Stopping‐power ratio estimation for proton radiotherapy using dual‐energy computed tomography and prior‐image constrained denoising

Abstract: Background: Dual-energy computed tomography (DECT) is a promising technique for estimating stopping-power ratio (SPR) for proton therapy planning. It is known, however, that deriving electron density (ED) and effective atomic number (EAN) from DECT data can cause noise amplification in the resulting SPR images. This can negate the benefits of DECT. Purpose: This work introduces a new algorithm for estimating SPR from DECT with noise suppression, using a pair of CT scans with spectral separation. The method is … Show more

“…Instead, the approach described by Zimmerman et al was used to create a look-up table from to ( Fig. S3 ) [28] . For a more comprehensive description and analysis of this approach, see Section S3.…”

The influence of dual-energy computed tomography image noise in proton therapy treatment planning

“…Instead, the approach described by Zimmerman et al was used to create a look-up table from to ( Fig. S3 ) [28] . For a more comprehensive description and analysis of this approach, see Section S3.…”

The influence of dual-energy computed tomography image noise in proton therapy treatment planning

“…[ [25][26][27]. The algorithm proposed in this study currently conducts image evaluation on substances consisting of three to six components, but it is necessary to decompose substances based on information on CT volume to be applied to clinical situations.…”

Algorithm for Using Dual Energy Computed Tomography to Determine Chemical Composition: A Feasibility Study

Assessment of Photon-Counting Computed Tomography for Quantitative Imaging in Radiation Therapy