Advanced search
Publication Cover
Acta Orthopaedica Volume 90, 2019 - Issue 4
Journal homepage
5,035
Views
88
CrossRef citations to date
0
Altmetric
Articles

Artificial intelligence detection of distal radius fractures: a comparison between the convolutional neural network and professional assessments

Kaifeng GanDepartment of Orthopaedics, Ningbo Medical Center, Lihuili Hospital, Ningbo, 315000, China;; ;School of Medicine, Ningbo University, Ningbo, 315000, China;;
,
Dingli XuSchool of Medicine, Ningbo University, Ningbo, 315000, China;;
,
Yimu LinDepartment of Orthopaedics, Second Affiliated Hospital of Wenzhou Medical University, Wenzhou, 325027, China;;
,
Yandong ShenDepartment of Orthopaedics, Ningbo Medical Center, Lihuili Hospital, Ningbo, 315000, China;; ;School of Medicine, Ningbo University, Ningbo, 315000, China;;
,
Ting ZhangDepartment of Orthopaedics, Ningbo Medical Center, Lihuili Hospital, Ningbo, 315000, China;;
,
Keqi HuDepartment of Orthopaedics, Ningbo Medical Center, Lihuili Hospital, Ningbo, 315000, China;;
,
Ke ZhouDepartment of Orthopaedics, Ningbo Medical Center, Lihuili Hospital, Ningbo, 315000, China;;
,
Mingguang BiDepartment of Orthopaedics, Ningbo Medical Center, Lihuili Hospital, Ningbo, 315000, China;;
,
Lingxiao PanDepartment of Orthopaedics, Ningbo Medical Center, Lihuili Hospital, Ningbo, 315000, China;;
,
Wei WuDepartment of Orthopaedics, Second Hospital of Ningbo, Ningbo, 315000, China;;
&
Yunpeng LiuFaculty of Electronics & Computer, Zhejiang Wanli University, Ningbo, 315000, ChinaCorrespondence[email protected]
 show all
Pages 394-400 | Published online: 03 Apr 2019

Citations (88)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (2)

Jakub Olczak, Filip Emilson, Ali Razavian, Tone Antonsson, Andreas Stark & Max Gordon. (2021) Ankle fracture classification using deep learning: automating detailed AO Foundation/Orthopedic Trauma Association (AO/OTA) 2018 malleolar fracture identification reaches a high degree of correct classification. Acta Orthopaedica 92:1, pages 102-108.
Read now
Yutoku Yamada, Satoshi Maki, Shunji Kishida, Haruki Nagai, Junnosuke Arima, Nanako Yamakawa, Yasushi Iijima, Yuki Shiko, Yohei Kawasaki, Toshiaki Kotani, Yasuhiro Shiga, Kazuhide Inage, Sumihisa Orita, Yawara Eguchi, Hiroshi Takahashi, Takeshi Yamashita, Shohei Minami & Seiji Ohtori. (2020) Automated classification of hip fractures using deep convolutional neural networks with orthopedic surgeon-level accuracy: ensemble decision-making with antero-posterior and lateral radiographs. Acta Orthopaedica 91:6, pages 699-704.
Read now

Articles from other publishers (86)

Y.-H. Tang, E. Ranschaert & K. Verstraete. (2023) Performantie van AI bij fractuurdetectie en effect op de prestaties van artsen: een systematische review. Tijdschrift voor Geneeskunde.
Crossref
Rui-Yang Ju & Weiming Cai. (2023) Fracture detection in pediatric wrist trauma X-ray images using YOLOv8 algorithm. Scientific Reports 13:1.
Crossref
S Aryasomayajula, CB Hing, M Siebachmeyer, FB Naeini, V Ejindu, P Leitch, Y Gelfer & Y Zweiri. (2023) Developing an artificial intelligence diagnostic tool for paediatric distal radius fractures, a proof of concept study. The Annals of The Royal College of Surgeons of England 105:8, pages 721-728.
Crossref
Oğuz Kaya & Burak Taşcı. (2023) A Pyramid Deep Feature Extraction Model for the Automatic Classification of Upper Extremity Fractures. Diagnostics 13:21, pages 3317.
Crossref
Zhihao Su, Afzan Adam, Mohammad Faidzul Nasrudin, Masri Ayob & Gauthamen Punganan. (2023) Skeletal Fracture Detection with Deep Learning: A Comprehensive Review. Diagnostics 13:20, pages 3245.
Crossref
Aly M. Fayed, Nacime Salomao Barbachan Mansur, Kepler Alencar de Carvalho, Andrew Behrens, Pieter D’Hooghe & Cesar de Cesar Netto. (2023) Artificial intelligence and ChatGPT in Orthopaedics and sports medicine. Journal of Experimental Orthopaedics 10:1.
Crossref
Zhen-wei Lin, Wei-li Dai, Qing-Quan Lai & Hong Wu. (2023) Deep learning-based computed tomography applied to the diagnosis of rib fractures. Journal of Radiation Research and Applied Sciences 16:2, pages 100558.
Crossref
Hang Min, Yousef Rabi, Ashish Wadhawan, Pierrick Bourgeat, Jason Dowling, Jordy White, Ayden Tchernegovski, Blake Formanek, Michael Schuetz, Gary Mitchell, Frances Williamson, Craig Hacking, Kevin Tetsworth & Beat Schmutz. (2023) Automatic classification of distal radius fracture using a two-stage ensemble deep learning framework. Physical and Engineering Sciences in Medicine 46:2, pages 877-886.
Crossref
Cun Yang, Lei Yang, Guo-Dong Gao, Hui-Qian Zong & Duo Gao. (2023) Assessment of artificial intelligence-aided reading in the detection of nasal bone fractures. Technology and Health Care 31:3, pages 1017-1025.
Crossref
Ozgur I Koska, Atilla Hikmet Çilengir, Muhsin Engin Uluç, Aylin Yücel & Özgür Tosun. (2022) All-star approach to a small medical imaging dataset: combined deep, transfer, and classical machine learning approaches for the determination of radial head fractures. Acta Radiologica 64:4, pages 1476-1483.
Crossref
Fan Xu, Yuchao Xiong, Guoxi Ye, Yingying Liang, Wei Guo, Qiuping Deng, Li Wu, Wuyi Jia, Dilang Wu, Song Chen, Zhiping Liang & Xuwen Zeng. (2023) Deep learning-based artificial intelligence model for classification of vertebral compression fractures: A multicenter diagnostic study. Frontiers in Endocrinology 14.
Crossref
Idriss Gasmi, Arvin Calinghen, Jean-Jacques Parienti, Frederique Belloy, Audrey Fohlen & Jean-Pierre Pelage. (2023) Comparison of diagnostic performance of a deep learning algorithm, emergency physicians, junior radiologists and senior radiologists in the detection of appendicular fractures in children. Pediatric Radiology 53:8, pages 1675-1684.
Crossref
Ertuğrul Şahin & Haluk Berk. (2023) Orthopedic surgeons’ attitudes and expectations toward artificial intelligence: A national survey study. Journal of Surgery and Medicine 7:2, pages 151-155.
Crossref
Suam Kim, Philipp Rebmann, Phuong Hien Tran, Elias Kellner, Marco Reisert, David Steybe, Jörg Bayer, Fabian Bamberg, Elmar Kotter & Maximilian Russe. (2023) Multiclass datasets expand neural network utility: an example on ankle radiographs. International Journal of Computer Assisted Radiology and Surgery 18:5, pages 819-826.
Crossref
Sun Hongbiao, Xu Shaochun, Wang Xiang, Tang YuRun, Lu Yang, Zhang Mingzi, Yang Hua, Zhao Keyang, Fu Chi-Cheng, Fang Qu, Gu Pengchen, Xiao Yi & Liu Shiyuan. (2022) Comparison and verification of two deep learning models for the detection of chest CT rib fractures. Acta Radiologica 64:2, pages 542-551.
Crossref
Felix Erne, Daniel Dehncke, Steven C. Herath, Fabian Springer, Nico Pfeifer, Ralf Eggeling & Markus Alexander Küper. (2021) Deep Learning in the Detection of Rare Fractures – Development of a “Deep Learning Convolutional Network” Model for Detecting Acetabular Fractures. Zeitschrift für Orthopädie und Unfallchirurgie 161:01, pages 42-50.
Crossref
Marco Keller, Alissa Guebeli, Florian Thieringer & Philipp Honigmann. (2023) Artificial intelligence in patient-specific hand surgery: a scoping review of literature. International Journal of Computer Assisted Radiology and Surgery 18:8, pages 1393-1403.
Crossref
Geng Qin, Ping Luo, Kaiyuan Li, Yufeng Sun, Shiwei Wang, Xiaoting Li, Shuang Liu & Linyan Xue. (2023) MPFracNet: A Deep Learning Algorithm for Metacarpophalangeal Fracture Detection with Varied Difficulties. Computers, Materials & Continua 75:1, pages 999-1015.
Crossref
Turkka T. Anttila, Teemu V. Karjalainen, Teemu O. Mäkelä, Eero M. Waris, Nina C. Lindfors, Miika M. Leminen & Jorma O. Ryhänen. (2022) Detecting Distal Radius Fractures Using a Segmentation-Based Deep Learning Model. Journal of Digital Imaging 36:2, pages 679-687.
Crossref
Faraz Farhadi, Matthew R. Barnes, Harun R. Sugito, Jessica M. Sin, Eric R. Henderson & Joshua J. Levy. (2022) Applications of artificial intelligence in orthopaedic surgery. Frontiers in Medical Technology 4.
Crossref
Michael Janisch, Georg Apfaltrer, Franko Hržić, Christoph Castellani, Barbara Mittl, Georg Singer, Franz Lindbichler, Alexander Pilhatsch, Erich Sorantin & Sebastian Tschauner. (2022) Pediatric radius torus fractures in x-rays—how computer vision could render lateral projections obsolete. Frontiers in Pediatrics 10.
Crossref
Mathieu Cohen, Julien Puntonet, Julien Sanchez, Elliott Kierszbaum, Michel Crema, Philippe Soyer & Elisabeth Dion. (2022) Artificial intelligence vs. radiologist: accuracy of wrist fracture detection on radiographs. European Radiology 33:6, pages 3974-3983.
Crossref
Hans Peter Dimai. (2022) New Horizons: Artificial Intelligence Tools for Managing Osteoporosis. The Journal of Clinical Endocrinology & Metabolism.
Crossref
Susan C. Shelmerdine, Richard D. White, Hantao Liu, Owen J. Arthurs & Neil J. Sebire. (2022) Artificial intelligence for radiological paediatric fracture assessment: a systematic review. Insights into Imaging 13:1.
Crossref
Yang Jia, Haijuan Wang, Weiguang Chen, Yagang Wang & Bin Yang. (2022) An attention‐based cascade R‐CNN model for sternum fracture detection in X‐ray images. CAAI Transactions on Intelligence Technology 7:4, pages 658-670.
Crossref
Yasuhiro Homma, Shun Ito, Xu Zhuang, Tomonori Baba, Kazutoshi Fujibayashi, Kazuo Kaneko, Yu Nishiyama & Muneaki Ishijima. (2022) Artificial intelligence for distinguishment of hammering sound in total hip arthroplasty. Scientific Reports 12:1.
Crossref
Soheil Ashkani-Esfahani, Reza Mojahed Yazdi, Rohan Bhimani, Gino M. Kerkhoffs, Mario Maas, Christopher W. DiGiovanni, Bart Lubberts & Daniel Guss. (2022) Detection of ankle fractures using deep learning algorithms. Foot and Ankle Surgery 28:8, pages 1259-1265.
Crossref
Shuzhen Lu, Shengsheng Wang & Guangyao Wang. (2022) Automated universal fractures detection in X-ray images based on deep learning approach. Multimedia Tools and Applications 81:30, pages 44487-44503.
Crossref
Bernardo Innocenti, Yanislav Radyul & Edoardo Bori. (2022) The Use of Artificial Intelligence in Orthopedics: Applications and Limitations of Machine Learning in Diagnosis and Prediction. Applied Sciences 12:21, pages 10775.
Crossref
Moch. Imam Rifai, Rahardhita Widyatra Sudibyo, Arasy Dafa Sulistya Kurniawan, Moch. Zen Samsono Hadi, Hani'Ah Mahmudah & Nihayatus Sa'Adah. (2022) Automatic Vehicle Classification and Counting System Using Inception Model. Automatic Vehicle Classification and Counting System Using Inception Model.
Tanushree Meena & Sudipta Roy. (2022) Bone Fracture Detection Using Deep Supervised Learning from Radiological Images: A Paradigm Shift. Diagnostics 12:10, pages 2420.
Crossref
Sarib Malik, Javeria Amin, Muhammad Sharif, Mussarat Yasmin, Seifedine Kadry & Sheraz Anjum. (2022) Fractured Elbow Classification Using Hand-Crafted and Deep Feature Fusion and Selection Based on Whale Optimization Approach. Mathematics 10:18, pages 3291.
Crossref
Pengran Liu, Lin Lu, Yufei Chen, Tongtong Huo, Mingdi Xue, Honglin Wang, Ying Fang, Yi Xie, Mao Xie & Zhewei Ye. (2022) Artificial intelligence to detect the femoral intertrochanteric fracture: The arrival of the intelligent-medicine era. Frontiers in Bioengineering and Biotechnology 10.
Crossref
Sarah Alhammad, Teng Zhang, Kun Zhao, Peter Hobson, Anthony Jennings & Brian C. Lovell. (2022) Efficient Cell Labelling for Gram Stain WSIs. Efficient Cell Labelling for Gram Stain WSIs.
Franko Hržić, Sebastian Tschauner, Erich Sorantin & Ivan Štajduhar. (2022) Fracture Recognition in Paediatric Wrist Radiographs: An Object Detection Approach. Mathematics 10:16, pages 2939.
Crossref
Soheil Ashkani-Esfahani, Reza Mojahed-Yazdi, Rohan Bhimani, Gino M. Kerkhoffs, Mario Maas, Christopher W. DiGiovanni, Bart Lubberts & Daniel Guss. (2022) Deep Learning Algorithms Improve the Detection of Subtle Lisfranc Malalignments on Weightbearing Radiographs. Foot & Ankle International 43:8, pages 1118-1126.
Crossref
Lee-Ren Yeh, Yang Zhang, Jeon-Hor Chen, Yan-Lin Liu, An-Chi Wang, Jie-Yu Yang, Wei-Cheng Yeh, Chiu-Shih Cheng, Li-Kuang Chen & Min-Ying Su. (2022) A deep learning-based method for the diagnosis of vertebral fractures on spine MRI: retrospective training and validation of ResNet. European Spine Journal 31:8, pages 2022-2030.
Crossref
Chengyao Feng, Xiaowen Zhou, Hua Wang, Yu He, Zhihong Li & Chao Tu. (2022) Research hotspots and emerging trends of deep learning applications in orthopedics: A bibliometric and visualized study. Frontiers in Public Health 10.
Crossref
Xiaowen Zhou, Hua Wang, Chengyao Feng, Ruilin Xu, Yu He, Lan Li & Chao Tu. (2022) Emerging Applications of Deep Learning in Bone Tumors: Current Advances and Challenges. Frontiers in Oncology 12.
Crossref
Rachel Y. L. Kuo, Conrad Harrison, Terry-Ann Curran, Benjamin Jones, Alexander Freethy, David Cussons, Max Stewart, Gary S. Collins & Dominic Furniss. (2022) Artificial Intelligence in Fracture Detection: A Systematic Review and Meta-Analysis. Radiology 304:1, pages 50-62.
Crossref
Xiang Zhang, Yi Yang, Yi-Wei Shen, Ke-Rui Zhang, Ze-kun Jiang, Li-Tai Ma, Chen Ding, Bei-Yu Wang, Yang Meng & Hao Liu. (2022) Diagnostic accuracy and potential covariates of artificial intelligence for diagnosing orthopedic fractures: a systematic literature review and meta-analysis. European Radiology 32:10, pages 7196-7216.
Crossref
Eszter Nagy, Michael Janisch, Franko Hržić, Erich Sorantin & Sebastian Tschauner. (2022) A pediatric wrist trauma X-ray dataset (GRAZPEDWRI-DX) for machine learning. Scientific Data 9:1.
Crossref
Po-Hsin Chou, Tony Hong-Ting Jou, Hung-Ta Hondar Wu, Yu-Cheng Yao, Hsi-Hsien Lin, Ming-Chau Chang, Shih-Tien Wang, Henry Horng-Shing Lu & Hung-Hsun Chen. (2022) Ground truth generalizability affects performance of the artificial intelligence model in automated vertebral fracture detection on plain lateral radiographs of the spine. The Spine Journal 22:4, pages 511-523.
Crossref
Prem N. Ramkumar, Bryan C. Luu, Heather S. Haeberle, Jaret M. Karnuta, Benedict U. Nwachukwu & Riley J. Williams. (2021) Sports Medicine and Artificial Intelligence: A Primer. The American Journal of Sports Medicine 50:4, pages 1166-1174.
Crossref
Tanmoyee Sharma, Ritu Banik, Zaharat Tabassum, S. M. Arifur Rahman & Abu S. M. Mohsin. (2022) Pneumothorax Segmentation from Chest X-Rays Using U-Net/U-Net++ Architectures. Pneumothorax Segmentation from Chest X-Rays Using U-Net/U-Net++ Architectures.
Takeshi Suzuki, Satoshi Maki, Takahiro Yamazaki, Hiromasa Wakita, Yasunari Toguchi, Manato Horii, Tomonori Yamauchi, Koui Kawamura, Masaaki Aramomi, Hiroshi Sugiyama, Yusuke Matsuura, Takeshi Yamashita, Sumihisa Orita & Seiji Ohtori. (2021) Detecting Distal Radial Fractures from Wrist Radiographs Using a Deep Convolutional Neural Network with an Accuracy Comparable to Hand Orthopedic Surgeons. Journal of Digital Imaging 35:1, pages 39-46.
Crossref
Jan Fritz, Richard Kijowski & Michael P. Recht. (2021) Artificial intelligence in musculoskeletal imaging: a perspective on value propositions, clinical use, and obstacles. Skeletal Radiology 51:2, pages 239-243.
Crossref
Nils F. Grauhan, Stefan M. Niehues, Robert A. Gaudin, Sarah Keller, Janis L. Vahldiek, Lisa C. Adams & Keno K. Bressem. (2021) Deep learning for accurately recognizing common causes of shoulder pain on radiographs. Skeletal Radiology 51:2, pages 355-362.
Crossref
Jesús-Ángel Román-Gallego, María-Luisa Pérez-Delgado & Sergio Vicente San Gregorio. (2022) Convolutional Neural Networks Used to Date Photographs. Electronics 11:2, pages 227.
Crossref
Ahmed W. Moawad, David T. Fuentes, Mohamed G. ElBanan, Ahmed S. Shalaby, Jeffrey Guccione, Serageldin Kamel, Corey T. Jensen & Khaled M. Elsayes. (2022) Artificial Intelligence in Diagnostic Radiology: Where Do We Stand, Challenges, and Opportunities. Journal of Computer Assisted Tomography 46:1, pages 78-90.
Crossref
Ya Li & Jintang He. 2022. 3D Imaging—Multidimensional Signal Processing and Deep Learning. 3D Imaging—Multidimensional Signal Processing and Deep Learning 113 120 .
Shaghayegh Shahiri Tabarestani, Ali Aghagolzadeh & Mehdi Ezoji. (2021) Bone Fracture Detection and Localization on MURA Database Using Faster-RCNN. Bone Fracture Detection and Localization on MURA Database Using Faster-RCNN.
Franko Hržić, Michael Janisch, Ivan Štajduhar, Jonatan Lerga, Erich Sorantin & Sebastian Tschauner. (2021) Modeling Uncertainty in Fracture Age Estimation from Pediatric Wrist Radiographs. Mathematics 9:24, pages 3227.
Crossref
Yue Zhu & Muhammad Talha. (2021) Research on the Path of Network Opinion Expression in AI Environment for College Students. Computational and Mathematical Methods in Medicine 2021, pages 1-10.
Crossref
Peng-ran Liu, Jia-yao Zhang, Ming-di Xue, Yu-yu Duan, Jia-lang Hu, Song-xiang Liu, Yi Xie, Hong-lin Wang, Jun-wen Wang, Tong-tong Huo & Zhe-wei Ye. (2021) Artificial Intelligence to Diagnose Tibial Plateau Fractures: An Intelligent Assistant for Orthopedic Physicians. Current Medical Science 41:6, pages 1158-1164.
Crossref
Yuan Li, Yang Zhang, Enlong Zhang, Yongye Chen, Qizheng Wang, Ke Liu, Hon J. Yu, Huishu Yuan, Ning Lang & Min-Ying Su. (2021) Differential diagnosis of benign and malignant vertebral fracture on CT using deep learning. European Radiology 31:12, pages 9612-9619.
Crossref
Wei Shan, Jianwei Guo, Xuewei Mao, Yulei Zhang, Yikun Huang, Shuai Wang, Zixiao Li, Xia Meng, Pingye Zhang, Zhenzhou Wu, Qun Wang, Yaou Liu, Kunlun He & Yongjun Wang. (2021) Automated Identification of Skull Fractures With Deep Learning: A Comparison Between Object Detection and Segmentation Approach. Frontiers in Neurology 12.
Crossref
Joanna F. Dipnall, Richard Page, Lan Du, Matthew Costa, Ronan A. Lyons, Peter Cameron, Richard de Steiger, Raphael Hau, Andrew Bucknill, Andrew Oppy, Elton Edwards, Dinesh Varma, Myong Chol Jung & Belinda J. Gabbe. (2021) Predicting fracture outcomes from clinical registry data using artificial intelligence supplemented models for evidence-informed treatment (PRAISE) study protocol. PLOS ONE 16:9, pages e0257361.
Crossref
Ji-Hun Kim, Yong-Cheol Mo, Seung-Myung Choi, Youk Hyun & Jung Woo Lee. (2021) Detecting Ankle Fractures in Plain Radiographs Using Deep Learning with Accurately Labeled Datasets Aided by Computed Tomography: A Retrospective Observational Study. Applied Sciences 11:19, pages 8791.
Crossref
Patrick Tobler, Joshy Cyriac, Balazs K. Kovacs, Verena Hofmann, Raphael Sexauer, Fabiano Paciolla, Bram Stieltjes, Felix Amsler & Anna Hirschmann. (2021) AI-based detection and classification of distal radius fractures using low-effort data labeling: evaluation of applicability and effect of training set size. European Radiology 31:9, pages 6816-6824.
Crossref
Xiang Hong Meng, Di Jia Wu, Zhi Wang, Xin Long Ma, Xiao Man Dong, Ai E Liu & Lei Chen. (2021) A fully automated rib fracture detection system on chest CT images and its impact on radiologist performance. Skeletal Radiology 50:9, pages 1821-1828.
Crossref
Wesley M. Durand, Renaud Lafage, D. Kojo Hamilton, Peter G. Passias, Han Jo Kim, Themistocles Protopsaltis, Virginie Lafage, Justin S. Smith, Christopher Shaffrey, Munish Gupta, Michael P. Kelly, Eric O. Klineberg, Frank Schwab, Jeffrey L. Gum, Gregory Mundis, Robert Eastlack, Khaled Kebaish, Alex Soroceanu, Richard A. Hostin, Doug Burton, Shay Bess, Christopher Ames, Robert A. Hart & Alan H. Daniels. (2021) Artificial intelligence clustering of adult spinal deformity sagittal plane morphology predicts surgical characteristics, alignment, and outcomes. European Spine Journal 30:8, pages 2157-2166.
Crossref
J.E. Small, P. Osler, A.B. Paul & M. Kunst. (2021) CT Cervical Spine Fracture Detection Using a Convolutional Neural Network. American Journal of Neuroradiology 42:7, pages 1341-1347.
Crossref
Yi-Chu Li, Hung-Hsun Chen, Henry Horng-Shing Lu, Hung-Ta Hondar Wu, Ming-Chau Chang & Po-Hsin Chou. (2021) Can a Deep-learning Model for the Automated Detection of Vertebral Fractures Approach the Performance Level of Human Subspecialists?. Clinical Orthopaedics & Related Research 479:7, pages 1598-1612.
Crossref
Min Woong Kim, Jaewon Jung, Se Jin Park, Young Sun Park, Jeong Hyeon Yi, Won Seok Yang, Jin Hyuck Kim, Bum-Joo Cho & Sang Ook Ha. (2021) Application of convolutional neural networks for distal radio-ulnar fracture detection on plain radiographs in the emergency room. Clinical and Experimental Emergency Medicine 8:2, pages 120-127.
Crossref
Guillaume Reichert, Ali Bellamine, Matthieu Fontaine, Beatrice Naipeanu, Adrien Altar, Elodie Mejean, Nicolas Javaud & Nathalie Siauve. (2021) How Can a Deep Learning Algorithm Improve Fracture Detection on X-rays in the Emergency Room?. Journal of Imaging 7:7, pages 105.
Crossref
Lei Zhang & Wei Liu. (2021) Swimming Training Evaluation Method Based on Convolutional Neural Network. Complexity 2021, pages 1-12.
Crossref
Patrick M. House, Mikhail Kopelyan, Natalia Braniewska, Bartosz Silski, Agata Chudzinska, Brigitte Holst, Thomas Sauvigny, Tobias Martens, Stefan Stodieck & Sirko Pelzl. (2021) Automated detection and segmentation of focal cortical dysplasias (FCDs) with artificial intelligence: Presentation of a novel convolutional neural network and its prospective clinical validation. Epilepsy Research 172, pages 106594.
Crossref
Franko Hržić, Sebastian Tschauner, Erich Sorantin & Ivan Štajduhar. (2021) XAOM: A method for automatic alignment and orientation of radiographs for computer-aided medical diagnosis. Computers in Biology and Medicine 132, pages 104300.
Crossref
Ryuuichi Nakahara. (2021) Artificial intelligence and orthopaedics整形外科領域におけるAI. Okayama Igakkai Zasshi (Journal of Okayama Medical Association) 133:1, pages 58-61.
Crossref
Christophe Karam, Julia El Zini, Mariette Awad, Charbel Saade, Lena Naffaa & Mohammad El Amine. (2021) A Progressive and Cross-Domain Deep Transfer Learning Framework for Wrist Fracture Detection. Journal of Artificial Intelligence and Soft Computing Research 12:2, pages 101-120.
Crossref
Anna Lind, Ehsan Akbarian, Simon Olsson, Hans Nåsell, Olof Sköldenberg, Ali Sharif Razavian & Max Gordon. (2021) Artificial intelligence for the classification of fractures around the knee in adults according to the 2018 AO/OTA classification system. PLOS ONE 16:4, pages e0248809.
Crossref
Feng Yang, Rikun Cong, Mengmeng Xing & Bo Ding. (2021) Study on AO classification of distal radius fractures based on multi-feature fusion. Journal of Physics: Conference Series 1800:1, pages 012006.
Crossref
David Dreizin, Florian Goldmann, Christina LeBedis, Alexis Boscak, Matthew Dattwyler, Uttam Bodanapally, Guang Li, Stephan Anderson, Andreas Maier & Mathias Unberath. (2021) An Automated Deep Learning Method for Tile AO/OTA Pelvic Fracture Severity Grading from Trauma whole-Body CT. Journal of Digital Imaging 34:1, pages 53-65.
Crossref
Xiaoqing Liu, Kunlun Gao, Bo Liu, Chengwei Pan, Kongming Liang, Lifeng Yan, Jiechao Ma, Fujin He, Shu Zhang, Siyuan Pan & Yizhou Yu. (2021) Advances in Deep Learning-Based Medical Image Analysis. Health Data Science 2021.
Crossref
Lin Mu, Taiping Qu, Dong Dong, Xiuli Li, Yun Pei, Yuchong Wang, Guangyao Shi, Yongrui Li, Fujin He & Huimao Zhang. (2021) Fine-Tuned Deep Convolutional Networks for the Detection of Femoral Neck Fractures on Pelvic Radiographs: A Multicenter Dataset Validation. IEEE Access 9, pages 78495-78503.
Crossref
Clare Rainey, Jonathan McConnell, Ciara Hughes, Raymond Bond & Sonyia McFadden. (2021) Artificial intelligence for diagnosis of fractures on plain radiographs: A scoping review of current literature. Intelligence-Based Medicine 5, pages 100033.
Crossref
Somesh Devagekar, Ahmad Delforouzi & Paul G. Plöger. 2021. Pattern Recognition. ICPR International Workshops and Challenges. Pattern Recognition. ICPR International Workshops and Challenges 719 732 .
Olivier Q. Groot, Michiel E. R. Bongers, Paul T. Ogink, Joeky T. Senders, Aditya V. Karhade, Jos A. M. Bramer, Jorrit-Jan Verlaan & Joseph H. Schwab. (2020) Does Artificial Intelligence Outperform Natural Intelligence in Interpreting Musculoskeletal Radiological Studies? A Systematic Review. Clinical Orthopaedics & Related Research 478:12, pages 2751-2764.
Crossref
David Dreizin, Yuyin Zhou, Shuhao Fu, Yan Wang, Guang Li, Kathryn Champ, Eliot Siegel, Ze WangTina ChenAlan L. Yuille. (2020) A Multiscale Deep Learning Method for Quantitative Visualization of Traumatic Hemoperitoneum at CT: Assessment of Feasibility and Comparison with Subjective Categorical Estimation. Radiology: Artificial Intelligence 2:6, pages e190220.
Crossref
Thomas York, Heloise Jenney & Gareth Jones. (2020) Clinician and computer: a study on patient perceptions of artificial intelligence in skeletal radiography. BMJ Health & Care Informatics 27:3, pages e100233.
Crossref
David W. G. Langerhuizen, Anne Eva J. Bulstra, Stein J. Janssen, David Ring, Gino M. M. J. Kerkhoffs, Ruurd L. Jaarsma & Job N. Doornberg. (2020) Is Deep Learning On Par with Human Observers for Detection of Radiographically Visible and Occult Fractures of the Scaphoid?. Clinical Orthopaedics & Related Research 478:11, pages 2653-2659.
Crossref
Shukai Wu, Lifeng Yan, Xiaoqing Liu, Yizhou Yu & Sanyuan Zhang. (2020) An End-To-End Network For Detecting Multi-Domain Fractures On X-Ray Images. An End-To-End Network For Detecting Multi-Domain Fractures On X-Ray Images.
S. Yang, B. Yin, W. Cao, C. Feng, G. Fan & S. He. (2020) Diagnostic accuracy of deep learning in orthopaedic fractures: a systematic review and meta-analysis. Clinical Radiology 75:9, pages 713.e17-713.e28.
Crossref
Mohd Javaid & Abid Haleem. (2020) Impact of industry 4.0 to create advancements in orthopaedics. Journal of Clinical Orthopaedics and Trauma 11, pages S491-S499.
Crossref
Seung Seog Han, Ik Jun Moon, Woohyung Lim, In Suck Suh, Sam Yong Lee, Jung-Im Na, Seong Hwan Kim & Sung Eun Chang. (2020) Keratinocytic Skin Cancer Detection on the Face Using Region-Based Convolutional Neural Network. JAMA Dermatology 156:1, pages 29.
Crossref

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.