tailieunhanh - Synthetic fabrication of biomimetic artificial skin tissue

Human skin cells have limited mechanical and biochemical resistance properties. As such, it can be difficult for them to exist under extreme conditions due to a lack of resistance resulting from factors including chemical stabilities, abrasion strength, impact stress and other biological activities. In order to combat these problems, we have synthesized a highly specialized physicochemical skin analogue polymerization. This sees functional groups prepared on an electrochemical magnetic field and then synthesized in human-like water dispersion electrolyte conditions. The mole ratio was changed so as to enhance the high impact resistance, oxidation resistance and membrane stability. The results of the physical properties of mechanical, chemical and biological resistance were then compared with human cell strength. The results of the study confirmed the resistance of the skin film coating in real-time in vitro skin of the human face, and can therefore be used in extreme conditions such as an in-vitro physico-resistance. | EXCELLENT PUBLISHERS International Journal of Current Microbiology and Applied Sciences ISSN 2319-7706 Volume 8 Number 08 2019 Journal homepage http Original Research Article https Synthetic Fabrication of Biomimetic Artificial Skin Tissue Joo han Kim1 Jooyoub Lee2 and Suw Young Ly3 department of Chemical Engineering DaeJin University Pocheon 2Deparment of Fire and Disaster Prevention Engineering Jungwon University 3Biosensor Research Institute Seoul National University of Science and Technology Seoul 232 Korea Corresponding author ABSTRACT Keywords Synthetics Fabrication Biomimetics Assay Artificial skin tissue Article Info Accepted 15 July 2019 Available Online 10 August 2019 Human skin cells have limited mechanical and biochemical resistance properties. As such it can be difficult for them to exist under extreme conditions due to a lack of resistance resulting from factors including chemical stabilities abrasion strength impact stress and other biological activities. In order to combat these problems we have synthesized a highly specialized physicochemical skin analogue polymerization. This sees functional groups prepared on an electrochemical magnetic field and then synthesized in human-like water dispersion electrolyte conditions. The mole ratio was changed so as to enhance the high impact resistance oxidation resistance and membrane stability. The results of the physical properties of mechanical chemical and biological resistance were then compared with human cell strength. The results of the study confirmed the resistance of the skin film coating in real-time in vitro skin of the human face and can therefore be used in extreme conditions such as an in-vitro physico-resistance. Introduction In vivo human skin is vulnerable to mechanical and biological skeletal maintenance issues that can arise under a variety of different extreme conditions. Among these physical and biochemical shock resistance is limited 1

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