Development of High Water Retention Mask Using Extrusion Prepared Fish Scale Collagen

碩士 === 國立高雄海洋科技大學 === 水產食品科學研究所 === 102 === Taiwan tilapia fish scale extrudate was produced from extruder, and then used alkali treatment and alkali-free treatment, drying and grinding to process extrudate. The hot water was used to extract collagen solution (No.A: alkal; No.B: alkali-free) from th...

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Main Authors: Chih-Fen Wang, 王治芬
Other Authors: Chun-Yung Huang
Format: Others
Language:zh-TW
Published: 2014
Online Access:http://ndltd.ncl.edu.tw/handle/35007339723289786038
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spelling ndltd-TW-101NKIMT0840202016-02-21T04:27:39Z http://ndltd.ncl.edu.tw/handle/35007339723289786038 Development of High Water Retention Mask Using Extrusion Prepared Fish Scale Collagen 擠壓製備魚鱗膠原蛋白保濕面膜之開發 Chih-Fen Wang 王治芬 碩士 國立高雄海洋科技大學 水產食品科學研究所 102 Taiwan tilapia fish scale extrudate was produced from extruder, and then used alkali treatment and alkali-free treatment, drying and grinding to process extrudate. The hot water was used to extract collagen solution (No.A: alkal; No.B: alkali-free) from the extrudates. Both SDS-PAGE and HPLC approach were used to analysis and calculate the molecular weight of collagen. In present study, we used hot air drying, vacuum drying and freeze-drying methods to produce collagen powder, and analyze the moisture retention capacity and moisture absorption propertids of collagen. The collagen concentration used was from 1 to 10% in the formula of facial mask. The mask samples were contacted with human skin for 15~18 minutes. Effects of mask on human skin with moisture retention capacity, moisture absorption capacity, odors and overall acceptance were evaluated. The results showed that the conditions of concentration 10% and contact time 15 minutes obtained the best humectancy performance. In addition, we found that moisture retention capacity was : No. B (hot air drying is 55.18±3.34%), No. A (hot air drying is 54.04±3.43%), No. B (vacuum drying is 53.59±1.48%), No. A (vacuum drying is 53.21±1.59%), No. C (commercially available collagen is 53.40±2.99%) and No. D (commercially available collagen is 51.80±1.38%). The results revealed that hot air drying method was better than vacuum drying method. Results suggested that moisture retention capacity of the mask was increased with the increase of collagen concentration, and decreased with the increasing time after separating the mask from human skin. Extrusion prepared fish scale collagen has excellent moisture retention capacity which is better than the commercially available collagen, and it will be applied to the development of the facial mask. Chun-Yung Huang 黃俊勇 2014 學位論文 ; thesis 100 zh-TW
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language zh-TW
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description 碩士 === 國立高雄海洋科技大學 === 水產食品科學研究所 === 102 === Taiwan tilapia fish scale extrudate was produced from extruder, and then used alkali treatment and alkali-free treatment, drying and grinding to process extrudate. The hot water was used to extract collagen solution (No.A: alkal; No.B: alkali-free) from the extrudates. Both SDS-PAGE and HPLC approach were used to analysis and calculate the molecular weight of collagen. In present study, we used hot air drying, vacuum drying and freeze-drying methods to produce collagen powder, and analyze the moisture retention capacity and moisture absorption propertids of collagen. The collagen concentration used was from 1 to 10% in the formula of facial mask. The mask samples were contacted with human skin for 15~18 minutes. Effects of mask on human skin with moisture retention capacity, moisture absorption capacity, odors and overall acceptance were evaluated. The results showed that the conditions of concentration 10% and contact time 15 minutes obtained the best humectancy performance. In addition, we found that moisture retention capacity was : No. B (hot air drying is 55.18±3.34%), No. A (hot air drying is 54.04±3.43%), No. B (vacuum drying is 53.59±1.48%), No. A (vacuum drying is 53.21±1.59%), No. C (commercially available collagen is 53.40±2.99%) and No. D (commercially available collagen is 51.80±1.38%). The results revealed that hot air drying method was better than vacuum drying method. Results suggested that moisture retention capacity of the mask was increased with the increase of collagen concentration, and decreased with the increasing time after separating the mask from human skin. Extrusion prepared fish scale collagen has excellent moisture retention capacity which is better than the commercially available collagen, and it will be applied to the development of the facial mask.
author2 Chun-Yung Huang
author_facet Chun-Yung Huang
Chih-Fen Wang
王治芬
author Chih-Fen Wang
王治芬
spellingShingle Chih-Fen Wang
王治芬
Development of High Water Retention Mask Using Extrusion Prepared Fish Scale Collagen
author_sort Chih-Fen Wang
title Development of High Water Retention Mask Using Extrusion Prepared Fish Scale Collagen
title_short Development of High Water Retention Mask Using Extrusion Prepared Fish Scale Collagen
title_full Development of High Water Retention Mask Using Extrusion Prepared Fish Scale Collagen
title_fullStr Development of High Water Retention Mask Using Extrusion Prepared Fish Scale Collagen
title_full_unstemmed Development of High Water Retention Mask Using Extrusion Prepared Fish Scale Collagen
title_sort development of high water retention mask using extrusion prepared fish scale collagen
publishDate 2014
url http://ndltd.ncl.edu.tw/handle/35007339723289786038
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