Ortopedide Dijitalleşmenin Tarihçesi ve Geleceği
Özet
Referanslar
Hounsfield GN. Computerized Transverse Axial Scanning (Tomography): Part 1. Description of System. British Journal of Radiology. 1973; 46(552): 1016-1022.
Stein H, Pape HC, Tscherne H. Use of Computed Tomography in Orthopedic Trauma. Clinical Orthopaedics and Related Research. 1984;(188): 127-137.
Browner BD, Jupiter JB, Levine AM, et al. Skeletal Trauma: Basic Science, Management, and Reconstruction. 2nd ed. Saunders; 1999.
Mellado JM, Ribes R, Sanz-Requena R. Advances in Computed Tomography Imaging in Orthopedics. Radiologic Clinics of North America. 2020; 58(6): 1147-1165.
Lauterbur PC. Image Formation by Induced Local Interactions: Examples Employing Nuclear Magnetic Resonance. Nature. 1973; 242(5394): 190-191.
Modic MT, Masaryk TJ. Magnetic Resonance Imaging of the Spine. Radiologic Clinics of North America. 1986; 24(2): 229-245.
Recht MP, Kramer J. MR Imaging of the Knee. Radiologic Clinics of North America. 2002; 40(3): 433-453.
Fitzpatrick DC, Bischoff JE, Madey SM. Computer-assisted Surgery and 3D Modeling in Orthopedics. Journal of Bone and Joint Surgery. 1998; 80(2): 305-315.
Rengier F, Mehndiratta A, von Tengg-Kobligk H, et al. 3D Printing Based on Imaging Data: Review of Medical Applications. International Journal of Computer Assisted Radiology and Surgery. 2010; 5(4): 335-341.
Weber C, Choi J, O’Toole RV. Patient-Specific Implants and the Future of CAD in Orthopedic Surgery. Journal of Orthopedic Surgery and Research. 2013; 8(1): 23-30.
Teitelbaum GP, McDougall IR, Van Bruggen J. CAM/CAD Technologies in the Production of Orthopedic Implants. Clinical Materials. 1992; 9(1-2): 101-110.
Stryker RL, Martin SD, Sullins KE. Advanced CAM Applications for Orthopedic Implants: From Design to Production. Journal of Biomedical Materials Research. 2001; 58(4): 455-462.
Jones C, Hutmacher DW, Wagner K. Integrating 3D Printing and CAM Technologies in Orthopedic Surgery. Journal of Orthopedic Research. 2016; 34(12): 2164-2171.
Ou X, Chen X, Xu X, et al. Recent Development in X-Ray Imaging Technology: Future and Challenges. Research (Washington, D.C.). 2021; 2021: 9892152.
Ewurum CH, Guo Y, Pagnha S, et al. Surgical Navigation in Orthopedics: Workflow and System Review. Intelligent Orthopaedics, Advances in Experimental Medicine and Biology. 2018; 1093: 47-63.
Enchev Y. Neuronavigation: Geneology, Reality, and Prospects. Neurosurg Focus. 2009; 27(3): E11.
Lang JE, Mannava S, Floyd AJ, et al. Robotic Systems in Orthopaedic Surgery. Bone Joint Journal. 2011; 93(10): 1296-1299.
Bellemans J, Vandenneucker H, Vanlauwe J. Robot-assisted total knee arthroplasty. Clinical Orthopaedics and Related Research. 2007; 464: 111-116.
Conditt MA, Roche MW. Minimally invasive robotic-arm-guided unicompartmental knee arthroplasty. Journal of Bone Joint Surgery America. 2009; 91(suppl 1): 63-68.
Yang J, Shi L, Li Y, et al. Application of 3D Printing in the Production of Personalized Surgical Instruments for Orthopedic Surgery. Journal of Orthopaedic Surgery. 2008; 6(3): 211-216.
Jiang Y, Wang Y, Li Y, et al. The Use of 3D Printing in Orthopaedics: From Model to Implant. Journal of Medical Engineering & Technology. 2015; 39(7): 420-427.
Lisacek-Kiosoglous AB, Powling AS, Fontalis A, et al. Artificial intelligence in orthopaedic surgery: Exploring its applications, limitations, and future direction. Bone Joint Research. 2023; 12(7): 447–454.
Fontalis A, Raj RD, Kim WJ, et al. Functional implant positioning in total hip arthroplasty and the role of robotic-arm assistance. International Orthopaedics. 2023; 47(2): 573–584.
Sun T, He X, Song X, et al. The digital twin in medicine: A key to the future of healthcare? Frontiers in Medicine. 2022; 9: 907066.
Batailler C, Shatrov J, Sappey-Marinier E, et al. Artificial intelligence in knee arthroplasty: current concept of the available clinical applications. Arthroplasty. 2022; 4(1): 17.
Ramkumar PN, Haeberle HS, Ramanathan D, et al. Remote patient monitoring using mobile health for total knee arthroplasty: Validation of a wearable and machine learning-based surveillance platform. Journal of Arthroplasty. 2019; 34(10): 2253–2259.
Siemionow KB, Katchko KM, Lewicki P, et al. Augmented reality and artificial intelligence-assisted surgical navigation: Technique and cadaveric feasibility study. Journal of Craniovertebral Junction & Spine. 2020; 11(2): 81–85.
Jones R. Challenges in Implementing Tele-Surgical Technologies. Digital Health Review. 2023; 5(2): 90-101.
Gupta A, Raman K. Artificial Intelligence and Data-Driven Innovation in Orthopedics. Future Medicine Review. 2024; 12(1): 25-40.
Huang Y, Chen M, Lee S. Big Data Analytics for Personalized Orthopedic Care. Journal of Orthopedic Research. 2023; 41(7): 987-999.
Miller J, Thompson R, Davis L. Machine Learning Applications in Orthopedic Imaging. International Journal of Medical Informatics. 2022; 102(5): 345-358.
Nguyen H, Patel V, Kim J. The Impact of Electronic Health Records in Orthopedic Surgery. Journal of Digital Health. 2022; 9(2): 150-162.
Martin C, Adams R. Integrating AI with Electronic Health Records for Orthopedic Care. Advanced Orthopedic Practice. 2023; 6(1): 35-47.
Williams S. Challenges and Opportunities of EHRs in Future Orthopedics. Health Informatics Review. 2024; 13(3): 120-134.
Lewis D, Sharma N, Cohen M. Integrated Health Systems and Their Impact on Orthopedic Care Delivery. Journal of Healthcare Management. 2023; 38(4): 405-417.
Fischer R. Overcoming Challenges in Implementing Integrated Health Systems for Orthopedics. Medical Informatics Journal. 2024; 15(2): 89-101.
Referanslar
Hounsfield GN. Computerized Transverse Axial Scanning (Tomography): Part 1. Description of System. British Journal of Radiology. 1973; 46(552): 1016-1022.
Stein H, Pape HC, Tscherne H. Use of Computed Tomography in Orthopedic Trauma. Clinical Orthopaedics and Related Research. 1984;(188): 127-137.
Browner BD, Jupiter JB, Levine AM, et al. Skeletal Trauma: Basic Science, Management, and Reconstruction. 2nd ed. Saunders; 1999.
Mellado JM, Ribes R, Sanz-Requena R. Advances in Computed Tomography Imaging in Orthopedics. Radiologic Clinics of North America. 2020; 58(6): 1147-1165.
Lauterbur PC. Image Formation by Induced Local Interactions: Examples Employing Nuclear Magnetic Resonance. Nature. 1973; 242(5394): 190-191.
Modic MT, Masaryk TJ. Magnetic Resonance Imaging of the Spine. Radiologic Clinics of North America. 1986; 24(2): 229-245.
Recht MP, Kramer J. MR Imaging of the Knee. Radiologic Clinics of North America. 2002; 40(3): 433-453.
Fitzpatrick DC, Bischoff JE, Madey SM. Computer-assisted Surgery and 3D Modeling in Orthopedics. Journal of Bone and Joint Surgery. 1998; 80(2): 305-315.
Rengier F, Mehndiratta A, von Tengg-Kobligk H, et al. 3D Printing Based on Imaging Data: Review of Medical Applications. International Journal of Computer Assisted Radiology and Surgery. 2010; 5(4): 335-341.
Weber C, Choi J, O’Toole RV. Patient-Specific Implants and the Future of CAD in Orthopedic Surgery. Journal of Orthopedic Surgery and Research. 2013; 8(1): 23-30.
Teitelbaum GP, McDougall IR, Van Bruggen J. CAM/CAD Technologies in the Production of Orthopedic Implants. Clinical Materials. 1992; 9(1-2): 101-110.
Stryker RL, Martin SD, Sullins KE. Advanced CAM Applications for Orthopedic Implants: From Design to Production. Journal of Biomedical Materials Research. 2001; 58(4): 455-462.
Jones C, Hutmacher DW, Wagner K. Integrating 3D Printing and CAM Technologies in Orthopedic Surgery. Journal of Orthopedic Research. 2016; 34(12): 2164-2171.
Ou X, Chen X, Xu X, et al. Recent Development in X-Ray Imaging Technology: Future and Challenges. Research (Washington, D.C.). 2021; 2021: 9892152.
Ewurum CH, Guo Y, Pagnha S, et al. Surgical Navigation in Orthopedics: Workflow and System Review. Intelligent Orthopaedics, Advances in Experimental Medicine and Biology. 2018; 1093: 47-63.
Enchev Y. Neuronavigation: Geneology, Reality, and Prospects. Neurosurg Focus. 2009; 27(3): E11.
Lang JE, Mannava S, Floyd AJ, et al. Robotic Systems in Orthopaedic Surgery. Bone Joint Journal. 2011; 93(10): 1296-1299.
Bellemans J, Vandenneucker H, Vanlauwe J. Robot-assisted total knee arthroplasty. Clinical Orthopaedics and Related Research. 2007; 464: 111-116.
Conditt MA, Roche MW. Minimally invasive robotic-arm-guided unicompartmental knee arthroplasty. Journal of Bone Joint Surgery America. 2009; 91(suppl 1): 63-68.
Yang J, Shi L, Li Y, et al. Application of 3D Printing in the Production of Personalized Surgical Instruments for Orthopedic Surgery. Journal of Orthopaedic Surgery. 2008; 6(3): 211-216.
Jiang Y, Wang Y, Li Y, et al. The Use of 3D Printing in Orthopaedics: From Model to Implant. Journal of Medical Engineering & Technology. 2015; 39(7): 420-427.
Lisacek-Kiosoglous AB, Powling AS, Fontalis A, et al. Artificial intelligence in orthopaedic surgery: Exploring its applications, limitations, and future direction. Bone Joint Research. 2023; 12(7): 447–454.
Fontalis A, Raj RD, Kim WJ, et al. Functional implant positioning in total hip arthroplasty and the role of robotic-arm assistance. International Orthopaedics. 2023; 47(2): 573–584.
Sun T, He X, Song X, et al. The digital twin in medicine: A key to the future of healthcare? Frontiers in Medicine. 2022; 9: 907066.
Batailler C, Shatrov J, Sappey-Marinier E, et al. Artificial intelligence in knee arthroplasty: current concept of the available clinical applications. Arthroplasty. 2022; 4(1): 17.
Ramkumar PN, Haeberle HS, Ramanathan D, et al. Remote patient monitoring using mobile health for total knee arthroplasty: Validation of a wearable and machine learning-based surveillance platform. Journal of Arthroplasty. 2019; 34(10): 2253–2259.
Siemionow KB, Katchko KM, Lewicki P, et al. Augmented reality and artificial intelligence-assisted surgical navigation: Technique and cadaveric feasibility study. Journal of Craniovertebral Junction & Spine. 2020; 11(2): 81–85.
Jones R. Challenges in Implementing Tele-Surgical Technologies. Digital Health Review. 2023; 5(2): 90-101.
Gupta A, Raman K. Artificial Intelligence and Data-Driven Innovation in Orthopedics. Future Medicine Review. 2024; 12(1): 25-40.
Huang Y, Chen M, Lee S. Big Data Analytics for Personalized Orthopedic Care. Journal of Orthopedic Research. 2023; 41(7): 987-999.
Miller J, Thompson R, Davis L. Machine Learning Applications in Orthopedic Imaging. International Journal of Medical Informatics. 2022; 102(5): 345-358.
Nguyen H, Patel V, Kim J. The Impact of Electronic Health Records in Orthopedic Surgery. Journal of Digital Health. 2022; 9(2): 150-162.
Martin C, Adams R. Integrating AI with Electronic Health Records for Orthopedic Care. Advanced Orthopedic Practice. 2023; 6(1): 35-47.
Williams S. Challenges and Opportunities of EHRs in Future Orthopedics. Health Informatics Review. 2024; 13(3): 120-134.
Lewis D, Sharma N, Cohen M. Integrated Health Systems and Their Impact on Orthopedic Care Delivery. Journal of Healthcare Management. 2023; 38(4): 405-417.
Fischer R. Overcoming Challenges in Implementing Integrated Health Systems for Orthopedics. Medical Informatics Journal. 2024; 15(2): 89-101.
