Asada LEELAHA-VANICHKUL88NithiwachNAWAUKKA-RATHARNANT8990Sudkate CHAIYOCold plasma therapy attenuates multi-drug resistant bacteria induced infected-wound mouse-models through the neutralization of bacteria and bacterial biofilm with inducing anti-inflammatory immune cells (neutrophil)(Project 2020)Utilization of Gypsum-bonded Investment Mold Waste from Jewelry and Accessory Industry as Raw Material for Construction Materials using Geopolymer Technology(Project 2020)Non-enzymatic Electrochemical Detection of Cholesterol using β-Cyclodextrin Modified 3D Paper-based Device(Project 2020)64petroleum related strike-slip zone. The result indicates that the average kinematic vorticity number (Wk) is 0.93 ±0.05, which implied that the quartz mylonites within this strike-slip shear zone have a simple shear component dominantly. This strike-slip shear zone, which characterized the sinistral simple shear, has a significant to be related with the Cenozoic petroleum basin forming.Plasma medicine is a utilization of gas ionization energy that might be beneficial for treatment of burn wound. The non-thermal Argon-based plasma flux was tested on macrophages (RAW246.7) and in mouse models of burn wound with or without Staphylococcus aureus infection. Accordingly, plasma flux enhanced reactive oxygen species (ROS), using Dihydroethidium assay, and decreased abundance of NF-κB-p65 (Western blot analysis) in macrophages. In parallel, plasma flux upregulated IL-10 in lipopolysac-charide (LPS)-induced inflammatory macrophages, while down-regulated pro-inflammatory cytokines (IL-1β and IL-6). Additionally, plasma flux improved migratory function of fibroblasts (L929) (fibroblast scratch assay) but not fibroblast proliferation. Moreover, once daily plasma flux for 7 days promoted healing-process in wound with or without infection (wound area and wound rank score). In conclusion, plasma flux induced anti-inflammatory macrophages and promoted burn wound healing process partly through the decrease in macrophage NF-κB. Hence, plasma flux treatment should be tested in patients with burn wound.The gypsum-bonded investment mold is important for jewelry setting casting process. The mold is designed for single-used and then it will be discarded as a waste. Utilizing such waste as raw material for geopolymer is interesting. The aim of this study is to fabricate red clay based geopolymer consisted of calcined red clay, mold waste, and other chemicals. The samples were prepared using 60:40 solid/liquid ratio by weight. The amount of added mold waste in the samples was varied. The 3:2 sodium silicate (Na2SiO3)/10M sodium hydroxide (NaOH) was prepared as alkaline solution. The geopolymer samples were formed in silicone mold and kept by plastic bag under ambient temperature until the day of tests. The compressive strength and setting time of geopolymer decreased with increasing the amount of added mold waste. The microstructure and phases composition represented the traces of sodium sulphate occurred from reaction between calcium sulphate and sodium hydroxide.Cholesterol (Chol) can cause several diseases, such as heart attack, atherosclerosis, and stroke, thus, the development of cholesterol biosensor is greatly required. Herein, we introduce for the first time a 3D electrochemical paper-based analytical devices (3D-ePADs) for the non-enzymatic detection of cholesterol by modifying a cellulose filter paper with β-cyclodextrin (β-CD). The modifying β-CD-paper was characterized by fourier-transform infrared spectroscopy (FTIR), energy dispersive X-ray spectroscopy (EDX), and
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