Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator

Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator Publisher

Taheri H ; Tavakoli M ; Mousavi K ; Taheri H ; Lenjani SL ; Farghadani M

Source: Advanced Biomedical Research Published:2026

Abstract

Background: Prostate cancer patients are commonly undergoing Radiotherapy (RT) and treatment planning system have a prominent role for dose calculation, while this would seem that dose distribution uncertainties of treatment planning system (TPS) may effect on RT results. Therefore, this study aimed to design a Dose prediction deep learning-based model for prostate cancer volumetric arc therapy (VMAT) applying MRI in Versa HD linear accelerator (linac). Materials and Methods: In this work, MRI of 45 patients who underwent VMAT was acquired, and cycle-consistent GAN (CycleGAN) (that allow image-to-image translation) and U-net deep learning (DL) framework for prostate were employed. The synthetic CT (sCT) images were generated from MR images. The predicted dose among CycleGAN, U-net and Monaco TPS (that calculate dose distribution based on CT simulation images) was compared to each other. Results: The sCT that was generated employing CycleGAN illustrated more obvious boundaries than the sCT of U-net (sCTU-net). The gamma passing rate of cycleGAN and U-net was exceeded 97% and 90%, respectively, in all areas. Conclusion: The results of this study illustrates that deep learning models including CycleGAN and U-net are good alternative for dose prediction of VMAT in Versa HD linac, while it seems that CycleGAN may be more accurate compared to U-net. © 2026 Advanced Biomedical Research.

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Style	Citing Format
MLA	Taheri H, et al.. "Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator." Advanced Biomedical Research, vol. 15, no. 1, 2026, pp. -.
APA	Taheri H, Tavakoli M, Mousavi K, Taheri H, Lenjani SL, Farghadani M (2026). Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator. Advanced Biomedical Research, 15(1), -.
Chicago	Taheri H, Tavakoli M, Mousavi K, Taheri H, Lenjani SL, Farghadani M. "Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator." Advanced Biomedical Research 15, no. 1 (2026): -.
Harvard	Taheri H et al. (2026) 'Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator', Advanced Biomedical Research, 15(1), pp. -.
Vancouver	Taheri H, Tavakoli M, Mousavi K, Taheri H, Lenjani SL, Farghadani M. Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator. Advanced Biomedical Research. 2026;15(1):-.
BibTex	@article{ author = {Taheri H and Tavakoli M and Mousavi K and Taheri H and Lenjani SL and Farghadani M}, title = {Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator}, journal = {Advanced Biomedical Research}, volume = {15}, number = {1}, pages = {-}, year = {2026} }
RIS	TY - JOUR AU - Taheri H AU - Tavakoli M AU - Mousavi K AU - Taheri H AU - Lenjani SL AU - Farghadani M TI - Dose Prediction Deep Learning-Based Model for Vmat of Prostate Cancer Applying Magnetic Resonance Image (Mri) in Versa Hd Linear Accelerator JO - Advanced Biomedical Research VL - 15 IS - 1 SP - EP - PY - 2026 ER -

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