Abstract
An important problem in minimally invasive photoacoustic (PA) imaging of brachytherapy seeds is reflection artifacts caused by the high signal from the optical fiber/needle tip reflecting off the seed. The presence of these artifacts confounds interpretation of images. In this letter, we demonstrate a recently developed concept called photoacoustic-guided focused ultrasound (PAFUSion) for the first time in the context of interstitial illumination PA imaging to identify and remove reflection artifacts. In this method, ultrasound (US) from the transducer is focused on the region of the optical fiber/needle tip identified in a first step using PA imaging. The image developed from the US diverging from the focus zone at the tip region visualizes only the reflections from seeds and other acoustic inhomogeneities, allowing identification of the reflection artifacts of the first step. These artifacts can then be removed from the PA image. Using PAFUSion, we demonstrate reduction of reflection artifacts and thereby improved interstitial PA visualization of brachytherapy seeds in phantom and <italic<ex vivo</italic< measurements on porcine tissue.
Highlights
An important problem in minimally invasive photoacoustic (PA) imaging of brachytherapy seeds is reflection artifacts caused by the high signal from the optical fiber/needle tip reflecting off the seed
Owing to the high optical absorption of metal compared to tissue, PA imaging offers excellent contrast in imaging brachytherapy seeds.[3,6]
PA imaging can complement US imaging for better visualization of brachytherapy seeds.[3,6,7]
Summary
An important problem in minimally invasive photoacoustic (PA) imaging of brachytherapy seeds is reflection artifacts caused by the high signal from the optical fiber/needle tip reflecting off the seed. We recently proposed a method called photoacoustic-guided focused ultrasound (PAFUSion) to identify reflection artifacts in epi-mode PA imaging.[10] In this work, we study the use of PAFUSion in identifying and reducing in-plane reflection artifacts with the use of the PA needle in the visualization of brachytherapy seeds.
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