Effect of CAD on Radiologists' Detection of Lung Nodules on Thoracic CT Scans: Analysis of an Observer Performance Study by Nodule Size

Sahiner, Berkman; Chan, Heang Ping; Hadjiiski, Lubomir M.; Cascade, Philip N.; Kazerooni, Ella A.; Chughtai, Aamer; Poopat, Chad; Song, Thomas; Frank, Luba; Stojanovska, Jadranka; Attili, Anil

doi:10.1016/j.acra.2009.08.006

Cited by 107 publications

(61 citation statements)

References 50 publications

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“…8, 26–28 Lung nodule volumetric measurement with CAD facilitates a reduction in interobserver variability in the evaluation of indeterminate nodules in low-dose CT. 12, 13 In the present study, readers changed their decisions on average 19 times in assessing 134 cases (14%) after reviewing CAD results. Decisions were altered more frequently because of CAD nodule size measurement than the detection of new nodules.…”

Section: Discussionmentioning

confidence: 99%

Computer-Aided Nodule Detection and Volumetry to Reduce Variability Between Radiologists in the Interpretation of Lung Nodules at Low-Dose Screening Computed Tomography

Jeon

Goo²,

Lee

et al. 2012

Investigative Radiology

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Objective To evaluate whether a computer-aided diagnosis (CAD) system improves interobserver agreement in the interpretation of lung nodules at low-dose CT screening for lung cancer. Materials and Methods Baseline low-dose screening CT examinations from 134 participants enrolled in the National Lung Screening Trial were reviewed by seven chest radiologists. All participants consented to the use of their de-identified images for research purposes. Screening results were classified as positive when noncalcified nodules larger than 4 mm in diameter were present. Follow-up evaluation was recommended according to the nodule diameter: ≤ 4 mm; >4–8 mm; > 8 mm. When multiple nodules were present, recommendations were based on the largest nodule. Readers initially assessed the nodule presence visually and measured the average nodule diameter manually. Revision of their decisions after reviewing the CAD marks and size measurement was allowed. Interobserver agreement evaluated using multirater κ statistics was compared between initial assessment and that with CAD. Results Multirater κ values for the positivity of the screening results and follow-up recommendations were improved from moderate (κ=0.53; 0.54) at initial assessment to good (κ=0.66; 0.67) after reviewing CAD results. The average percentage of agreement between reader pairs on the positivity of screening results and follow-up recommendations per case was also increased from 77% and 72% at initial assessment to 84% and 80% with CAD. Conclusion CAD may improve the reader agreement on the positivity of screening results and follow-up recommendations in the assessment of low-dose screening CT.

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Section: Discussionmentioning

confidence: 99%

Computer-Aided Nodule Detection and Volumetry to Reduce Variability Between Radiologists in the Interpretation of Lung Nodules at Low-Dose Screening Computed Tomography

Jeon

Goo²,

Lee

et al. 2012

Investigative Radiology

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“…In addition, preliminary study on the feasibility of CAD of vertebral column metastases at magnetic resonance (MR) imaging and preclinical animal studies of C omputer-aided detection (CAD) techniques and algorithms for radiologic applications are rapidly growing in scope and sophistication (1,2). In computed tomographic (CT) colonography, mammography, and thoracic CT imaging, the potential for CAD to help increase the detection sensitivity for polyps (3), improve the sensitivity for cancer detection and the accuracy for lesion classification in mammography (4,5), and to enhance reader performance in pulmonary nodule detection and assessment of likelihood of malignancy (6,7) has been previously demonstrated.…”

Section: Patient Populationmentioning

confidence: 99%

Automated Detection of Sclerotic Metastases in the Thoracolumbar Spine at CT

Burns

Yao²,

Wiese³

et al. 2013

Radiology

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Purpose:To design and validate a computer system for automated detection and quantitative characterization of sclerotic metastases of the thoracolumbar spine on computed tomography (CT) images. Materials and Methods:This retrospective study was approved by the institutional review board and was HIPAA compliant; informed consent was waived. The data set consisted of CT examinations in 49 patients (14 female, 35 male patients; mean age, 57.0 years; range, 12-77 years), demonstrating a total of 532 sclerotic lesions of the spine of greater than 0.3 cm 3 in volume, and in 10 control case patients (four women, six men; mean age, 55.2 years; range, 19-70 years) without spinal lesions. CT examinations were divided into training and test sets, and images were analyzed according to prototypical fully-automated computer-aided detection (CAD) software. Free-response receiver operating characteristic analysis was performed. Results:Lesion detection sensitivity on images in the training set was 90%, relative to reference-standard marked lesions (95% confidence interval [CI]: 83%, 97%), at a false-positive rate (FPR) of 10.8 per patient (95% CI: 6.6, 15.0). For images in the testing set, sensitivity was 79% (95% CI: 74%, 84%), with an FPR of 10.9 per patient (95% CI: 8.5, 13.3). Conclusion:This CAD system successfully identified and segmented sclerotic lesions in the thoracolumbar spine.q RSNA, 2013

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“…Of greatest benefit for facilitating detection of smaller nodules (25, 57, 60), CAD consistently detects nodules that are not seen by radiologists and when used to augment radiologist’s readings, substantially reduces inter-observer variability (59). While the focus of most CAD development has been directed toward solid nodules, systems tuned to the detection of ground glass and part solid nodules are emerging (63–65), and have been shown to improve reader performance for all three classes of lung nodule (64).…”

Section: Computer Aided Detection (Cad)mentioning

confidence: 99%

Lung Nodule and Cancer Detection in Computed Tomography Screening

Rubin

2015

Journal of Thoracic Imaging

111

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Fundamental to the diagnosis of lung cancer in CT scans is the detection and interpretation of lung nodules. As the capabilities of CT scanners have advanced, higher levels of spatial resolution reveal tinier lung abnormalities. While not all detected lung nodules should be reported, radiologists strive to detect all nodules that might have relevance to cancer diagnosis. Although medium to large lung nodules are detected consistently, inter-reader agreement and reader sensitivity for lung nodule detection diminish substantially as nodule size falls below 8–10 mm. The difficulty in establishing an absolute reference standard presents a challenge to the reliability of studies performed to evaluate lung nodule detection. In the interest of improving detection performance, investigators are using eye tracking to analyze the effectiveness with which radiologists search CT scans relative to their ability to recognize nodules within their search path to determine if strategies might exist to improve performance across readers. Beyond the viewing of transverse CT reconstructions, image processing techniques such as thin-slab maximum intensity projections are used to substantially improve reader performance. Finally, the development of computer-aided detection has continued to evolve with the expectation that one day it will serve routinely as a tireless partner to the radiologist to enhance detection performance without significant prolongation of the interpretive process. This review provides an introduction to the current understanding of these varied issues as we enter the era of widespread lung cancer screening.

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Effect of CAD on Radiologists' Detection of Lung Nodules on Thoracic CT Scans: Analysis of an Observer Performance Study by Nodule Size

Cited by 107 publications

References 50 publications

Computer-Aided Nodule Detection and Volumetry to Reduce Variability Between Radiologists in the Interpretation of Lung Nodules at Low-Dose Screening Computed Tomography

Computer-Aided Nodule Detection and Volumetry to Reduce Variability Between Radiologists in the Interpretation of Lung Nodules at Low-Dose Screening Computed Tomography

Automated Detection of Sclerotic Metastases in the Thoracolumbar Spine at CT

Lung Nodule and Cancer Detection in Computed Tomography Screening

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