Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy
Purpose: To validate the sensitivity and specificity of a 3 -dimensional (3D) convolutional neural network (CNN) artificial intelligence (AI) software for lung lesion detection and to establish concordance between AI -generated needle paths and those used in actual biopsy procedures. Materials and M...
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2024
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my.um.eprints.452792024-09-30T08:10:36Z http://eprints.um.edu.my/45279/ Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy Too, Chow Wei Fong, Khi Yung Hang, Guanqi Sato, Takafumi Nyam, Chiaw Qing Leong, Siang Huei Ng, Ka Wei Ng, Wei Lin Kawai, Tatsuya R Medicine Purpose: To validate the sensitivity and specificity of a 3 -dimensional (3D) convolutional neural network (CNN) artificial intelligence (AI) software for lung lesion detection and to establish concordance between AI -generated needle paths and those used in actual biopsy procedures. Materials and Methods: This was a retrospective study using computed tomography (CT) scans from 3 hospitals. Inclusion criteria were scans with 1-5 nodules of diameter >= 5 mm; exclusion criteria were poor -quality scans or those with nodules measuring <5mm in diameter. In the lesion detection phase, 2,147 nodules from 219 scans were used to develop and train the deep learning 3D -CNN to detect lesions. The 3D -CNN was validated with 235 scans (354 lesions) for sensitivity, specificity, and area under the receiver operating characteristic curve (AUC) analysis. In the path planning phase, Bayesian optimization was used to propose possible needle trajectories for lesion biopsy while avoiding vital structures. Software -proposed needle trajectories were compared with actual biopsy path trajectories from intraprocedural CT scans in 150 patients, with a match defined as an angular deviation of <5 (degrees) between the 2 trajectories. Results: The model achieved an overall AUC of 97.4% (95% CI, 96.3%-98.2%) for lesion detection, with mean sensitivity of 93.5% and mean specificity of 93.2%. Among the software -proposed needle trajectories, 85.3% were feasible, with 82% matching actual paths and similar performance between supine and prone/oblique patient orientations ( P = .311). The mean angular deviation between matching trajectories was 2.30 degrees (SD +/- 1.22); the mean path deviation was 2.94 mm (SD +/- 1.60). Conclusions: Segmentation, lesion detection, and path planning for CT -guided lung biopsy using an AI -guided software showed promising results. Future integration with automated robotic systems may pave the way toward fully automated biopsy procedures. Elsevier 2024-05 Article PeerReviewed Too, Chow Wei and Fong, Khi Yung and Hang, Guanqi and Sato, Takafumi and Nyam, Chiaw Qing and Leong, Siang Huei and Ng, Ka Wei and Ng, Wei Lin and Kawai, Tatsuya (2024) Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy. Journal of Vascular and Interventional Radiology, 35 (5). pp. 780-789. ISSN 1051-0443, DOI https://doi.org/10.1016/j.jvir.2024.02.006 <https://doi.org/10.1016/j.jvir.2024.02.006>. https://doi.org/10.1016/j.jvir.2024.02.006 10.1016/j.jvir.2024.02.006 |
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R Medicine Too, Chow Wei Fong, Khi Yung Hang, Guanqi Sato, Takafumi Nyam, Chiaw Qing Leong, Siang Huei Ng, Ka Wei Ng, Wei Lin Kawai, Tatsuya Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy |
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Purpose: To validate the sensitivity and specificity of a 3 -dimensional (3D) convolutional neural network (CNN) artificial intelligence (AI) software for lung lesion detection and to establish concordance between AI -generated needle paths and those used in actual biopsy procedures. Materials and Methods: This was a retrospective study using computed tomography (CT) scans from 3 hospitals. Inclusion criteria were scans with 1-5 nodules of diameter >= 5 mm; exclusion criteria were poor -quality scans or those with nodules measuring <5mm in diameter. In the lesion detection phase, 2,147 nodules from 219 scans were used to develop and train the deep learning 3D -CNN to detect lesions. The 3D -CNN was validated with 235 scans (354 lesions) for sensitivity, specificity, and area under the receiver operating characteristic curve (AUC) analysis. In the path planning phase, Bayesian optimization was used to propose possible needle trajectories for lesion biopsy while avoiding vital structures. Software -proposed needle trajectories were compared with actual biopsy path trajectories from intraprocedural CT scans in 150 patients, with a match defined as an angular deviation of <5 (degrees) between the 2 trajectories. Results: The model achieved an overall AUC of 97.4% (95% CI, 96.3%-98.2%) for lesion detection, with mean sensitivity of 93.5% and mean specificity of 93.2%. Among the software -proposed needle trajectories, 85.3% were feasible, with 82% matching actual paths and similar performance between supine and prone/oblique patient orientations ( P = .311). The mean angular deviation between matching trajectories was 2.30 degrees (SD +/- 1.22); the mean path deviation was 2.94 mm (SD +/- 1.60). Conclusions: Segmentation, lesion detection, and path planning for CT -guided lung biopsy using an AI -guided software showed promising results. Future integration with automated robotic systems may pave the way toward fully automated biopsy procedures. |
| format |
Article |
| author |
Too, Chow Wei Fong, Khi Yung Hang, Guanqi Sato, Takafumi Nyam, Chiaw Qing Leong, Siang Huei Ng, Ka Wei Ng, Wei Lin Kawai, Tatsuya |
| author_facet |
Too, Chow Wei Fong, Khi Yung Hang, Guanqi Sato, Takafumi Nyam, Chiaw Qing Leong, Siang Huei Ng, Ka Wei Ng, Wei Lin Kawai, Tatsuya |
| author_sort |
Too, Chow Wei |
| title |
Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy |
| title_short |
Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy |
| title_full |
Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy |
| title_fullStr |
Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy |
| title_full_unstemmed |
Artificial Intelligence-Guided Segmentation and Path Planning Software for Transthoracic Lung Biopsy |
| title_sort |
artificial intelligence-guided segmentation and path planning software for transthoracic lung biopsy |
| publisher |
Elsevier |
| publishDate |
2024 |
| url |
http://eprints.um.edu.my/45279/ https://doi.org/10.1016/j.jvir.2024.02.006 |
| _version_ |
1811682113146060800 |