Abstract
We propose a novel methodology to conduct whole-body organ-level dosimetry taking into account the heterogeneity of activity distribution as well as patient-specific anatomy using Monte Carlo (MC) simulations and machine learning algorithms. We extended the core idea of the voxel-scale MIRD approach that utilizes a single S-value kernel for internal dosimetry by generating specific S-value kernels corresponding to patient-specific anatomy. In this context, we employed deep learning algorithms to predict the deposited energy distribution, representing the S-value kernel. The training dataset consists of density maps obtained from CT images along with the ground-truth dose distribution obtained from MC simulations. Accordingly, whole-body dose maps are constructed through convolving specific S-values with the activity map. The Deep Neural Network (DNN) predicted dose map was compared with the reference (Monte Carlo-based) and two MIRD-based methods, including single-voxel S-value (SSV) and multiple voxel S-value (MSV) approaches. The Mean Relative Absolute Errors (MRAE) of the estimated absorbed dose between DNN, MSV, and SSV against reference MC simulations were 2.6%, 3%, and 49%, respectively. MRAEs of 23.5%, 5.1%, and 21.8% were obtained between the proposed method and MSV, SSV, and Olinda dosimetry package in organ-level dosimetry, respectively. The proposed internal dosimetry technique exhibited comparable performance to the direct Monte Carlo approach while overcoming the computational burden limitation of MC simulations.
| Originalsprog | Engelsk |
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| Titel | 2020 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS/MIC 2020 |
| Forlag | IEEE |
| Publikationsdato | 2020 |
| ISBN (Elektronisk) | 9781728176932 |
| DOI | |
| Status | Udgivet - 2020 |
| Begivenhed | 2020 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS/MIC 2020 - Boston, USA Varighed: 31. okt. 2020 → 7. nov. 2020 |
Konference
| Konference | 2020 IEEE Nuclear Science Symposium and Medical Imaging Conference, NSS/MIC 2020 |
|---|---|
| Land/Område | USA |
| By | Boston |
| Periode | 31/10/2020 → 07/11/2020 |
Bibliografisk note
Funding Information:This work was supported by the Swiss National Science Foundation under grant SNRF 320030_176052; the Swiss Cancer Research Foundation under Grant KFS-3855-02-2016 and Iran's Ministry of Science
Funding Information:
Manuscript was submitted December 21, 2020. This work was supported by the Swiss National Science Foundation under grant SNRF 320030_176052; the Swiss Cancer Research Foundation under Grant KFS-3855-02-2016 and Iran’s Ministry of Science A. Akhavanallaf, I. Shiri, H. Arabi and H. Zaidi are with Division of Nuclear Medicine and Molecular Imaging, Department of Medical Imaging, Geneva University Hospital, CH-1211 Geneva 4, Switzerland (e-mail: [email protected], [email protected], [email protected], [email protected]). H. Zaidi is with Geneva University Neurocenter, Geneva University, CH-1205 Geneva, Switzerland; Department of Nuclear Medicine and Molecular Imaging, University of Groningen; University Medical Center Groningen, 9700 RB Groningen, Netherlands; and Department of Nuclear Medicine, University of Southern Denmark, DK-500, Odense, Denmark (e-mail: [email protected]).