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Your search keyword '"Chang, Hsuan-Hao"' showing total 20 results
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20 results on '"Chang, Hsuan-Hao"'

1. Artificial Intelligence to Assess Dental Findings from Panoramic Radiographs -- A Multinational Study

Author

Wang, Yin-Chih Chelsea, Chen, Tsao-Lun, Vinayahalingam, Shankeeth, Wu, Tai-Hsien, Chang, Chu Wei, Chang, Hsuan Hao, Wei, Hung-Jen, Chen, Mu-Hsiung, Ko, Ching-Chang, Moin, David Anssari, van Ginneken, Bram, Xi, Tong, Tsai, Hsiao-Cheng, Chen, Min-Huey, Hsu, Tzu-Ming Harry, and Chou, Hye

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Dental panoramic radiographs (DPRs) are widely used in clinical practice for comprehensive oral assessment but present challenges due to overlapping structures and time constraints in interpretation. This study aimed to establish a solid baseline for the AI-automated assessment of findings in DPRs by developing, evaluating an AI system, and comparing its performance with that of human readers across multinational data sets. We analyzed 6,669 DPRs from three data sets (the Netherlands, Brazil, and Taiwan), focusing on 8 types of dental findings. The AI system combined object detection and semantic segmentation techniques for per-tooth finding identification. Performance metrics included sensitivity, specificity, and area under the receiver operating characteristic curve (AUC-ROC). AI generalizability was tested across data sets, and performance was compared with human dental practitioners. The AI system demonstrated comparable or superior performance to human readers, particularly +67.9% (95% CI: 54.0%-81.9%; p < .001) sensitivity for identifying periapical radiolucencies and +4.7% (95% CI: 1.4%-8.0%; p = .008) sensitivity for identifying missing teeth. The AI achieved a macro-averaged AUC-ROC of 96.2% (95% CI: 94.6%-97.8%) across 8 findings. AI agreements with the reference were comparable to inter-human agreements in 7 of 8 findings except for caries (p = .024). The AI system demonstrated robust generalization across diverse imaging and demographic settings and processed images 79 times faster (95% CI: 75-82) than human readers. The AI system effectively assessed findings in DPRs, achieving performance on par with or better than human experts while significantly reducing interpretation time. These results highlight the potential for integrating AI into clinical workflows to improve diagnostic efficiency and accuracy, and patient management.

Published
2025

2. User-Centric Multiobjective Approach to Privacy Preservation and Energy Cost Minimization in Smart Home

Author

Chang, Hsuan-Hao, Chiu, Wei-Yu, Sun, Hongjian, and Chen, Chia-Ming

Subjects
Computer Science - Systems and Control
Abstract

This paper investigates smart home energy management in consideration of tradeoffs between residential privacy and energy costs. A multiobjective approach that minimizes energy costs and maximizes privacy protection is proposed. The approach leads to a multiobjective optimization problem in which the two objectives are addressed in separate dimensions. A hybrid algorithm that employs a stochastic search for power scheduling of home appliances and uses deterministic battery control is developed accordingly. The proposed approach can avoid some drawbacks faced by conventional weighted-sum methods for multiobjective optimization: the combination of objectives in different units, heuristic assignment of weighting coefficients, and possible misrepresentation of user preference. In contrast with existing studies on residential user privacy that assume limited controllability of appliances to facilitate algorithm development, this approach addresses the use of flexible appliances in smart homes. Simulations reveal that the proposed approach can maintain a reasonable energy cost while robustly preserving user privacy at a sensible level; its convergence rate is comparable to existing multiobjective evolutionary algorithms while the proposed approach yields a better level of convergence; the proposed approach is scalable to a group of smart houses, achieving a superior peak-to-average ratio that is beneficial to the stability of the underlying power grid.

Published
2018
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19. Titanium implants trigger extra-periodontal T cell-mediated immunity.

Author

Wang LT, Juang SE, Lan CL, Chang HH, He AC, Chen WA, Huang YW, Van Dyke TE, Chen YW, and Ma KS

Abstract

Peri-implant inflammation and periodontitis share a common etiology rooted in periodontopathic bacterial invasion, with periodontitis notably linked to systemic inflammatory comorbidities involving T cells. However, the intricate processes within the peri-implant microenvironment and systemic repercussions of implants, particularly related to implant materials, remain inadequately understood. We aim to elucidate the impact of contact with titanium materials, widely employed in dental implants for their high biocompatibility and excellent corrosion resistance, on diverse T cell subpopulations. This study adopts a comprehensive approach, encompassing (1) transcriptomic profiling of peri-implant epithelium in a rat model, (2) examination of phenotypic and functional changes in T cell immunity in human blood cells cultured on titanium discs, and (3) in vivo validation of T cells in implanted mice. Transcriptomic evidence and functional in vitro results revealed that exposure to titanium materials promoted T cell activation and differentiation towards inflammatory subsets, and escalated the secretion of corresponding cytokines. In vivo results showed that most of the gingiva-extracted T cells were activated in both healthy and implanted mice, the latter exhibiting significant lymphadenitis. High-dimensional flow cytometric findings in the in vivo lymphadenitis model indicated titanium-induced T cell immunity, involving preferential activation of Th1, Th17, and Tc1 cells over Tregs in adjacent lymph nodes within three days after implant placement. These findings highlight the pivotal role of T cells in the initiation of peri-implant inflammation, emphasizing the need to understand extra-periodontal inflammatory complications associated with implant surgeries. Our study provides a foundation for future therapeutic strategies targeting T cell responses to enhance the success and longevity of dental implant treatments.

Published
2025
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20. Single-cell analysis of peri-implant gingival tissue to assess implant biocompatibility and immune response.

Author

Wang LT, Juang SE, Chang HH, He AC, Chen WA, Huang YW, Van Dyke TE, Ma KS, and Chen YW

Subjects
Animals, Immunity, Innate, Mice, Computational Biology, Mice, Inbred C57BL, Osseointegration, Male, Gingiva immunology, Titanium, Single-Cell Analysis, Neutrophils immunology, Dental Implants, Peri-Implantitis immunology, Peri-Implantitis etiology, Biocompatible Materials
Abstract

Purpose: The innate immune response, particularly the reaction of polymorphonuclear neutrophils (PMNs), is crucial in shaping the outcomes of chronic inflammation, fibrosis, or osseointegration following biomaterial implantation. Peri-implantitis or peri-implant mucositis, inflammatory conditions linked to dental implants, pose a significant threat to implant success. We developed a single-cell analysis approach using a murine model to assess the immune response to implant materials, offering a practical screening tool for potential dental implants., Methods: We performed bioinformatics analysis and established a peri-implant inflammation model by inserting two titanium implants into the maxillary region, to examine the immune response., Results: Bioinformatics analysis revealed that titanium implants triggered a host immune response, primarily mediated by PMNs. In the in vivo experiments, we observed a rapid PMN-mediated response, with increased infiltration around the implants and on the implant surface by day 3. Remarkably, PMN attachment to the implants persisted for 7 days, resembling the immune profiles seen in human implant-mediated inflammation., Conclusions: Our findings indicate that persistent attachment of the short-living PMNs to titanium implants can serve as an indicator or traits of peri-implant inflammation. Therefore, analyzing gingival tissue at the single-cell level could be a useful tool for evaluating the biocompatibility of candidate dental implants.

Published
2025
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