使用固定机架和旋转治疗床的图像引导自适应放射治疗的功能成像等效性及概念验证
Functional imaging equivalence and proof of concept for image-guided adaptive radiotherapy with fixed gantry and rotating couch.
作者信息
Feain Ilana, Shieh Chun-Chien, White Paul, O'Brien Ricky, Fisher Sandra, Counter William, Lazarakis Peter, Stewart David, Downes Simon, Jackson Michael, Baxi Siddhartha, Whelan Brendan, Makhija Kuldeep, Huang Chen-Yu, Barton Michael, Keall Paul
机构信息
Radiation Physics Laboratory, Central Clinical School, The University of Sydney, Sydney, New South Wales, Australia.
Department of Radiation Oncology, Nelune Comprehensive Cancer Centre, Prince of Wales Hospital, Randwick, New South Wales, Australia.
出版信息
Adv Radiat Oncol. 2016 Nov 8;1(4):365-372. doi: 10.1016/j.adro.2016.10.004. eCollection 2016 Oct-Dec.
PURPOSE
The purpose of this article is to present the first imaging experiments to demonstrate the functional equivalence between a conventional rotational gantry and a fixed-beam imaging geometry, and the feasibility of an iterative image-reconstruction technique under gravitational deformation.
METHODS AND MATERIALS
Experiments were performed using an Elekta Axesse with Agility MLC and XVI, a custom-built rotating phantom stage, a Catphan QA phantom, and a porcine heart. For the imaging equivalence, a conventional cone beam computed tomography (CBCT) of the Catphan was acquired, as well as a set of 660 x-ray projections with a static gantry and rotating Catphan. Both datasets were reconstructed with the Feldkamp-Davis-Kress (FDK) algorithm, and the resultant volumetric images were compared using standard metrics. For imaging under gravitational deformation, a conventional CBCT of the Catphan and a set of 660 x-ray projections with a static gantry and rotating Catphan were also acquired with a porcine heart. The conventional CBCT was reconstructed using FDK. The projections that were acquired with the heart rotating were sorted into angular bins and reconstructed with prior image constrained compressed sensing using a deformation-blurred FDK prior. Deformation was quantified with B-spline transformation-based deformable image registration.
RESULTS
For imaging equivalence, the difference between the two Catphan images was consistent with Poisson noise. For imaging under gravitational deformation, the conventional CBCT porcine heart image (ground truth at 0 degrees) matched the static gantry, rotating heart reconstruction with a mean magnitude of <3 mm and maximum magnitude of <5 mm of the deformation vector field. The mean deformation of the rotating heart was 3.0 to 8.9 mm, up to 16.1 mm maximum deformation. Deformation was mainly observed in the direction of gravity.
CONCLUSIONS
We have demonstrated imaging equivalence in cone beam CT reconstructions between rigid phantom images acquired with a conventional rotating gantry and with a fixed-gantry and rotating phantom. We have presented a method for image reconstruction under a fixed-beam imaging geometry using a deformable phantom.
目的
本文旨在展示首个成像实验,以证明传统旋转机架与固定束成像几何结构之间的功能等效性,以及在重力变形情况下迭代图像重建技术的可行性。
方法与材料
实验使用配备敏捷多叶准直器(Agility MLC)和XVI的医科达Axesse、定制的旋转体模平台、Catphan质量保证体模以及猪心脏进行。为了验证成像等效性,获取了Catphan的传统锥束计算机断层扫描(CBCT)图像,以及使用静态机架和旋转Catphan获取的一组660张X射线投影图像。两个数据集均采用菲尔德坎普 - 戴维斯 - 克雷斯(FDK)算法进行重建,并使用标准指标对所得的容积图像进行比较。对于重力变形情况下的成像,同样使用猪心脏获取了Catphan的传统CBCT图像以及使用静态机架和旋转Catphan获取的一组660张X射线投影图像。传统CBCT使用FDK进行重建。将心脏旋转时获取的投影按角度区间分类,并使用基于变形模糊FDK先验的先验图像约束压缩感知进行重建。使用基于B样条变换的可变形图像配准对变形进行量化。
结果
对于成像等效性,两张Catphan图像之间的差异与泊松噪声一致。对于重力变形情况下的成像,传统CBCT猪心脏图像(0度时的真实情况)与静态机架、旋转心脏重建图像匹配,变形矢量场的平均大小<3毫米,最大大小<5毫米。旋转心脏的平均变形为3.0至8.9毫米,最大变形达16.1毫米。变形主要在重力方向上观察到。
结论
我们已经证明了在锥束CT重建中,使用传统旋转机架以及固定机架和旋转体模获取的刚性体模图像之间的成像等效性。我们提出了一种在固定束成像几何结构下使用可变形体模进行图像重建的方法。
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