Your search keyword '"Hsieh, Kevin Li-Chun"' showing total 2 results

1. Magnetic resonance radiomics features and prognosticators in different molecular subtypes of pediatric Medulloblastoma.

Author

Chang, Feng-Chi, Wong, Tai-Tong, Wu, Kuo-Sheng, Lu, Chia-Feng, Weng, Ting-Wei, Liang, Muh-Lii, Wu, Chih-Chun, Guo, Wan Yuo, Chen, Cheng-Yu, and Hsieh, Kevin Li-Chun

Subjects

RADIOMICS, MAGNETIC resonance imaging, MAGNETIC resonance, MEDULLOBLASTOMA, RECEIVER operating characteristic curves, TEXTURE analysis (Image processing)

Abstract

Purpose: Medulloblastoma (MB) is a highly malignant pediatric brain tumor. In the latest classification, medulloblastoma is divided into four distinct groups: wingless (WNT), sonic hedgehog (SHH), Group 3, and Group 4. We analyzed the magnetic resonance imaging radiomics features to find the imaging surrogates of the 4 molecular subgroups of MB. Material and methods: Frozen tissue, imaging data, and clinical data of 38 patients with medulloblastoma were included from Taipei Medical University Hospital and Taipei Veterans General Hospital. Molecular clustering was performed based on the gene expression level of 22 subgroup-specific signature genes. A total 253 magnetic resonance imaging radiomic features were generated from each subject for comparison between different molecular subgroups. Results: Our cohort consisted of 7 (18.4%) patients with WNT medulloblastoma, 12 (31.6%) with SHH tumor, 8 (21.1%) with Group 3 tumor, and 11 (28.9%) with Group 4 tumor. 8 radiomics gray-level co-occurrence matrix texture (GLCM) features were significantly different between 4 molecular subgroups of MB. In addition, for tumors with higher values in a gray-level run length matrix feature—Short Run Low Gray-Level Emphasis, patients have shorter survival times than patients with low values of this feature (p = 0.04). The receiver operating characteristic analysis revealed optimal performance of the preliminary prediction model based on GLCM features for predicting WNT, Group 3, and Group 4 MB (area under the curve = 0.82, 0.72, and 0.78, respectively). Conclusion: The preliminary result revealed that 8 contrast-enhanced T1-weighted imaging texture features were significantly different between 4 molecular subgroups of MB. Together with the prediction models, the radiomics features may provide suggestions for stratifying patients with MB into different risk groups. [ABSTRACT FROM AUTHOR]

Published

2021

2. Effect of a computer-aided diagnosis system on radiologists' performance in grading gliomas with MRI.

Author

Hsieh, Kevin Li-Chun, Tsai, Ruei-Je, Teng, Yu-Chuan, and Lo, Chung-Ming

Subjects

*COMPUTER-aided engineering, *GLIOMAS, *RADIOLOGISTS, *QUANTITATIVE research, *MAGNETIC resonance imaging, *DIAGNOSIS

Abstract

The effects of a computer-aided diagnosis (CAD) system based on quantitative intensity features with magnetic resonance (MR) imaging (MRI) were evaluated by examining radiologists' performance in grading gliomas. The acquired MRI database included 71 lower-grade gliomas and 34 glioblastomas. Quantitative image features were extracted from the tumor area and combined in a CAD system to generate a prediction model. The effect of the CAD system was evaluated in a two-stage procedure. First, a radiologist performed a conventional reading. A sequential second reading was determined with a malignancy estimation by the CAD system. Each MR image was regularly read by one radiologist out of a group of three radiologists. The CAD system achieved an accuracy of 87% (91/105), a sensitivity of 79% (27/34), a specificity of 90% (64/71), and an area under the receiver operating characteristic curve (Az) of 0.89. In the evaluation, the radiologists’ Az values significantly improved from 0.81, 0.87, and 0.84 to 0.90, 0.90, and 0.88 with p = 0.0011, 0.0076, and 0.0167, respectively. Based on the MR image features, the proposed CAD system not only performed well in distinguishing glioblastomas from lower-grade gliomas but also provided suggestions about glioma grading to reinforce radiologists’ confidence rating. [ABSTRACT FROM AUTHOR]

Published

2017