001], respectively) and supine (33.3–65.6 % [ P < 0.0001], 78.5–92.2 % [ P < 0.0001], 67.2–85.6 % [ P < 0.0001], and 0.62–0.80 [ P = 0.0002], respectively) positions for PE detection. No significant differences were found between the AUC values of DCR with CR in the standing and supine positions (P = 0.11) or among radiologists, cardiologists, and radiology residents (P = 0.14–0.68). ConclusionsIncorporating DCR with CR demonstrated moderate sensitivity, high specificity, and high accuracy in detecting PE, all of which were significantly higher than those achieved with CR alone, regardless of scan position, observer expertise, or experience. This study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting pulmonary embolism (PE). Of 775 patients who underwent CR and DCR in our hospital between June 2020 and August 2022, individuals who also underwent contrast-enhanced CT (CECT) of the chest within 72 h were included in this study. PE or non-PE diagnosis was confirmed by CECT and the subsequent clinical course. The enrolled patients were randomized into two groups. Six observers, including two thoracic radiologists, two cardiologists, and two radiology residents, interpreted each chest radiograph with and without DCR using a crossover design with a washout period. Diagnostic performance was compared between CR with and without DCR in the standing and supine positions. Sixty patients (15 PE, 45 non-PE) were retrospectively enrolled. The addition of DCR to CR significantly improved the sensitivity, specificity, accuracy, and area under the curve (AUC) in the standing (35.6-70.0 % [ < 0.0001], 84.8-93.3 % [ = 0.0010], 72.5-87.5 % [ < 0.0001], and 0.66-0.85 [ < 0.0001], respectively) and supine (33.3-65.6 % [ < 0.0001], 78.5-92.2 % [ < 0.0001], 67.2-85.6 % [ < 0.0001], and 0.62-0.80 [ = 0.0002], respectively) positions for PE detection. No significant differences were found between the AUC values of DCR with CR in the standing and supine positions (P = 0.11) or among radiologists, cardiologists, and radiology residents (P = 0.14-0.68). Incorporating DCR with CR demonstrated moderate sensitivity, high specificity, and high accuracy in detecting PE, all of which were significantly higher than those achieved with CR alone, regardless of scan position, observer expertise, or experience. This study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting pulmonary embolism (PE). Of 775 patients who underwent CR and DCR in our hospital between June 2020 and August 2022, individuals who also underwent contrast-enhanced CT (CECT) of the chest within 72 h were included in this study. PE or non-PE diagnosis was confirmed by CECT and the subsequent clinical course. The enrolled patients were randomized into two groups. Six observers, including two thoracic radiologists, two cardiologists, and two radiology residents, interpreted each chest radiograph with and without DCR using a crossover design with a washout period. Diagnostic performance was compared between CR with and without DCR in the standing and supine positions. Sixty patients (15 PE, 45 non-PE) were retrospectively enrolled. The addition of DCR to CR significantly improved the sensitivity, specificity, accuracy, and area under the curve (AUC) in the standing (35.6–70.0 % [P < 0.0001], 84.8–93.3 % [P = 0.0010], 72.5–87.5 % [P < 0.0001], and 0.66–0.85 [P < 0.0001], respectively) and supine (33.3–65.6 % [P < 0.0001], 78.5–92.2 % [P < 0.0001], 67.2–85.6 % [P < 0.0001], and 0.62–0.80 [P = 0.0002], respectively) positions for PE detection. No significant differences were found between the AUC values of DCR with CR in the standing and supine positions (P = 0.11) or among radiologists, cardiologists, and radiology residents (P = 0.14–0.68). Incorporating DCR with CR demonstrated moderate sensitivity, high specificity, and high accuracy in detecting PE, all of which were significantly higher than those achieved with CR alone, regardless of scan position, observer expertise, or experience. [Display omitted] A)Images of chest radiography (left) and dynamic chest radiography (right) in a patient with acute pulmonary embolism. Large wedge-shaped perfusion defects are observed in bilateral lungs (arrows).B)Images of chest radiography (left) and dynamic chest radiography (right) in a patient without pulmonary embolism.C)Receiver operating characteristic curves for CR without DCR in the standing position, CR without DCR in the supine position, CR with DCR in the standing position, and CR with DCR in the supine position. Significant differences are observed between CR without DCR and CR with DCR both in standing and supine positions. CR, chest radiography; DCR, dynamic chest radiography. •DCR showed moderate sensitivity, high specificity, and high accuracy in detecting PE.•The addition of DCR increased the diagnostic ability of observers for PE detection.•These findings highlight the potential of DCR as a valuable diagnostic tool for PE. |
| ArticleNumber | 100602 |
| Author | Abe, Kohtaro Ikeda, Megumi Toyoda, Hiroyuki Yabuuchi, Hidetake Yamasaki, Yuzo Hosokawa, Kazuya Nishimura, Shunsuke Hino, Takuya Kamitani, Takeshi Sagiyama, Koji Ishigami, Kousei Moriyama, Shohei Matsutani, Noritsugu Kawakubo, Masateru |
| Author_xml | – sequence: 1 givenname: Yuzo surname: Yamasaki fullname: Yamasaki, Yuzo email: yamasaki.yuzo.776@m.kyushu-u.ac.jp organization: Department of Clinical Radiology, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 2 givenname: Kazuya surname: Hosokawa fullname: Hosokawa, Kazuya organization: Department of Cardiovascular Medicine, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 3 givenname: Takeshi surname: Kamitani fullname: Kamitani, Takeshi organization: Department of Clinical Radiology, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 4 givenname: Kohtaro surname: Abe fullname: Abe, Kohtaro organization: Department of Cardiovascular Medicine, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 5 givenname: Koji surname: Sagiyama fullname: Sagiyama, Koji organization: Department of Clinical Radiology, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 6 givenname: Takuya surname: Hino fullname: Hino, Takuya organization: Department of Clinical Radiology, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 7 givenname: Megumi surname: Ikeda fullname: Ikeda, Megumi organization: Department of Hematology, Oncology & Cardiovascular Medicine, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 8 givenname: Shunsuke surname: Nishimura fullname: Nishimura, Shunsuke organization: Department of Clinical Radiology, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 9 givenname: Hiroyuki surname: Toyoda fullname: Toyoda, Hiroyuki organization: Department of Clinical Radiology, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 10 givenname: Shohei surname: Moriyama fullname: Moriyama, Shohei organization: Department of Hematology, Oncology & Cardiovascular Medicine, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 11 givenname: Masateru surname: Kawakubo fullname: Kawakubo, Masateru organization: Department of Health Sciences, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 12 givenname: Noritsugu surname: Matsutani fullname: Matsutani, Noritsugu organization: Healthcare Business Headquarters, KONICA MINOLTA, INC., Japan – sequence: 13 givenname: Hidetake surname: Yabuuchi fullname: Yabuuchi, Hidetake organization: Department of Health Sciences, Graduate School of Medical Sciences, Kyushu University, Japan – sequence: 14 givenname: Kousei surname: Ishigami fullname: Ishigami, Kousei organization: Department of Clinical Radiology, Graduate School of Medical Sciences, Kyushu University, Japan |
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| Keywords | Pulmonary embolism DCR Dynamic chest radiography Contrast-enhanced computed tomography PE Diagnostic accuracy V/Q CECT AUC CR chest radiography ventilation/perfusion areas under the receiver operating characteristic curve dynamic chest radiography pulmonary embolism contrast-enhanced computed tomography |
| Language | English |
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| Snippet | This study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in detecting... AbstractPurposeThis study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography... A)Images of chest radiography (left) and dynamic chest radiography (right) in a patient with acute pulmonary embolism. Large wedge-shaped perfusion defects are... Purpose: This study aimed to assess the diagnostic performance of dynamic chest radiography (DCR) and investigate its added value to chest radiography (CR) in... |
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| SubjectTerms | Contrast-enhanced computed tomography Diagnostic accuracy Dynamic chest radiography Pulmonary embolism Radiology |
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| Title | Diagnostic accuracy and added value of dynamic chest radiography in detecting pulmonary embolism: A retrospective study |
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