Improving image quality and reducing dose with 2.5 MV diamond target volume‐of‐interest cone beam CT imaging

Borsavage, Jennifer; Cherpak, Amanda; Robar, James L.

doi:10.1002/mp.15974

Medical Physics

2022

DOI: 10.1002/mp.15974

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Improving image quality and reducing dose with 2.5 MV diamond target volume‐of‐interest cone beam CT imaging

Jennifer Borsavage

Amanda Cherpak

James L. Robar

Abstract: Purpose Over the past decades, continuous efforts have been made to improve megavoltage (MV) image quality versus dose characteristics, including the implementation of low atomic number (Z) targets in MV beamlines and the development of more efficient detectors. Recently, a diamond target beam within a commercial radiotherapy treatment platform demonstrated improved planar contrast‐to‐noise‐ratio (CNR) per unit dose using a novel 2.5 MV sintered diamond target beam, which enabled image acquisition on the order… Show more

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2024

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Investigation of a novel 2.5 MV sintered diamond target beam for intracranial linac-based stereotactic treatments

Borsavage,

Cherpak,

Robar

2024

Biomed. Phys. Eng. Express

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Purpose: This work investigates the small-field dosimetric characteristics of a 2.5 MV sintered diamond target beam and its feasibility for use in linac-based intracranial stereotactic treatments. Due to the increased proportion of low energy photons in the low-Z beam, it was hypothesized that this novel beam would provide sharper dose fall-off compared to the 6 MV beam owing to the reduced energy, and therefore range, of secondary electrons. Material and methods: Stereotactic treatments of ocular melanoma and trigeminal neuralgia were simulated for 2.5 MV low-Z and 6 MV beams using Monte Carlo to calculate dose in a voxelized anatomical phantom. Two collimation methods were investigated, including a 5x3 mm2 HDMLC field and a 4 mm cone to demonstrate isolated and combined effects of geometric and radiological contributions to the penumbral width. Results: The measured 2.5 MV low-Z dosimetric profiles demonstrated reduced penumbra by 0.5 mm in both the inline and crossline directions across all depths for both collimation methods, compared to 6 MV. In both treatment cases, the 2.5 MV low-Z beam collimated with the 4 mm cone produced the sharpest dose fall off in profiles captured through isocenter. This improved fall-off resulted in a 59% decrease to the maximum brainstem dose in the trigeminal neuralgia case for the 2.5 MV low-Z MLC collimated beam compared to 6 MV. Reductions to the maximum and mean doses to ipsilateral and contralateral OARs in the ocular melanoma case were observed for the 2.5 MV low-Z beam compared to 6 MV with both collimation methods. Conclusions: While the low dose rate of this novel beam prohibits immediate clinical translation, the results of this study support the further development of this prototype beam to decrease toxicity in intracranial SRS treatments.

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Investigation of a novel 2.5 MV sintered diamond target beam for intracranial linac-based stereotactic treatments

Borsavage,

Cherpak,

Robar

2024

Biomed. Phys. Eng. Express

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show abstract

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Improving image quality and reducing dose with 2.5 MV diamond target volume‐of‐interest cone beam CT imaging

Cited by 1 publication

References 22 publications

Investigation of a novel 2.5 MV sintered diamond target beam for intracranial linac-based stereotactic treatments

Investigation of a novel 2.5 MV sintered diamond target beam for intracranial linac-based stereotactic treatments

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