Multi-stage 3D–2D registration for correction of anatomical deformation in image-guided spine surgery

成像体模 射线照相术 变形(气象学) 椎骨 人工智能 计算机视觉 图像配准 计算机科学 医学 投影(关系代数) 刚性变换 图像(数学) 放射科 外科 算法 地质学 海洋学
作者
Michael D. Ketcha,T. De Silva,Ali Uneri,Matthew W. Jacobson,J Goerres,Gerhard Kleinszig,Sebastian Vogt,J-P Wolinsky,Jeffrey H. Siewerdsen
出处
期刊:Physics in Medicine and Biology [IOP Publishing]
卷期号:62 (11): 4604-4622 被引量:35
标识
DOI:10.1088/1361-6560/aa6b3e
摘要

A multi-stage image-based 3D-2D registration method is presented that maps annotations in a 3D image (e.g. point labels annotating individual vertebrae in preoperative CT) to an intraoperative radiograph in which the patient has undergone non-rigid anatomical deformation due to changes in patient positioning or due to the intervention itself. The proposed method (termed msLevelCheck) extends a previous rigid registration solution (LevelCheck) to provide an accurate mapping of vertebral labels in the presence of spinal deformation. The method employs a multi-stage series of rigid 3D-2D registrations performed on sets of automatically determined and increasingly localized sub-images, with the final stage achieving a rigid mapping for each label to yield a locally rigid yet globally deformable solution. The method was evaluated first in a phantom study in which a CT image of the spine was acquired followed by a series of 7 mobile radiographs with increasing degree of deformation applied. Second, the method was validated using a clinical data set of patients exhibiting strong spinal deformation during thoracolumbar spine surgery. Registration accuracy was assessed using projection distance error (PDE) and failure rate (PDE > 20 mm-i.e. label registered outside vertebra). The msLevelCheck method was able to register all vertebrae accurately for all cases of deformation in the phantom study, improving the maximum PDE of the rigid method from 22.4 mm to 3.9 mm. The clinical study demonstrated the feasibility of the approach in real patient data by accurately registering all vertebral labels in each case, eliminating all instances of failure encountered in the conventional rigid method. The multi-stage approach demonstrated accurate mapping of vertebral labels in the presence of strong spinal deformation. The msLevelCheck method maintains other advantageous aspects of the original LevelCheck method (e.g. compatibility with standard clinical workflow, large capture range, and robustness against mismatch in image content) and extends capability to cases exhibiting strong changes in spinal curvature.
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