Department of Orthopaedic Surgery, Hospital CUF Santarém, Santarém, Portugal.
Department of Orthopaedic Surgery, Hospital Pedro Hispano, Matosinhos, Portugal.
J Arthroplasty. 2023 Oct;38(10):2032-2036. doi: 10.1016/j.arth.2022.12.007. Epub 2022 Dec 9.
With the emergence of advanced technology, such as robotics, three-dimensional (3D) imaging is necessary to execute preoperative surgical plans accurately. However, 3D imaging adds cost and potential risk to patients. This study determined the measurement accuracy, reliability, and repeatability of a novel artificial intelligence (AI) algorithm which converts two-dimensional (2D) radiographs to 3D bone models.
An AI algorithm was developed to convert 2D radiographs to 3D bone model reconstructions. The accuracy of the AI algorithm was evaluated by comparing mean absolute error in measurements performed on 3D bone reconstructions, 3D computed tomography (CT) scans, and manual measurements on five cadaveric knees. Reliability and repeatability of the AI algorithm were evaluated by assessing the inter-observer and intra-observer agreement between measurements performed on 3D bone reconstructions, respectively.
Accuracy of the AI algorithm was considered excellent with mean absolute errors <2mm in 9 of 12 anatomical parameters compared with measurements performed on CTs and manual calipers. All inter-observer and intra-observer correlation coefficients were greater than 0.90 representing a high level of measurement reliability and repeatability by independent observers and the same observers.
This particular AI algorithm demonstrated a high degree of accuracy, reliability, and repeatability for converting 2D radiographs to 3D bone reconstructions similar to a CT-scan. Study results suggest this AI algorithm has the potential for use in preoperative surgical planning due to its efficiencies related to cost and time and reduced radiation exposure without the use of 3D imaging.
随着先进技术(如机器人技术)的出现,需要三维(3D)成像来准确执行术前手术计划。然而,3D 成像会增加患者的成本和潜在风险。本研究旨在确定一种将二维(2D)射线照片转换为 3D 骨骼模型的新型人工智能(AI)算法的测量准确性、可靠性和可重复性。
开发了一种 AI 算法将 2D 射线照片转换为 3D 骨骼模型重建。通过比较在 3D 骨骼重建、3D 计算机断层扫描(CT)扫描和手动测量五个尸体膝关节上进行的测量的平均绝对误差,评估 AI 算法的准确性。通过评估在 3D 骨骼重建上进行的测量的观察者间和观察者内一致性,分别评估 AI 算法的可靠性和可重复性。
AI 算法的准确性被认为非常出色,与 CT 扫描和手动卡尺相比,在 12 个解剖参数中有 9 个的平均绝对误差<2mm。所有观察者间和观察者内相关系数均大于 0.90,代表独立观察者和同一观察者的测量具有高度可靠性和可重复性。
该特定 AI 算法在将 2D 射线照片转换为 3D 骨骼重建方面表现出高度的准确性、可靠性和可重复性,与 CT 扫描相似。研究结果表明,由于该 AI 算法具有成本和时间效率高、减少辐射暴露而无需使用 3D 成像等优势,因此有可能用于术前手术规划。
