| For: | Kwolek K, Gądek A, Kwolek K, Kolecki R, Liszka H. Automated decision support for Hallux Valgus treatment options using anteroposterior foot radiographs. World J Orthop 2023; 14(11): 800-812 [PMID: 38075473 DOI: 10.5312/wjo.v14.i11.800] |
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| URL: | https://www.wjgnet.com/2218-5836/full/v14/i11/800.htm |
| Number | Citing Articles |
| 1 |
Angela Hussain, Cadence Lee, Eric Hu, Farid Amirouche. Deep learning automation of radiographic patterns for hallux valgus diagnosis. World Journal of Orthopedics 2024; 15(2): 105-109 doi: 10.5312/wjo.v15.i2.105
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| 2 |
Farid Amirouche, Aashik Mathew Prosper, Majd Mzeihem. Enhancing pediatric distal radius fracture detection: optimizing YOLOv8 with advanced AI and machine learning techniques. BMC Medical Imaging 2025; 25(1) doi: 10.1186/s12880-025-01669-2
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| 3 |
Qiong Wang, Jun-Hu Wang, Dong-Dong Ji, Jing-Qi Liang, Xin-Quan Yang, Hong-Mou Zhao. Deep learning versus manual measurement of hallux valgus angle and intermetatarsal angle on Weight-Bearing X-rays in hallux valgus. BMC Musculoskeletal Disorders 2025; 27(1) doi: 10.1186/s12891-025-09420-2
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| 4 |
Mateusz Malik, Jakub Kwiatkowski, Artur Gądek, Agnieszka Lechowska-Liszka, Henryk Liszka. Utility of Weight-Bearing Computed Tomography in the Postoperative Assessment of Ankle Fractures. Diagnostics 2025; 15(6) doi: 10.3390/diagnostics15060750
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| 5 |
Siddhartha Sharma, Amit Kumar, Ashima Sekhri, Sandeep Patel, Vishal Kumar, Mandeep Dhillon. Evaluation of Explainable Deep Learning Models for Clinical Image-Based Screening of Hallux Valgus. Indian Journal of Orthopaedics 2026; doi: 10.1007/s43465-026-01850-x
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| 6 |
Tommaso Forin Valvecchi, Daniele Marcolli, Cesar De Cesar Netto. Advanced Three-Dimensional Assessment and Planning for Hallux Valgus. Foot and Ankle Clinics 2025; 30(2) doi: 10.1016/j.fcl.2024.06.008
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| 7 |
Samir Ghandour, Soheil Ashkani-Esfahani. Clinical and Radiological Examination of the Foot and Ankle. 2024; doi: 10.1007/978-981-97-4202-8_21
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| 8 |
Xuhui Fang, Pengfei Li, Di Wu, Yushan Pan, Hao Wang. Automated Hallux Valgus Detection from Foot Photos Using CBAM-Enhanced MobileNetV3 with Data Augmentation. Electronics 2025; 14(11) doi: 10.3390/electronics14112258
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| 9 |
Qiong Wang, Jun-Hu Wang, Dong-Dong Ji, Yan Zhang, Hong-Mou Zhao. Automated measurement of hallux valgus angles using a deep learning model: validation and comparison with surgeons of varying expertise. Scientific Reports 2026; 16(1) doi: 10.1038/s41598-026-42100-2
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| 10 |
Henryk Liszka, Michał Malczak, Agnieszka Lechowska-Liszka, Kamil Kwolek, Artur Gądek, Konrad Kwolek. Artificial intelligence-based diagnosis of hallux valgus interphalangeus using anteroposterior foot radiographs. World Journal of Orthopedics 2025; 16(6): 103832 doi: 10.5312/wjo.v16.i6.103832
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| 11 |
Ryutaro Takeda, Sanehiro Ando, Toshiko Iidaka, Kenta Makabe, Taro Kasai, Yasunori Omata, Noriko Yoshimura, Sakae Tanaka, Takumi Matsumoto. AI‐Powered Smartphone Application for Measuring Hallux Valgus Angle From Radiographs Displayed on a Monitor. Journal of Foot and Ankle Research 2025; 18(3) doi: 10.1002/jfa2.70081
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| 12 |
Chandler Ligas, Justin Carney, Alan Emerson, Odessa Achkar. The Lapidus Bunionectomy. Clinics in Podiatric Medicine and Surgery 2026; doi: 10.1016/j.cpm.2026.05.004
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