MRI-based pseudo CT synthesis using anatomical signature and alternating random forest with iterative refinement model

Abstract

We develop a learning-based method to generate patient-specific pseudo computed tomography (CT) from routinely acquired magnetic resonance imaging (MRI) for potential MRI-based radiotherapy treatment planning. The proposed pseudo CT (PCT) synthesis method consists of a training stage and a synthesizing stage. During the training stage, patch-based features are extracted from MRIs. Using a feature selection, the most informative features are identified as an anatomical signature to train a sequence of alternating random forests based on an iterative refinement model. During the synthesizing stage, we feed the anatomical signatures extracted from an MRI into the sequence of well-trained forests for a PCT synthesis. Our PCT was compared with original CT (ground truth) to quantitatively assess the synthesis accuracy. The mean absolute error, peak signal-to-noise ratio, and normalized cross-correlation indices were $60.87\pm 15.10\mathrm{HU}$ , $24.63\pm 1.73\mathrm{dB}$ , and $0.954\pm 0.013$ for 14 patients' brain data and $29.86\pm 10.4\mathrm{HU}$ , $34.18\pm 3.31\mathrm{dB}$ , and $0.980\pm 0.025$ for 12 patients' pelvic data, respectively. We have investigated a learning-based approach to synthesize CTs from routine MRIs and demonstrated its feasibility and reliability. The proposed PCT synthesis technique can be a useful tool for MRI-based radiation treatment planning.

Keywords: MRI-based treatment planning; feature selection; pseudo computed tomography; random forest.