Improving CBCT image quality to the CT level using RegGAN in esophageal cancer adaptive radiotherapy

Wang, Hao; Liu, Xiao; Kong, Lingke; Huang, Ying; Chen, Hua; Ma, Xiaochi; Duan, Yi‐Shi; Shao, Yi; Feng, Aihui; Shen, Zhenjiong; Gu, Heng; Kong, Qing; Xu, Zhiyong; Zhou, Yongkang

doi:10.1007/s00066-022-02039-5

Cited by 9 publications

(4 citation statements)

References 24 publications

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“…It is crucial to develop new methods for generating sCT to enhance the accuracy of dose calculation in the on-couch plan for this approach. The recent advancements in machinelearning based approaches show potential for generating more accurate sCT [45][46][47][48][49][50][51][52][53][54][55].…”

Section: Discussionmentioning

confidence: 99%

Simulation and pre-planning omitted radiotherapy (SPORT): a feasibility study for prostate cancer

Zhuang,

Parsons,

Desai

et al. 2024

Biomed. Phys. Eng. Express

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This study explored the feasibility of on-couch intensity modulated radiotherapy (IMRT) planning for prostate cancer (PCa) on a cone-beam CT (CBCT)-based online adaptive RT platform without an individualized pre-treatment plan and contours. Ten patients with PCa previously treated with image-guided IMRT (60Gy/20 fractions) were selected. In contrast to the routine online adaptive RT workflow, a novel approach was employed in which the same preplan that was optimized on one reference patient was adapted to generate individual on-couch/initial plans for the other nine test patients using Ethos emulator. Simulation CTs of the test patients were used as simulated online CBCT (sCBCT) for emulation. Quality assessments were conducted on synthetic CTs (sCT). Dosimetric comparisons were performed between on-couch plans, on-couch plans recomputed on the sCBCT and individually optimized plans for test patients. The median value of mean absolute difference between sCT and sCBCT was 74.7 HU (range 69.5-91.5 HU). The average CTV/PTV coverage by prescription dose was 100.0%/94.7%, and normal tissue constraints were met for the nine test patients in on-couch plans on sCT. Recalculating on-couch plans on the sCBCT showed about 0.7% reduction of PTV coverage and a 0.6% increasing of hotspot, and the dose difference of the OARs was negligible (<0.5 Gy). Hence, initial IMRT plans for new patients can be generated by adapting a reference patient’s preplan with online contours, which had similar qualities to the conventional approach of individually optimized plan on the simulation CT. Further study is needed to identify selection criteria for patient anatomy most amenable to this workflow.

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Section: Discussionmentioning

confidence: 99%

Simulation and pre-planning omitted radiotherapy (SPORT): a feasibility study for prostate cancer

Zhuang,

Parsons,

Desai

et al. 2024

Biomed. Phys. Eng. Express

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“…Treatment planning prior to the day of therapy would allow adequate time for implementing advanced planning techniques such as acoustic field simulation for aberration correction 10 and acoustic obstruction avoidance, in addition to precise target delineation. Additionally, CBCT images have lower image quality than multi-detector computed tomography (MDCT) or magnetic resonance imaging (MRI) scans, 11 and have a smaller field of view, introducing visibility challenges such as truncation artifacts and incomplete liver coverage in the image volume. 12 The water bath also degrades image quality from increased scatter, attenuation, and beam hardening.…”

Section: Introductionmentioning

confidence: 99%

FEM deformable liver registration to facilitate CBCT guided histotripsy

Minesinger,

Laeseke,

Kutlu

et al. 2024

Medical Imaging 2024: Physics of Medical Imaging

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Histotripsy is an emerging focal tumor therapy that utilizes focused ultrasound (US) to mechanically destroy tissue. Cone beam CT (CBCT) guidance has been developed to overcome limitations of diagnostic US for visualizing and targeting tumors. Existing workflow for CBCT-guided histotripsy utilizes targeting based on CBCT images acquired with the patient in position for treatment; therefore, treatment planning is currently performed intraprocedurally right before delivering therapy. To provide a framework for planning liver tumor treatments in advance, a biomechanical, nonrigid model is proposed to predict volumetric liver deformations between a pre-procedural diagnostic scan and the intraprocedural CBCT. In the proposed registration approach, the liver, gallbladder (GB), and hepatic blood vessels were segmented from CBCT images acquired at two different points of motion. Segmented structural surfaces were registered using a rigid iterative closest point algorithm followed by deformable registration (demons algorithm). These internal and external hepatic structural surface registrations were used as boundary conditions for a finite element model (FEM) to determine internal liver deformations. Four FEM models were constructed: the liver alone (L-FEM), liver and GB (LG-FEM), liver and vessels (LV-FEM), and liver, GB, and vessels (LGV-FEM). Registration accuracy was measured as the Euclidean distance between manually annotated vessel bifurcations. Bifurcation error was 3.5±3.5mm for LGV-FEM, a 52% improvement from L-FEM (7.4±6.1mm). Including vessels and GB in the model both individually reduced bifurcation error compared to corresponding models excluding those structures. FEM-based liver registration guided by internal and external hepatic structures is a feasible method to facilitate CBCT-guided histotripsy treatment planning.

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“…Due to the intrinsic characteristics of radiotherapy after breast conserving surgery, there are some difficulties in segmentation of CTV on CBCT images of breast cancer. Firstly, CBCT images are easily affected by medical equipment and patient motion, which makes CBCT images contain a large number of artifacts and low soft tissue contrast [8,9]. Secondly, CTV is difficult to distinguish radiologically from normal tissues, which increases the difficulty of delineation.…”

Section: Introductionmentioning

confidence: 99%

Uncertainty estimation- and attention-based semi-supervised models for automatically delineate clinical target volume in CBCT images of breast cancer

Wang,

Cao,

Sun

et al. 2024

Radiat Oncol

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Objectives Accurate segmentation of the clinical target volume (CTV) of CBCT images can observe the changes of CTV during patients' radiotherapy, and lay a foundation for the subsequent implementation of adaptive radiotherapy (ART). However, segmentation is challenging due to the poor quality of CBCT images and difficulty in obtaining target volumes. An uncertainty estimation- and attention-based semi-supervised model called residual convolutional block attention-uncertainty aware mean teacher (RCBA-UAMT) was proposed to delineate the CTV in cone-beam computed tomography (CBCT) images of breast cancer automatically. Methods A total of 60 patients who undergone radiotherapy after breast-conserving surgery were enrolled in this study, which involved 60 planning CTs and 380 CBCTs. RCBA-UAMT was proposed by integrating residual and attention modules in the backbone network 3D UNet. The attention module can adjust channel and spatial weights of the extracted image features. The proposed design can train the model and segment CBCT images with a small amount of labeled data (5%, 10%, and 20%) and a large amount of unlabeled data. Four types of evaluation metrics, namely, dice similarity coefficient (DSC), Jaccard, average surface distance (ASD), and 95% Hausdorff distance (95HD), are used to assess the model segmentation performance quantitatively. Results The proposed method achieved average DSC, Jaccard, 95HD, and ASD of 82%, 70%, 8.93, and 1.49 mm for CTV delineation on CBCT images of breast cancer, respectively. Compared with the three classical methods of mean teacher, uncertainty-aware mean-teacher and uncertainty rectified pyramid consistency, DSC and Jaccard increased by 7.89–9.33% and 14.75–16.67%, respectively, while 95HD and ASD decreased by 33.16–67.81% and 36.05–75.57%, respectively. The comparative experiment results of the labeled data with different proportions (5%, 10% and 20%) showed significant differences in the DSC, Jaccard, and 95HD evaluation indexes in the labeled data with 5% versus 10% and 5% versus 20%. Moreover, no significant differences were observed in the labeled data with 10% versus 20% among all evaluation indexes. Therefore, we can use only 10% labeled data to achieve the experimental objective. Conclusions Using the proposed RCBA-UAMT, the CTV of breast cancer CBCT images can be delineated reliably with a small amount of labeled data. These delineated images can be used to observe the changes in CTV and lay the foundation for the follow-up implementation of ART.

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Improving CBCT image quality to the CT level using RegGAN in esophageal cancer adaptive radiotherapy

Cited by 9 publications

References 24 publications

Simulation and pre-planning omitted radiotherapy (SPORT): a feasibility study for prostate cancer

Simulation and pre-planning omitted radiotherapy (SPORT): a feasibility study for prostate cancer

FEM deformable liver registration to facilitate CBCT guided histotripsy

Uncertainty estimation- and attention-based semi-supervised models for automatically delineate clinical target volume in CBCT images of breast cancer

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