Citations

Citations to this article as recorded by  

• Mapping the cellular landscape of Atlantic salmon head kidney by single cell and single nucleus transcriptomics
  Adriana M.S. Andresen, Richard S. Taylor, Unni Grimholt, Rose Ruiz Daniels, Jianxuan Sun, Ross Dobie, Neil C. Henderson, Samuel A.M. Martin, Daniel J. Macqueen, Johanna H. Fosse
  Fish & Shellfish Immunology.2024; 146: 109357.     CrossRef
• Impaired cortical neuronal homeostasis and cognition after diffuse traumatic brain injury are dependent on microglia and type I interferon responses
  Jonathan M. Packer, Chelsea E. Bray, Nicolas B. Beckman, Lynde M. Wangler, Amara C. Davis, Ethan J. Goodman, Nathaniel E. Klingele, Jonathan P. Godbout
  Glia.2024; 72(2): 300.     CrossRef
• Adipose tissue macrophage heterogeneity in the single-cell genomics era
  Haneul Kang, Jongsoon Lee
  Molecules and Cells.2024; 47(2): 100031.     CrossRef
• Single-cell and spatially resolved transcriptomics for liver biology
  Ping Lin, Xi Yan, Siyu Jing, Yanhong Wu, Yiran Shan, Wenbo Guo, Jin Gu, Yu Li, Haibing Zhang, Hong Li
  Hepatology.2023;[Epub]     CrossRef
• Integrated analysis of single-cell and bulk RNA-seq establishes a novel signature for prediction in gastric cancer
  Fei Wen, Xin Guan, Hai-Xia Qu, Xiang-Jun Jiang
  World Journal of Gastrointestinal Oncology.2023; 15(7): 1215.     CrossRef
• Placental single cell transcriptomics: Opportunities for endocrine disrupting chemical toxicology
  Elana R. Elkin, Kyle A. Campbell, Samantha Lapehn, Sean M. Harris, Vasantha Padmanabhan, Kelly M. Bakulski, Alison G. Paquette
  Molecular and Cellular Endocrinology.2023; 578: 112066.     CrossRef
• Analyzing alternative splicing in Alzheimer’s disease postmortem brain: a cell-level perspective
  Mohammad-Erfan Farhadieh, Kamran Ghaedi
  Frontiers in Molecular Neuroscience.2023;[Epub]     CrossRef
• Single-nucleus transcriptome inventory of giant panda reveals cellular basis for fitness optimization under low metabolism
  Shangchen Yang, Tianming Lan, Rongping Wei, Ling Zhang, Lin Lin, Hanyu Du, Yunting Huang, Guiquan Zhang, Shan Huang, Minhui Shi, Chengdong Wang, Qing Wang, Rengui Li, Lei Han, Dan Tang, Haimeng Li, Hemin Zhang, Jie Cui, Haorong Lu, Jinrong Huang, Yonglun
  BMC Biology.2023;[Epub]     CrossRef
• Single-cell transcriptomics in thyroid eye disease
  Sofia Ahsanuddin, Albert Y. Wu
  Taiwan Journal of Ophthalmology.2023;[Epub]     CrossRef

Citations

Citations to this article as recorded by  

• Tumor-associated microenvironment, PD-L1 expression and their relationship with immunotherapy in glioblastoma, IDH-wild type: A comprehensive review with emphasis on the implications for neuropathologists
  Giuseppe Broggi, Giuseppe Angelico, Jessica Farina, Giordana Tinnirello, Valeria Barresi, Magda Zanelli, Andrea Palicelli, Francesco Certo, Giuseppe Barbagallo, Gaetano Magro, Rosario Caltabiano
  Pathology - Research and Practice.2024; 254: 155144.     CrossRef
• Analysis of PD-L1 and CD3 Expression in Glioblastoma Patients and Correlation with Outcome: A Single Center Report
  Navid Sobhani, Victoria Bouchè, Giovanni Aldegheri, Andrea Rocca, Alberto D’Angelo, Fabiola Giudici, Cristina Bottin, Carmine Antonio Donofrio, Maurizio Pinamonti, Benvenuto Ferrari, Stefano Panni, Marika Cominetti, Jahard Aliaga, Marco Ungari, Antonio Fi
  Biomedicines.2023; 11(2): 311.     CrossRef
• Immuno-PET Imaging of Tumour PD-L1 Expression in Glioblastoma
  Gitanjali Sharma, Marta C. Braga, Chiara Da Pieve, Wojciech Szopa, Tatjana Starzetz, Karl H. Plate, Wojciech Kaspera, Gabriela Kramer-Marek
  Cancers.2023; 15(12): 3131.     CrossRef

Citations

Citations to this article as recorded by  

• Vision Transformers for Breast Cancer Human Epidermal Growth Factor Receptor 2 Expression Staging without Immunohistochemical Staining
  Gelan Ayana, Eonjin Lee, Se-woon Choe
  The American Journal of Pathology.2024; 194(3): 402.     CrossRef
• Marker assessments in ER‐positive breast cancers: old markers, new applications?
  Joshua J X Li, Gary M Tse
  Histopathology.2023; 82(2): 218.     CrossRef
• The Story of the Magee Equations: The Ultimate in Applied Immunohistochemistry
  Rohit Bhargava, David J. Dabbs
  Applied Immunohistochemistry & Molecular Morphology.2023; 31(7): 490.     CrossRef
• Dose-Dependent Relationship between Protection of Thioacetamide-Induced Acute Liver Injury and Hyperammonemia and Concentration of Lactobacillus salivarius Li01 in Mice
  Pengcheng Lou, Yangfan Shen, Aoxiang Zhuge, Longxian Lv, Xueling Zhu, Yin Yuan, Liya Yang, Kaicen Wang, Bo Li, Lanjuan Li, Joanna B. Goldberg
  Microbiology Spectrum.2021;[Epub]     CrossRef

Citations

Citations to this article as recorded by  

• Prognostic value of PAX8 in small cell lung cancer
  Fengyun Tao, Hangyan Zhu, Jiayun Xu, Yanan Guo, Xin Wang, Lei Shao, Deng Pan, Guosheng Li, Rong Fang
  Heliyon.2024; 10(7): e28251.     CrossRef
• Cystic primary squamous cell carcinoma of the thyroid
  Sakurako Harada‐Kagitani, Yusuke Kouchi, Yoshiki Shinomiya, Takuto Hiramoto, Tomoyuki Arai, Toyoyuki Hanazawa, Kiyotaka Onodera, Kaito Nakama, Takanori Aihara, Masayuki Ota, Jun‐Ichiro Ikeda, Takashi Kishimoto
  Pathology International.2024;[Epub]     CrossRef
• Immunocytochemistry of effusions: Processing and commonly used immunomarkers
  Vinod B. Shidham, Beata Janikowski
  Cytojournal.2022; 19: 6.     CrossRef
• Significance analysis of PAX8 expression in endometrial carcinoma
  Shan Hu, Hua Gan, Fengmei Yang
  Medicine.2022; 101(42): e31159.     CrossRef

Citations

Citations to this article as recorded by  

• The Significance of Relative Claudin Expression in Odontogenic Tumors
  Ekarat Phattarataratip, Kraisorn Sappayatosok
  Head and Neck Pathology.2020; 14(2): 480.     CrossRef
• Claudin-1 upregulation is associated with favorable tumor features and a reduced risk for biochemical recurrence in ERG-positive prostate cancer
  Simon Kind, Franziska Büscheck, Doris Höflmayer, Claudia Hube-Magg, Martina Kluth, Maria Christina Tsourlakis, Stefan Steurer, Till S. Clauditz, Andreas M. Luebke, Eike Burandt, Waldemar Wilczak, Andrea Hinsch, David Dum, Sören Weidemann, Christoph Fraune
  World Journal of Urology.2020; 38(9): 2185.     CrossRef
• Characterisation of endogenous Claudin‐1 expression, motility and susceptibility to hepatitis C virus in CRISPR knock‐in cells
  Camille M.H. Clément, Maika S. Deffieu, Cristina M. Dorobantu, Thomas F. Baumert, Nilda Vanesa Ayala‐Nunez, Yves Mély, Philippe Ronde, Raphael Gaudin
  Biology of the Cell.2020; 112(5): 140.     CrossRef
• Comment on “Prognostic Role of Claudin-1 Immunohistochemistry in Malignant Solid Tumors: A Meta-Analysis”
  Bolin Wang, Yan Huang
  Journal of Pathology and Translational Medicine.2019; 53(6): 411.     CrossRef

Citations

Citations to this article as recorded by  

• Whole Slide Imaging Technology and Its Applications: Current and Emerging Perspectives
  Ekta Jain, Ankush Patel, Anil V. Parwani, Saba Shafi, Zoya Brar, Shivani Sharma, Sambit K. Mohanty
  International Journal of Surgical Pathology.2024; 32(3): 433.     CrossRef
• ChatGPT as an aid for pathological diagnosis of cancer
  Shaivy Malik, Sufian Zaheer
  Pathology - Research and Practice.2024; 253: 154989.     CrossRef
• Computational pathology: A survey review and the way forward
  Mahdi S. Hosseini, Babak Ehteshami Bejnordi, Vincent Quoc-Huy Trinh, Lyndon Chan, Danial Hasan, Xingwen Li, Stephen Yang, Taehyo Kim, Haochen Zhang, Theodore Wu, Kajanan Chinniah, Sina Maghsoudlou, Ryan Zhang, Jiadai Zhu, Samir Khaki, Andrei Buin, Fatemeh
  Journal of Pathology Informatics.2024; 15: 100357.     CrossRef
• Applications of artificial intelligence in the field of oral and maxillofacial pathology: a systematic review and meta-analysis
  Nishath Sayed Abdul, Ganiga Channaiah Shivakumar, Sunila Bukanakere Sangappa, Marco Di Blasio, Salvatore Crimi, Marco Cicciù, Giuseppe Minervini
  BMC Oral Health.2024;[Epub]     CrossRef
• Machine-learning models are superior to severity scoring systems for the prediction of the mortality of critically ill patients in a tertiary medical center
  Ruey-Hsing Chou, Benny Wei-Yun Hsu, Chun-Lin Yu, Tai-Yuan Chen, Shuo-Ming Ou, Kuo-Hua Lee, Vincent S. Tseng, Po-Hsun Huang, Der-Cherng Tarng
  Journal of the Chinese Medical Association.2024; 87(4): 369.     CrossRef
• The Evaluation of Artificial Intelligence Technology for the Differentiation of Fresh Human Blood Cells From Other Species Blood in the Investigation of Crime Scenes
  Syed Sajid Hussain Shah, Ekramy Elmorsy, Rashad Qasem Ali Othman, Asmara Syed, Syed Umar Armaghan, Syed Usama Khalid Bokhari, Mahmoud E Elmorsy, Abdulhakim Bawadekji
  Cureus.2024;[Epub]     CrossRef
• The Constrained-Disorder Principle Assists in Overcoming Significant Challenges in Digital Health: Moving from “Nice to Have” to Mandatory Systems
  Noa Hurvitz, Yaron Ilan
  Clinics and Practice.2023; 13(4): 994.     CrossRef
• Building a nonclinical pathology laboratory of the future for pharmaceutical research excellence
  D.G. Rudmann, L. Bertrand, A. Zuraw, J. Deiters, M. Staup, Y. Rivenson, J. Kuklyte
  Drug Discovery Today.2023; 28(10): 103747.     CrossRef
• Automated image analysis of keratin 7 staining can predict disease outcome in primary sclerosing cholangitis
  Nelli Sjöblom, Sonja Boyd, Anniina Manninen, Sami Blom, Anna Knuuttila, Martti Färkkilä, Johanna Arola
  Hepatology Research.2023; 53(4): 322.     CrossRef
• Application of convolutional neural network for analyzing hepatic fibrosis in mice
  Hyun-Ji Kim, Eun Bok Baek, Ji-Hee Hwang, Minyoung Lim, Won Hoon Jung, Myung Ae Bae, Hwa-Young Son, Jae-Woo Cho
  Journal of Toxicologic Pathology.2023; 36(1): 21.     CrossRef
• Machine Learning Techniques for Prognosis Estimation and Knowledge Discovery From Lab Test Results With Application to the COVID-19 Emergency
  Alfonso Emilio Gerevini, Roberto Maroldi, Matteo Olivato, Luca Putelli, Ivan Serina
  IEEE Access.2023; 11: 83905.     CrossRef
• Artificial intelligence in dentistry—A review
  Hao Ding, Jiamin Wu, Wuyuan Zhao, Jukka P. Matinlinna, Michael F. Burrow, James K. H. Tsoi
  Frontiers in Dental Medicine.2023;[Epub]     CrossRef
• Dental Age Estimation Using the Demirjian Method: Statistical Analysis Using Neural Networks
  Byung-Yoon Roh, Jong-Seok Lee, Sang-Beom Lim, Hye-Won Ryu, Su-Jeong Jeon, Ju-Heon Lee, Yo-Seob Seo, Ji-Won Ryu, Jong-Mo Ahn
  Korean Journal of Legal Medicine.2023; 47(1): 1.     CrossRef
• The use of artificial intelligence in health care. Problems of identification of patients' conditions in the processes of detailing the diagnosis
  Mintser O
  Artificial Intelligence.2023; 28(AI.2023.28): 8.     CrossRef
• The Effectiveness of Data Augmentation for Mature White Blood Cell Image Classification in Deep Learning — Selection of an Optimal Technique for Hematological Morphology Recognition —
  Hiroyuki NOZAKA, Kosuke KAMATA, Kazufumi YAMAGATA
  IEICE Transactions on Information and Systems.2023; E106.D(5): 707.     CrossRef
• Rectal Cancer Stages T2 and T3 Identification Based on Asymptotic Hybrid Feature Maps
  Shujing Sun, Jiale Wu, Jian Yao, Yang Cheng, Xin Zhang, Zhihua Lu, Pengjiang Qian
  Computer Modeling in Engineering & Sciences.2023; 137(1): 923.     CrossRef
• How to use AI in pathology
  Peter Schüffler, Katja Steiger, Wilko Weichert
  Genes, Chromosomes and Cancer.2023; 62(9): 564.     CrossRef
• Cutting-Edge Technologies for Digital Therapeutics: A Review and Architecture Proposals for Future Directions
  Joo Hun Yoo, Harim Jeong, Tai-Myoung Chung
  Applied Sciences.2023; 13(12): 6929.     CrossRef
• A convolutional neural network STIFMap reveals associations between stromal stiffness and EMT in breast cancer
  Connor Stashko, Mary-Kate Hayward, Jason J. Northey, Neil Pearson, Alastair J. Ironside, Johnathon N. Lakins, Roger Oria, Marie-Anne Goyette, Lakyn Mayo, Hege G. Russnes, E. Shelley Hwang, Matthew L. Kutys, Kornelia Polyak, Valerie M. Weaver
  Nature Communications.2023;[Epub]     CrossRef
• Artificial Intelligence-Based PTEN Loss Assessment as an Early Predictor of Prostate Cancer Metastasis After Surgery: A Multicenter Retrospective Study
  Palak Patel, Stephanie Harmon, Rachael Iseman, Olga Ludkowski, Heidi Auman, Sarah Hawley, Lisa F. Newcomb, Daniel W. Lin, Peter S. Nelson, Ziding Feng, Hilary D. Boyer, Maria S. Tretiakova, Larry D. True, Funda Vakar-Lopez, Peter R. Carroll, Matthew R. Co
  Modern Pathology.2023; 36(10): 100241.     CrossRef
• Minimum resolution requirements of digital pathology images for accurate classification
  Lydia Neary-Zajiczek, Linas Beresna, Benjamin Razavi, Vijay Pawar, Michael Shaw, Danail Stoyanov
  Medical Image Analysis.2023; 89: 102891.     CrossRef
• Artificial Intelligence in the Pathology of Gastric Cancer
  Sangjoon Choi, Seokhwi Kim
  Journal of Gastric Cancer.2023; 23(3): 410.     CrossRef
• Endoscopic Ultrasound-Based Artificial Intelligence Diagnosis of Pancreatic Cystic Neoplasms
  Jin-Seok Park, Seok Jeong
  The Korean Journal of Pancreas and Biliary Tract.2023; 28(3): 53.     CrossRef
• Framework for Classifying Explainable Artificial Intelligence (XAI) Algorithms in Clinical Medicine
  Thomas Gniadek, Jason Kang, Talent Theparee, Jacob Krive
  Online Journal of Public Health Informatics.2023; 15: e50934.     CrossRef
• A Literature Review of the Future of Oral Medicine and Radiology, Oral Pathology, and Oral Surgery in the Hands of Technology
  Ishita Singhal, Geetpriya Kaur, Dirk Neefs, Aparna Pathak
  Cureus.2023;[Epub]     CrossRef
• AI-Powered Biomolecular-Specific and Label-Free Multispectral Imaging Rapidly Detects Malignant Neoplasm in Surgically Excised Breast Tissue Specimens
  Rishikesh Pandey, David Fournier, Gary Root, Machele Riccio, Aditya Shirvalkar, Gianfranco Zamora, Noel Daigneault, Michael Sapack, Minghao Zhong, Malini Harigopal
  Archives of Pathology & Laboratory Medicine.2023; 147(11): 1298.     CrossRef
• Exploring the status of artificial intelligence for healthcare research in Africa: a bibliometric and thematic analysis
  Tabu S. Kondo, Salim A. Diwani, Ally S. Nyamawe, Mohamed M. Mjahidi
  AI and Ethics.2023;[Epub]     CrossRef
• Artificial intelligence for patient scheduling in the real-world health care setting: A metanarrative review
  Dacre R.T. Knight, Christopher A. Aakre, Christopher V. Anstine, Bala Munipalli, Parisa Biazar, Ghada Mitri, Jose Raul Valery, Tara Brigham, Shehzad K. Niazi, Adam I. Perlman, John D. Halamka, Abd Moain Abu Dabrh
  Health Policy and Technology.2023; 12(4): 100824.     CrossRef
• Towards Autonomous Healthcare: Integrating Artificial Intelligence (AI) for Personalized Medicine and Disease Prediction
  Nitin Rane, Saurabh Choudhary, Jayesh Rane
  SSRN Electronic Journal.2023;[Epub]     CrossRef
• Medical imaging and multimodal artificial intelligence models for streamlining and enhancing cancer care: opportunities and challenges
  Kevin Pierre, Manas Gupta, Abheek Raviprasad, Seyedeh Mehrsa Sadat Razavi, Anjali Patel, Keith Peters, Bruno Hochhegger, Anthony Mancuso, Reza Forghani
  Expert Review of Anticancer Therapy.2023; 23(12): 1265.     CrossRef
• Automated differential diagnostics of respiratory diseases using an electronic stethoscope
  Diana Arhypenko, Denis Panaskin, Dmytro Babko
  Polish Journal of Medical Physics and Engineering.2023; 29(4): 208.     CrossRef
• Application of machine learning in identification of pathogenic microbes
  Lakshmi Venkata S Kutikuppala, Kanishk K Adhit, Reewen George D Silva
  Digital Medicine.2023;[Epub]     CrossRef
• Automated abstraction of myocardial perfusion imaging reports using natural language processing
  Parija Sharedalal, Ajay Singh, Neal Shah, Diwakar Jain
  Journal of Nuclear Cardiology.2022; 29(3): 1188.     CrossRef
• Polyploid giant cancer cell characterization: New frontiers in predicting response to chemotherapy in breast cancer
  Geetanjali Saini, Shriya Joshi, Chakravarthy Garlapati, Hongxiao Li, Jun Kong, Jayashree Krishnamurthy, Michelle D. Reid, Ritu Aneja
  Seminars in Cancer Biology.2022; 81: 220.     CrossRef
• A Comprehensive Review of Markov Random Field and Conditional Random Field Approaches in Pathology Image Analysis
  Yixin Li, Chen Li, Xiaoyan Li, Kai Wang, Md Mamunur Rahaman, Changhao Sun, Hao Chen, Xinran Wu, Hong Zhang, Qian Wang
  Archives of Computational Methods in Engineering.2022; 29(1): 609.     CrossRef
• Artificial intelligence in oncology: From bench to clinic
  Jamal Elkhader, Olivier Elemento
  Seminars in Cancer Biology.2022; 84: 113.     CrossRef
• Yeast‐like organisms phagocytosed by circulating neutrophils: Evidence of disseminated histoplasmosis
  Yue Zhao, Jenna McCracken, Endi Wang
  International Journal of Laboratory Hematology.2022; 44(1): 51.     CrossRef
• Whole-slide imaging, tissue image analysis, and artificial intelligence in veterinary pathology: An updated introduction and review
  Aleksandra Zuraw, Famke Aeffner
  Veterinary Pathology.2022; 59(1): 6.     CrossRef
• A comprehensive review of computer-aided whole-slide image analysis: from datasets to feature extraction, segmentation, classification and detection approaches
  Xintong Li, Chen Li, Md Mamunur Rahaman, Hongzan Sun, Xiaoqi Li, Jian Wu, Yudong Yao, Marcin Grzegorzek
  Artificial Intelligence Review.2022; 55(6): 4809.     CrossRef
• Liquid Biopsy and Artificial Intelligence as Tools to Detect Signatures of Colorectal Malignancies: A Modern Approach in Patient’s Stratification
  Octav Ginghina, Ariana Hudita, Marius Zamfir, Andrada Spanu, Mara Mardare, Irina Bondoc, Laura Buburuzan, Sergiu Emil Georgescu, Marieta Costache, Carolina Negrei, Cornelia Nitipir, Bianca Galateanu
  Frontiers in Oncology.2022;[Epub]     CrossRef
• Automated bone marrow cytology using deep learning to generate a histogram of cell types
  Rohollah Moosavi Tayebi, Youqing Mu, Taher Dehkharghanian, Catherine Ross, Monalisa Sur, Ronan Foley, Hamid R. Tizhoosh, Clinton J. V. Campbell
  Communications Medicine.2022;[Epub]     CrossRef
• Risultati di esami di laboratorio per intelligenza artificiale e "machine learning"
  Marco PRADELLA
  La Rivista Italiana della Medicina di Laboratorio.2022;[Epub]     CrossRef
• The Deception of Certainty: how Non-Interpretable Machine Learning Outcomes Challenge the Epistemic Authority of Physicians. A deliberative-relational Approach
  Florian Funer
  Medicine, Health Care and Philosophy.2022; 25(2): 167.     CrossRef
• Deep discriminative learning model with calibrated attention map for the automated diagnosis of diffuse large B-cell lymphoma
  Sautami Basu, Ravinder Agarwal, Vishal Srivastava
  Biomedical Signal Processing and Control.2022; 76: 103728.     CrossRef
• Question and Answer Techniques for Financial Audits in Universities Based on Deep Learning
  Qiang Li, Hangjun Che
  Mathematical Problems in Engineering.2022; 2022: 1.     CrossRef
• Noninvasive Screening Tool for Hyperkalemia Using a Single-Lead Electrocardiogram and Deep Learning: Development and Usability Study
  Erdenebayar Urtnasan, Jung Hun Lee, Byungjin Moon, Hee Young Lee, Kyuhee Lee, Hyun Youk
  JMIR Medical Informatics.2022; 10(6): e34724.     CrossRef
• Impact of artificial intelligence on pathologists’ decisions: an experiment
  Julien Meyer, April Khademi, Bernard Têtu, Wencui Han, Pria Nippak, David Remisch
  Journal of the American Medical Informatics Association.2022; 29(10): 1688.     CrossRef
• Rapid Screening Using Pathomorphologic Interpretation to Detect BRAFV600E Mutation and Microsatellite Instability in Colorectal Cancer
  Satoshi Fujii, Daisuke Kotani, Masahiro Hattori, Masato Nishihara, Toshihide Shikanai, Junji Hashimoto, Yuki Hama, Takuya Nishino, Mizuto Suzuki, Ayatoshi Yoshidumi, Makoto Ueno, Yoshito Komatsu, Toshiki Masuishi, Hiroki Hara, Taito Esaki, Yoshiaki Nakamu
  Clinical Cancer Research.2022; 28(12): 2623.     CrossRef
• Using Deep Learning to Predict Final HER2 Status in Invasive Breast Cancers That are Equivocal (2+) by Immunohistochemistry
  Sean A. Rasmussen, Valerie J. Taylor, Alexi P. Surette, Penny J. Barnes, Gillian C. Bethune
  Applied Immunohistochemistry & Molecular Morphology.2022; 30(10): 668.     CrossRef
• Deep Neural Network for the Prediction of KRAS Genotype in Rectal Cancer
  Waleed M Ghareeb, Eman Draz, Khaled Madbouly, Ahmed H Hussein, Mohammed Faisal, Wagdi Elkashef, Mona Hany Emile, Marcus Edelhamre, Seon Hahn Kim, Sameh Hany Emile
  Journal of the American College of Surgeons.2022; 235(3): 482.     CrossRef
• Next Generation Digital Pathology: Emerging Trends and Measurement Challenges for Molecular Pathology
  Alex Dexter, Dimitrios Tsikritsis, Natalie A. Belsey, Spencer A. Thomas, Jenny Venton, Josephine Bunch, Marina Romanchikova
  Journal of Molecular Pathology.2022; 3(3): 168.     CrossRef
• Animation Design of Multisensor Data Fusion Based on Optimized AVOD Algorithm
  Li Ding, Guobing Wei, Kai Zhang, Gengxin Sun
  Journal of Sensors.2022; 2022: 1.     CrossRef
• Study on Machine Translation Teaching Model Based on Translation Parallel Corpus and Exploitation for Multimedia Asian Information Processing
  Yan Gong
  ACM Transactions on Asian and Low-Resource Language Information Processing.2022;[Epub]     CrossRef
• Analysis and Estimation of Pathological Data and Findings with Deep Learning Methods
  Ahmet Anıl ŞAKIR, Ali Hakan IŞIK, Özlem ÖZMEN, Volkan İPEK
  Veterinary Journal of Mehmet Akif Ersoy University.2022; 7(3): 175.     CrossRef
• Artificial Intelligence in Pathology: Friend or Enemy?
  Selim Sevim, Ezgi Dicle Serbes, Murat Bahadır, Mustafa Said Kartal, Serpil Dizbay Sak
  Journal of Ankara University Faculty of Medicine.2022; 75(1): 13.     CrossRef
• Evaluation Challenges in the Validation of B7-H3 as Oral Tongue Cancer Prognosticator
  Meri Sieviläinen, Anna Maria Wirsing, Aini Hyytiäinen, Rabeia Almahmoudi, Priscila Rodrigues, Inger-Heidi Bjerkli, Pirjo Åström, Sanna Toppila-Salmi, Timo Paavonen, Ricardo D. Coletta, Elin Hadler-Olsen, Tuula Salo, Ahmed Al-Samadi
  Head and Neck Pathology.2021; 15(2): 469.     CrossRef
• Amsterdam International Consensus Meeting: tumor response scoring in the pathology assessment of resected pancreatic cancer after neoadjuvant therapy
  Boris V. Janssen, Faik Tutucu, Stijn van Roessel, Volkan Adsay, Olca Basturk, Fiona Campbell, Claudio Doglioni, Irene Esposito, Roger Feakins, Noriyoshi Fukushima, Anthony J. Gill, Ralph H. Hruban, Jeffrey Kaplan, Bas Groot Koerkamp, Seung-Mo Hong, Alyssa
  Modern Pathology.2021; 34(1): 4.     CrossRef
• Fabrication of ultra-thin 2D covalent organic framework nanosheets and their application in functional electronic devices
  Weikang Wang, Weiwei Zhao, Haotian Xu, Shujuan Liu, Wei Huang, Qiang Zhao
  Coordination Chemistry Reviews.2021; 429: 213616.     CrossRef
• Generalizability of Deep Learning System for the Pathologic Diagnosis of Various Cancers
  Hyun-Jong Jang, In Hye Song, Sung Hak Lee
  Applied Sciences.2021; 11(2): 808.     CrossRef
• Integrated digital pathology at scale: A solution for clinical diagnostics and cancer research at a large academic medical center
  Peter J Schüffler, Luke Geneslaw, D Vijay K Yarlagadda, Matthew G Hanna, Jennifer Samboy, Evangelos Stamelos, Chad Vanderbilt, John Philip, Marc-Henri Jean, Lorraine Corsale, Allyne Manzo, Neeraj H G Paramasivam, John S Ziegler, Jianjiong Gao, Juan C Peri
  Journal of the American Medical Informatics Association.2021; 28(9): 1874.     CrossRef
• Translational Applications of Artificial Intelligence and Machine Learning for Diagnostic Pathology in Lymphoid Neoplasms: A Comprehensive and Evolutive Analysis
  Julia Moran-Sanchez, Antonio Santisteban-Espejo, Miguel Angel Martin-Piedra, Jose Perez-Requena, Marcial Garcia-Rojo
  Biomolecules.2021; 11(6): 793.     CrossRef
• Development and operation of a digital platform for sharing pathology image data
  Yunsook Kang, Yoo Jung Kim, Seongkeun Park, Gun Ro, Choyeon Hong, Hyungjoon Jang, Sungduk Cho, Won Jae Hong, Dong Un Kang, Jonghoon Chun, Kyoungbun Lee, Gyeong Hoon Kang, Kyoung Chul Moon, Gheeyoung Choe, Kyu Sang Lee, Jeong Hwan Park, Won-Ki Jeong, Se Yo
  BMC Medical Informatics and Decision Making.2021;[Epub]     CrossRef
• Sliding window based deep ensemble system for breast cancer classification
  Amin Alqudah, Ali Mohammad Alqudah
  Journal of Medical Engineering & Technology.2021; 45(4): 313.     CrossRef
• Artificial intelligence and computational pathology
  Miao Cui, David Y. Zhang
  Laboratory Investigation.2021; 101(4): 412.     CrossRef
• Effects of Image Quantity and Image Source Variation on Machine Learning Histology Differential Diagnosis Models
  Elham Vali-Betts, Kevin J. Krause, Alanna Dubrovsky, Kristin Olson, John Paul Graff, Anupam Mitra, Ananya Datta-Mitra, Kenneth Beck, Aristotelis Tsirigos, Cynthia Loomis, Antonio Galvao Neto, Esther Adler, Hooman H. Rashidi
  Journal of Pathology Informatics.2021; 12(1): 5.     CrossRef
• Feasibility of deep learning‐based fully automated classification of microsatellite instability in tissue slides of colorectal cancer
  Sung Hak Lee, In Hye Song, Hyun‐Jong Jang
  International Journal of Cancer.2021; 149(3): 728.     CrossRef
• Artificial intelligence in healthcare
  Yamini D Shah, Shailvi M Soni, Manish P Patel
  Indian Journal of Pharmacy and Pharmacology.2021; 8(2): 102.     CrossRef
• Proof of Concept for a Deep Learning Algorithm for Identification and Quantification of Key Microscopic Features in the Murine Model of DSS-Induced Colitis
  Agathe Bédard, Thomas Westerling-Bui, Aleksandra Zuraw
  Toxicologic Pathology.2021; 49(4): 897.     CrossRef
• An empirical analysis of machine learning frameworks for digital pathology in medical science
  S.K.B. Sangeetha, R Dhaya, Dhruv T Shah, R Dharanidharan, K. Praneeth Sai Reddy
  Journal of Physics: Conference Series.2021; 1767(1): 012031.     CrossRef
• Application of Single-Cell Approaches to Study Myeloproliferative Neoplasm Biology
  Daniel Royston, Adam J. Mead, Bethan Psaila
  Hematology/Oncology Clinics of North America.2021; 35(2): 279.     CrossRef
• Idiosyncratic Drug-Induced Liver Injury (DILI) and Herb-Induced Liver Injury (HILI): Diagnostic Algorithm Based on the Quantitative Roussel Uclaf Causality Assessment Method (RUCAM)
  Rolf Teschke, Gaby Danan
  Diagnostics.2021; 11(3): 458.     CrossRef
• Searching Images for Consensus
  Hamid R. Tizhoosh, Phedias Diamandis, Clinton J.V. Campbell, Amir Safarpoor, Shivam Kalra, Danial Maleki, Abtin Riasatian, Morteza Babaie
  The American Journal of Pathology.2021; 191(10): 1702.     CrossRef
• Automated Classification and Segmentation in Colorectal Images Based on Self-Paced Transfer Network
  Yao Yao, Shuiping Gou, Ru Tian, Xiangrong Zhang, Shuixiang He, Zhiguo Zhou
  BioMed Research International.2021; 2021: 1.     CrossRef
• Artificial intelligence and sleep: Advancing sleep medicine
  Nathaniel F. Watson, Christopher R. Fernandez
  Sleep Medicine Reviews.2021; 59: 101512.     CrossRef
• Prospective Of Artificial Intelligence: Emerging Trends In Modern Biosciences Research
  Pradeep Kumar, Ajit Kumar Singh Yadav, Abhishek Singh
  IOP Conference Series: Materials Science and Engineering.2021; 1020(1): 012008.     CrossRef
• Use and Control of Artificial Intelligence in Patients Across the Medical Workflow: Single-Center Questionnaire Study of Patient Perspectives
  Simon Lennartz, Thomas Dratsch, David Zopfs, Thorsten Persigehl, David Maintz, Nils Große Hokamp, Daniel Pinto dos Santos
  Journal of Medical Internet Research.2021; 23(2): e24221.     CrossRef
• HEAL: an automated deep learning framework for cancer histopathology image analysis
  Yanan Wang, Nicolas Coudray, Yun Zhao, Fuyi Li, Changyuan Hu, Yao-Zhong Zhang, Seiya Imoto, Aristotelis Tsirigos, Geoffrey I Webb, Roger J Daly, Jiangning Song, Zhiyong Lu
  Bioinformatics.2021; 37(22): 4291.     CrossRef
• A Review of Applications of Artificial Intelligence in Gastroenterology
  Khalid Nawab, Ravi Athwani, Awais Naeem, Muhammad Hamayun, Momna Wazir
  Cureus.2021;[Epub]     CrossRef
• Evaluating Cancer-Related Biomarkers Based on Pathological Images: A Systematic Review
  Xiaoliang Xie, Xulin Wang, Yuebin Liang, Jingya Yang, Yan Wu, Li Li, Xin Sun, Pingping Bing, Binsheng He, Geng Tian, Xiaoli Shi
  Frontiers in Oncology.2021;[Epub]     CrossRef
• Deep learning-based histopathological segmentation for whole slide images of colorectal cancer in a compressed domain
  Hyeongsub Kim, Hongjoon Yoon, Nishant Thakur, Gyoyeon Hwang, Eun Jung Lee, Chulhong Kim, Yosep Chong
  Scientific Reports.2021;[Epub]     CrossRef
• Deep Learning on Oral Squamous Cell Carcinoma Ex Vivo Fluorescent Confocal Microscopy Data: A Feasibility Study
  Veronika Shavlokhova, Sameena Sandhu, Christa Flechtenmacher, Istvan Koveshazi, Florian Neumeier, Víctor Padrón-Laso, Žan Jonke, Babak Saravi, Michael Vollmer, Andreas Vollmer, Jürgen Hoffmann, Michael Engel, Oliver Ristow, Christian Freudlsperger
  Journal of Clinical Medicine.2021; 10(22): 5326.     CrossRef
• A Pathologist-Annotated Dataset for Validating Artificial Intelligence: A Project Description and Pilot Study
  Sarah N. Dudgeon, Si Wen, Matthew G. Hanna, Rajarsi Gupta, Mohamed Amgad, Manasi Sheth, Hetal Marble, Richard Huang, Markus D. Herrmann, Clifford H. Szu, Darick Tong, Bruce Werness, Evan Szu, Denis Larsimont, Anant Madabhushi, Evangelos Hytopoulos, Weijie
  Journal of Pathology Informatics.2021; 12(1): 45.     CrossRef
• Artificial Intelligence in Medicine: A Multinational Multi-Center Survey on the Medical and Dental Students' Perception
  Sotirios Bisdas, Constantin-Cristian Topriceanu, Zosia Zakrzewska, Alexandra-Valentina Irimia, Loizos Shakallis, Jithu Subhash, Maria-Madalina Casapu, Jose Leon-Rojas, Daniel Pinto dos Santos, Dilys Miriam Andrews, Claudia Zeicu, Ahmad Mohammad Bouhuwaish
  Frontiers in Public Health.2021;[Epub]     CrossRef
• Digital/Computational Technology for Molecular Cytology Testing: A Short Technical Note with Literature Review
  Robert Y. Osamura, Naruaki Matsui, Masato Kawashima, Hiroyasu Saiga, Maki Ogura, Tomoharu Kiyuna
  Acta Cytologica.2021; 65(4): 342.     CrossRef
• Advances in Digital Pathology: From Artificial Intelligence to Label-Free Imaging
  Frederik Großerueschkamp, Hendrik Jütte, Klaus Gerwert, Andrea Tannapfel
  Visceral Medicine.2021; 37(6): 482.     CrossRef
• Feasibility of fully automated classification of whole slide images based on deep learning
  Kyung-Ok Cho, Sung Hak Lee, Hyun-Jong Jang
  The Korean Journal of Physiology & Pharmacology.2020; 24(1): 89.     CrossRef
• Same same but different: A Web‐based deep learning application revealed classifying features for the histopathologic distinction of cortical malformations
  Joshua Kubach, Angelika Muhlebner‐Fahrngruber, Figen Soylemezoglu, Hajime Miyata, Pitt Niehusmann, Mrinalini Honavar, Fabio Rogerio, Se‐Hoon Kim, Eleonora Aronica, Rita Garbelli, Samuel Vilz, Alexander Popp, Stefan Walcher, Christoph Neuner, Michael Schol
  Epilepsia.2020; 61(3): 421.     CrossRef
• Segmentation and Classification in Digital Pathology for Glioma Research: Challenges and Deep Learning Approaches
  Tahsin Kurc, Spyridon Bakas, Xuhua Ren, Aditya Bagari, Alexandre Momeni, Yue Huang, Lichi Zhang, Ashish Kumar, Marc Thibault, Qi Qi, Qian Wang, Avinash Kori, Olivier Gevaert, Yunlong Zhang, Dinggang Shen, Mahendra Khened, Xinghao Ding, Ganapathy Krishnamu
  Frontiers in Neuroscience.2020;[Epub]     CrossRef
• Artificial intelligence as the next step towards precision pathology
  B. Acs, M. Rantalainen, J. Hartman
  Journal of Internal Medicine.2020; 288(1): 62.     CrossRef
• Introduction to digital pathology and computer-aided pathology
  Soojeong Nam, Yosep Chong, Chan Kwon Jung, Tae-Yeong Kwak, Ji Youl Lee, Jihwan Park, Mi Jung Rho, Heounjeong Go
  Journal of Pathology and Translational Medicine.2020; 54(2): 125.     CrossRef
• Artificial intelligence with multi-functional machine learning platform development for better healthcare and precision medicine
  Zeeshan Ahmed, Khalid Mohamed, Saman Zeeshan, XinQi Dong
  Database.2020;[Epub]     CrossRef
• Scoring pleurisy in slaughtered pigs using convolutional neural networks
  Abigail R. Trachtman, Luca Bergamini, Andrea Palazzi, Angelo Porrello, Andrea Capobianco Dondona, Ercole Del Negro, Andrea Paolini, Giorgio Vignola, Simone Calderara, Giuseppe Marruchella
  Veterinary Research.2020;[Epub]     CrossRef
• Current Status of Computational Intelligence Applications in Dermatological Clinical Practice
  Carmen Rodríguez-Cerdeira, José Luís González-Cespón, Roberto Arenas
  The Open Dermatology Journal.2020; 14(1): 6.     CrossRef
• New unified insights on deep learning in radiological and pathological images: Beyond quantitative performances to qualitative interpretation
  Yoichi Hayashi
  Informatics in Medicine Unlocked.2020; 19: 100329.     CrossRef
• Artificial Intelligence in Cardiology: Present and Future
  Francisco Lopez-Jimenez, Zachi Attia, Adelaide M. Arruda-Olson, Rickey Carter, Panithaya Chareonthaitawee, Hayan Jouni, Suraj Kapa, Amir Lerman, Christina Luong, Jose R. Medina-Inojosa, Peter A. Noseworthy, Patricia A. Pellikka, Margaret M. Redfield, Vero
  Mayo Clinic Proceedings.2020; 95(5): 1015.     CrossRef
• Artificial intelligence in oncology
  Hideyuki Shimizu, Keiichi I. Nakayama
  Cancer Science.2020; 111(5): 1452.     CrossRef
• Artificial intelligence and the future of global health
  Nina Schwalbe, Brian Wahl
  The Lancet.2020; 395(10236): 1579.     CrossRef
• The future of pathology is digital
  J.D. Pallua, A. Brunner, B. Zelger, M. Schirmer, J. Haybaeck
  Pathology - Research and Practice.2020; 216(9): 153040.     CrossRef
• Weakly-supervised learning for lung carcinoma classification using deep learning
  Fahdi Kanavati, Gouji Toyokawa, Seiya Momosaki, Michael Rambeau, Yuka Kozuma, Fumihiro Shoji, Koji Yamazaki, Sadanori Takeo, Osamu Iizuka, Masayuki Tsuneki
  Scientific Reports.2020;[Epub]     CrossRef
• The use of artificial intelligence, machine learning and deep learning in oncologic histopathology
  Ahmed S. Sultan, Mohamed A. Elgharib, Tiffany Tavares, Maryam Jessri, John R. Basile
  Journal of Oral Pathology & Medicine.2020; 49(9): 849.     CrossRef
• Convergence of Digital Pathology and Artificial Intelligence Tools in Anatomic Pathology Practice: Current Landscape and Future Directions
  Anil V. Parwani, Mahul B. Amin
  Advances in Anatomic Pathology.2020; 27(4): 221.     CrossRef
• Advances in tissue-based imaging: impact on oncology research and clinical practice
  Arman Rahman, Chowdhury Jahangir, Seodhna M. Lynch, Nebras Alattar, Claudia Aura, Niamh Russell, Fiona Lanigan, William M. Gallagher
  Expert Review of Molecular Diagnostics.2020; 20(10): 1027.     CrossRef
• Current Trends of Artificial Intelligence for Colorectal Cancer Pathology Image Analysis: A Systematic Review
  Nishant Thakur, Hongjun Yoon, Yosep Chong
  Cancers.2020; 12(7): 1884.     CrossRef
• Explainable Machine Learning Model for Predicting GI Bleed Mortality in the Intensive Care Unit
  Farah Deshmukh, Shamel S. Merchant
  American Journal of Gastroenterology.2020; 115(10): 1657.     CrossRef
• Prediction of clinically actionable genetic alterations from colorectal cancer histopathology images using deep learning
  Hyun-Jong Jang, Ahwon Lee, J Kang, In Hye Song, Sung Hak Lee
  World Journal of Gastroenterology.2020; 26(40): 6207.     CrossRef
• Application of system analysis methods for modeling the development of hand-arm vibration syndrome: problems and approaches to solution
  M P Diakovich, M V Krivov
  Journal of Physics: Conference Series.2020; 1661(1): 012029.     CrossRef
• Histo-ELISA technique for quantification and localization of tissue components
  Zhongmin Li, Silvia Goebel, Andreas Reimann, Martin Ungerer
  Scientific Reports.2020;[Epub]     CrossRef
• Role of artificial intelligence in diagnostic oral pathology-A modern approach
  AyinampudiBhargavi Krishna, Azra Tanveer, PanchaVenkat Bhagirath, Ashalata Gannepalli
  Journal of Oral and Maxillofacial Pathology.2020; 24(1): 152.     CrossRef
• Applications of deep learning for the analysis of medical data
  Hyun-Jong Jang, Kyung-Ok Cho
  Archives of Pharmacal Research.2019; 42(6): 492.     CrossRef
• PROMISE CLIP Project: A Retrospective, Multicenter Study for Prostate Cancer that Integrates Clinical, Imaging and Pathology Data
  Jihwan Park, Mi Jung Rho, Yong Hyun Park, Chan Kwon Jung, Yosep Chong, Choung-Soo Kim, Heounjeong Go, Seong Soo Jeon, Minyong Kang, Hak Jong Lee, Sung Il Hwang, Ji Youl Lee
  Applied Sciences.2019; 9(15): 2982.     CrossRef
• Key challenges for delivering clinical impact with artificial intelligence
  Christopher J. Kelly, Alan Karthikesalingam, Mustafa Suleyman, Greg Corrado, Dominic King
  BMC Medicine.2019;[Epub]     CrossRef
• Deep Learning for Whole Slide Image Analysis: An Overview
  Neofytos Dimitriou, Ognjen Arandjelović, Peter D. Caie
  Frontiers in Medicine.2019;[Epub]     CrossRef
• Barriers to Artificial Intelligence Adoption in Healthcare Management: A Systematic Review
  Mir Mohammed Assadullah
  SSRN Electronic Journal .2019;[Epub]     CrossRef

Citations

Citations to this article as recorded by  

• Thyroglobulin expression, Ki-67 index, and lymph node ratio in the prognostic assessment of papillary thyroid cancer
  Helene Lindfors, Marie Karlsen, Ellinor Karlton, Jan Zedenius, Catharina Larsson, Catharina Ihre Lundgren, C. Christofer Juhlin, Ivan Shabo
  Scientific Reports.2023;[Epub]     CrossRef
• Incidental Node Metastasis as an Independent Factor of Worse Disease-Free Survival in Patients with Papillary Thyroid Carcinoma
  Renan Aguera Pinheiro, Ana Kober Leite, Beatriz Godoi Cavalheiro, Evandro Sobroza de Mello, Luiz Paulo Kowalski, Leandro Luongo Matos
  Cancers.2023; 15(3): 943.     CrossRef
• A High-Quality Nomogram for Predicting Lung Metastasis in Newly Diagnosed Stage IV Thyroid Cancer: A Population-Based Study
  WenYi Wang, JiaJing Liu, XiaoFan Xu, LiQun Huo, XuLin Wang, Jun Gu
  Technology in Cancer Research & Treatment.2023; 22: 153303382311678.     CrossRef
• Lymph Node Ratio Predicts Recurrence in Patients with Papillary Thyroid Carcinoma with Low Lymph Node Yield
  Il Ku Kang, Joonseon Park, Ja Seong Bae, Jeong Soo Kim, Kwangsoon Kim
  Cancers.2023; 15(11): 2947.     CrossRef
• Superiority of metastatic lymph node ratio over number of node metastases and TNM/AJCC N classification in predicting cancer‐specific survival in medullary thyroid cancer
  Andreas Machens, Kerstin Lorenz, Frank Weber, Henning Dralle
  Head & Neck.2022; 44(12): 2717.     CrossRef
• Value of Combining Clinical Factors, Conventional Ultrasound, and Contrast-Enhanced Ultrasound Features in Preoperative Prediction of Central Lymph Node Metastases of Different Sized Papillary Thyroid Carcinomas
  Yanfang Wang, Fang Nie, Guojuan Wang, Ting Liu, Tiantian Dong, Yamin Sun
  Cancer Management and Research.2021; Volume 13: 3403.     CrossRef
• Atypical Histiocytoid Cells and Multinucleated Giant Cells in Fine-Needle Aspiration Cytology of the Thyroid Predict Lymph Node Metastasis of Papillary Thyroid Carcinoma
  Ji Eun Choi, Ja Seong Bae, Dong-Jun Lim, So Lyung Jung, Chan Kwon Jung
  Cancers.2019; 11(6): 816.     CrossRef
• Patients Aged ≥55 Years With Stage T1-2N1M1 Differentiated Thyroid Cancer Should Be Downstaged in the Eighth Edition AJCC/TNM Cancer Staging System
  Zeming Liu, Sichao Chen, Yihui Huang, Di Hu, Min Wang, Wei Wei, Chao Zhang, Wen Zeng, Liang Guo
  Frontiers in Oncology.2019;[Epub]     CrossRef
• Prognostic Implication of Metastatic Lymph Node Ratio in Colorectal Cancers: Comparison Depending on Tumor Location
  Jung-Soo Pyo, Young-Min Shin, Dong-Wook Kang
  Journal of Clinical Medicine.2019; 8(11): 1812.     CrossRef

Citations

Citations to this article as recorded by  

• Thermal imaging based pre-diagnostics tool for Graves’ disease
  Vaishali Sharma, Vandana K Dhingra, Snehlata Shakya, Ashok Kumar, Mayank Goswami
  Measurement Science and Technology.2024; 35(3): 035702.     CrossRef
• High Malignancy Risk and Its Predictors in South Indian Patients With Bethesda II Thyroid Nodules
  Sunanda Tirupati, Pradeep Puthenveetil, Shilpa Lakkundi, Anudeep Gaddam, Vijaya Sarathi
  Cureus.2024;[Epub]     CrossRef
• Evaluation of thyroid lesions by the bethesda system for reporting thyroid cytopathology
  SyedAsif Hashmi, Monika Aggrawal, Rahul Pandey, Deepika Gulati, InamDanish Khan
  Journal of Marine Medical Society.2023; 25(1): 73.     CrossRef
• Incidence and Malignancy Rates in Thyroid Nodules in North-East Indian Population by Bethesda System: A Single Institutional Experience of 3 Years
  Suvamoy Chakraborty, Manu C. Balakrishnan, Vandana Raphael, Prachurya Tamuli, Anuradha Deka
  South Asian Journal of Cancer.2023; 12(02): 166.     CrossRef
• Evaluation of Concordance of Ultrasound, Cytology, and Histopathology in Solitary Thyroid Nodules
  Sunil Chumber, Surabhi Vyas, Kamal Kataria, Shipra Agarwal, Yashwant S Rathore, Gopal Puri, Sushma Yadav, Kanika Sharma, Amit Patidar
  Indian Journal of Endocrine Surgery and Research.2023; 18(1): 17.     CrossRef
• Cytomorphological Spectrum of Head and Neck Lesions by Fine Needle Aspiration Cytology in a Tertiary Care Center
  Amandeep Kaur, Sonali Poonia, Karandeep Singh, Dalbir Kaur, Mohit Madhukar, Ravish Godara
  Journal of Pharmacy and Bioallied Sciences.2023; 15(Suppl 1): S315.     CrossRef
• The Asian Thyroid Working Group, from 2017 to 2023
  Kennichi Kakudo, Chan Kwon Jung, Zhiyan Liu, Mitsuyoshi Hirokawa, Andrey Bychkov, Huy Gia Vuong, Somboon Keelawat, Radhika Srinivasan, Jen-Fan Hang, Chiung-Ru Lai
  Journal of Pathology and Translational Medicine.2023; 57(6): 289.     CrossRef
• Cytomorphological categorization of thyroid lesions according to the bethesda system for reporting thyroid cytology and correlation with their histological outcome: An indian oncology centre experience
  Meenakshi Kamboj, Anurag Mehta, Sunil Pasricha, Gurudutt Gupta, Anila Sharma, Garima Durga
  Journal of Cytology.2022; 39(1): 44.     CrossRef
• Is surgery necessary in benign thyroid lesions?
  Pushkar Chaudhary, Naseem Noorunnisa
  Journal of Datta Meghe Institute of Medical Sciences University.2022; 17(3): 799.     CrossRef
• Effect of the Noninvasive Follicular Thyroid Neoplasm With Papillary-Like Nuclear Features (NIFTP) Nomenclature Revision on Indian Thyroid Fine-Needle Aspiration Practice
  Chanchal Rana, Pooja Ramakant, Divya Goel, Akanksha Singh, KulRanjan Singh, Suresh Babu, Anand Mishra
  American Journal of Clinical Pathology.2021; 156(2): 320.     CrossRef
• The combination of ACR‐Thyroid Imaging Reporting and Data system and The Bethesda System for Reporting Thyroid Cytopathology in the evaluation of thyroid nodules—An institutional experience
  Shanmugasundaram Sakthisankari, Sreenivasan Vidhyalakshmi, Sivanandam Shanthakumari, Balalakshmoji Devanand, Udayasankar Nagul
  Cytopathology.2021; 32(4): 472.     CrossRef
• Risk of malignancy in Thyroid “Atypia of undetermined significance/Follicular lesion of undetermined significance” and its subcategories – A 5-year experience
  Abha Thakur, Haimanti Sarin, Dilpreet Kaur, Deepak Sarin
  Indian Journal of Pathology and Microbiology.2019; 62(4): 544.     CrossRef
• Thyroid FNA cytology in Asian practice—Active surveillance for indeterminate thyroid nodules reduces overtreatment of thyroid carcinomas
  K. Kakudo, M. Higuchi, M. Hirokawa, S. Satoh, C. K. Jung, A. Bychkov
  Cytopathology.2017; 28(6): 455.     CrossRef
• The Use of Fine-Needle Aspiration (FNA) Cytology in Patients with Thyroid Nodules in Asia: A Brief Overview of Studies from the Working Group of Asian Thyroid FNA Cytology
  Chan Kwon Jung, SoonWon Hong, Andrey Bychkov, Kennichi Kakudo
  Journal of Pathology and Translational Medicine.2017; 51(6): 571.     CrossRef

Citations

Citations to this article as recorded by  

• Bacterial-Viral Interactions in Human Orodigestive and Female Genital Tract Cancers: A Summary of Epidemiologic and Laboratory Evidence
  Ikuko Kato, Jilei Zhang, Jun Sun
  Cancers.2022; 14(2): 425.     CrossRef
• Breast cancer association with oncogenic papillomaviruses: papillomaviral DNA detection in breast cancer cells
  G. M. Volgareva
  Advances in Molecular Oncology.2022; 9(2): 10.     CrossRef
• Presence of Human Papillomavirus DNA in Malignant Neoplasia and Non-Malignant Breast Disease
  Erika Maldonado-Rodríguez, Marisa Hernández-Barrales, Adrián Reyes-López, Susana Godina-González, Perla I. Gallegos-Flores, Edgar L. Esparza-Ibarra, Irma E. González-Curiel, Jesús Aguayo-Rojas, Adrián López-Saucedo, Gretel Mendoza-Almanza, Jorge L. Ayala-
  Current Issues in Molecular Biology.2022; 44(8): 3648.     CrossRef
• Risk Role of Breast Cancer in Association with Human Papilloma Virus among Female Population in Taiwan: A Nationwide Population-Based Cohort Study
  Chia-Hsin Liu, Chi-You Liao, Ming-Hsin Yeh, James Cheng-Chung Wei
  Healthcare.2022; 10(11): 2235.     CrossRef
• HPV-Associated Breast Cancer: Myth or Fact?
  Erik Kudela, Eva Kudelova, Erik Kozubík, Tomas Rokos, Terezia Pribulova, Veronika Holubekova, Kamil Biringer
  Pathogens.2022; 11(12): 1510.     CrossRef
• Assessment of Human Papillomavirus Infection and Risk Factors in Egyptian Women With Breast Cancer
  Nabila El-Sheikh, Nahla O Mousa, Amany M Tawfeik, Alaa M Saleh, Iman Elshikh, Mohamed Deyab, Faten Ragheb, Manar M Moneer, Ahmed Kawashti, Ahmed Osman, Mohamed Elrefaei
  Breast Cancer: Basic and Clinical Research.2021; 15: 117822342199627.     CrossRef
• Human Papillomavirus (HPV) Detection by Chromogenic In Situ Hybridization (CISH) and p16 Immunohistochemistry (IHC) in Breast Intraductal Papilloma and Breast Carcinoma
  Hua Guo, Juan P. Idrovo, Jin Cao, Sudarshana Roychoudhury, Pooja Navale, Louis J. Auguste, Tawfiqul Bhuiya, Silvat Sheikh-Fayyaz
  Clinical Breast Cancer.2021; 21(6): e638.     CrossRef
• Human Papillomavirus in Breast Carcinogenesis: A Passenger, a Cofactor, or a Causal Agent?
  Rancés Blanco, Diego Carrillo-Beltrán, Juan P. Muñoz, Alejandro H. Corvalán, Gloria M. Calaf, Francisco Aguayo
  Biology.2021; 10(8): 804.     CrossRef
• Systematic review and meta-analysis of the papillomavirus prevalence in breast cancer fresh tissues
  Geilson Gomes de Oliveira, Ana Katherine Gonçalves, José Eleutério, Luiz Gonzaga Porto Pinheiro
  Breast Disease.2021; 41(1): 123.     CrossRef
• Is human papillomavirus associated with breast cancer or papilloma presenting with pathologic nipple discharge?
  Fatih Levent Balci, Cihan Uras, Sheldon Marc Feldman
  Cancer Treatment and Research Communications.2019; 19: 100122.     CrossRef
• Is the HPV virus responsible for the development of breast cancer?
  Erik Kudela, Marcela Nachajova, Jan Danko
  The Breast Journal.2019; 25(5): 1053.     CrossRef
• Absence of Human Papillomavirus in Benign and Malignant Breast Tissue
  Maryam Kazemi Aghdam, Seyed Alireza Nadji, Azadeh Alvandimanesh, Maliheh Khoddami, Yassaman Khademi
  Iranian Journal of Pathology.2019; 14(4): 279.     CrossRef
• Oncogenic Viruses and Breast Cancer: Mouse Mammary Tumor Virus (MMTV), Bovine Leukemia Virus (BLV), Human Papilloma Virus (HPV), and Epstein–Barr Virus (EBV)
  James S. Lawson, Brian Salmons, Wendy K. Glenn
  Frontiers in Oncology.2018;[Epub]     CrossRef
• Viral infections and breast cancer – A current perspective
  O.M. Gannon, A. Antonsson, I.C. Bennett, N.A. Saunders
  Cancer Letters.2018; 420: 182.     CrossRef
• Prevalence of EBV, HPV and MMTV in Pakistani breast cancer patients: A possible etiological role of viruses in breast cancer
  Wasifa Naushad, Orooj Surriya, Hajra Sadia
  Infection, Genetics and Evolution.2017; 54: 230.     CrossRef

Citations

Citations to this article as recorded by  

• Meta-analysis on the utility of morphometry in the cytological differential diagnosis of thyroid neoplasms
  Prema Saldanha
  MGM Journal of Medical Sciences.2024; 11(1): 49.     CrossRef
• Morphometric study in thyroid tumors
  Iuliana Mohorea, Bogdan Socea, Alexandru Carâp, Dragoș Șerban, Zenaida Ceaușu, Mihail Ceaușu
  Experimental and Therapeutic Medicine.2023;[Epub]     CrossRef
• The Usefulness of Immunocytochemistry of CD56 in Determining Malignancy from Indeterminate Thyroid Fine-Needle Aspiration Cytology
  Hyunseo Cha, Ju Yeon Pyo, Soon Won Hong
  Journal of Pathology and Translational Medicine.2018; 52(6): 404.     CrossRef

Citations

Citations to this article as recorded by  

• Aquaporins in Cancer Biology
  Chul So Moon, David Moon, Sung Koo Kang
  Frontiers in Oncology.2022;[Epub]     CrossRef
• A Comprehensive Prognostic Analysis of Tumor-Related Blood Group Antigens in Pan-Cancers Suggests That SEMA7A as a Novel Biomarker in Kidney Renal Clear Cell Carcinoma
  Yange Wang, Chenyang Li, Xinlei Qi, Yafei Yao, Lu Zhang, Guosen Zhang, Longxiang Xie, Qiang Wang, Wan Zhu, Xiangqian Guo
  International Journal of Molecular Sciences.2022; 23(15): 8799.     CrossRef
• Differential modulation of lung aquaporins among other pathophysiological markers in acute (Cl2 gas) and chronic (carbon nanoparticles, cigarette smoke) respiratory toxicity mouse models
  Sukanta S. Bhattacharya, Brijesh Yadav, Ekta Yadav, Ariel Hus, Niket Yadav, Perminder Kaur, Lauren Rosen, Roman Jandarov, Jagjit S. Yadav
  Frontiers in Physiology.2022;[Epub]     CrossRef
• Aquaporin water channels as regulators of cell-cell adhesion proteins
  Sarannya Edamana, Frédéric H. Login, Soichiro Yamada, Tae-Hwan Kwon, Lene N. Nejsum
  American Journal of Physiology-Cell Physiology.2021; 320(5): C771.     CrossRef
• Targeting Aquaporins in Novel Therapies for Male and Female Breast and Reproductive Cancers
  Sidra Khan, Carmela Ricciardelli, Andrea J. Yool
  Cells.2021; 10(2): 215.     CrossRef
• Targeting ion channels for the treatment of lung cancer
  Liqin Zhang, Shuya Bing, Mo Dong, Xiaoqiu Lu, Yuancheng Xiong
  Biochimica et Biophysica Acta (BBA) - Reviews on Cancer.2021; 1876(2): 188629.     CrossRef
• Comprehensive Analysis of Aquaporin Superfamily in Lung Adenocarcinoma
  Guofu Lin, Luyang Chen, Lanlan Lin, Hai Lin, Zhifeng Guo, Yingxuan Xu, Chanchan Hu, Jinglan Fu, Qinhui Lin, Wenhan Chen, Yiming Zeng, Yuan Xu
  Frontiers in Molecular Biosciences.2021;[Epub]     CrossRef
• Aquaporin 1, 3, and 5 Patterns in Salivary Gland Mucoepidermoid Carcinoma: Expression in Surgical Specimens and an In Vitro Pilot Study
  Mérin Barbara Stamboni, Ágatha Nagli de Mello Gomes, Milena Monteiro de Souza, Katia Klug Oliveira, Claudia Fabiana Joca Arruda, Fernanda de Paula, Barbara Beltrame Bettim, Márcia Martins Marques, Luiz Paulo Kowalski, Clóvis Antônio Lopes Pinto, Victor El
  International Journal of Molecular Sciences.2020; 21(4): 1287.     CrossRef
• Combined Systematic Review and Transcriptomic Analyses of Mammalian Aquaporin Classes 1 to 10 as Biomarkers and Prognostic Indicators in Diverse Cancers
  Pak Hin Chow, Joanne Bowen, Andrea J Yool
  Cancers.2020; 12(7): 1911.     CrossRef
• Aquaporins in lung health and disease: Emerging roles, regulation, and clinical implications
  Ekta Yadav, Niket Yadav, Ariel Hus, Jagjit S. Yadav
  Respiratory Medicine.2020; 174: 106193.     CrossRef
• Dissecting gene‐environment interactions: A penalized robust approach accounting for hierarchical structures
  Cen Wu, Yu Jiang, Jie Ren, Yuehua Cui, Shuangge Ma
  Statistics in Medicine.2018; 37(3): 437.     CrossRef
• Immunohistochemical Expression of Aquaporin-1 in Fluoro-Edenite-Induced Malignant Mesothelioma: A Preliminary Report
  Giuseppe Angelico, Rosario Caltabiano, Carla Loreto, Antonio Ieni, Giovanni Tuccari, Caterina Ledda, Venerando Rapisarda
  International Journal of Molecular Sciences.2018; 19(3): 685.     CrossRef
• Mechanisms of Aquaporin-Facilitated Cancer Invasion and Metastasis
  Michael L. De Ieso, Andrea J. Yool
  Frontiers in Chemistry.2018;[Epub]     CrossRef
• Aquaporin 1 suppresses apoptosis and affects prognosis in esophageal squamous cell carcinoma
  Yuzo Yamazato, Atsushi Shiozaki, Daisuke Ichikawa, Toshiyuki Kosuga, Katsutoshi Shoda, Tomohiro Arita, Hirotaka Konishi, Shuhei Komatsu, Takeshi Kubota, Hitoshi Fujiwara, Kazuma Okamoto, Mitsuo Kishimoto, Eiichi Konishi, Yoshinori Marunaka, Eigo Otsuji
  Oncotarget.2018; 9(52): 29957.     CrossRef
• Aquaporin 1 expression is associated with response to adjuvant chemotherapy in stage�II and III colorectal cancer
  Hideko Imaizumi, Keiichiro Ishibashi, Seiichi Takenoshita, Hideyuki Ishida
  Oncology Letters.2018;[Epub]     CrossRef
• Aquaporin 3 facilitates tumor growth in pancreatic cancer by modulating mTOR signaling
  Xunwei Huang, Li Huang, Minhua Shao
  Biochemical and Biophysical Research Communications.2017; 486(4): 1097.     CrossRef
• Prognostic implication of aquaporin 1 overexpression in resected lung adenocarcinoma†
  Guido Bellezza, Jacopo Vannucci, Fortunato Bianconi, Giulio Metro, Rachele Del Sordo, Marco Andolfi, Ivana Ferri, Paola Siccu, Vienna Ludovini, Francesco Puma, Angelo Sidoni, Lucio Cagini
  Interactive CardioVascular and Thoracic Surgery.2017; 25(6): 856.     CrossRef

Citations

Citations to this article as recorded by  

• Retrospective comparison of individual risk factors hemithyroidectomy and thyroidectomy in patients with papillary carcinoma of the thyroid gland in combination with autoimmune thyroiditis
  E. V. Ryabchenko
  Head and Neck Tumors (HNT).2023; 12(4): 71.     CrossRef
• Individual risk factors for recurrence after hemithyroidectomy and thyroidectomy in patients with papillary thyroid microcarcinoma in the presence of autoimmune thyroiditis
  E.V. Ryabchenko
  Onkologiya. Zhurnal imeni P.A.Gertsena.2023; 12(3): 20.     CrossRef
• The value of total tumor diameter in unilateral multifocal papillary thyroid carcinoma: a propensity score matching analysis
  Zhu-juan Wu, Bao-ying Xia, Zi-wei Chen, Hao Gong, Munire Abuduwaili, Zhi-chao Xing, An-ping Su
  Frontiers in Endocrinology.2023;[Epub]     CrossRef
• Negative Histopathological Prognostic Factors Affecting Morbidity in T1 Differentiated Thyroid Carcinoma
  Mine Araz, Elgin Özkan, Pınar Gunduz, Cigdem Soydal, N. Özlem Küçük, K. Metin Kır
  Cancer Biotherapy and Radiopharmaceuticals.2022; 37(1): 56.     CrossRef
• Total tumor diameter is a better indicator of multifocal papillary thyroid microcarcinoma: A propensity score matching analysis
  Ke-cheng Jiang, Bei Lin, Yu Zhang, Ling-qian Zhao, Ding-cun Luo
  Frontiers in Endocrinology.2022;[Epub]     CrossRef
• The relationship between lipotoxicity and risk of extrathyroidal extension in papillary thyroid microcarcinoma
  Changlin Li, Haixia Guan, Qiao He, Yishen Zhao, Nan liang, Jiao Zhang, Gianlorenzo Dionigi, Hui Sun
  Endocrine.2021; 74(3): 646.     CrossRef
• Multifocality and Progression of Papillary Thyroid Microcarcinoma During Active Surveillance
  Ryuta Nagaoka, Aya Ebina, Kazuhisa Toda, Tomoo Jikuzono, Marie Saitou, Masaomi Sen, Hiroko Kazusaka, Mami Matsui, Keiko Yamada, Hiroki Mitani, Iwao Sugitani
  World Journal of Surgery.2021; 45(9): 2769.     CrossRef
• Correlation of ThyroSeq Results with Surgical Histopathology in Cytologically Indeterminate Thyroid Nodules
  Patrick D. Chin, Catherine Y. Zhu, Dipti P. Sajed, Gregory A. Fishbein, Michael W. Yeh, Angela M. Leung, Masha J. Livhits
  Endocrine Pathology.2020; 31(4): 377.     CrossRef
• Application of Ultrasonography in the Diagnosis and Management of Papillary Thyroid Microcarcinoma
  Huang, MD Kun, Liu, MD Ji-Bin
  ADVANCED ULTRASOUND IN DIAGNOSIS AND THERAPY.2020; 4(4): 284.     CrossRef
• Analysis of Malignant Thyroid Neoplasms with a Striking Rise of Papillary Microcarcinoma in an Endemic Goiter Region
  Alka Mary Mathai, K. Preetha, S. Valsala Devi, Sam Vicliph, Raja Pradeep, Aqib Shaick
  Indian Journal of Otolaryngology and Head & Neck Surgery.2019; 71(S1): 121.     CrossRef
• The first postoperative-stimulated serum thyroglobulin is a prognostic factor for thyroid microcarcinomas
  Isabela de Oliveira Amui, José Vicente Tagliarini, Emanuel C. Castilho, Mariângela de Alencar Marques, Yoshio Kiy, José Eduardo Corrente, Gláucia M.F.S. Mazeto
  Brazilian Journal of Otorhinolaryngology.2019; 85(1): 37.     CrossRef
• Surgical management of follicular thyroid carcinoma in children and adolescents: A study of 30 cases
  Claudio Spinelli, Leonardo Rallo, Riccardo Morganti, Valentina Mazzotti, Alessandro Inserra, Giovanni Cecchetto, Maura Massimino, Paola Collini, Silvia Strambi
  Journal of Pediatric Surgery.2019; 54(3): 521.     CrossRef
• The role of prophylactic central compartment lymph node dissection in elderly patients with differentiated thyroid cancer: a multicentric study
  Claudio Gambardella, Renato Patrone, Francesco Di Capua, Chiara Offi, Claudio Mauriello, Guglielmo Clarizia, Claudia Andretta, Andrea Polistena, Alessandro Sanguinetti, Pietrogiorgio Calò, Giovanni Docimo, Nicola Avenia, Giovanni Conzo
  BMC Surgery.2019;[Epub]     CrossRef
• Cervical Lymph Node Metastases of Papillary Thyroid Carcinoma, in the Central and Lateral Compartments, in Children and Adolescents: Predictive Factors
  C. Spinelli, F. Tognetti, S. Strambi, R. Morganti, M. Massimino, P. Collini
  World Journal of Surgery.2018; 42(8): 2444.     CrossRef
• Active Surveillance for Papillary Thyroid Microcarcinoma: Challenges and Prospects
  Shuai Xue, Peisong Wang, Zachary A. Hurst, Yi Seok Chang, Guang Chen
  Frontiers in Endocrinology.2018;[Epub]     CrossRef
• A comparison of lobectomy and total thyroidectomy in patients with papillary thyroid microcarcinoma: a retrospective individual risk factor-matched cohort study
  Hyemi Kwon, Min Ji Jeon, Won Gu Kim, Suyeon Park, Mijin Kim, Dong Eun Song, Tae-Yon Sung, Jong Ho Yoon, Suck Joon Hong, Tae Yong Kim, Young Kee Shong, Won Bae Kim
  European Journal of Endocrinology.2017; 176(4): 371.     CrossRef
• Total thyroidectomy may be more reasonable as initial surgery in unilateral multifocal papillary thyroid microcarcinoma: a single-center experience
  Shuai Xue, Peisong Wang, Jia Liu, Guang Chen
  World Journal of Surgical Oncology.2017;[Epub]     CrossRef
• Lack of Efficacy of Radioiodine Remnant Ablation for Papillary Thyroid Microcarcinoma: Verification Using Inverse Probability of Treatment Weighting
  Hyemi Kwon, Min Ji Jeon, Won Gu Kim, Suyeon Park, Mijin Kim, Tae Yong Kim, Minkyu Han, Dong Eun Song, Tae-Yon Sung, Jong Ho Yoon, Suck Joon Hong, Jin-Sook Ryu, Young Kee Shong, Won Bae Kim
  Annals of Surgical Oncology.2017; 24(9): 2596.     CrossRef
• Radioactive Iodine Ablation Decrease Recurrences in Papillary Thyroid Microcarcinoma with Lateral Lymph Node Metastasis in Chinese Patients
  Shuai Xue, Peisong Wang, Jia Liu, Guang Chen
  World Journal of Surgery.2017; 41(12): 3139.     CrossRef
• The Prognostic Value of Tumor Multifocality in Clinical Outcomes of Papillary Thyroid Cancer
  Fei Wang, Xiaolong Yu, Xiaopei Shen, Guangwu Zhu, Yueye Huang, Rengyun Liu, David Viola, Rossella Elisei, Efisio Puxeddu, Laura Fugazzola, Carla Colombo, Barbara Jarzab, Agnieszka Czarniecka, Alfred K Lam, Caterina Mian, Federica Vianello, Linwah Yip, Gar
  The Journal of Clinical Endocrinology & Metabolism.2017; 102(9): 3241.     CrossRef
• Evaluation of surgical results of micropapillary thyroid cancers according to tumor size and focality
  Bekir Uçan, Muhammed Erkam Sencar, Muhammed Kızılgül, Mustafa Özbek, İlknur Öztürk Ünsal, Erman Çakal
  Ortadoğu Tıp Dergisi.2017; 9(3): 123.     CrossRef
• Contrastive study of two screening criteria for active surveillance in patients with low-risk papillary thyroid microcarcinoma: a retrospective analysis of 1001 patients
  Kai Qian, Kai Guo, Xiaoke Zheng, Tuanqi Sun, Duanshu Li, Yi Wu, Qinghai Ji, Zhuoying Wang
  Oncotarget.2017; 8(39): 65836.     CrossRef

Citations

Citations to this article as recorded by  

• Fine Needle Aspiration Cytology vs. Core Needle Biopsy for Thyroid Nodules: A Prospective, Experimental Study Using Surgical Specimen
  Hyuk Kwon, Jandee Lee, Soon Won Hong, Hyeong Ju Kwon, Jin Young Kwak, Jung Hyun Yoon
  Journal of the Korean Society of Radiology.2022; 83(3): 645.     CrossRef
• Comparison of Core Needle Biopsy and Repeat Fine-Needle Aspiration in Avoiding Diagnostic Surgery for Thyroid Nodules Initially Diagnosed as Atypia/Follicular Lesion of Undetermined Significance
  Leehi Joo, Dong Gyu Na, Ji-hoon Kim, Hyobin Seo
  Korean Journal of Radiology.2022; 23(2): 280.     CrossRef
• Diagnostic performance of core needle biopsy as a first‐line diagnostic tool for thyroid nodules according to ultrasound patterns: Comparison with fine needle aspiration using propensity score matching analysis
  Hye Shin Ahn, Inyoung Youn, Dong Gyu Na, Soo Jin Kim, Mi Yeon Lee
  Clinical Endocrinology.2021; 94(3): 494.     CrossRef
• Usage and Diagnostic Yield of Fine-Needle Aspiration Cytology and Core Needle Biopsy in Thyroid Nodules: A Systematic Review and Meta-Analysis of Literature Published by Korean Authors
  Soon-Hyun Ahn
  Clinical and Experimental Otorhinolaryngology.2021; 14(1): 116.     CrossRef
• 2021 Korean Thyroid Imaging Reporting and Data System and Imaging-Based Management of Thyroid Nodules: Korean Society of Thyroid Radiology Consensus Statement and Recommendations
  Eun Ju Ha, Sae Rom Chung, Dong Gyu Na, Hye Shin Ahn, Jin Chung, Ji Ye Lee, Jeong Seon Park, Roh-Eul Yoo, Jung Hwan Baek, Sun Mi Baek, Seong Whi Cho, Yoon Jung Choi, Soo Yeon Hahn, So Lyung Jung, Ji-hoon Kim, Seul Kee Kim, Soo Jin Kim, Chang Yoon Lee, Ho K
  Korean Journal of Radiology.2021; 22(12): 2094.     CrossRef
• Malignancy rate of Bethesda category III thyroid nodules according to ultrasound risk stratification system and cytological subtype
  Won Sang Yoo, Hwa Young Ahn, Hye Shin Ahn, Yun Jae Chung, Hee Sung Kim, Bo Youn Cho, Mirinae Seo, Jae Hoon Moon, Young Joo Park
  Medicine.2020; 99(2): e18780.     CrossRef
• 2019 Practice guidelines for thyroid core needle biopsy: a report of the Clinical Practice Guidelines Development Committee of the Korean Thyroid Association
  Chan Kwon Jung, Jung Hwan Baek, Dong Gyu Na, Young Lyun Oh, Ka Hee Yi, Ho-Cheol Kang
  Journal of Pathology and Translational Medicine.2020; 54(1): 64.     CrossRef
• Laser Ablation Versus Radiofrequency Ablation for Benign Non-Functioning Thyroid Nodules: Six-Month Results of a Randomized, Parallel, Open-Label, Trial (LARA Trial)
  Roberto Cesareo, Claudio Maurizio Pacella, Valerio Pasqualini, Giuseppe Campagna, Mario Iozzino, Andrea Gallo, Angelo Lauria Pantano, Roberto Cianni, Claudio Pedone, Paolo Pozzilli, Chiara Taffon, Anna Crescenzi, Silvia Manfrini, Andrea Palermo
  Thyroid.2020; 30(6): 847.     CrossRef
• Diagnostic Efficacy and Safety of Core Needle Biopsy as a First-Line Diagnostic Method for Thyroid Nodules: A Prospective Cohort Study
  Min Ji Hong, Dong Gyu Na, Hunkyung Lee
  Thyroid.2020; 30(8): 1141.     CrossRef
• Is thyroid core needle biopsy a valid compliment to fine-needle aspiration?
  Liron Pantanowitz, Lester D.R. Thompson, Xin Jing, Esther Diana Rossi
  Journal of the American Society of Cytopathology.2020; 9(5): 383.     CrossRef
• A Monocentric Retrospective Study about the Correlation between Histology and Cytology of Thyroid Indeterminate Nodules Classified as TIR 3A and TIR 3B, according to 2014 Italian Consensus for Classification and Reporting of Thyroid Cytology
  Francesco Quaglino, Giulia Arnulfo, Sergio Sandrucci, Claudio Rossi, Valentina Marchese, Roberto Saracco, Stefano Guzzetti, Stefano Taraglio, Enrico Mazza
  Advances in Medicine.2019; 2019: 1.     CrossRef
• Nuclear features of papillary thyroid carcinoma: Comparison of Core needle biopsy and thyroidectomy specimens
  Jae Yeon Seok, Jungsuk An, Hyun Yee Cho, Younghye Kim, Seung Yeon Ha
  Annals of Diagnostic Pathology.2018; 32: 35.     CrossRef
• Statement and Recommendations on Interventional Ultrasound as a Thyroid Diagnostic and Treatment Procedure
  Christoph F. Dietrich, Thomas Müller, Jörg Bojunga, Yi Dong, Giovanni Mauri, Maija Radzina, Manjiri Dighe, Xin-Wu Cui, Frank Grünwald, Andreas Schuler, Andre Ignee, Huedayi Korkusuz
  Ultrasound in Medicine & Biology.2018; 44(1): 14.     CrossRef
• Role of core needle biopsy as a first-line diagnostic tool for thyroid nodules: a retrospective cohort study
  Min Ji Hong, Dong Gyu Na, Soo Jin Kim, Dae Sik Kim
  Ultrasonography.2018; 37(3): 244.     CrossRef
• Core Needle Biopsy of the Thyroid: 2016 Consensus Statement and Recommendations from Korean Society of Thyroid Radiology
  Dong Gyu Na, Jung Hwan Baek, So Lyung Jung, Ji-hoon Kim, Jin Yong Sung, Kyu Sun Kim, Jeong Hyun Lee, Jung Hee Shin, Yoon Jung Choi, Eun Ju Ha, Hyun Kyung Lim, Soo Jin Kim, Soo Yeon Hahn, Kwang Hwi Lee, Young Jun Choi, Inyoung Youn, Young Joong Kim, Hye Sh
  Korean Journal of Radiology.2017; 18(1): 217.     CrossRef
• Ultrasound-guided fine needle aspiration versus core needle biopsy: comparison of post-biopsy hematoma rates and risk factors
  In Hye Chae, Eun-Kyung Kim, Hee Jung Moon, Jung Hyun Yoon, Vivian Y. Park, Jin Young Kwak
  Endocrine.2017; 57(1): 108.     CrossRef
• The Role of Core Needle Biopsy for Thyroid Nodules with Initially Indeterminate Results on Previous Fine-Needle Aspiration: A Systematic Review and Meta-Analysis
  C.H. Suh, J.H. Baek, C. Park, Y.J. Choi, J.H. Lee
  American Journal of Neuroradiology.2017; 38(7): 1421.     CrossRef

Citations

Citations to this article as recorded by  

• The Expression Levels of CD20 as a Prognostic Value in Feline B-Cell Nasal Lymphoma: A Pilot Study
  Kravee Chaipoca, Theerapol Sirinarumitr, Supreeya Srisampan, Charuwan Wongsali, Attawit Kovitvadhi, Tassanee Jaroensong
  Animals.2024; 14(7): 1043.     CrossRef
• Prognostic molecular biomarkers in diffuse large B-cell lymphoma in the rituximab era and their therapeutic implications
  Sotirios G. Papageorgiou, Thomas P. Thomopoulos, Ioannis Katagas, Anthi Bouchla, Vassiliki Pappa
  Therapeutic Advances in Hematology.2021; 12: 204062072110139.     CrossRef
• Novel tumour–infiltrating lymphocyte-related risk stratification based by flow cytometry for patients with de novo angioimmunoblastic T cell lymphoma
  Qiqi Zhu, Xueqin Deng, Wenqing Yao, Zihang Chen, Yunxia Ye, Limin Gao, Wenyan Zhang, Weiping Liu, Sha Zhao
  Annals of Hematology.2021; 100(3): 715.     CrossRef
• Induced CD20 Expression on B-Cell Malignant Cells Heightened the Cytotoxic Activity of Chimeric Antigen Receptor Engineered T Cells
  Yingxi Xu, Saisai Li, Ying Wang, Jia Liu, Xinhe Mao, Haiyan Xing, Zheng Tian, Kejing Tang, Xiaolong Liao, Qing Rao, Dongsheng Xiong, Min Wang, Jianxiang Wang
  Human Gene Therapy.2019; 30(4): 497.     CrossRef
• Characterization of head and neck squamous cell carcinoma arising in young patients: Particular focus on molecular alteration and tumor immunity
  Hyang Joo Ryu, Eun Kyung Kim, Byoung Chul Cho, Sun Och Yoon
  Head & Neck.2019; 41(1): 198.     CrossRef
• Immunoglobulin D (IgD) and IgD receptor expression in diffuse large B-cell lymphoma
  Xing Dai, Yu-Jing Wu, Xiao-Yi Jia, Yan Chang, Hua-Xun Wu, Chun Wang, Wei Wei
  Hematology.2019; 24(1): 544.     CrossRef
• The implications of TrkA and MET aberrations in de novo salivary duct carcinoma
  Hyang Joo Ryu, Yoon Woo Koh, Sun Och Yoon
  Human Pathology.2018; 81: 18.     CrossRef
• Prognostic stratification improvement by integrating ID1/ID3/IGJ gene expression signature and immunophenotypic profile in adult patients with B-ALL
  Nataly Cruz-Rodriguez, Alba L. Combita, Leonardo J. Enciso, Lauren F. Raney, Paula L. Pinzon, Olga C. Lozano, Alba M. Campos, Niyireth Peñaloza, Julio Solano, Maria V. Herrera, Jovanny Zabaleta, Sandra Quijano
  Journal of Experimental & Clinical Cancer Research.2017;[Epub]     CrossRef
• Implications of infiltrating immune cells within bone marrow of patients with diffuse large B-cell lymphoma
  Juhyeon Jeong, Eun Ji Oh, Woo Ick Yang, Soo Jeong Kim, Sun Och Yoon
  Human Pathology.2017; 64: 222.     CrossRef
• Architectural patterns of p16 immunohistochemical expression associated with cancer immunity and prognosis of head and neck squamous cell carcinoma
  Hyang Joo Ryu, Eun Kyung Kim, Su Jin Heo, Byoung Chul Cho, Hye Ryun Kim, Sun Och Yoon
  APMIS.2017; 125(11): 974.     CrossRef
• New developments in the pathology of malignant lymphoma. A review of the literature published from January–April 2016
  J. Han van Krieken
  Journal of Hematopathology.2016; 9(2): 73.     CrossRef
• Diffuse large B-cell lymphoma: R-CHOP failure—what to do?
  Bertrand Coiffier, Clémentine Sarkozy
  Hematology.2016; 2016(1): 366.     CrossRef