Hao-Chiang Shao scite author profile

Hao-Chiang Shao

5Publications

20Citation Statements Received

0Citation Statements Given

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111

Affiliations

National Chung Hsing University, Fu Jen Catholic University, National Tsing Hua University

Publications

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Detection of Lumbar Spondylolisthesis from X-ray Images Using Deep Learning Network

Trinh

Shao

Hsieh

et al. 2022

JCM

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Spondylolisthesis refers to the displacement of a vertebral body relative to the vertrabra below it, which can cause radicular symptoms, back pain or leg pain. It usually occurs in the lower lumbar spine, especially in women over the age of 60. The prevalence of spondylolisthesis is expected to rise as the global population ages, requiring prudent action to promptly identify it in clinical settings. The goal of this study was to develop a computer-aided diagnostic (CADx) algorithm, LumbarNet, and to evaluate the efficiency of this model in automatically detecting spondylolisthesis from lumbar X-ray images. Built upon U-Net, feature fusion module (FFM) and collaborating with (i) a P-grade, (ii) a piecewise slope detection (PSD) scheme, and (iii) a dynamic shift (DS), LumbarNet was able to analyze complex structural patterns on lumbar X-ray images, including true lateral, flexion, and extension lateral views. Our results showed that the model achieved a mean intersection over union (mIOU) value of 0.88 in vertebral region segmentation and an accuracy of 88.83% in vertebral slip detection. We conclude that LumbarNet outperformed U-Net, a commonly used method in medical image segmentation, and could serve as a reliable method to identify spondylolisthesis.

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From IC Layout to Die Photograph: A CNN-Based Data-Driven Approach

Shao

Peng

et al. 2021

IEEE Trans. Comput.-Aided Des. Integr. Circuits Syst.

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Robust segmentation for automatic detection of mura patterns

Shao

Jong

Chen

et al. 2009

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Colored multi-neuron image processing for segmenting and tracing neural circuits

Shao

Cheng

Chen

et al. 2012

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Developing a Stereotypical Drosophila Brain Atlas

Shao

Chen

et al. 2014

IEEE Trans. Biomed. Eng.

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Brain research requires a standardized brain atlas to describe both the variance and invariance in brain anatomy and neuron connectivity. In this study, we propose a system to construct a standardized 3D Drosophila brain atlas by integrating labeled images from different preparations. The 3D fly brain atlas consists of standardized anatomical global and local reference models, e.g., the inner and external brain surfaces and the mushroom body. The averaged global and local reference models are generated by the model averaging procedure, and then the standard Drosophila brain atlas can be compiled by transferring the averaged neuropil models into the averaged brain surface models. The main contribution and novelty of our study is to determine the average 3D brain shape based on the isosurface suggested by the zero-crossings of a 3D accumulative signed distance map. Consequently, in contrast with previous approaches that also aim to construct a stereotypical brain model based on the probability map and a user-specified probability threshold, our method is more robust and thus capable to yield more objective and accurate results. Moreover, the obtained 3D average shape is useful for defining brain coordinate systems and will be able to provide boundary conditions for volume registration methods in the future. This method is distinguishable from those focusing on 2D + Z image volumes because its pipeline is designed to process 3D mesh surface models of Drosophila brains.

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Hao-Chiang Shao

Detection of Lumbar Spondylolisthesis from X-ray Images Using Deep Learning Network

From IC Layout to Die Photograph: A CNN-Based Data-Driven Approach

Robust segmentation for automatic detection of mura patterns

Colored multi-neuron image processing for segmenting and tracing neural circuits

Developing a Stereotypical Drosophila Brain Atlas

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