Deep‐Interior: A new pathway to interior tomographic image reconstruction via a weighted backprojection and deep learning

Author:

Zhang Chengzhu1,Chen Guang‐Hong12

Affiliation:

1. Department of Medical Physics University of Wisconsin School of Medicine and Public Health Madison Wisconsin USA

2. Department of Radiology University of Wisconsin School of Medicine and Public Health Madison Wisconsin USA

Abstract

AbstractBackgroundIn recent years, deep learning strategies have been combined with either the filtered backprojection or iterative methods or the direct projection‐to‐image by deep learning only to reconstruct images. Some of these methods can be applied to address the interior reconstruction problems for centered regions of interest (ROIs) with fixed sizes. Developing a method to enable interior tomography with arbitrarily located ROIs with nearly arbitrary ROI sizes inside a scanning field of view (FOV) remains an open question.PurposeTo develop a new pathway to enable interior tomographic reconstruction for arbitrarily located ROIs with arbitrary sizes using a single trained deep neural network model.MethodsThe method consists of two steps. First, an analytical weighted backprojection reconstruction algorithm was developed to perform domain transform from divergent fan‐beam projection data to an intermediate image feature space, , for an arbitrary size ROI at an arbitrary location inside the FOV. Second, a supervised learning technique was developed to train a deep neural network architecture to perform deconvolution to obtain the true image from the new feature space . This two‐step method is referred to as Deep‐Interior for convenience. Both numerical simulations and experimental studies were performed to validate the proposed Deep‐Interior method.ResultsThe results showed that ROIs as small as a diameter of 5 cm could be accurately reconstructed (similarity index 0.985 ± 0.018 on internal testing data and 0.940 ± 0.025 on external testing data) at arbitrary locations within an imaging object covering a wide variety of anatomical structures of different body parts. Besides, ROIs of arbitrary size can be reconstructed by stitching small ROIs without additional training.ConclusionThe developed Deep‐Interior framework can enable interior tomographic reconstruction from divergent fan‐beam projections for short‐scan and super‐short‐scan acquisitions for small ROIs (with a diameter larger than 5 cm) at an arbitrary location inside the scanning FOV with high quantitative reconstruction accuracy.

Funder

National Institute of Biomedical Imaging and Bioengineering

National Heart, Lung, and Blood Institute

Publisher

Wiley

Subject

General Medicine

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