餵飼海藻飼料對糖尿病大白鼠血糖濃度之影響

"Chang-Tin, Lee"; 李 昌 庭

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/38393

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	黃穰
dc.contributor.author	"Chang-Tin, Lee"	en
dc.contributor.author	李昌庭	zh_TW
dc.date.accessioned	2021-06-13T16:32:17Z	-
dc.date.available	2005-07-27
dc.date.copyright	2005-07-27
dc.date.issued	2005
dc.date.submitted	2005-07-11
dc.identifier.citation	大野正夫，《21世紀の海藻資源－生態機構と利用の可能性》，日本：綠書房，1996，pp. 188-248。王者悅，《中國藥膳大辭典》，中國：大連出版社，1992，pp. 3-21, 30, 192, 632。中國科學院上海實驗動物中心。2005。http://www.slaccas.com/jszlhtm/rmz.htm。江永棉、黃檀溪，《藻類之應用與研究》，台北：行政院國科會編譯，1986，pp.1-110。行政院衛生署：衛生統計動向。2004。http://www.doh.gov.tw/statistic/index.htm。李時珍，明，《本草綱目》，台北：宏業書局印行。吳春利，〈飼料分析〉，《畜牧學實習》，台北:合記，1994，pp.1-68。林良平，〈電子顯微鏡學上之應用〉，《生物冷凍科學》，台北：天然書社，1981，pp. 1-183. 林宏達，《糖尿病的診斷與分類－述論美國糖尿病學會專家委員會一九九七年報告》，2000，台北榮民總醫院： http://www.vghtpe.gov.tw/~meta/dmclass.htm（0608, 2005引述）。食品資訊網。2005。http://food.doh.gov.tw/chinese/info/info1_1.htm#2 黃蔭樨，《食品分析法》，台北：國立編譯館，1990，pp. 106-126。張鴻銘、張蘭昌，《中藥大辭典》，第二冊，台中：昭人出版社，1980，pp. (5)106-107。張鴻銘、張蘭昌，《藥大辭典》，第四冊，中，台中：昭人出版社，1981，pp.(12)113-115。。張鴻銘、張蘭昌，《中藥大辭典》，第五冊，台中：昭人出版社，1981，pp. (19)20-21。。梁鍾鼎，《實驗動物麻醉技術》，國家實驗動物繁殖及研究中心簡訊，1995，3(1):20~25。賈玉海，《中國海洋湖沼藥物學》，北京：學苑出版社，1995，pp. 326-332。劉祥文，《新中藥寶典－中草藥及其製品》，台中：立德出版社，1982，pp. 343-344, 505-505。劉接寶，《新中藥寶典－中草藥治驗集成(一)》，台中：立德出版社，1982，pp. 434-435。劉接寶，《新中藥寶典－中草藥治驗集成(二)》，台中：立德出版社，1982，pp. 468-470。劉接寶，《臨床實用彩色中藥大典》，台中：立德出版社，1984，pp. 82-98。實驗動物資訊網。2004。http://las.nhri.org.tw/index1.htm。 Abe, T., Ohga Y., Kobayashi, S., Misawa, H., Tsuyushi, T., Kohzuki, H., Suge, H., Taniguchi, S. and Takaki, M. 2002. 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Cardiovasc Toxicol pp 181-193. Caccamese, S., Azzolina, R., Fumari, G., Cormaci, M. and Grasso, S. 1980. Antimicrobia and antiviral activities of extracts from Mediterranean algae. Bot. Mar. 23, 285-288. Centeno, P.O.R., Ballantine, D. L. and Gerwick, W. H. 1996. Dynamics of antibacterial activity in three species of Caribbean marine algae as a function of habitat and life history. Hydrobiologia 326/327, 457-462. Claus, C. 1970. Drugs producing diabetes through damage of the insulin secreting cells. Pharmacol. Rev 22(4): 485-520. Clifford, D. H. 1984. Preanesthesia, anesthesia, analgesia, and euthanasia. in Laboratory Animal Medicine. Academic Press. Orlando. Pp.528-61. Committee report. 2001. Report of the diagnosis and classification of diabetes mellitus. Diabetes Care 24: 22-37. Daniel, F. B., Robinson, M. and Stober, J. A. 1992. Ninety-day toxicity study of chloral hydrate in the Sprague-Dawley rat. Drug Chem Toxicol. 15:217-232. Dawes, C. J. 1981. Marine Botany. John Wiley and Sons, New York. pp.1-371 Dulin, W. E., Gerritsen, S.C. and Chang, A. Y. 1982. Experimental and spontaneous diabetes in animals. In: Ellengerg, M. and H. Fifkin. Diabetes mellitus (vol.3) McGraw-Hill, New York pp 310. Dunn, J. S. and McLetchie, N.G. B. 1943. Experimental alloxan diabetes in the rats. LancetⅡ. pp 384-435. Elfarra, A. A., Krause, R. J. and Last, A. R. 1998. Species- and sex-related differences in metabolism of trichloroethylene to yield chloral and trichloroethanol in mouse, rat, and human liver microsomes. Drug Metab Dispos 26:779-785. Eilene Gruys, M. 2001. Induction of transplantable mouse renal cell cancers by streptozotocins: in vivo growth, metastases, and angiogenic phenotype. Cancer Res. 61:6255-6263. Fischer, L. J. 1985. Drug and chemicals that produce diabetes. Trends in Pharmacol. Sci. 6: 72-75. Garber, A. 2002. Atenuating CV risk factors in patients with diabetes:clinicl evidence to clinicl practice. Diabetes Obse Metab, Jan 4; suppl 1: 5-12. George, M. H., Kilburn, S. and Moore, T. 2000. The carcinogenicity of chloral hydrate administered in the drinking water to the male B6C3F1 mouse and F344/N rat. Toxicol Pathol. (1)33-38. Goldschmid, M. G., Barrett-Conner, E., Edelstein, S. L., Wingard, D. L., Cohn, B. A. and Herman, W. H. 1994. Dyslipidemia and ischemic heart disease mortality among men and women with diabetes. Circulation 89:991-997. Hoppe, H. A., Levring, T. and Tanaka, Y. 1979. Marine algae in pharmaceutical science. Walter de Gruyter, Berlin, New York. pp.1-18. Iwata, K., Inayama, T. and Kato, T. 1987. Effects of Spirulina platensis on fructose-induced hyperlipidemia in rats. J. Jap. Soc. Nutr. Food Sci. 40: 463-467. Iwata, K., Inayama, T. and Kato, T. 1990. Effects of Spirulina platensis on plasma lipoprotein lipase activity in fructose-induced hyperlipidemic rats. J. Nutr. Sci. Vitaminol. 36: 165-171. Ito, M., Kondo, Y., Nakatani, A. and Naruse, A. 1999. New model of progressive non-insulin-dependent diabetes mellitus in mice induced by streptozotocin. Biological & Pharmaceutical Bull. 22: 988-9. Junod, A., Lambert, A. E., Orci, L., Pictet, R. and Gonet, A. E. 1967. Studies of the diabetogenic action of streptozotocin. Proc Soc Exp Biol Med 126: 201-205. Junod, A., Lambert, A. E., Stauffacher, W. and Renold, A. E. 1969. Diabetogenic action of streptozocin: Relationship of dose to metabolic response. J Clin Inves 48: 2129-2139. Kadish, A. H., Litle, R. L. and Sternberg, J. C. 1968. A new and rapid method for determination of glucose by measurement of rate of oxygen consumption. Clin. Chem. 14: 116-131. Kain, (Jones) J. M., Brown, M. T. and Lahaye, M. 1999. Developments in hydrobiology: sixteenth international seaweed symposium, held in Cebu City, Philippines, 12-17 April 1998. Kluwer academic publishers. Netherlands. pp.477-570. Kato, T., Takemoto, K., Katayama, H. and Kuwabara, Y. 1984. Effects of pirulina（Splirulina platensis）on dietary hypercholesterolemia in rats. J. Jap. Soc. Nutr. Food Sci. 37: 323-332. Kleinman, J., Donahue, R., Harris, M., Finucane, F. and Brock D., Jh. M. 1988. Mortality among diabetics in a national sample. Am. J. of epide. 128:389-401. Kojima, M., Kasajima, T., Imai, Y. 1973. A new Chlorella polysaccharide and its accelerating effect on the phagocytic activity of the reticulo endothelial system. Recent Adv. Res. 13: 11 Kritchevsky, D., Bonfield C and Anderson, J. W. (eds). 1990. Dietary fiber, chemistry, physiology and health effects. Plenum press, New York. 499 pp. Lakkso, M. 1993. How good a marker is insulin level for insulin resistance? Am J Eqidemiol 137: 959-965. Lamela, M., Anca, J., Villar, R., Otero, J. and Callege, J. M. 1989. Hypoglycemic activity of several seaweed extracts. J. Ethnopharmacol. 27:35-43. Lopes-Wirella, M. F., Ellis, P. S. and Colwell, J. A. 1997. Cholesterol determination in high density lipoproteins separated by three different methods. Clin. Chem. 5: 882-884. Masiello, P., Broca, C., Gross, R., Roye, M., Manteghetti, M., Hillaire-Buys, D., Novelli, M. and Ribes, G. 1998. Experimental NIDDM: development of a new model in adult rats administered streptozotocin and nicotinamide. Diabetes 47: 224-229. McGowan, M. W., Artiss, J. D., Strandbergh, D. R. and Zak, B. 1983. A peroxidase-coupled method for the colorimetric determination of serum triglycerides. Clin. Chem., 29: 538-542. Meyer, K. A., Kushi, L. H., Jacobs, D. R., Slavin, J., Sellers, T. A. and Folsom, A. R. 2000. Carbonhydrates, dietary fiber, and incident Type II diabetes in older women. Am J Clin Nutr 71: 921-930. Nakaya, N., Honma, Y., Goto, Y. 1988. Cholesterol lowering effect of Spirulina. Nutr. Rep. Int. 37: 1329-1377. Nisizawa, K. 2002. Seaweeds Kaiso. Japan seaweed association, Japan. pp. 12-79. Nishide, E., Anzai, H. and Uchida, N. 1993. Effects of alginates on the ingestion and excretion of cholesterol in the rat. J. Appl. Phycol. 5:207-211. Okuda, Hasegawa, J., Sonoda, M., Okabe and Tanaka, T. 1975. The effects of Chlorella on the levels of cholesterol in serum and liver. Y. of Japan Journal of Nutrition. Rakieten, N., Rakieten, G. M. and Nadkarni, M. V. 1963. Studies on the diabetogenic action of streptozotocin. Cancer Chem 29: 91-98. Reed, M. J., Meszaros, K., Entes, L. J., Claypool, M. D., Pinkett, J. G., Gadbois, T. M. and Reaven, G. M. 2000. Nov. A new rat model of type 2 diabetes: the fat-fed, streptozotocin-treated rat. Metab Clin Exp 49: 1390-1394. Ren, D. L, Noda, H. and Nisizawa, K. 1994. Study on antihypertensive and antihyperlipidemic effects of marine algae. Fish. Sci. 60(1)83-88.. Revers, R. R., Fink, J., Griffin, J., Olefsky, J. M. and Kolterman. 1984. Influence of hyperglycemia on insulin in vivo effects in type II diabetes . J. Clin. Invest. 73, 664-672 Richmond, W. 1973. Preparation and properties of a cholesterol oxidase from Nocardia sp. and its application to the enzymatic assay of total cholesterol in serum. Clin. Chem. 19:1350-1356. Rietman, S. and Frankel, S. 1957. A colorimetric method for determination of serum glutamic oxalacetic and glutamic pyruvic transaminases. Am. J. Pathol., 25:56-63. Rodrigues, B., Poucheret, P., Battell, M. L., McNeill, J. H. 1999. Streptozotocin induced diabetes: induction, mechanism, and dose dependency. In: McNeil, J.H. ed. Experimental models of diabetes. CRC Press New York LLC. p. 3-17. Schein, P. S., Alberti, K.G.M.M. and Williamson, D. H. 1971. Effect of streptozotocin on carbohydrate and lipid metabolism in the rat. Endocrinology 89: 827-834. Schwartz, J. L, Sklar, G., Reid, S., Trickler, D. 1988. Prevention of experimental oral cancer by extracts of Spirulina-Dunaliella algae. Nutr. Cancer 11: 127-134. Southgate, D.A.T. 1976. The chemistry of dietary fiber. In Spiller, G.A., Amen, R.J. (eds.), Fiber in Human Nutrition. Plenum Press, New York. pp. 31-92. Sullivan, D. M., Carpenter, D. E. 1993. Methods of analysis for nutrition labeling. AOAC Internation. pp.139-314 Takai, Y., Hosoyamada, Y. and Kato, T. 1991. Effect of water-soluble and water insoluble fractions of Spirulina over serum lipids and glucose resistance of rats. J. Jap. Soc. Nutr Food Sci. 44: 273-277. Tseng, C. K., Chang, C. F. 1984. Chinese seaweeds in herbal medicine. Hydrobiologia, 117:152-154. Tsuchiya, Y. 1969. Comparative hypocholesterolemic activities of marine algae. Proc. Intl. Seawead Symp.(ISS) Ⅵ 747-757. Van den Hoek, C., Mann, D. G. and Jahns, H. M. 1995. Algae-An Introduction to Phycology. Cambrige University Press. United Kingdom. pp.1-627. Vetrichelvan, T., Jegadeesan, M., Uma Devi, B. D. 2002. Anti-diabetic activity of alcoholic extract of Celosia argenter Linn. Seeds in rats. Biol.Pharm. Bull. 25(4) :526-528. Yamamoto, I., Nagumo, T., Yagi, H., Tominaga Aoki M. 1974. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/38393	-
dc.description.abstract	自古以來，海藻就被人類利用，作為食物，也作為藥材。中醫藥典就記載海藻對人體有保健作用及疾病治療效果，為檢驗這些功效，並加以發揚光大，初步篩選3種海藻，紫菜、石花菜及麒麟菜，藉由糖尿病實驗動物模式下，進行降血糖及降血脂之評估實驗，以開發海藻保健食品。 40隻雄性Wistar大鼠10-11週齡，腹腔注射Nicotinamide (230 mg/dL)及Streptozotocin(65 mg/kg BW)，誘發成第二型糖尿病鼠，隨機分成10組，9組海藻處理組，1組控制組，每組3-4隻。將3種海藻乾燥粉末按重量百分比，9%、6%、3%之濃度加入老鼠飼料內，做成海藻飼料餵飼實驗組的老鼠，控制組則餵飼不含海藻的一般飼料。每隔10天為一個餵飼療程，抽血前禁食18-20小時後，以Chloral hydrate麻醉並心臟採血，檢測鼠體血液中Glucose、Total Cholesterol、Triglyceride、Blood Urea Nitrogen (BUN)、Alanine Aminotransferase (ALT)及Aspartate Aminotransferase (AST) 等6項血清生化值的濃度共3次，經由SAS統計分析後以判斷降血糖及降血脂之效果。結果在降血糖方面，以麒麟菜組效果最明顯，其中以9%濃度組，效果最佳，統計上有顯著性差異。紫菜及石花菜組在降血糖方面上則無明顯作用。降血脂方面，3種海藻在統計上未有顯著性效果，但麒麟菜組比起其他兩組，在三酸甘油脂方面，有明顯下降的趨勢。BUN、ALT及AST生化指數在實驗前及實驗後皆未有明顯的升高，各組肝臟組織切片，在細胞形態上觀察也無明顯變化，顯示以這3種濃度的海藻餵飼老鼠，並不會影響到老鼠的腎臟及肝臟生理功能。	zh_TW
dc.description.abstract	Seaweeds have been utilized as foods and natural medicines by mankind since thousands of years ago. According to the theories of Chinese Traditional Medicine that seaweeds have health promotions and disease curing effects on human bodies. In order to evaluate these effects and promote the functions to the public, three kinds of seaweeds, Porphyra dentata, Gelidium amansii and Eucheuma serra, were selected to investigate the hypoglycemic and hypolipidemic activities on diabetic rats by the experimental animal model. The results may be applied to develop health food products from seaweeds. 40 male wistar rats at 10 or 11 weeks old were induced to type 2 diabetes mellitus by injecting nicotinamide and streptozotocin intraperitoneally. After 7 days, blood samples were drawn and glucose levels were determined to confirm development of diabetes. The diabetic rats were divided randomly into 9 seaweed treatment groups and 1 control group which consisted of 3 or 4 rats each. The rats in seaweed treatment groups were fed on diets in the form of a 9%, 6% or 3% supplement of each seaweed to rodent diet in weight percentile while feeding with unsupplemented rodent diet served as control group. The feeding regimen was designed for 3 periods and each period lasted 10 days. On the last day of each period, rats were fasted for 18-20 hours and blood samples were drawn from heart puncture after anaesthesia by chloral hydrate. The six serum biochemical values from the blood samples: glucose, total cholesterol, triglyceride, blood urea nitrogen (BUN), alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were determined by the automatic blood analyzer. All of above results were tested statistically with the control group by SAS for the effects on the hypoglycemic and hypolipidemic activities. The results showed that Eucheuma serra groups lowered blood glucose levels significantly, especially in the group of a 9% supplement comparing with the values before feeding seaweed diets while the Porphyra dentate groups and Gelidium amansii groups did not show such effects. Three kinds of seaweeds didn’t have effects on lowering blood lipid, but Eucheuma serra groups showed a tendency to reduce triglyceride levels comparing with other groups. The levels of BUN, ALT and AST were not affected obviously during three feeding regimens. The liver sections showed no apparent difference between treatment groups and control group. There were also no side effects observed on the functions of kidney and liver when feeding with various algal supplements in this experiment.	en
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dc.description.tableofcontents	謝誌…………………………………………………………………. Ⅰ 中文摘要……………………………………………………………. Ⅱ 英文摘要……………………………………………………………. Ⅲ 目錄…………………………………………………………………. Ⅳ 圖索引………………………………………………………………. Ⅵ 表索引………………………………………………………………. Ⅶ 壹、前言…………………………………………………………….. 1 一、海藻的功用…………………………………………………. 1 二、糖尿病………………………………………………………. 2 三、糖尿病的實驗動物模式……………………………………. 2 四、研究目的……………………………………………………. 3 貳、材料與方法…………………………………………………….. 3 一、材料…………………………………………………………... 3 (一)實驗海藻………………………………………………….. 3 (二)實驗動物………………………………………………….. 4 (三)藥品……………………………………………………….. 4 (四)儀器……………………………………………………….. 4 (五)飼料……………………………………………………….. 5 (六)墊料……………………………………………………….. 5 二、方法…………………………………………………………. 5 (一)實驗架構………………………………………………….. 5 (二)海藻處理………………………………………………….. 7 (三)飼料製作………………………………………………….. 8 (四)老鼠馴養………………………………………………….. 9 (五)誘導高血糖……………………………………………….. 10 (六)麻醉與採血……………………………………………….. 11 (七)血液檢測項目…………………………………………….. 11 (八)活力評估量表…………………………………………….. 15 (九)肝臟組織切片製作……………………………………….. 16 (十)統計分析………………………………………………….. 16 參、結果……………………………………………………………... 17 一、一般成分分析………………………………………………. 17 二、體重變化…………………………………………………….. 17 三、飲水量………………………………………………………. 17 四、飼料消耗量…………………………………………………. 17 五、血糖值……………………………………………………….. 18 六、總膽固醇……………………………………………………. 18 七、三酸甘油脂…………………………………………………. 18 八、血中尿素氮………………………………………………….. 18 九、血清麩氨丙酮酸轉氨酶ALT………….…………………… 18 十、血清麩氨草醋酸轉氨酶AST………………………………. 19 十一、活力值……………………………………………………. 19 十二、肝臟切片檢查…………………………………………….. 19 肆、討論……………………………………………………………. 19 參考文獻……………………………………………………………. 32 附錄…………………………………………………………………. 38 活力量表評估之參考圖…………………………………………. 38
dc.language.iso	zh-TW
dc.title	餵飼海藻飼料對糖尿病大白鼠血糖濃度之影響	zh_TW
dc.title	Feeding Effects of Seaweed Diets on hypoglycemic activities in STZ-induced Diabetic Rats	en
dc.type	Thesis
dc.date.schoolyear	93-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林仁壽,江永棉,彭福佐
dc.subject.keyword	海藻,糖尿病,健康食品,鏈狀致糖素,	zh_TW
dc.subject.keyword	Diabetic Rats,D.M.,Health Food,Seaweeds,STZ,	en
dc.relation.page	38
dc.rights.note	有償授權
dc.date.accepted	2005-07-11
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	海洋研究所	zh_TW
顯示於系所單位：	海洋研究所

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