• Title/Summary/Keyword: algin

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Solution Properies of Algin Affected by Various Food Additives (여러 가지 식품처가제에 의한 Algin 용액의 유동특성)

  • 박명한
    • The Korean Journal of Food And Nutrition
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    • v.12 no.2
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    • pp.204-208
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    • 1999
  • In order to obtain data for use of algin in drink making process solution properties of algin have been investigated at various condition of algin concentration temperature pH and various food additives. At same revolution velosity viscosities of algin were increased as algin concentration raised. Algin solution showed dilatnat type flow in concentration of 0.25% to 0.4% but pseudoplastic type flow in above 0.5% showed dilatant type flow in concentration of 0.25% to 0.4% but pseudoplastic type folw in above 0.5% A maximum viscosity of algin was observed at pH 5.5 and its viscosities were also decreased as the tem-perature increased and heating at 8$0^{\circ}C$ above. Organic acids affected on the viscosity of algin with pH dependently and gel formed in pH below 3.0 Sweetners have no effect to the viscosity of algin. How-ever addition of NaCl and KCL upto 1.0% decreased a little its viscosity and CACl2 MgCl2 and FeCl3 increased the viscosity of algin Glutamic acid decreased the viscosity of algin.

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Degradation and Preparation of Blend Films Using Natural Polymers Chitosan and Algin (키토산과 알긴을 이용한 블랜드필름의 제조와 분해)

  • 류정욱;이홍열;오세영
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.28 no.2
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    • pp.417-422
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    • 1999
  • Algin and chitosan are known as biodegradable natural polymers. PVA is useful for the production of water soluble packaging, paper, textile sizes. PVA/Algin and PVA/chitosan films were prepared by solution blends method in the weight ratio of chitosan, algin for the purpose of useful biodegradable films. Thermal and mechanical properties of blend films such as DSC, impact strength, tensile strength and morphology by SEM were determined. As a result, The ratio of 10.0wt% PVA/chitosan films were similar to PVA at thermal and mechanical properties. PVA/Algin films were found that phase separation was occured as more than 25wt% increasing the blend ratio of algin. PVA/Algin films were observed to be less partially compatibility than 10wt% increasing the blend ratio of algin by DSC, mechanical properties and SEM. Blend films were completely degraded pH 4.0 better than 7.0, 10.0 in the buffer solution. Also, they were rapidly degraded in the enzyme( glucosidase) solution better than pH solution by enzymolysis.

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Characteristics and Pot Test according to Blending of PVA/Algin (PVA와 Algin의 블렌딩에 따른 특성과 토양분해)

  • Cho, Hyung-Jae;Oh, Se-Young;Lee, Ki-Chang;Jung, Duck-Chea;Kim, Yong-Yeul;Hwang, Seong-Hee
    • Journal of the Korean Applied Science and Technology
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    • v.16 no.1
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    • pp.25-31
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    • 1999
  • Algin is known as biodegradable natural polymer from marine plants. PVA/Algin blend films were prepared by solution blending method for the purpose of useful biodegradable polymer. Characteristics properties of PVA/Algin blend films such as DSC, Elongation, Tensile strength and Morphological change by SEM were determined. Tensile strength and Elongation were rapidly reduced as increasing the blend ratio of Algin. PVA/Algin blend films were found that phase separation was occured as more than 25wt% increasing the blend ratio of Algin. Blend films were observed to be less partially compatibility than 10wt% increasing the blend ratio of Algin by DSC, mechanical properties and SEM. Also, PVA/Algin blend films at the laboratory soil test(Pot Test) were completely degraded in months with four kinds of soils by microorganisms.

Algin Impregnated Vascular Graft I. In Vitro Investigation

  • Lee, Jin-Ho;Shin, Bung-Chul;Khang, Gil-Son;Lee, Hai-Bang
    • Journal of Biomedical Engineering Research
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    • v.11 no.1
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    • pp.97-104
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    • 1990
  • Microvel double velour graft impregnated with a biodegradable algin was studied as a new vascular graft. It is blood tight but still retains high porosity. Thls graft does not need to be preslotted with blood before implantation and has good tissue ingrowth and biological healing properties. The algin impregnated vascular graft was investigated by "in vitro" tests in this study. It was characterl zed by ESCA analysis, SEM observation, and measurements of water permeability, algin coating weight, mechanical properties and whole blood clotting time. The water permeability of the graft was reduced more than 99% and the whole blood clotting time was fast more than three times by the algin impregnation treatment. "In vivo" performance examinations of the algin impregnated graft are on progress.aft are on progress.

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Experimental Evaluation of Algin-coated Vascular Grafts in Dogs (잡견에서의 알진 코팅 인조혈관 삽입실험)

  • 김원곤
    • Journal of Chest Surgery
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    • v.28 no.6
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    • pp.557-564
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    • 1995
  • Microvel knitted double velour vascular grafts coated with biodegradable algin were evaluated in the canine experimental model as a new biologically coated Dacron graft. Three series of implantations were conducted involving the insertion of 6 mm diameter grafts in the abdominal aortae of mongrel dogs. The first series used the regular Microvel vascular grafts coated with algin,whereas the second and third series used Hemashield [collagen-coated grafts and the regular Microvel grafts with preclotting,respectively as control groups. Each series involved the implantation of one prosthesis for each of 2 preselected periods,namely 3 months and 6 months. In addition,algin-impregnated grafts were implanted for 4 hours,72 hours,2 weeks,and 4 weeks. All grafts were patent when the animals were sacrificed at intervals ranging from 4 hours to 6 months. Histological examinations revealed no obvious or significant differences in the healing characteristics of the algin-coated grafts and the control grafts after 3 months and 6 months of implantation. Endothelial cell-like cells were present on the midsegments of all grafts explanted from animals sacrificed after 3 months and 6 months,except a suspicious finding in the 3 month-implantation animal of a preclotted graft. With special stains,the algin became invisible between the polyester filaments during the first 3 months of implantation. This study has demonstrated that the use of a biodegradable algin coating is a feasible approach as biological sealants for textile arterial prostheses.

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Development of Burn Ointment using Algin (Algin을 이용한 화상연고제의 개발)

  • Jung, Duck-Chae;Lee, Ki-Chang
    • Journal of the Korean Applied Science and Technology
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    • v.16 no.3
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    • pp.187-191
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    • 1999
  • Burns can be caused by fire, chemicals, heated object and fluids. Distinguishing a minor burn from a more serious burn involves determining the degree of damage to the tissues of the body. Algin is known as natural polymer marine plants, we prepared the official burn ointment which is made by Algin. This burn ointment was covered on the skin wound of artificial burned and their effect of healing was investigated by the evaluation of histological and hematological change as a function of time. The result of rats test showed that burn ointments made from Algin was effective in formation of the new tissue and reduction of inflammation.

In vitro investigation of algin impregnated vascular graft (알진이 도포된 인공혈관의 물성 평가)

  • Lee, Jin-Ho;Shin, Bung-Chul;Khang, Gil-Son;Lee, Hai-Bang
    • Proceedings of the KOSOMBE Conference
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    • v.1990 no.05
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    • pp.9-12
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    • 1990
  • He impregnated a highly porous, knitted polyester (Dacron) graft with a biodegradable nonproteinaceous material, algin. This new vascular graft is blood tight but still retains high porosity in the body. It does not need to be preclotted with blood before implantation and has good tissue ingrowth and biological healing properties due to the high porosity. The algin impregnated graft was investigated by "in vitro" examinations in this study. It was characterized by ESCA analysis, SEM observation, and measurements of water permeability, algin coating weight, mechanical properties and whole blood clotting time. The water permeability of the graft was reduced more than 99% by the algin impregnation treatment without changing any mechanical properties. "In vivo" examinations of the algin impregnated vascular graft are on progress.

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Algin-Impregnated Vascular Graft II. Preliminary Animal Study

  • Jin Ho Lee;Byu
    • Journal of Biomedical Engineering Research
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    • v.12 no.3
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    • pp.157-164
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    • 1991
  • Microvel $^{\textregistered}$ double velour graft impregnated with a biodegradable algin was studied as a new vatscular graft. It is impervious to blood but still retains high porosity. This graft does not require preclotting during implantation and has good tissue ingrowth and biological healing properties. Two vascular grafts impregnated with algin (6mm in diameter) were implanted in the aorta of mongrel dogs without preclotting. Two identical grafts were preclctted and served as controls. The grafts were harvested 2 and 4 months postoperatively, and the healing pattern was examined by a light microscope after hemRtoxylineosin staining. It was observed that endothelial cells were incompletely covered on both algin-impregnated and control grafts after 2 month Implantation, while they were fully covered on both grafts after 4 month. There were no significant differences in subendothelial granulation tissue organization and fibrinoid material absorption between the algin-impregnated and control grafts. The algin-impregnated graft did not show any harmful effect on the healing and thus can be a new promising graft which is not necessary preclotting during the implantation.

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Radiation-Induced IL(interleukin)-6 in Mice with Algin-Oligosaccharide Treatment (알긴산올리고당 처치 마우스의 방사선 유도 IL-6)

  • Choi, Seong-Kwan;Ji, Youn-Sang
    • Journal of radiological science and technology
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    • v.33 no.4
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    • pp.321-326
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    • 2010
  • To examine the radioprotective effect of algin-oligosaccharide(AOS), radiation-induced IL(interleukin)-6 in mice treated with 3 Gy whole body irradiation once were examined. In the measurement of irradiation-induced IL-6, in comparison with the irradiation control group, in both small intestine and liver tissues of the group treated with algin-oligosaccharide for 7 days prior to irradiation, was suppressed IL-6 synthesis(p < 0.001). It is considered that the protection against radiation hazard by antioxydative reaction of algin-oligosaccharide results in down control of IL-6 value in experimental groups treated with algin-oligosaccharide. In conclusion, through our study, the fact that algin-oligosaccharide has irradiation protection effects was elucidated, and simultaneously, the possibility of the use of a natural product without chemical toxicity as an irradiation protection agent was confirmed.

RADIOPROTECTIVE EFFECT OF ALGIN-OLIGOSACCHARIDE THROUGH MEASURING CASPASE-3 AND CASPASE-9 IN MICE

  • Choi, Seong-Kwan;Jung, Woon-Kwan;Lee, Kyu-Soo;Jang, Young-Il;Dong, Kyeong-Rae
    • Journal of Radiation Protection and Research
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    • v.32 no.4
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    • pp.134-139
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    • 2007
  • In order to find out the Radioprotective effect of algin-oligosaccharide(AOS), this study, with a mouse of which whole frame irradiated by 3 Gy radiation once, measured caspase-3 and caspase-9 amid cell signaling connected to apoptosis in order to observe cell activation. In Caspase-3 and Caspase-9 test for observing cell activation, both of Caspase-3 and Caspase-9 showed highly increased O.D. value in the irradiation control group, while the whole groups treated with algin-oligosaccharide before or after irradiation indicated lower O.D. value than the irradiation control group, especially showed big difference in 7 day's treatment group of before irradiation (P<0.001). It confirmed that Caspase generation was restrained in AOS treatment group. Consequently, this study inquired into the fact that algin-oligosaccharide with superior antioxidant activity performed radiation protection by inducing restraint of Caspase generation and confirmed that natural product with less chemical toxicity was able to be applied as radioprotector.