Below are the most recent publications written about "Image Interpretation, Computer-Assisted" by people in Profiles.
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Benveniste PL, L?tourneau-Guillon L, Araujo D, Chougar L, Fetco D, Hori M, Kamiya K, Messina S, Tsagkas C, Audoin B, Bakshi R, Bannier E, Blezek D, Brisset JC, Callot V, Charlson E, Chen M, Ciccarelli O, Demorti?re S, Edan G, Filippi M, Granberg T, Granziera C, Hemond CC, Keegan BM, Kerbrat A, Kirschke J, Kolind S, Labauge P, Lee LE, Liu Y, Mainero C, McGinnis J, Laines Medina N, M?hlau M, Nair G, O'Grady KP, Oh J, Ouellette R, Prat A, Reich DS, Rocca MA, Shepherd TM, Smith SA, Stawiarz L, Talbott J, Tam R, Tauhid S, Traboulsee A, Treaba CA, Valsasina P, Vavasour Z, Yiannakas M, Lombaert H, Cohen-Adad J. Generalizable spinal cord multiple sclerosis lesion segmentation across MRI contrasts, protocols, and centers. Mult Scler. 2026 May; 32(6):598-613.
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Amyar A, Nakamori S, Kim J, Maron MS, Rowin EJ, Pareek K, Schulz A, Judd RM, Manning WJ, Kwong RY, Ruberg FL, Weinsaft JW, Nezafat R. Spatiotemporal deep learning for scar screening in cardiovascular magnetic resonance: Toward selective use of gadolinium. J Cardiovasc Magn Reson. 2026 Summer; 28(1):102730.
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Bao R, Foster AN, Song Y, Vyas R, Kesri A, Eddine Toubal I, Soltani Kazemi E, Rahmon G, Kucukpinar T, Almansour M, Ho ML, Palaniappan K, Ninalga D, Prasad Koirala C, Mohapatra S, Schlaug G, Wodzinski M, Muller H, Ellis DG, Aizenberg MR, Arda Aydin M, Abdinli E, Unal G, Tahmasebi N, Punithakumar K, Song T, Peng Y, Bates SV, Hirschtick R, Ellen Grant P, Ou Y. BONBID-HIE 2023: Lesion Segmentation Challenge in BOston Neonatal Brain Injury Data for Hypoxic Ischemic Encephalopathy. IEEE Trans Med Imaging. 2026 Apr; 45(4):1711-1725.
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Sigmund EE, Rauh SS, Iima M, Federau C, Hernando D, Jalnefjord O, Jansen JFA, Jasse J, Jerome NP, Kaandorp MPT, Kurugol S, Laun FB, Liu MM, Ljimani A, Niendorf T, Reiter DA, Shazeeb MS, Shukla-Dave A, Stabinska J, Wetscherek A, While PT, Wu D, Le Bihan D, Gurney-Champion OJ. Towards Clinical Translation of Intravoxel Incoherent Motion MRI: Acquisition and Analysis Consensus Recommendations. J Magn Reson Imaging. 2026 06; 63(6):1782-1801.
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Ge C, Jang J, Svrcek P, Fleming V, Kim YH. Exploring Deep Learning Applications using Ultrasound Single View Cines in Acute Gallbladder Pathologies: Preliminary Results. Acad Radiol. 2025 02; 32(2):770-775.
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Marya NB, Powers PD, Bois MC, Hartley C, Kerr SE, Thangaiah JJ, Norton D, Abu Dayyeh BK, Cantley R, Chandrasekhara V, Gores G, Gleeson FC, Law RJ, Maleki Z, Martin JA, Pantanowitz L, Petersen B, Storm AC, Levy MJ, Graham RP. Utilization of an artificial intelligence-enhanced, web-based application to review bile duct brushing cytologic specimens: A pilot study. Cancer Cytopathol. 2024 12; 132(12):779-787.
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Tang GHL, Zaid S, Hahn RT, Aggarwal V, Alkhouli M, Aman E, Berti S, Chandrashekhar YS, Chadderdon SM, D'Agostino A, Fam NP, Ho EC, Kliger C, Kodali SK, Krishnamoorthy P, Latib A, Lerakis S, Lim DS, Mahadevan VS, Nair DG, Narula J, O'Gara PT, Packer DL, Praz F, Rogers JH, Ruf TF, Sanchez CE, Sharma A, Singh GD, van Mieghem NM, Vannan MA, Yadav PK, Ya'Qoub L, Zahr FE, von Bardeleben RS. Structural Heart Imaging Using 3-Dimensional Intracardiac Echocardiography: JACC: Cardiovascular Imaging Position Statement. JACC Cardiovasc Imaging. 2025 Jan; 18(1):93-115.
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Morales MA, Ghanbari F, Nakamori S, Assana S, Amyar A, Yoon S, Rodriguez J, Maron MS, Rowin EJ, Kim J, Judd RM, Weinsaft JW, Nezafat R. Deformation-encoding Deep Learning Transformer for High-Frame-Rate Cardiac Cine MRI. Radiol Cardiothorac Imaging. 2024 06; 6(3):e230177.
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Li D, Bledsoe JR, Zeng Y, Liu W, Hu Y, Bi K, Liang A, Li S. A deep learning diagnostic platform for diffuse large B-cell lymphoma with high accuracy across multiple hospitals. Nat Commun. 2020 11 26; 11(1):6004.
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Marya NB, Powers PD, Chari ST, Gleeson FC, Leggett CL, Abu Dayyeh BK, Chandrasekhara V, Iyer PG, Majumder S, Pearson RK, Petersen BT, Rajan E, Sawas T, Storm AC, Vege SS, Chen S, Long Z, Hough DM, Mara K, Levy MJ. Utilisation of artificial intelligence for the development of an EUS-convolutional neural network model trained to enhance the diagnosis of autoimmune pancreatitis. Gut. 2021 07; 70(7):1335-1344.