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Deep Neural Networks for Image-Based Dietary Assessment
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Deep-dose: a voxel dose estimation method using deep convolutional neural network for personalized internal

Min Sun Lee1, Donghwi Hwang1,2, Joong Hyun Kim3

  • 1Department of Nuclear Medicine, College of Medicine, Seoul National University, Seoul, 03080, Korea.

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Summary
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A deep convolutional neural network (CNN) significantly speeds up personalized dosimetry by accurately predicting voxel dose rates. This AI approach offers results comparable to Monte Carlo simulations but with drastically reduced computation time.

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Area of Science:

  • Medical Physics
  • Radiological Sciences
  • Artificial Intelligence in Medicine

Background:

  • Accurate personalized dosimetry is essential for advancing personalized medicine.
  • Direct Monte Carlo simulation is a precise but computationally intensive dosimetry method.
  • Existing voxel-based dosimetry techniques face limitations in speed and accuracy.

Purpose of the Study:

  • To develop a deep convolutional neural network (CNN) for rapid and accurate voxel dose prediction in personalized dosimetry.
  • To evaluate the performance of the CNN against direct Monte Carlo simulations and conventional methods like Voxel S-Value (VSV) kernel convolution.

Main Methods:

  • Utilized PET and CT image patches as input for a CNN model.
  • Trained the CNN using ground truth data from direct Monte Carlo simulations.
  • Compared CNN-predicted dose rate maps with ground truth and VSV kernel convolution results.
  • Assessed organ absorbed dose errors in whole-body dosimetry studies.

Main Results:

  • The CNN achieved high accuracy, with voxel dose rate errors of 2.54% ± 2.09%, closely matching direct Monte Carlo.
  • The VSV kernel approach showed significantly higher voxel errors (9.97% ± 1.79%).
  • In whole-body dosimetry, the CNN demonstrated superior performance with average organ absorbed dose errors of 1.07% compared to 9.43% for VSV and 34.22% for OLINDA/EXM.

Conclusions:

  • The proposed CNN-based dosimetry method offers a significant improvement over conventional techniques.
  • This AI approach provides dosimetry results comparable to direct Monte Carlo simulations.
  • The CNN method drastically reduces calculation time, making it a viable alternative for clinical applications.