J. Mohajer scite author profile

Introduction: MR-guided adapted radiotherapy (MRgART) using a high field MR-linac has recently become available. We report the estimated delivered fractional dose of the first five prostate cancer patients treated at our centre using MRgART and compare this to C-Arm linac daily Image Guided Radiotherapy (IGRT). Methods: Patients were treated using adapted treatment plans shaped to their daily anatomy. The treatments were recalculated on an MR image acquired immediately prior to treatment delivery in order to estimate the delivered fractional dose. C-arm linac non-adapted VMAT treatment plans were recalculated on the same MR images to estimate the fractional dose that would have been delivered using conventional radiotherapy techniques using a daily IGRT protocol. Results: 95% and 93% of mandatory target coverage objectives and organ at risk dose constraints were achieved by MRgART and C-arm linac delivered dose estimates, respectively. Both delivery techniques were estimated to have achieved 98% of mandatory Organ At Risk (OAR) dose constraints whereas for the target clinical goals, 86% and 80% were achieved by MRgART and C-arm linac delivered dose estimates. Conclusions: Prostate MRgART can be delivered using the a high field MR-linac. Radiotherapy performed on a C-arm linac offers a good solution for prostate cancer patients who present with favourable anatomy at the time of reference imaging and demonstrate stable anatomy throughout the course of their treatment. For patients with critical OARs abutting target volumes on their reference image we have demonstrated the potential for a target dose coverage improvement for MRgART compared to C-arm linac treatment.

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Feasibility of magnetic resonance guided radiotherapy for the treatment of bladder cancer

Hunt

Hanson

Dunlop

et al. 2020

Clinical and Translational Radiation Oncology

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Biological effects of static magnetic field exposure in the context of MR-guided radiotherapy

Mohajer

Nisbet

Velliou

et al. 2019

BJR

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Feasibility of MR-guided ultrahypofractionated radiotherapy in 5, 2 or 1 fractions for prostate cancer

Mohajer

Dunlop

Mitchell

et al. 2021

Clinical and Translational Radiation Oncology

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Evaluation of therapeutic radiographer contouring for magnetic resonance image guided online adaptive prostate radiotherapy

Smith

Dunlop

Alexander

et al. 2023

Radiotherapy and Oncology

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Bladder filling in patients undergoing prostate radiotherapy on a MR-linac: The dosimetric impact

Smith

Dunlop

Barnes

et al. 2022

Technical Innovations & Patient Support in Radiation Oncolo

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Interobserver variation of clinical oncologists compared to therapeutic radiographers (RTT) prostate contours on T2 weighted MRI

Smith¹,

Dunlop²,

Alexander³

et al. 2023

Technical Innovations & Patient Support in Radiation Oncolo

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J. Mohajer

Automatic reconstruction of the delivered dose of the day using MR-linac treatment log files and online MR imaging

Daily adaptive radiotherapy for patients with prostate cancer using a high field MR-linac: Initial clinical experiences and assessment of delivered doses compared to a C-arm linac

Feasibility of magnetic resonance guided radiotherapy for the treatment of bladder cancer

Biological effects of static magnetic field exposure in the context of MR-guided radiotherapy

Feasibility of MR-guided ultrahypofractionated radiotherapy in 5, 2 or 1 fractions for prostate cancer

Evaluation of therapeutic radiographer contouring for magnetic resonance image guided online adaptive prostate radiotherapy

Bladder filling in patients undergoing prostate radiotherapy on a MR-linac: The dosimetric impact

Interobserver variation of clinical oncologists compared to therapeutic radiographers (RTT) prostate contours on T2 weighted MRI

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