Ortopedik Acil Durumlarda Dijital Çözümler ve Yapay Zeka Destekli Müdahaleler
Özet
Referanslar
Lohre R, Warner JP, Athwal GS, Goel DP. The evolution of virtual reality in shoulder and elbow surgery. JSES International 2020;4:215-23.
Lohre R, Bois A, Athwal G, Goel DP. Improved complex skill acquisition by immersive virtual reality training. J Bone Joint Surg Am 2020;102:26.
Sato Y, Takegami Y, Asamoto T, Ono Y, Hidetoshi T, Goto R, et al. Artificial intelligence improves the accuracy of residents in the diagnosis of hip fractures: a multicenter study. BMC Musculoskeletal Disord 2021;22:1-10.
Badgeley M, Zech JR, Rayner LO, Glicksberg BS, Liu M, Gale W, McConnell MV, et al. Deep learning predicts hip fracture using confounding patient and healthcare variables. NPJ Digit Med 2019;2:1-10.
Mutasa S, Varada S, Goel A, Wong TT, Rasiej MJ. Advanced deep learning techniques applied to automated femoral neck fracture detection and classification. J Digit Imaging 2020;33:1209-17.
Engels A, Reber KC, Lindlbauer I, Rapp K, Büchele G, Klenk J. Osteoporotic hip fracture prediction from risk factors available in administrative claims data – a machine learning approach. PloS One 2020;15:1-14.
Jimenez-Sanchez A, Kazi A, Albarqouni S, Kirchhoff S, Sträter A, Biberthaler PD, et al. Weakly-supervised localization and classification of proximal femur fractures, 2018. arXiv:1809.10692.
Lee C, Jang J, Lee S. Classification of femur fracture in pelvic X-ray images using meta-learned deep neural network. Sci Rep 2020;10:13694.
Xing Pengyi et al , A deep learning algorithm that aids visualization of femoral neck fractures and improves physician training İnjury Volume 55, Issue 12, 111997
Azarpira M, Belhadj I, Khodja M. Using Deep Learning to Suggest Treatment for Proximal Humerus Fractures. Stud Health Technol Inform. 2024 Nov 22;321:140-144.
Bayram F, Cakıroğlu M. Diffract: Diaphyseal femur fracture classifier system. Biocybernetics and Biomedical Engineering 2016;36:157-71.
Referanslar
Lohre R, Warner JP, Athwal GS, Goel DP. The evolution of virtual reality in shoulder and elbow surgery. JSES International 2020;4:215-23.
Lohre R, Bois A, Athwal G, Goel DP. Improved complex skill acquisition by immersive virtual reality training. J Bone Joint Surg Am 2020;102:26.
Sato Y, Takegami Y, Asamoto T, Ono Y, Hidetoshi T, Goto R, et al. Artificial intelligence improves the accuracy of residents in the diagnosis of hip fractures: a multicenter study. BMC Musculoskeletal Disord 2021;22:1-10.
Badgeley M, Zech JR, Rayner LO, Glicksberg BS, Liu M, Gale W, McConnell MV, et al. Deep learning predicts hip fracture using confounding patient and healthcare variables. NPJ Digit Med 2019;2:1-10.
Mutasa S, Varada S, Goel A, Wong TT, Rasiej MJ. Advanced deep learning techniques applied to automated femoral neck fracture detection and classification. J Digit Imaging 2020;33:1209-17.
Engels A, Reber KC, Lindlbauer I, Rapp K, Büchele G, Klenk J. Osteoporotic hip fracture prediction from risk factors available in administrative claims data – a machine learning approach. PloS One 2020;15:1-14.
Jimenez-Sanchez A, Kazi A, Albarqouni S, Kirchhoff S, Sträter A, Biberthaler PD, et al. Weakly-supervised localization and classification of proximal femur fractures, 2018. arXiv:1809.10692.
Lee C, Jang J, Lee S. Classification of femur fracture in pelvic X-ray images using meta-learned deep neural network. Sci Rep 2020;10:13694.
Xing Pengyi et al , A deep learning algorithm that aids visualization of femoral neck fractures and improves physician training İnjury Volume 55, Issue 12, 111997
Azarpira M, Belhadj I, Khodja M. Using Deep Learning to Suggest Treatment for Proximal Humerus Fractures. Stud Health Technol Inform. 2024 Nov 22;321:140-144.
Bayram F, Cakıroğlu M. Diffract: Diaphyseal femur fracture classifier system. Biocybernetics and Biomedical Engineering 2016;36:157-71.
