Your search keyword '"Cho, Yung-Chieh"' showing total 2 results

1. An innovative biomimetic porous bioceramic to facilitate bone tissue regeneration: microstructural characteristics, biocompatibility, and in vivorabbit model evaluation

Author

Wu, Chia-Jen, Liu, Kang-Fan, Liu, Chung-Ming, Lan, Wen-Chien, Chu, Shu-Fen, Shen, Yung-Kang, Huang, Bai-Hung, Huang, Jonathan, Cho, Yung-Chieh, Ou, Keng-Liang, and Peng, Pei-Wen

Abstract

The present study aimed to develop a highly pure and crystalline beta-tricalcium phosphate (β-TCP) bone graft substitute using the propagated Scleractiniancoral. The solid-state reaction followed by heat-treatment (1050 °C–1100 °C for 1 h) between calcium carbonate from the propagated coral and dicalcium phosphate anhydrous was performed to fabricate the coral-derived β-TCP. The microstructural, in vitro, and in vivoproperties of the propagated coral and heat-treated specimens were characterized through scanning electron microscopy, X-ray diffractometry, Fourier transform infrared spectroscopy, Raman spectroscopy, cell viability assay, and rabbit model. Results confirmed that the pure coral-derived β-TCP with interconnected microporosity was successfully fabricated at a temperature of 1000 °C. The co-existence of β-TCP and hydroxyapatite (HAp) was formed at the higher temperatures of 1050 °C and 1100 °C. When the temperature increased from 1000 °C to 1100 °C, the morphologies and crystalline structures in the coral-derived specimens were changed from granule-like aragonite (orthorhombic) → spherical particle-like β-TCP (rhombohedral) → tetrahedron-like (β-TCP (rhombohedral) + HAp (hexagonal)) → hexagonal-like (β-TCP (rhombohedral) + HAp (hexagonal)). Cytotoxicity assay results indicated that the coral-derived β-TCP possessed favorable biocompatibility. Moreover, histological results also demonstrated that the coral-derived β-TCP exhibited proper resorbed properties and a significantly higher percentage in new formed bone tissue than the control β-TCP specimen at 26 weeks (∗p = 0.012). Thus, the coral-derived β-TCP with interconnected microporosity is a promising bone graft substitute that can be used for bone defect repair in dental and orthopedic fields.

Published

2023

2. Biomechanical stress distribution of medical inelastic fabrics with different porosity structures.

Author

Chen, Shyuan-Yow, You, Jia-Wei, Cho, Yung-Chieh, Huang, Bai‐Hung, Kuo, Hsin-Hui, Huang, Jonathan, Hsieh, Chia-Chien, Lan, Wen-Chien, and Ou, Keng-Liang

Subjects

STRESS concentration, MEDICAL textiles, POROSITY, ELASTIC modulus, FINITE element method

Abstract

Clothing fit and pressure comfort play important role in clothing comfort, especially in medical body sculpting clothing (MBSC). In the present study, different body movements (forward bending, side bending, and twisting) were adopted to simulate and investigate the biomechanical stress distribution of the human body with three kinds of porosity inelastic MBSCs through the finite element analysis method. The elastic modulus of the investigated MBSCs was also measured by means of tensile testing. Analytical results showed that in the compression region during body movements, the investigated inelastic MBSCs endured less compression stress, and most of the stress was transmitted to the human body. Moreover, the stresses on the body surface were decreased with the porosity increasing. However, most of the von Mises stresses on the human body were in the desired pressure comfort range. Therefore, these results could provide potential information in the modification of MBSC for medical applications. [ABSTRACT FROM AUTHOR]

Published

2023