Manik Aima scite author profile

Magnetic resonance imaging (MRI) offers outstanding soft tissue contrast that may reduce uncertainties in target and organ-at-risk delineation and enable online adaptive image-guided treatment. Spatial distortions resulting from non-linearities in the gradient fields and nonuniformity in the main magnetic field must be accounted for across the imaging field-of-view to prevent systematic errors during treatment delivery. This work presents a modular phantom and software application to characterize geometric distortion (GD) within the large field-of-view MRI images required for radiation therapy simulation. The modular phantom is assembled from a series of rectangular foam blocks containing high-contrast fiducial markers in a known configuration. The modular phantom design facilitates transportation of the phantom between different MR scanners and MR-guided linear accelerators and allows the phantom to be adapted to fit different sized bores or coils. The phantom was evaluated using a 1.5 T MR-guided linear accelerator (MR-Linac) and 1.5 T and 3.0 T diagnostic scanners. Performance was assessed by varying acquisition parameters to induce image distortions in a known manner. Imaging was performed using T1 and T2 weighted pulse sequences with 2D and 3D distortion correction algorithms and the receiver bandwidth (BW) varied as 250-815 Hz pixel −1 . Phantom set-up reproducibility was evaluated across independent set-ups. The software was validated by comparison with a non-modular phantom. Average geometric distortion was 0.94 ± 0.58 mm for the MR-Linac, 0.90 ± 0.53 mm

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Dosimetric characterization of a new directional low‐dose rate brachytherapy source

Aima

DeWerd

Mitch

et al. 2018

Medical Physics

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Primary S measurements of the CivaDot demonstrated good repeatability and reproducibility of the free-air chamber measurements. Measurements of the CivaDot dose distribution using the EBT3 film stack phantom and its subsequent comparison to Monte Carlo-predicted dose distributions were encouraging, given the overall uncertainties. This work will aid in the eventual realization of a clinically viable dosimetric framework for the CivaSheet based on the CivaDot dose distribution.

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Air‐kerma strength determination of an HDR ¹⁹²Ir source including a geometric sensitivity study of the seven‐distance method

et al. 2017

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The differences between the SK measurements determined from the seven-distance technique and the accredited UWADCL measurement results were within the k = 2 uncertainty reported for an accredited calibration. Excellent agreement was found between the measured SK and RAKR methods used at the UWMRRC and PTB, respectively. Additionally, the sensitivity study has shown that the seven-distance algorithm accurately determines the SK of a source while having a variable chamber offset among nominal positions; the uncertainty budget for the seven-distance method does not need to be expanded at this time. It has been determined that the current standard used by the UWADCL for well chamber calibrations is valid for the Bebig model Ir2.A85-2 192Ir brachytherapy source.

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Learning from the past: a century of accuracy, aspirations, and aspersions in brachytherapy

Melhus

Simiele

Aima

et al. 2022

BJR

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The oldest form of radiation therapy, brachytherapy, has been investigated and reported in the scientific and medical literature for well over a century. Known by many names over the years, radium based, empirical practices evolved over decades to contemporary practice. This includes treatment at various dose rates using multiple radionuclides or even electrically generated photon sources. Predictions or prognostications of what may happen in the future enjoy a history that spans centuries, for example those by Nostradamus in the 1500s. In this review article, publications from several eras of past practice between the early 1900s and the late 2010s where the authors address the “future of brachytherapy” are presented, and for many of these publications, one can use the benefit of the intervening years to comment on the accuracy or the inaccuracies inherent in those publications. Finally, recently published papers are reviewed to examine current expectations for the future practice of brachytherapy.

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Manik Aima

Air‐kerma strength determination of a new directional ¹⁰³Pd source

A modular phantom and software to characterize 3D geometric distortion in MRI

Dosimetric characterization of a new directional low‐dose rate brachytherapy source

Air‐kerma strength determination of an HDR ¹⁹²Ir source including a geometric sensitivity study of the seven‐distance method

Learning from the past: a century of accuracy, aspirations, and aspersions in brachytherapy

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Manik Aima

Air‐kerma strength determination of a new directional 103Pd source

A modular phantom and software to characterize 3D geometric distortion in MRI

Dosimetric characterization of a new directional low‐dose rate brachytherapy source

Air‐kerma strength determination of an HDR 192Ir source including a geometric sensitivity study of the seven‐distance method

Learning from the past: a century of accuracy, aspirations, and aspersions in brachytherapy

Contact Info

Product

Resources

About

Air‐kerma strength determination of a new directional ¹⁰³Pd source

Air‐kerma strength determination of an HDR ¹⁹²Ir source including a geometric sensitivity study of the seven‐distance method