Assessment of the effect of a comprehensive chest radiograph deep learning model on radiologist reports and patient outcomes: a real-world observational study

Jones, C. T.; Danaher, Luke; Milne, Michael R.; Tang, Cyril H. M.; Seah, Jarrel; Oakden-Rayner, Luke; Johnson, Andrew; Buchlak, Quinlan D.; Esmaili, Nazanin

doi:10.1136/bmjopen-2021-052902

Cited by 19 publications

(24 citation statements)

References 45 publications

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“…Although the AUCs for standalone AI performance reported in our study are lower than those in prior studies [ 24 ], the assessed AI algorithm detected several missed findings not documented in the original radiology reports. The incremental value of AI for interpreting CXRs in our study follows the trends reported in other AI studies [ 23 , 25 ]. The lower AUCs obtained with the assessed AI algorithm for some missed findings in our study are likely related to the fact that missed findings are more likely to be subtle or difficult to detect, and therefore bring an additional level of complexity to AI performance.…”

Section: Discussionsupporting

confidence: 88%

“…The most frequent and clinically important missed findings included lung nodules and consolidation at all eight participating sites in both India and the US. A high frequency of missed lung nodules on CXRs has also been reported in prior studies [ 23 ]. Apart from the distribution of missed radiographic findings, our study reports on the performance of an AI validation platform (CARPL) and an AI-CXR algorithm (Qure.ai).…”

Section: Discussionsupporting

confidence: 73%

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Frequency of Missed Findings on Chest Radiographs (CXRs) in an International, Multicenter Study: Application of AI to Reduce Missed Findings

et al. 2022

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Background: Missed findings in chest X-ray interpretation are common and can have serious consequences. Methods: Our study included 2407 chest radiographs (CXRs) acquired at three Indian and five US sites. To identify CXRs reported as normal, we used a proprietary radiology report search engine based on natural language processing (mPower, Nuance). Two thoracic radiologists reviewed all CXRs and recorded the presence and clinical significance of abnormal findings on a 5-point scale (1—not important; 5—critical importance). All CXRs were processed with the AI model (Qure.ai) and outputs were recorded for the presence of findings. Data were analyzed to obtain area under the ROC curve (AUC). Results: Of 410 CXRs (410/2407, 18.9%) with unreported/missed findings, 312 (312/410, 76.1%) findings were clinically important: pulmonary nodules (n = 157), consolidation (60), linear opacities (37), mediastinal widening (21), hilar enlargement (17), pleural effusions (11), rib fractures (6) and pneumothoraces (3). AI detected 69 missed findings (69/131, 53%) with an AUC of up to 0.935. The AI model was generalizable across different sites, geographic locations, patient genders and age groups. Conclusion: A substantial number of important CXR findings are missed; the AI model can help to identify and reduce the frequency of important missed findings in a generalizable manner.

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Section: Discussionsupporting

confidence: 88%

Section: Discussionsupporting

confidence: 73%

Frequency of Missed Findings on Chest Radiographs (CXRs) in an International, Multicenter Study: Application of AI to Reduce Missed Findings

et al. 2022

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“…We have observed encouraging signs, however, within a large practice currently using machine learning systems to facilitate radiology interpretation and diagnosis. These signs include subjectively improved concentration levels and a broad acceptance (even amongst early critics) that these systems do offer useful assistance and that their effects are likely to benefit patients [60]. In addition, we have observed renewed enthusiasm amongst radiologists for their clinical work.…”

Section: Potential Future Benefits Of Ctb Machine Learning Systemsmentioning

confidence: 90%

“…Mature implementation necessitates an evaluation of effective clinical workflow integration and change management. With appropriate risk management and mature development and implementation, applied CTB machine learning systems have the potential to drive substantial clinical benefits and meaningful improvements in healthcare [60].…”

Section: Potential Future Benefits Of Ctb Machine Learning Systemsmentioning

confidence: 99%

Charting the potential of brain computed tomography deep learning systems

Buchlak¹,

Milne²,

Seah³

et al. 2022

Journal of Clinical Neuroscience

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“…A single AI application for multiple tasks has been scantly reported. 16 Concerning AI performance, radiologists should confirm AI results at the initial AI software implementation in their departments and continue monitoring. 17 Additionally, AI cannot correlate the exam with the patients' clinical results as radiologists can.…”

Section: Radiologists' Roles In Ai Implementationmentioning

confidence: 99%

Radiologist’s Role in Artificial Intelligence Era

et al. 2022

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Artificial intelligence (AI) in radiology is recently a rapidly growing subject. Much literature about AI in radiology has been launched within 5 years, as well as commercial AI companies. This phenomenon makes some old radiologists feel worried about losing their jobs, and junior doctors hesitate to choose radiology as a specialty. Currently, implementations of proprietary AIs in clinical practice are limited, with a default setting for a convenient human overwrite. The AIs in clinical imaging largely remain either investigational as part of clinical/pre-clinical trials or being developed for commercialized purposes. Radiologists have an important role in all AI processes from the beginning to the end and vital in training the machine, as well as to validate its added benefit for outcome prediction/prognostication. This article will discuss the importance for radiologists to develop, implement, and monitor AI in clinical imaging, together with some ethical considerations. We would like to encourage radiologists to use AI as an adjunct tool, to save time and have better performance.

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Assessment of the effect of a comprehensive chest radiograph deep learning model on radiologist reports and patient outcomes: a real-world observational study

Cited by 19 publications

References 45 publications

Frequency of Missed Findings on Chest Radiographs (CXRs) in an International, Multicenter Study: Application of AI to Reduce Missed Findings

Frequency of Missed Findings on Chest Radiographs (CXRs) in an International, Multicenter Study: Application of AI to Reduce Missed Findings

Charting the potential of brain computed tomography deep learning systems

Radiologist’s Role in Artificial Intelligence Era

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