Ortopedik Eğitimde Dijital Araçlar ve Simülasyonlar
Özet
Referanslar
Beyaz S, Açıcı K, Sümer E. Femoral neck fracture detection in X-ray images using deep learning and genetic algorithm approaches. Jt Dis Relat Surg 2020;31(2):175-83.
Uysal F, Hardalaç F, Peker O, Tolunay T, Tokgöz N. Classification of shoulder X-ray images with deep learning ensemble models. Appl Sci 2021;11(6):2723.
Hernigou P, Tannyeres P, Barbier O, Chenaie P. Revision hip arthroplasty dislocation risk calculator: when to select dual mobility, large heads, constrained liners, or a standard head size? Testing one hundred thousand hip revisions with artificial intelligence. Int Orthop 2023;47(8):2003-11.
Klemt C, Cohen-Levy WB, Robinson MG, Burns JC, Alpaugh K, Yeo I, et al. Can machine learning models predict failure of revision total hip arthroplasty? Arch Orthop Trauma Surg 2023;143(6):2805-12.
Klemt C, Yeo I, Cohen-Levy WB, Melnic CM, Habibi Y, Kwon YM. Artificial neural networks can predict early failure of cementless total hip arthroplasty in patients with osteoporosis. J Am Acad Orthop Surg 2022;30(10):467-75.
Par OE, Sezer EA, Sever H. Application of artificial intelligence in early-stage diagnosis of sepsis. In: Proceedings of the 2022 5th Artificial Intelligence and Cloud Computing Conference. ACM; 2022.
Huri G, Gülşen MR, Karmış EB, Karagüven D. Cadaver versus simulator based arthroscopic training in shoulder surgery. Turk J Med Sci 2021;51(3):1179-90.
Çetinkaya E, Çift H, Aybar A, Erçin E, Güler GB, Poyanlı O. The timing and importance of motor skills course in knee arthroscopy training. Acta Orthop Traumatol Turc 2017;51(4):273-7.
Miller GE. The assessment of clinical skills/competence/ performance. Acad Med 1990;65(9 Suppl):S63-S67.
Goh GS, Lohre R, Parvizi J, Goel DP. Virtual and augmented reality for surgical training and simulation in knee arthroplasty. Arch Orthop Trauma Surg 2021;141(12):2303-12.
Iqbal MH, Khan O, Aydın A. Editorial commentary: Simulation-based training in orthopaedic surgery: Current evidence and limitations. Arthroscopy 2021;37(3):1008-10.
Yari SS, Jandhyala CK, Sharareh B, Athiviraham A, Shybut TB. Efficacy of a virtual arthroscopic simulator for orthopaedic surgery residents by year in training. Orthop J Sports Med 2018;6(11):2325967118810176
- Syamlan A, Fathurachman Denis K, Vander Poorten E, Pramujati B, Tjahjowidodo T. Haptic/virtual reality orthopedic surgical simulators: A literature review. Virtual Reality 2022;26(4):1795-825.
Medical Holodeck. Erişim adresi: https://www.medicalholodeck.com/en/ Erişim tarihi: 2023.
Wang M, Li D, Shang X, Wang J. A review of computer-assisted orthopaedic surgery systems. Int J Med Robot 2020;16(5):1-28.
The TouchTM Haptic Device. 3D Systems, 2019. Erişim adresi: https://www.3dsystems.com/haptics-devices/touch.
Tofte JN, Westerlind BO, Martin KD, Guetschow BL, Uribe-Echevarria B, Rungprai C, et al. Knee, shoulder, and fundamentals of arthroscopic surgery training: Validation of a virtual arthroscopy simulator. Arthroscopy 2017;33(3):641-646.e3.
Sugand K, Akhtar K, Khatri C, Cobb J, Gupte C. Training effect of a virtual reality haptics-enabled dynamic hip screw simulator. Acta Orthop 2015;86(6):695-701
Microsoft. What is mixed reality? 2018. Erişim adresi: https://developer.micro-soft.com/ en-us/windows/mixed-reality/mixed_reality.
Totbid Dergisi 2024;23:66-72 Sanal ve artırılmış gerçekliğin ortopedi ve travmatolojide uygulama alanları, Tolga Kurtuluş Çapın
Casari FA, Navab N, Hruby LA, Kriechling P, Nakamura R, Tori R, et al. Augmented reality in orthopedic surgery is emerging from proof of concept towards clinical studies: A literature review explaining the technology and current state of the art. Curr Rev Musculoskelet Med 2021;14(2):192-203.
von der Heide AM, Fallavollita P, Wang L, Sandner P, Navab N, Weidert S, et al. Camera-augmented mobile C-arm (CamC): Afeasibility study of augmented reality imaging in the operating room. Int J Med Robot 2018;14(2).
Alexander C, Loeb AE, Fotouhi J, Navab N, Armand M, Khanuja HS. Augmented reality for acetabular component placement in di- rect anterior total hip arthroplasty. J Arthroplast 2020;35(6):1636-1641.e3
Kalun P, Wagner N, Yan J, Nousiainen MT, Sonnadara RR. Surgical simulation training in orthopedics: Current insights. Adv Med Educ Pract 2018;9:125-31.
Sun P, Zhao Y, Men J, Ma ZR, Jiang HZ, Liu CY, et al. Application of virtual and augmented reality technology in hip surgery: Systematic review. J Med Internet Res 2023;25:e37599.
Anetzberger H, Reppenhagen S, Eickhoff H, Seibert FJ, Döring B, Haasters F, et al. Ten hours of simulator training in arthroscopy are insufficient to reach the target level based on the Diagnostic Arthroscopic Skill Score. Knee Surg Sports Traumatol Arthrosc 2022;30(4):1471-9.
Walbron P, Common H, Thomazeau H, Hosseini K, Peduzzi L, Bulaid Y, et al. Virtual reality simulator improves the acquisition of basic arthroscopy skills in first-year orthopedic surgery residents. Orthop Traumatol Surg Res 2020;106(4):717-24.
Chytas D, Malahias MA, Nikolaou VS. Augmented reality in orthopedics: Current state and future directions. Front Surg 2019;6:38.
Referanslar
Beyaz S, Açıcı K, Sümer E. Femoral neck fracture detection in X-ray images using deep learning and genetic algorithm approaches. Jt Dis Relat Surg 2020;31(2):175-83.
Uysal F, Hardalaç F, Peker O, Tolunay T, Tokgöz N. Classification of shoulder X-ray images with deep learning ensemble models. Appl Sci 2021;11(6):2723.
Hernigou P, Tannyeres P, Barbier O, Chenaie P. Revision hip arthroplasty dislocation risk calculator: when to select dual mobility, large heads, constrained liners, or a standard head size? Testing one hundred thousand hip revisions with artificial intelligence. Int Orthop 2023;47(8):2003-11.
Klemt C, Cohen-Levy WB, Robinson MG, Burns JC, Alpaugh K, Yeo I, et al. Can machine learning models predict failure of revision total hip arthroplasty? Arch Orthop Trauma Surg 2023;143(6):2805-12.
Klemt C, Yeo I, Cohen-Levy WB, Melnic CM, Habibi Y, Kwon YM. Artificial neural networks can predict early failure of cementless total hip arthroplasty in patients with osteoporosis. J Am Acad Orthop Surg 2022;30(10):467-75.
Par OE, Sezer EA, Sever H. Application of artificial intelligence in early-stage diagnosis of sepsis. In: Proceedings of the 2022 5th Artificial Intelligence and Cloud Computing Conference. ACM; 2022.
Huri G, Gülşen MR, Karmış EB, Karagüven D. Cadaver versus simulator based arthroscopic training in shoulder surgery. Turk J Med Sci 2021;51(3):1179-90.
Çetinkaya E, Çift H, Aybar A, Erçin E, Güler GB, Poyanlı O. The timing and importance of motor skills course in knee arthroscopy training. Acta Orthop Traumatol Turc 2017;51(4):273-7.
Miller GE. The assessment of clinical skills/competence/ performance. Acad Med 1990;65(9 Suppl):S63-S67.
Goh GS, Lohre R, Parvizi J, Goel DP. Virtual and augmented reality for surgical training and simulation in knee arthroplasty. Arch Orthop Trauma Surg 2021;141(12):2303-12.
Iqbal MH, Khan O, Aydın A. Editorial commentary: Simulation-based training in orthopaedic surgery: Current evidence and limitations. Arthroscopy 2021;37(3):1008-10.
Yari SS, Jandhyala CK, Sharareh B, Athiviraham A, Shybut TB. Efficacy of a virtual arthroscopic simulator for orthopaedic surgery residents by year in training. Orthop J Sports Med 2018;6(11):2325967118810176
- Syamlan A, Fathurachman Denis K, Vander Poorten E, Pramujati B, Tjahjowidodo T. Haptic/virtual reality orthopedic surgical simulators: A literature review. Virtual Reality 2022;26(4):1795-825.
Medical Holodeck. Erişim adresi: https://www.medicalholodeck.com/en/ Erişim tarihi: 2023.
Wang M, Li D, Shang X, Wang J. A review of computer-assisted orthopaedic surgery systems. Int J Med Robot 2020;16(5):1-28.
The TouchTM Haptic Device. 3D Systems, 2019. Erişim adresi: https://www.3dsystems.com/haptics-devices/touch.
Tofte JN, Westerlind BO, Martin KD, Guetschow BL, Uribe-Echevarria B, Rungprai C, et al. Knee, shoulder, and fundamentals of arthroscopic surgery training: Validation of a virtual arthroscopy simulator. Arthroscopy 2017;33(3):641-646.e3.
Sugand K, Akhtar K, Khatri C, Cobb J, Gupte C. Training effect of a virtual reality haptics-enabled dynamic hip screw simulator. Acta Orthop 2015;86(6):695-701
Microsoft. What is mixed reality? 2018. Erişim adresi: https://developer.micro-soft.com/ en-us/windows/mixed-reality/mixed_reality.
Totbid Dergisi 2024;23:66-72 Sanal ve artırılmış gerçekliğin ortopedi ve travmatolojide uygulama alanları, Tolga Kurtuluş Çapın
Casari FA, Navab N, Hruby LA, Kriechling P, Nakamura R, Tori R, et al. Augmented reality in orthopedic surgery is emerging from proof of concept towards clinical studies: A literature review explaining the technology and current state of the art. Curr Rev Musculoskelet Med 2021;14(2):192-203.
von der Heide AM, Fallavollita P, Wang L, Sandner P, Navab N, Weidert S, et al. Camera-augmented mobile C-arm (CamC): Afeasibility study of augmented reality imaging in the operating room. Int J Med Robot 2018;14(2).
Alexander C, Loeb AE, Fotouhi J, Navab N, Armand M, Khanuja HS. Augmented reality for acetabular component placement in di- rect anterior total hip arthroplasty. J Arthroplast 2020;35(6):1636-1641.e3
Kalun P, Wagner N, Yan J, Nousiainen MT, Sonnadara RR. Surgical simulation training in orthopedics: Current insights. Adv Med Educ Pract 2018;9:125-31.
Sun P, Zhao Y, Men J, Ma ZR, Jiang HZ, Liu CY, et al. Application of virtual and augmented reality technology in hip surgery: Systematic review. J Med Internet Res 2023;25:e37599.
Anetzberger H, Reppenhagen S, Eickhoff H, Seibert FJ, Döring B, Haasters F, et al. Ten hours of simulator training in arthroscopy are insufficient to reach the target level based on the Diagnostic Arthroscopic Skill Score. Knee Surg Sports Traumatol Arthrosc 2022;30(4):1471-9.
Walbron P, Common H, Thomazeau H, Hosseini K, Peduzzi L, Bulaid Y, et al. Virtual reality simulator improves the acquisition of basic arthroscopy skills in first-year orthopedic surgery residents. Orthop Traumatol Surg Res 2020;106(4):717-24.
Chytas D, Malahias MA, Nikolaou VS. Augmented reality in orthopedics: Current state and future directions. Front Surg 2019;6:38.
