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1. Deep Multimodal Fusion for Surgical Feedback Classification

Author

Kocielnik, Rafal, Wong, Elyssa Y., Chu, Timothy N., Lin, Lydia, Huang, De-An, Wang, Jiayun, Anandkumar, Anima, and Hung, Andrew J.

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Human-Computer Interaction, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Quantification of real-time informal feedback delivered by an experienced surgeon to a trainee during surgery is important for skill improvements in surgical training. Such feedback in the live operating room is inherently multimodal, consisting of verbal conversations (e.g., questions and answers) as well as non-verbal elements (e.g., through visual cues like pointing to anatomic elements). In this work, we leverage a clinically-validated five-category classification of surgical feedback: "Anatomic", "Technical", "Procedural", "Praise" and "Visual Aid". We then develop a multi-label machine learning model to classify these five categories of surgical feedback from inputs of text, audio, and video modalities. The ultimate goal of our work is to help automate the annotation of real-time contextual surgical feedback at scale. Our automated classification of surgical feedback achieves AUCs ranging from 71.5 to 77.6 with the fusion improving performance by 3.1%. We also show that high-quality manual transcriptions of feedback audio from experts improve AUCs to between 76.5 and 96.2, which demonstrates a clear path toward future improvements. Empirically, we find that the Staged training strategy, with first pre-training each modality separately and then training them jointly, is more effective than training different modalities altogether. We also present intuitive findings on the importance of modalities for different feedback categories. This work offers an important first look at the feasibility of automated classification of real-world live surgical feedback based on text, audio, and video modalities.

Published
2023

6. Quantification of Robotic Surgeries with Vision-Based Deep Learning

Author

Kiyasseh, Dani, Ma, Runzhuo, Haque, Taseen F., Nguyen, Jessica, Wagner, Christian, Anandkumar, Animashree, and Hung, Andrew J.

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Surgery is a high-stakes domain where surgeons must navigate critical anatomical structures and actively avoid potential complications while achieving the main task at hand. Such surgical activity has been shown to affect long-term patient outcomes. To better understand this relationship, whose mechanics remain unknown for the majority of surgical procedures, we hypothesize that the core elements of surgery must first be quantified in a reliable, objective, and scalable manner. We believe this is a prerequisite for the provision of surgical feedback and modulation of surgeon performance in pursuit of improved patient outcomes. To holistically quantify surgeries, we propose a unified deep learning framework, entitled Roboformer, which operates exclusively on videos recorded during surgery to independently achieve multiple tasks: surgical phase recognition (the what of surgery), gesture classification and skills assessment (the how of surgery). We validated our framework on four video-based datasets of two commonly-encountered types of steps (dissection and suturing) within minimally-invasive robotic surgeries. We demonstrated that our framework can generalize well to unseen videos, surgeons, medical centres, and surgical procedures. We also found that our framework, which naturally lends itself to explainable findings, identified relevant information when achieving a particular task. These findings are likely to instill surgeons with more confidence in our framework's behaviour, increasing the likelihood of clinical adoption, and thus paving the way for more targeted surgical feedback.

Published
2022

12. Deep learning-based computer vision to recognize and classify suturing gestures in robot-assisted surgery

Author

Luongo, Francisco, Hakim, Ryan, Nguyen, Jessica H., Anandkumar, Animashree, and Hung, Andrew J

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics, J.3
Abstract

Our previous work classified a taxonomy of suturing gestures during a vesicourethral anastomosis of robotic radical prostatectomy in association with tissue tears and patient outcomes. Herein, we train deep-learning based computer vision (CV) to automate the identification and classification of suturing gestures for needle driving attempts. Using two independent raters, we manually annotated live suturing video clips to label timepoints and gestures. Identification (2395 videos) and classification (511 videos) datasets were compiled to train CV models to produce two- and five-class label predictions, respectively. Networks were trained on inputs of raw RGB pixels as well as optical flow for each frame. Each model was trained on 80/20 train/test splits. In this study, all models were able to reliably predict either the presence of a gesture (identification, AUC: 0.88) as well as the type of gesture (classification, AUC: 0.87) at significantly above chance levels. For both gesture identification and classification datasets, we observed no effect of recurrent classification model choice (LSTM vs. convLSTM) on performance. Our results demonstrate CV's ability to recognize features that not only can identify the action of suturing but also distinguish between different classifications of suturing gestures. This demonstrates the potential to utilize deep learning CV towards future automation of surgical skill assessment., Comment: 5 figures, 2 tables

Published
2020

26. Deep Learning Enhances Detection of Extracapsular Extension in Prostate Cancer from mpMRI of 1001 Patients

Author

Khosravi, Pegah, primary, Saikali, Shady, additional, Alipour, Abolfazl, additional, Mohammadi, Saber, additional, Boger, Max, additional, Diallo, Dalanda M., additional, Smith, Christopher, additional, Moschovas, Marcio Covas, additional, Hajirasouliha, Iman, additional, Hung, Andrew J., additional, Venkataraman, Srirama S., additional, and Patel, Vipul, additional

Published
2024
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30. MP39-09 STRUCTURED TRAINING CURRICULUM FOR ROBOTIC RADICAL NEPHROURETERECTOMY FOR UPPER TRACT UROTHELIAL CARCINOMA: A DELPHI CONSENSUS STUDY

Author

Moghaddam, Farshad Sheybaee, primary, Ghoreifi, Alireza, additional, Wu, Zhenjie, additional, Abdollah, Firas, additional, Antonelli, Alessandro, additional, Eun, Daniel D., additional, Guo, Shengjie, additional, Hung, Andrew J., additional, Ma, Lulin, additional, Margulis, Vitaly, additional, Matin, Surena F., additional, Mehrazin, Reza, additional, Porter, James, additional, Potretzke, Aaron, additional, Pradere, Benjamin, additional, Roupret, Morgan, additional, Seisen, Thomas, additional, Shariat, Shahrokh F., additional, Simone, Giuseppe, additional, Stein, Robert J., additional, Wang, Long, additional, Wu, Jitao, additional, Xylinas, Evanguelos, additional, Yao, Lin, additional, Zargar, Homayoun, additional, Autorino, Riccardo, additional, Cacciamani, Giovanni E., additional, and Djaladat, Hooman, additional

Published
2024
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31. MP07-13 CONTEXTUALIZED SURGICAL GESTURES IN NERVE-SPARE REVEAL HETEROGENEITY IN TECHNIQUES AND PREDICTS ERECTILE FUNCTION RECOVERY

Author

Ma, Runzhuo, primary, Wang, Jiayun, additional, Rich, Joseph, additional, Huang, Sherry L., additional, Otiato, Maxwell X., additional, Dalieh, Istabraq, additional, You, Jonathan, additional, Goh, Alvin C., additional, Sonn, Geoffrey A., additional, Wagner, Christian, additional, Anandkumar, Animashree, additional, Vickers, Andrew J., additional, Hu, Jim C., additional, and Hung, Andrew J., additional

Published
2024
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33. PRISMA AI reporting guidelines for systematic reviews and meta-analyses on AI in healthcare

Author

Cacciamani, Giovanni E., Chu, Timothy N., Sanford, Daniel I., Abreu, Andre, Duddalwar, Vinay, Oberai, Assad, Kuo, C.-C. Jay, Liu, Xiaoxuan, Denniston, Alastair K., Vasey, Baptiste, McCulloch, Peter, Wolff, Robert F., Mallett, Sue, Mongan, John, Kahn, Jr, Charles E., Sounderajah, Viknesh, Darzi, Ara, Dahm, Philipp, Moons, Karel G. M., Topol, Eric, Collins, Gary S., Moher, David, Gill, Inderbir S., and Hung, Andrew J.

Published
2023
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38. Reply by Authors

Author

Haque, Taseen F., Hui, Alvin, You, Jonathan, Ma, Runzhuo, Nguyen, Jessica H., Lei, Xiaomeng, Cen, Steven, Aron, Monish, Collins, Justin W., Djaladat, Hooman, Ghazi, Ahmed, Yates, Kenneth A., Abreu, Andre L., Daneshmand, Siamak, Desai, Mihir M., Goh, Alvin C., Hu, Jim C., Lebastchi, Amir H., Lendvay, Thomas S., Porter, James, Schuckman, Anne K., Sotelo, Rene, Sundaram, Chandru P., Gill, Inderbir S., and Hung, Andrew J.

Published
2022
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39. An Assessment Tool to Provide Targeted Feedback to Robotic Surgical Trainees: Development and Validation of the End-to-End Assessment of Suturing Expertise (EASE)

Author

Haque, Taseen F., Hui, Alvin, You, Jonathan, Ma, Runzhuo, Nguyen, Jessica H., Lei, Xiaomeng, Cen, Steven, Aron, Monish, Collins, Justin W., Djaladat, Hooman, Ghazi, Ahmed, Yates, Kenneth A., Abreu, Andre L., Daneshmand, Siamak, Desai, Mihir M., Goh, Alvin C., Hu, Jim C., Lebastchi, Amir H., Lendvay, Thomas S., Porter, James, Schuckman, Anne K., Sotelo, Rene, Sundaram, Chandru P., Gill, Inderbir S., and Hung, Andrew J.

Published
2022
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40. Artificial Intelligence-Based Video Feedback to Improve Novice Performance on Robotic Suturing Skills: A Pilot Study.

Author

Ma, Runzhuo, Kiyasseh, Dani, Laca, Jasper A., Kocielnik, Rafal, Wong, Elyssa Y., Chu, Timothy N., Cen, Steven, Yang, Cherine H., Dalieh, Istabraq S., Haque, Taseen F., Goldenberg, Mitch G., Huang, Xiuzhen, Anandkumar, Anima, and Hung, Andrew J.

Subjects
SURGICAL robots, ARTIFICIAL intelligence, VIDEO excerpts, CONTROL groups, ROBOTICS, SUTURING, NEEDLES & pins
Abstract

Introduction: Automated skills assessment can provide surgical trainees with objective, personalized feedback during training. Here, we measure the efficacy of artificial intelligence (AI)-based feedback on a robotic suturing task. Materials and Methods: Forty-two participants with no robotic surgical experience were randomized to a control or feedback group and video-recorded while completing two rounds (R1 and R2) of suturing tasks on a da Vinci surgical robot. Participants were assessed on needle handling and needle driving, and feedback was provided via a visual interface after R1. For feedback group, participants were informed of their AI-based skill assessment and presented with specific video clips from R1. For control group, participants were presented with randomly selected video clips from R1 as a placebo. Participants from each group were further labeled as underperformers or innate-performers based on a median split of their technical skill scores from R1. Results: Demographic features were similar between the control (n = 20) and feedback group (n = 22) (p > 0.05). Observing the improvement from R1 to R2, the feedback group had a significantly larger improvement in needle handling score (0.30 vs −0.02, p = 0.018) when compared with the control group, although the improvement of needle driving score was not significant when compared with the control group (0.17 vs −0.40, p = 0.074). All innate-performers exhibited similar improvements across rounds, regardless of feedback (p > 0.05). In contrast, underperformers in the feedback group improved more than the control group in needle handling (p = 0.02). Conclusion: AI-based feedback facilitates surgical trainees' acquisition of robotic technical skills, especially underperformers. Future research will extend AI-based feedback to additional suturing skills, surgical tasks, and experience groups. [ABSTRACT FROM AUTHOR]

Published
2024
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42. AutoRadAI: A Novel Multi-Modal Deep Learning Model for Enhanced ECE Detection in Prostate Cancer Across a Pathology-Infused MRI Journey of One Thousand and One Patients

Author

Khosravi, Pegah, primary, Saikali, Shady, additional, Alipour, Abolfazl, additional, Mohammadi, Saber, additional, Boger, Max, additional, Diallo, Dalanda M., additional, Smith, Christopher, additional, C. Moschovas, Marcio, additional, Hajirasouliha, Iman, additional, Hung, Andrew J., additional, Venkataraman, Srirama S., additional, and Patel, Vipul, additional

Published
2024
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