Evaluation of synthetically generated computed tomography for use in transcranial focused ultrasound procedures

Han Liu; Michelle K. Sigona; Thomas J. Manuel; Li Min Chen; Benoit M. Dawant; Charles F. Caskey

doi:10.1117/1.JMI.10.5.055001

22 September 2023 Evaluation of synthetically generated computed tomography for use in transcranial focused ultrasound procedures

Han Liu, Michelle K. Sigona, Thomas J. Manuel, Li Min Chen, Benoit M. Dawant, Charles F. Caskey

Author Affiliations +

Journal of Medical Imaging, Vol. 10, Issue 5, 055001 (September 2023). https://doi.org/10.1117/1.JMI.10.5.055001

Abstract

Purpose

Transcranial focused ultrasound (tFUS) is a therapeutic ultrasound method that focuses sound through the skull to a small region noninvasively and often under magnetic resonance imaging (MRI) guidance. CT imaging is used to estimate the acoustic properties that vary between individual skulls to enable effective focusing during tFUS procedures, exposing patients to potentially harmful radiation. A method to estimate acoustic parameters in the skull without the need for CT is desirable.

Approach

We synthesized CT images from routinely acquired T1-weighted MRI using a 3D patch-based conditional generative adversarial network and evaluated the performance of synthesized CT (sCT) images for treatment planning with tFUS. We compared the performance of sCT with real CT (rCT) images for tFUS planning using Kranion and simulations using the acoustic toolbox, k-Wave. Simulations were performed for 3 tFUS scenarios: (1) no aberration correction, (2) correction with phases calculated from Kranion, and (3) phase shifts calculated from time reversal.

Results

From Kranion, the skull density ratio, skull thickness, and number of active elements between rCT and sCT had Pearson’s correlation coefficients of 0.94, 0.92, and 0.98, respectively. Among 20 targets, differences in simulated peak pressure between rCT and sCT were largest without phase correction (12.4 % ± 8.1 % ) and smallest with Kranion phases (7.3 % ± 6.0 % ). The distance between peak focal locations between rCT and sCT was <1.3 mm for all simulation cases.

Conclusions

Real and synthetically generated skulls had comparable image similarity, skull measurements, and acoustic simulation metrics. Our work demonstrated similar results for 10 testing cases comparing MR-sCTs and rCTs for tFUS planning. Source code and a docker image with the trained model are available at https://github.com/han-liu/SynCT_TcMRgFUS.

Citation Download Citation

Han Liu, Michelle K. Sigona, Thomas J. Manuel, Li Min Chen, Benoit M. Dawant, and Charles F. Caskey "Evaluation of synthetically generated computed tomography for use in transcranial focused ultrasound procedures," Journal of Medical Imaging 10(5), 055001 (22 September 2023). https://doi.org/10.1117/1.JMI.10.5.055001

Received: 13 October 2022; Accepted: 23 August 2023; Published: 22 September 2023

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