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865 results on '"Berzin, Tyler"'

1. Transformer-Enhanced Iterative Feedback Mechanism for Polyp Segmentation

Author

Tomar, Nikhil Kumar, Jha, Debesh, Biswas, Koushik, Berzin, Tyler M., Keswani, Rajesh, Wallace, Michael, and Bagci, Ulas

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Colorectal cancer (CRC) is the third most common cause of cancer diagnosed in the United States and the second leading cause of cancer-related death among both genders. Notably, CRC is the leading cause of cancer in younger men less than 50 years old. Colonoscopy is considered the gold standard for the early diagnosis of CRC. Skills vary significantly among endoscopists, and a high miss rate is reported. Automated polyp segmentation can reduce the missed rates, and timely treatment is possible in the early stage. To address this challenge, we introduce \textit{\textbf{\ac{FANetv2}}}, an advanced encoder-decoder network designed to accurately segment polyps from colonoscopy images. Leveraging an initial input mask generated by Otsu thresholding, FANetv2 iteratively refines its binary segmentation masks through a novel feedback attention mechanism informed by the mask predictions of previous epochs. Additionally, it employs a text-guided approach that integrates essential information about the number (one or many) and size (small, medium, large) of polyps to further enhance its feature representation capabilities. This dual-task approach facilitates accurate polyp segmentation and aids in the auxiliary classification of polyp attributes, significantly boosting the model's performance. Our comprehensive evaluations on the publicly available BKAI-IGH and CVC-ClinicDB datasets demonstrate the superior performance of FANetv2, evidenced by high dice similarity coefficients (DSC) of 0.9186 and 0.9481, along with low Hausdorff distances of 2.83 and 3.19, respectively. The source code for FANetv2 is available at https://github.com/xxxxx/FANetv2.

Published
2024

2. PolypDB: A Curated Multi-Center Dataset for Development of AI Algorithms in Colonoscopy

Author

Jha, Debesh, Tomar, Nikhil Kumar, Sharma, Vanshali, Trinh, Quoc-Huy, Biswas, Koushik, Pan, Hongyi, Jha, Ritika K., Durak, Gorkem, Hann, Alexander, Varkey, Jonas, Dao, Hang Viet, Van Dao, Long, Nguyen, Binh Phuc, Pham, Khanh Cong, Tran, Quang Trung, Papachrysos, Nikolaos, Rieders, Brandon, Schmidt, Peter Thelin, Geissler, Enrik, Berzin, Tyler, Halvorsen, Pål, Riegler, Michael A., de Lange, Thomas, and Bagci, Ulas

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Colonoscopy is the primary method for examination, detection, and removal of polyps. Regular screening helps detect and prevent colorectal cancer at an early curable stage. However, challenges such as variation among the endoscopists' skills, bowel quality preparation, and complex nature of the large intestine which cause large number of polyp miss-rate. These missed polyps can develop into cancer later on, which underscores the importance of improving the detection methods. A computer-aided diagnosis system can support physicians by assisting in detecting overlooked polyps. However, one of the important challenges for developing novel deep learning models for automatic polyp detection and segmentation is the lack of publicly available, multi-center large and diverse datasets. To address this gap, we introduce PolypDB, a large scale publicly available dataset that contains 3934 still polyp images and their corresponding ground truth from real colonoscopy videos to design efficient polyp detection and segmentation architectures. The dataset has been developed and verified by a team of 10 gastroenterologists. PolypDB comprises of images from five modalities: Blue Light Imaging (BLI), Flexible Imaging Color Enhancement (FICE), Linked Color Imaging (LCI), Narrow Band Imaging (NBI), and White Light Imaging (WLI) and three medical centers from Norway, Sweden and Vietnam. Thus, we split the dataset based on modality and medical center for modality-wise and center-wise analysis. We provide a benchmark on each modality using eight popular segmentation methods and six standard benchmark polyp detection methods. Furthermore, we also provide benchmark on center-wise under federated learning settings. Our dataset is public and can be downloaded at \url{https://osf.io/pr7ms/}.

Published
2024

3. Practical and Ethical Considerations for Generative AI in Medical Imaging

Author

Jha, Debesh, Rauniyar, Ashish, Hagos, Desta Haileselassie, Sharma, Vanshali, Tomar, Nikhil Kumar, Zhang, Zheyuan, Isler, Ilkin, Durak, Gorkem, Wallace, Michael, Yazici, Cemal, Berzin, Tyler, Biswas, Koushik, Bagci, Ulas, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Puyol-Antón, Esther, editor, Zamzmi, Ghada, editor, Feragen, Aasa, editor, King, Andrew P., editor, Cheplygina, Veronika, editor, Ganz-Benjaminsen, Melanie, editor, Ferrante, Enzo, editor, Glocker, Ben, editor, Petersen, Eike, editor, Baxter, John S. H., editor, Rekik, Islem, editor, and Eagleson, Roy, editor

Published
2025
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4. The Bethesda ERCP Skills Assessment Tool (BESAT) can reliably differentiate endoscopists of different experience levels.

Author

Liu, Kevin, Elmunzer, B, Wani, Sachin, Taft, Tiffany, Walsh, Catharine, Arain, Mustafa, Berzin, Tyler, Buxbaum, James, DiMaio, Christopher, Fehmi, Syed, Gupta, Neil, Jonnalagadda, Sreenivasa, Kushnir, Vladimir, Maple, John, Muthusamy, Raman, Rastogi, Amit, Shah, Janak, Chak, Amitabh, Faulx, Ashley, Forbes, Nauzer, and Keswani, Rajesh

Subjects
ERC topics, Pancreatobiliary (ERCP/PTCD), Quality and logistical aspects, Quality management, Training
Abstract

Background and study aims The Bethesda ERCP Skill Assessment Tool (BESAT) is a video-based assessment tool of technical endoscopic retrograde cholangiopancreatography (ERCP) skill with previously established validity evidence. We aimed to assess the discriminative validity of the BESAT in differentiating ERCP skill levels. Methods Twelve experienced ERCP practitioners from tertiary academic centers were asked to blindly rate 43 ERCP videos using the BESAT. ERCP videos consisted of native biliary cannulation and sphincterotomy and were recorded from 10 unique endoscopists of various ERCP experience (from advanced endoscopy fellow to > 10 years of ERCP experience). Inter-rater reliability, discriminative validity, and internal structure validity were subsequently assessed. Results The BESAT was found to reliably differentiate between endoscopists of varying levels of ERCP experience with experienced ERCPists scoring higher than novice ERCPists in 11 of 13 (85%) instrument items. Inter-rater reliability for BESAT items ranged from good to excellent (intraclass correlation range: 0.86 to 0.93). Internal structure validity was assessed with item-total correlations ranging from 0.53 to 0.83. Conclusions Study findings demonstrate that the BESAT, a video-based ERCP skill assessment tool, has high inter-rater reliability and has discriminative validity in differentiating novice from expert ERCP skill. Further investigations are needed to determine the role of video-based assessment in improving trainee learning curves and patient outcomes.

Published
2024

7. Artificial intelligence in gastroenterology and hepatology: how to advance clinical practice while ensuring health equity

Author

Uche-Anya, Eugenia, Anyane-Yeboa, Adjoa, Berzin, Tyler M, Ghassemi, Marzyeh, and May, Folasade P

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Nutrition and Dietetics, Clinical Research, Cancer, Health Services, Digestive Diseases, Autoimmune Disease, Good Health and Well Being, Artificial Intelligence, Clinical Decision-Making, Gastroenterology, Health Equity, Humans, Machine Learning, IBD, oesophageal cancer, liver transplantation, colorectal cancer, Paediatrics and Reproductive Medicine, Gastroenterology & Hepatology, Clinical sciences, Nutrition and dietetics
Abstract

Artificial intelligence (AI) and machine learning (ML) systems are increasingly used in medicine to improve clinical decision-making and healthcare delivery. In gastroenterology and hepatology, studies have explored a myriad of opportunities for AI/ML applications which are already making the transition to bedside. Despite these advances, there is a risk that biases and health inequities can be introduced or exacerbated by these technologies. If unrecognised, these technologies could generate or worsen systematic racial, ethnic and sex disparities when deployed on a large scale. There are several mechanisms through which AI/ML could contribute to health inequities in gastroenterology and hepatology, including diagnosis of oesophageal cancer, management of inflammatory bowel disease (IBD), liver transplantation, colorectal cancer screening and many others. This review adapts a framework for ethical AI/ML development and application to gastroenterology and hepatology such that clinical practice is advanced while minimising bias and optimising health equity.

Published
2022

16. Establishing key research questions for the implementation of artificial intelligence in colonoscopy: a modified Delphi method

Author

Ahmad, Omer F, Mori, Yuichi, Misawa, Masashi, Kudo, Shin-ei, Anderson, John T, Bernal, Jorge, Berzin, Tyler M, Bisschops, Raf, Byrne, Michael F, Chen, Peng-Jen, East, James E, Eelbode, Tom, Elson, Daniel S, Gurudu, Suryakanth R, Histace, Aymeric, Karnes, William E, Repici, Alessandro, Singh, Rajvinder, Valdastri, Pietro, Wallace, Michael B, Wang, Pu, Stoyanov, Danail, and Lovat, Laurence B

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Cancer, Prevention, Artificial Intelligence, Colonoscopy, Delphi Technique, Humans, Gastroenterology & Hepatology, Clinical sciences
Abstract

BACKGROUND : Artificial intelligence (AI) research in colonoscopy is progressing rapidly but widespread clinical implementation is not yet a reality. We aimed to identify the top implementation research priorities. METHODS : An established modified Delphi approach for research priority setting was used. Fifteen international experts, including endoscopists and translational computer scientists/engineers, from nine countries participated in an online survey over 9 months. Questions related to AI implementation in colonoscopy were generated as a long-list in the first round, and then scored in two subsequent rounds to identify the top 10 research questions. RESULTS : The top 10 ranked questions were categorized into five themes. Theme 1: clinical trial design/end points (4 questions), related to optimum trial designs for polyp detection and characterization, determining the optimal end points for evaluation of AI, and demonstrating impact on interval cancer rates. Theme 2: technological developments (3 questions), including improving detection of more challenging and advanced lesions, reduction of false-positive rates, and minimizing latency. Theme 3: clinical adoption/integration (1 question), concerning the effective combination of detection and characterization into one workflow. Theme 4: data access/annotation (1 question), concerning more efficient or automated data annotation methods to reduce the burden on human experts. Theme 5: regulatory approval (1 question), related to making regulatory approval processes more efficient. CONCLUSIONS : This is the first reported international research priority setting exercise for AI in colonoscopy. The study findings should be used as a framework to guide future research with key stakeholders to accelerate the clinical implementation of AI in endoscopy.

Published
2021

22. Novel through-the-scope suture closure of colonic EMR defects (with video)

Author

Bi, Danse, Zhang, Linda Y., Alqaisieh, Mohammad, Shrigiriwar, Apurva, Farha, Jad, Mahmoud, Tala, Akiki, Karl, Almario, Jose Antonio, Shah-Khan, Sardar M., Gordon, Stuart R., Adler, Jeffrey M., Radetic, Mark, Draganov, Peter V., David, Yakira N., Shinn, Brianna, Mohammed, Zahraa, Schlachterman, Alexander, Yuen, Sofia, Al-Taee, Ahmad, Yunseok, Namn, Trasolini, Roberto, Bejjani, Michael, Ghandour, Bachir, Ramberan, Hemchand, Canakis, Andrew, Ngamruengphong, Saowanee, Storm, Andrew C., Singh, Shailendra, Pohl, Heiko, Bucobo, Juan Carlos, Buscaglia, Jonathan M., D’Souza, Lionel S., Qumseya, Bashar, Kumta, Nikhil A., Kumar, Anand, Haber, Gregory B., Aihara, Hiroyuki, Sawhney, Mandeep, Kim, Raymond, Berzin, Tyler M., and Khashab, Mouen A.

Published
2023
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27. Impact of Artificial Intelligence on Colonoscopy Surveillance After Polyp Removal: A Pooled Analysis of Randomized Trials

Author

Mori, Yuichi, Wang, Pu, Løberg, Magnus, Misawa, Masashi, Repici, Alessandro, Spadaccini, Marco, Correale, Loredana, Antonelli, Giulio, Yu, Honggang, Gong, Dexin, Ishiyama, Misaki, Kudo, Shin-ei, Kamba, Shunsuke, Sumiyama, Kazuki, Saito, Yutaka, Nishino, Haruo, Liu, Peixi, Glissen Brown, Jeremy R., Mansour, Nabil M., Gross, Seth A., Kalager, Mette, Bretthauer, Michael, Rex, Douglas K., Sharma, Prateek, Berzin, Tyler M., and Hassan, Cesare

Published
2023
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28. Consensus statements on the current landscape of artificial intelligence applications in endoscopy, addressing roadblocks, and advancing artificial intelligence in gastroenterology

Author

Parasa, Sravanthi, Berzin, Tyler, Leggett, Cadman, Gross, Seth, Repici, Alessandro, Ahmad, Omer F., Chiang, Austin, Coelho-Prabhu, Nayantara, Cohen, Jonathan, Dekker, Evelien, Keswani, Rajesh N., Kahn, Charles E., Hassan, Cesare, Petrick, Nicholas, Mountney, Peter, Ng, Jonathan, Riegler, Michael, Mori, Yuichi, Saito, Yutaka, Thakkar, Shyam, Waxman, Irving, Wallace, Michael Bradley, and Sharma, Prateek

Published
2023
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34. Efficacy, Feasibility, and Safety of the X-Tack Endoscopic HeliX Tacking System: A Multicenter Experience.

Author

Canakis, Andrew, Dawod, Sanad Maher, Dawod, Enad, Simons, Malorie, Di Cocco, Bianca, Westerveld, Donevan Richard, Trasolini, Roberto Paolo, Berzin, Tyler M., Marshall, Christopher A., Abdelfattah, Ahmed Maher, Marya, Neil B., Smallfield, George B., Kaspar, Matthew, Campos, Guilherme M., Skef, Wasseem, Kedia, Prashant, Smith, Terrence A., Hiroyuki Aihara, Moyer, Matthew T., and Sampath, Kartik

Published
2024
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37. Consensus statements on the current landscape of artificial intelligence applications in endoscopy, addressing roadblocks, and advancing artificial intelligence in gastroenterology

Author

Parasa, Sravanthi, primary, Berzin, Tyler, additional, Leggett, Cadman, additional, Gross, Seth, additional, Repici, Alessandro, additional, Ahmad, Omer F., additional, Chiang, Austin, additional, Coelho-Prabhu, Nayantara, additional, Cohen, Jonathan, additional, Dekker, Evelien, additional, Keswani, Rajesh N., additional, Kahn, Charles E., additional, Hassan, Cesare, additional, Petrick, Nicholas, additional, Mountney, Peter, additional, Ng, Jonathan, additional, Riegler, Michael, additional, Mori, Yuichi, additional, Saito, Yutaka, additional, Thakkar, Shyam, additional, Waxman, Irving, additional, Wallace, Michael Bradley, additional, and Sharma, Prateek, additional

Published
2024
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44. Computer-Aided Diagnosis for Leaving Colorectal Polyps In Situ: A Systematic Review and Meta-analysis.

Author

Hassan, Cesare, Misawa, Masashi, Rizkala, Tommy, Mori, Yuichi, Sultan, Shahnaz, Facciorusso, Antonio, Antonelli, Giulio, Spadaccini, Marco, Houwen, Britt B.S.L., Rondonotti, Emanuele, Patel, Harsh, Khalaf, Kareem, Li, James Weiquan, Fernandez, Gloria M., Bhandari, Pradeep, Dekker, Evelien, Gross, Seth, Berzin, Tyler, Vandvik, Per Olav, and Correale, Loredana

Subjects
COMPUTER-aided diagnosis, COLON polyps, ARTIFICIAL intelligence, IMAGE analysis, DATA extraction, POLYPS
Abstract

Small polyps found in the distal colon during colonoscopy are often nonneoplastic. However, the visual features of these polyps are not reliable for distinguishing them from neoplastic adenomatous polyps. Computer-aided diagnosis (CADx) is an artificial intelligence–based image analysis technology designed to integrate with colonoscopy to determine whether a polyp is nonneoplastic and thus does not require removal. The objective of this systematic review and meta-analysis was to evaluate existing studies reporting on the diagnostic performance of CADx when used during colonoscopy. Background: Computer-aided diagnosis (CADx) allows prediction of polyp histology during colonoscopy, which may reduce unnecessary removal of nonneoplastic polyps. However, the potential benefits and harms of CADx are still unclear. Purpose: To quantify the benefit and harm of using CADx in colonoscopy for the optical diagnosis of small (≤5-mm) rectosigmoid polyps. Data Sources: Medline, Embase, and Scopus were searched for articles published before 22 December 2023. Study Selection: Histologically verified diagnostic accuracy studies that evaluated the real-time performance of physicians in predicting neoplastic change of small rectosigmoid polyps without or with CADx assistance during colonoscopy. Data Extraction: The clinical benefit and harm were estimated on the basis of accuracy values of the endoscopist before and after CADx assistance. The certainty of evidence was assessed using the GRADE (Grading of Recommendations Assessment, Development and Evaluation) framework. The outcome measure for benefit was the proportion of polyps predicted to be nonneoplastic that would avoid removal with the use of CADx. The outcome measure for harm was the proportion of neoplastic polyps that would be not resected and left in situ due to an incorrect diagnosis with the use of CADx. Histology served as the reference standard for both outcomes. Data Synthesis: Ten studies, including 3620 patients with 4103 small rectosigmoid polyps, were analyzed. The studies that assessed the performance of CADx alone (9 studies; 3237 polyps) showed a sensitivity of 87.3% (95% CI, 79.2% to 92.5%) and specificity of 88.9% (CI, 81.7% to 93.5%) in predicting neoplastic change. In the studies that compared histology prediction performance before versus after CADx assistance (4 studies; 2503 polyps), there was no difference in the proportion of polyps predicted to be nonneoplastic that would avoid removal (55.4% vs. 58.4%; risk ratio [RR], 1.06 [CI, 0.96 to 1.17]; moderate-certainty evidence) or in the proportion of neoplastic polyps that would be erroneously left in situ (8.2% vs. 7.5%; RR, 0.95 [CI, 0.69 to 1.33]; moderate-certainty evidence). Limitation: The application of optical diagnosis was only simulated, potentially altering the decision-making process of the operator. Conclusion: Computer-aided diagnosis provided no incremental benefit or harm in the management of small rectosigmoid polyps during colonoscopy. Primary Funding Source: European Commission. (PROSPERO: CRD42023402197) [ABSTRACT FROM AUTHOR]

Published
2024
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47. Narrow-band imaging for scar (NBI-SCAR) classification: from conception to multicenter validation

Author

Zorron Cheng Tao Pu, Leonardo, Chiam, Keng Hoong, Yamamura, Takeshi, Nakamura, Masanao, Berzin, Tyler M., Mir, Fahad F., Hourneaux de Moura, Eduardo Guimarães, Madruga Neto, Antonio Coutinho, Koay, Doreen Siew Ching, Loong, Cheong Kuan, Ovenden, Amanda, Edwards, Suzanne, Burt, Alastair D., Hirooka, Yoshiki, Fujishiro, Mitsuhiro, and Singh, Rajvinder

Published
2020
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