簡易檢索 / 詳目顯示

研究生: 吳權益
論文名稱: 大黃葛根黃芩之定量分析研究
指導教授: 許順吉
Xu, Shun-Ji
學位類別: 碩士
Master
系所名稱: 化學系
Department of Chemistry
論文出版年: 2001
畢業學年度: 89
語文別: 中文
論文頁數: 252
中文關鍵詞: 高效液相層析儀毛細管電泳儀大黃葛根黃芩
英文關鍵詞: HPLC, CE, Rhei Rhizoma, Puerariae Radix, Scutellariae Radix
論文種類: 學術論文
相關次數: 點閱:332下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報
  • 高效液相層析(HPLC)及毛細管電泳(CE)是目前最常用來測定中藥成分含量的分析方法。綜合兩者的優點,合併運用,可以拓展中藥化學評價的範疇。
    本研究分三個部分,第一部分為開發大黃藥材的分析方法。大黃(Rhei Rhizoma)為蓼科植物的乾燥根莖,是重要的瀉下藥材。本研究利用高效液相層析儀(HPLC)與毛細管電泳(CE)分析其anthraquinones,dianthraquinones,stilbenes,galloylglucoses等十九個組成成分。實驗結果顯示利用醋酸與甲醇混合液為沖提液,HPLC可在75分鐘內成功地分析這十九個成分;CE無法一次完成分離,但以CZE模式,用硼酸鹽及磷酸二氫鈉配製成兩種不同pH值緩衝溶液,則可達到分離二十二個成分的目標。利用所開發的HPLC條件,分析含大黃製劑之小承氣湯,可分析其中大黃十九個成分、厚朴兩個成分和枳實四個成分,共二十五個組成成分的含量。運用該分析方法於大黃之安定性及炮製研究,發現加熱對各成分的含量有很大影響,而且加熱溫度越高,對藥材的保存越不利,此變化於加熱七天後漸趨平穩;酒浸後陰乾或烘乾的成分含量變化不大,酒炒則使各成分大為減少,酒蒸炮製品之anthraquinones和dianthraquinones類化合物普遍減少,stilbenes和galloylglucoses類化合物則增加。
    第二部分為開發葛根藥材之HPLC分析方法。葛根是豆科植物(Leguminosae)甘葛藤(Pueraria lobata Ohwi.)的乾燥根,為重要的解表藥材,主要含黃酮類化合物。本研究利用醋酸、氰甲烷和甲醇混合液為沖提液,在65分鐘內分析出十二個成分。市售葛根藥材有野葛與粉葛兩種,各成分總含量以野葛較多,其中3’-methoxypuruerarin與puerarin兩成分的比值是它們的主要分辨點,該值野葛大於0.1,粉葛小於0.03;同時,本分析方法可作為葛根單方及葛根湯製劑之原料藥材基原鑑別。
    第三部分為開發黃芩藥材HPLC之分析方法。黃芩為唇形科(Labiatae)植物黃芩(Scutellariae baicalensis Georgi)的乾燥根部,具有清熱燥濕、瀉火解毒之效。本研究利用醋酸和氰甲烷混合液為沖提液,可在50分鐘內分析baicalin(1, BG),oroxylin A 7-O-glucuronide(2, OG),wogonin 7-O-glucuronide(3, WG),baicalein(4, B),wogonin(5, W)與oroxylin A(6, O)等六個黃酮類成分,並可應用於分析三黃瀉心湯及探討三黃瀉心湯製劑在人工腸液中的成分變化。黃芩成分在人工胃液中幾不發生變化,但在人工腸液中,配醣體成分則有明顯水解現象,該水解現象可為大黃藥材所抑制。另外,以三黃瀉心湯餵予小白鼠,發現三小時後的尿液量明顯增多,而以六小時最多,黃芩各成分含量分別是BG 102.20 mg/mL,OG n.d.,WG 57.37 mg/mL,B 5.70 mg/mL,W 1.39 mg/mL,O 1.74 mg/mL;分析血清中黃芩成分含量,則以餵食三小時後有最高黃芩成分含量(BG 1.82 mg/mL,OG n.d.,WG 1.26 mg/mL,B 1.14 mg/mL,W 0.18 mg/mL,O 0.47 mg/mL)。

    High-performance liquid chromatography (HPLC) and capillary electrophoresis (CE) are currently the most widely used analysis methods for assaying Chinese herb drugs. By combining the advantages of both methods, we can expand the scope of chemical evaluation for Chinese herb drugs.
    This study is divided into three parts. The first part deals with the analysis method for the drug Rhei Rhizoma, which is available as the dried rhizome of a polygonaceaous plant and has been used as a laxative. This study employs HPLC and CE to analyze the drug’s 19 constituents that belong to anthraquinones, dianthraquinones, stilbenes and galloylglucoses. Experiment results show that by using a combination of acetic acid and methanol as the eluent, HPLC can successfully analyze the 19 constituents within 75 minutes, whereas CE cannot accomplish this all at a time. However, with the CZE mode using a buffer of borate and sodium dihydrophosphate in different ratios for different pH values, it is possible to achieve the goal of analyzing 22 constituents at a time. Using the HPLC method developed the herbal formula Hsiao-cheng-chi-tang (Minor Rhubarb Combination) can also be analyzed with a total of 25 constituents including 19 constituents from the formula’s rhubarb ingredient, 2 constituents from the formula’s magnolia ingredient and 4 constituents from the formula’s chih-shih (Aurantii Fructus Immaturus) ingredient. By applying this method to the study on rhubarb’s stability and processing, we have found that heating has great influences on the herb’s constituents and that the higher the temperature of heating the herb is subjected to, the more disadvantageous it will be to the herb’s preservation. Such influences gradually become stabilized seven days after heating. Processing by immersing the herb in wine and then drying it in the shade dose not cause much change in the contents of the constituents, but it is found to have greatly reduced after processing by stir-frying the herb with wine. Processing by steaming the herb with wine commonly reduces the contents of anthraquinones and dianthraquinones, but increases the contents of stilbenes and galloylglucoses.
    The second part is about the development of the HPLC method for analyzing the herb drug Puerariae Radix, which is available as the dried root of the legume plant Pueraria lobata Ohwi and has been used as an important diaphoretic drug. The drug contains flavones. In this study we used an eluent composed of acetic acid, acetonitrile and methanol whereby we are able to separate 12 constituents within 65 minutes. Commercial articles of this drug are of two kinds: the wild pueraria (derived from P. lobata Ohwi) and the powdery pueraria (derived from P. thomsonii Denth.). The wild pueraria has high contents of constituents. The ratio between 3’-methoxypuruerarin and puerarin differentiates the two articles. For the wild pueraria, the ratio is larger than 0.1, while the powdery pueraria has a ratio smaller than 0.03. Meantime, this analysis method can be used for identification and discrimination between a pueraria simple and a pueraria-containing formula.
    The third part contains the HPLC method developed for analyzing the herb drug Scutellariae Radix, which is derived from the dried root of the labiate plant (Scutellaria baicalensis Georgi). In traditional Chinese medicine, the drug is claimed to be capable of clearing heat, purging fire and detoxifying toxicosis. This study employs the combination of acetic acid and acetonitrile as an eluent, whereby 6 flavones including baicalin (1, BG), oroxylin.A 7-O-glucuronide (2, OG), wogonin 7-O-glucuronide (3, WG), baicalein (4, B), wogonin (5, W) and oroxylin A (6, O) can be separated within 50 minutes. The method can also be applied to the analysis of the baicalin-containing formulas San-huang-hsieh-hsin-tang (Coptis and Rhubarb Combination) and its changes in the artificial intestinal fluid. The constituents of scutellaria do not undergo changes in artificial gastric fluid, but the glucosides hydrolyze markedly in artificial intestinal fluid. Such hydrolysis phenomenon can be inhibited by rhubarb. Besides, as Coptis and Rhubarb Combination was fed to mice, the mice’s urine output was found to increase markedly three hours later, reaching the maximum in six hours. The contents of the constituents of scutellaria are BG 102.20 μg/ml, OG n.d., WG 57.37 μg/ml, B 5.70 μg/ml, W 1.39μg/ml, and O 1.74μg/ml. Concentrations of the constituents of scutellaria in serum were found to reach the peak values three hours after feeding of the drug to the mice. (BG 1.82 μg/ml, OG n.d., WG 1.26μg/mlμg/ml, B 1.14μg/mlμg/ml, W 0.18μg/ml and O 0.47μg/ml)

    目 錄 圖目錄…………………………………………………………II 表目錄…………………………………………………………VI 中文摘要………………………………………………………IX 英文摘要………………………………………………………XI 第一章 緒論 第一節 前言……………………………………………………………1 第二節 高效能液相層析………………………………………………2 第三節 液相層析/電灑/質譜儀………………………………………3 第四節 毛細管電泳分析………………………………………………6 第五節 分析條件參數及適宜性之評估………………………………13 第六節 毛細管電泳法和高效能液相層析法之比較…………………16 第二章 大黃藥材之分析 第一節 大黃之高效能液相層析………………………………………19 第二節 大黃之毛細管電泳分析………………………………………57 第三節 小承氣湯製劑之定量研究……………………………………88 第四節 大黃藥材之酒製及安定性研究………………………………100 第三章 葛根藥材之分析 第一節 葛根成分之高效能液相層析………………………………117 第二節 葛根之基原鑑定……………………………………………149 第四章 黃芩藥材之生物醫學研究 第一節 黃芩藥材之高效能液相層析析……………………………165 第二節 黃芩藥材之生物醫學研究…………………………………186 第五章 結論…………………………………………………………215 參考資料………………………………………………………………226 附錄一 大黃分析成分UV圖…………………………………………236 附錄二 自分離葛根成分NMR及MS圖譜………………………………241 附錄三 葛根分析成分UV圖…………………………………………247 附錄四 黃芩分析成分UV圖…………………………………………251

    參考資料
    [1] M. Twett, Proc. Warsaw Soc. Nat. Sci. Biol., 1903, 14, 6.
    [2] A. J. P. Martin and R. L. M Synge, Biochem. J., 1941, 35, 1358.
    [3] A. T. James and A. J. P. Martin, Analyst, 1952, 77, 915.
    [4] E. Stahl, Chemiker-Ztg., 1958, 82, 323.
    [5] J. F. K. Huber and J. A. R. J. Hulsman, Anal. Chim. Acta, 1967, 38, 305.
    [6] J. Zeleny, Phys. Rev., 1917, 10, 1.
    [7] W. M. A. Niessen and J. V. D. Greed, Chromatographic Science Series, Vol. 58:Liquid Chromatography-Mass Spectrometry. Principle and Applications, chapter 3, M. Dekker, New York, 1992.
    [8] M. Dole, L. L. Mack, R. L. Hines, R. C. Mobley, L. D. Ferguson and M. B. Alice, J. Chem. Phys., 1968, 49, 2240.
    [9] M. Yamashita and J. B. Fenn, J. Phys. Chem., 1984, 88, 4451.
    [10] M. Yamashita and J. B. Fenn, J. Phys. Chem., 1984, 88, 4671.
    [11] C. M. Whitehouse, R. N. Dreyer, M. Yamashita and J. B. Fenn, Anal. Chem., 1985, 57, 675.
    [12] P. Kebarle and L. Tang, Anal. Chem., 1993, 65, 972A.
    [13] M. G. Ikonomou, A. T. Blades and P. Kebarle, Anal. Chem., 1991, 63, 1989.
    [14] V. J. Iribarne and B. A. Thomosm, J. Chem. Phys., 1976, 64, 2287.
    [15] G. J. V. Berkel, S. A. McLuckey and G. L. Glish, Anal. Chem., 1992, 64, 1586.
    [16] A. Tiselius, Tran. Faraday Soc., 1937, 33, 524.
    [17] S. Hjertén, Chromatogr. Rev., 1967, 9, 122.
    [18] R. Virtanen, Acta Polytechnica Scand., 1974, 1, 123.
    [19] F. E. P. Mikkers, F. M. Everaerts and Th. P. E. M. Verheggen, J. Chromatogr., 1979, 169, 11.
    [20] J. W. Jorgenson and K. D. Lukacs, Anal. Chem., 1981, 53, 1298.
    [21] S. Hjertén, J. Chromatogr., 1985, 347, 191.
    [22] J. R. Mazzeo and I. S. Krull, BioTechniques, 1991, 10, 638.
    [23] T. Wehr, LC-GC, 1993, 11, 14.
    [24] A. S. Cohen and B. L. Karger, J. Chromatogr., 1987, 397, 409.
    [25] A. S. Cohen, A. Paulus, and B. L. Karger, Chromatographia, 1987, 24, 15.
    [26] A. S. Cohen, D. R. Najarian, A. Paulus, A. Guttman, J. A. Smith and B. L. Karger, Proc. Natl. Acad. Sci. U.S.A., 1988, 85, 9660.
    [27] H. Drossman, J. A. Luckey, A. Kostichka, J. D’Cunha and L. M. Smith, Anal. Chem., 1990, 62, 900.
    [28] P. Bocek and A. Chrambach, Electrophoresis, 1991, 12, 1059.
    [29] S. Terabe, K. Otsuka, K. Ichikawa, A. Tsuchiya and T. Ando, Anal. Chem., 1984, 56, 111.
    [30] S. Terabe, K. Otsuka and T. Ando, Anal. Chem., 1985, 57, 834.
    [31] S. Hjertén, J. L. Liao and K. Yao, J. Chromatogr., 1987, 387, 127.
    [32] D. J. Rose and J. W. Jorgenson, Anal. Chem., 1988, 60, 642.
    [33] D. N. Heiger,高效毛細管電泳導論(中譯本),中國惠普公司,北京,1993。
    [34] T. Tsuda, Handbook of Capillary Electrophoresis; J. P. Landers, ed. , Chapter 1, CRC Press, Boca Raton, 1997.
    [35] H. Z. Helmholtz, Annal. Phys. Chem., 1879, 7, 337.
    [36] K. Shibata, S. Iwata and M. Nakamura, Acta Phytochim., 1923, 1, 105.
    [37] S. Hjertén and M. D. Zhu, J. Chromatogr., 1985, 346, 265.
    [38] S. Hjertén and M. D. Zhu, J. Chromatogr., 1985, 327, 157.
    [39] S. Hjertén and M. D. Zhu, Protides of the Biological Fluids, pp. 537-540, Oxford, New York, 1986.
    [40] S. Hjertén, K. Elenbring F. Kilár, J. L. Liao, A. J. C. Chen, C. J. Siebert and M. D. Zhu, J. Chromatogr., 1987, 403, 47.
    [41] E. M. Everaerts and P. E. M. Verheggen, New Directions in Electrophoretic Methods-Am. Chem. Soc. Symp. Vol. 335, J. W. Jorgenson and M. Phillips, ed., Chap. 4, American Chemical Society, Washington, D. C., 1987.
    [42] J. W. Jorgenson and K. D. Lukacs, J. Chromatogr., 1981, 218, 209.
    [43] J. W. Jorgenson and K. D. Lukacs, J. High Resoln Chromatogr. Chromatogr. Comm., 1981, 4, 230
    [44] J. W. Jorgenson and K. D. Lukacs, Clin. Chem., 1981, 27, 1551.
    [45] J. W. Jorgenson and K. D. Lukacs, Science, 1983, 222, 266.
    [46] J. W. Jorgenson, Trends Anal. Chem., 1984, 3, 51.
    [47] K. D. Altria and C. S. Simpson, Anal. Proc., 1986, 23, 453.
    [48] T. Tsuda, J. High Resoln Chromatogr. Chromtogr. Comm., 1987, 10, 622.
    [49] S. Terabe, K. Otsuka and T. Ando, Anal. Chem., 1989, 61, 25l.
    [50] K. Otsuka and S. Terabe, J. Microcol. Sep., 1989, 1, 150.
    [51] T. Tsuda, K. Nomura and G. Nakagawa, J. Chromatogr., 1982, 248, 241.
    [52] M. J. Sepaniak and R. O. Cole, Anal. Chem., 1987, 59, 472.
    [53] T. Balchunas and M. J. Sepania, Anal. Chem., 1988, 60, 1466
    [54] M. Martin, G. Guiochon, Y. Walbroehl and J. W. Jorgenson, Anal. Chem., 1985, 57, 559.
    [55] M. M. Bushey and J. W. Jorgenson, J. Microcol. Sep., 1989, 1, 125.
    [56] A. Dobashi, T. Ono, S. Hara and J. Yamaguchi, J. Chromatogr., 1989, 480, 413.
    [57] S. Terabe, H. Utsumi, K. Otsuka, T. Ando, T. Inomata, S. Kuze and Y. Hanaoka, J. High Resoln Chromatogr. Chromatogr. Commun., 1986, 9, 666.
    [58] D. E. Burton, M. J. Sepaniak and M. P. Maskarinec, J. Chromatogr. Sci., 1987, 25, 514.
    [59] 許鴻源,中藥材之研究,第137-140頁,新醫藥出版社,台北,1980。
    [60] 賴榮祥,原色生藥學,第205頁,創譯出版社,台北,1976。
    [61] 許鴻源、陳玉盤、許順吉、許照信、陳建志、張憲昌,簡明藥材學,第61頁,新醫藥出版社,台北,1985。
    [62] 劉慶增,中草藥,1987,18,41。
    [63] 行政院衛生署中醫藥委員會-中醫藥資訊網路-中醫行政-常用中藥http://www.ccmp.gov.tw/BASIS/htmlc/www/topic/ddd/c3.htm
    [64] 陳榮福、顏焜熒,中藥藥理學,第212-217頁,國立中國醫藥研究所,台北,1991。
    [65] 李樹猷,現代中藥學(上),第252頁,正中書局,台北,1973。
    [66] T. Matsuoka, Shoyakugaku Zasshi, 1961, 15, 113.
    [67] M. Miyamoto, S. Imai, M. Shinohara and S. Fujioka, Yakugaku Zasshi, 1967, 87, 1040.
    [68] H. Oshio, Y. Naruse and M. Tsukui, Chem. Pharm. Bull., 1978, 26, 2458.
    [69] 赤掘 昭,香川 清水,升井 正生,漢方研究,1978,12,13。
    [70] X. Ma, Y. Chen and R. Hui, Chromatographia, 1989, 27, 465.
    [71] E. Sehvag and H. J. Vethake, Planta Med., 1958, 6, 44.
    [72] Y. Ohshima and K. Takahashi, J. Chromatogr., 1983, 258, 292.
    [73] K. Takahashi, H. Kaizuka and Y. Ohshima, J. Chromatogr., 1983, 268, 522.
    [74] K. Sagara, T. Ohshima and T. Yoshida, J. Chromatogr., 1987, 403, 253.
    [75] Y. Ohshima, Y. Ohno, K. Kajiyama and K. Takahashi, J. Chromatogr., 1986, 360, 303.
    [76] J. R. Poulsen and J. W. Briks, Anal. Chem., 1989, 61, 2267.
    [77] Y. Kashiwada, G. I. Nonaka and I. Nishioka, Chem. Pharm. Bull., 1989, 37, 999.
    [78] S. Kondo, M. Mikage, A. Takano and Y. Tsuda, Shoyakugaku Zasshi, 1992, 46, 174.
    [79] 朝月霞, 周玉珍, 李秀珍, 孫磊, 廣州醫藥, 1992, 23, 56.
    [80] 張永紅, 蘭州醫學院學報, 1996, 22, 27.
    [81] 蔣孟良, 湖南中醫學院學報, 1995, 15, 44.
    [82] S. Nyiredy, K. Dallenbach-Toelke, G. C. Zogg and O. Sticher, J. Chromatogr., 1990, 499, 453.
    [83] 鄭俊華, 張立力, 樓之岑, 北京醫科大學學報, 1991, 23, 51.
    [84] J. W. Briks and R. W. Frei, Trend Anal. Chem., 1982, 1, 361.
    [85] C. L. Liu, P. L. Zhu and M. C. Liu, J. Chromatogr. A, 1999, 857, 167.
    [86] D. Djozan and Y. Assadi, Talanta, 1995, 42, 861.
    [87] W. C. Weng and S. J. Sheu, J. High Resoln Chromatogr. Chromatogr. Commun., 2000, 23, 143.
    [88] S. J. Sheu and H. R. Chen, Anal. Chim. Acta, 1995, 309, 361.
    [89] S. J. Sheu and H. R. Chen, J. Chromatogr. A, 1995, 704, 141.
    [90] Y. Y. Zong and C. T.Che, J. Nat. Prod., 1995, 58, 577.
    [91] 林宏建,利用液相層析/電灑/質譜儀檢測大黃樣品中之主要成分,私立東吳大學化學研究所碩士論文,台北,1998。
    [92] 簡君玲,中要成分分析成分之開發研究-茵陳蒿、茵陳蒿湯及柴胡龍骨牡蠣湯,國立台灣師範大學化學研究所碩士論文,台北,1998。
    [93] 林文中,中藥材芍藥藥效成分之定量方法開發與品種鑑定,國立台灣師範大學化學研究所碩士論文,台北,1997。
    [94] Y. Y. Zong and M. T. Jin, Yaoxue Xuebao, 1995, 30, 594.
    [95] J. Ding, B. Ning, G. Fu, Y. Lu and S. Dong, Chromatographia, 2000, 52, 285.
    [96] P. Lukkari, H. Vuorela and M. L. Riekkola, J. Chromatogr. A, 1993, 655, 317.
    [97] 許鴻源、許照信,常用漢方方劑圖解,第110頁,新醫藥出版社,臺北,1985。
    [98] 戴新民,中醫方劑學,第3-10,43-44頁,啟業書局,台北,1979。
    [99] 戴新民,傷寒論釋義,第99-101頁,啟業書局,台北,1981。
    [100] 同[61],第311頁。
    [101] 徐國露、何宏賢、徐珞姍、金蓉鸞,中國藥材學,第1074頁,中國醫藥科技出版社,北京,1996。
    [102] 同[59],第75-78、538頁。
    [103] 顏焜榮,常用中藥之藥理(III),第20-24頁,國立中國醫藥研究所,臺北, 1971。
    [104] 中國醫學科學院藥物研究所,中藥志(II),第42頁,人民眾生出版社,北京,1984。
    [105] 劉飛白,中藥藥材集解,第205-208頁,五洲出版杜,臺北, 1984。
    [106] 同[61],第61-62,112-113,120-121頁。
    [107] K. Watanabe, H. Y. Watanabe, Y. Goto, N. Yamamoto and M. Yoshizaki, Jpn. J. Pharrmacol., 1975, 25, 605; Chem. Abstr., 1976, 84, 99380t.
    [108] T. Namba, M. Tsunezuka and M. Hattori, Planta Med., 1982, 44, 100; Chem. Abstr., 1982, 96, 223080j.
    [109] M. Harada, Y. Ogihara, Y. Kano, A. Akahori, Y. Ichio, O. Miura and H. Suzuki, Iyakuhin Kenkyu, 1988, 19, 852.
    [110] M. Harada, Y. Ogihara, Y. Kano, A. Akahori, Y. Ichio, O. Miura, K. Yamamoto and H. Suzuki, Iyakuhin Kenkyu, 1989, 20, 1300.
    [111] K. C. Wen, C. Y. Huang and F. S. Liu, J. Chromatogr., 1992, 593, 191.
    [112] S. J. Sheu and C. F. Lu, J. Chromatogr., 1995, 704, 518.
    [113] S. J. Sheu and C. F. Lu, J. High Resoln Chromatogr. Chromatogr. Commun., 1995, 18, 269.
    [114] 溫武哲,藥材成份層析研究,第112-154頁,國立台灣師範大學化學研究所博士論文,台北,1999。
    [115] 許鴻源,中藥之炮炙,第17-22頁,新醫藥出版社,台北,1980。
    [116] 詹逸州,中藥材芍藥藥效之定量研究,國立台灣師範大學化學研究所碩士論文,台北,1993。
    [117] 郭千慧,中藥材羌活藥效成分之定量研究,國立台灣師範大學化學研究所碩士論文,台北,1994。
    [118] 黃泰康,常用中藥成分與藥理手冊(上冊),第247-269頁,中國醫藥科技出版社,北京,1994。
    [119] 蔡蕓,中藥材安定性-白朮儲存之研究,台北醫學院生藥學研究所碩士論文,台北,1997。
    [120] 李侑穗,紫草成分之分析與基原之辨識,第82-87頁,國立台灣師範大學化學研究所碩士論文,台北,2000。
    [121] 葉政洳,黃芩成分之分析與基原之辨識,第93-103頁,國立台灣師範大學化學研究所碩士論文,台北,2000。
    [122] 同[61],第52頁。
    [123] 樓之芩、秦波,常用中藥材品種整理和質量研究第一冊(北方編),第379-419頁,福建科學技術出版社,福建,1995。
    [124] S. Shibata, T. Murakami, Y. Nishikawa and M. Harada, Chem. Pharm. Bull., 1959, 7, 134.
    [125] R. Khan, P. Agrawal and R. Kapil, Phytochemistry, 1996, 42, 243.
    [126] H. Kazuhiro, M. Makoto, N. Kaoru, S. Koh, T. Koji and O. Minoru, Phytochemistry, 1997, 46, 921.
    [127] C. Miaohua and Z. Siju, Zhongyao Tongbao, 1985, 10, 274; Chem. Abstr., 1985, 103, 165997p.
    [128] 陶莉莉, 湖南中醫雜誌, 1999, 15, 59.
    [129] 同[59],第124頁。
    [130] 林鉅超,中藥匯通,第14頁,大春中醫雜誌社,台南,1986。
    [131] 行政院衛生署中醫藥委員會,認識常用中藥(二),第82頁,台彩文化事業股份有限公司,台北,1999。
    [132] J. Hayakawa, N. Noda, S. Yamada and K. Uno, Yakugaku Zasshi, 1984, 104, 50.
    [133] S. Zhao and Y. Zhang, Yaoxue Xuebao, 1985, 20, 203; Chem. Abstr., 1985, 103, 92920w.
    [134] J. Kinjo, I. Miyamoto, K. Murakami, K. Kida, T. Tomimatsu, M. Yamasaki and T. Nohara, Chem. Pharm. Bull., 1985, 33, 1293.
    [135] M. Okamoto, K. Jinwo and T. Omiri, J. Chromatogr., 1987, 407, 314.
    [136] J. Kinjo, J. I. Furusawa, J. Baba, T. Takeshita, M. Yamasaki and T. Nohara, Chem. Pharm. Bull., 1987, 35, 4846.
    [137] Y. Ohshima, T. Okuyama, K. Takahashi, T. Takizawa and S. Shibata, Planta Med., 1988, 54, 250.
    [138] Y. Zhong, B. Chen, G. Fu and Z. Gu, Tianran Chanwu Yanjiu Yu Kaifa, 1993, 5, 82; Chem. Abstr., 1993, 117, 167696.
    [139] K. C. Wen, C. Y. Huang and F. L. Lu, J. Chromatogr., 1993, 631, 241.
    [140] T. Yasuda, N. Momma and K. Ohsawa, Yakugaku Zasshi, 1993, 113, 881.
    [141] K. Hirakura, M. Morita, K. Nakajima, K. Sugama, K. Takagi, K. Nijitsu, Y. Ikeya, M. Maruno and M. Okada, Phytochemistry, 1997, 46, 921.
    [142] C. Y. Wang, H. Y. Huang, K. L. Kuo and Y. Z. Hsieh, J. Chromatogr. A, 1998, 802, 225.
    [143] H. Rong, J. Stevens, M. L. Deinzer, L. D. Cooman and D. D. Keukeleire, Planta Med., 1998, 64, 620.
    [144] 黃明星,中藥材之色層分析,第60-96,136-160頁,國立台灣師範大學化學研究所博士論文,台北,2001。
    [145] 同[97],第52-53頁。
    [146] 新文豐出版社編輯部,新編中藥大辭典(第三冊),第2092頁,新文豐出版社,台北,1982。
    [147] 同[61],第120-121頁。
    [148] 甘偉松,藥用植物學,第487頁,中國醫藥研究所,台北,1985。
    [149] 同[59],第22,567-568頁。
    [150] C. C. Lin and D. E. Shieh, Am. J. Chin. Med., 1996, 24, 31.
    [151] T. B. Ng, J. M. Ling, Z. T. Wang, J. N. Cai and G. J. Xu, Gen. Pharmacol., 1996, 27, 1237.
    [152] Y. Kimura, M. Kubo, K. Kusaka, T. Tani, M. Higashino, S. Arichi and H. Okuda, Chem. Pharm. Bull., 1982, 30, 219.
    [153] I. Shimizu, Y. R. Ma, Y. Mizobuchi, F. Liu, T. Miura, Y. Nakai, M. Yasuda, M. Shiba, T. Horie, S. Amagaya, N. Kawada and H. Hori, Hepatology, 1999, 29, 149.
    [154] 徐文雄,中成藥,1994, 16, 26.
    [155] M. D. Nyby, M. Sasaki, Y. Ideguchi, H. E. Wynne, M. T. Hori, M. E. Berger, M. S. Golub, A. S. Brickman and M. L. Tuck, J. Pharmacol. Exp. Ther., 1996, 278, 503.
    [156] J. Gabrielska, J. Oszmianski, R. Zylka and M. Komorowska, J. Biosci., 1997, 52, 817.
    [157] 昭人出版社編輯部,中藥大辭典(第四冊),第4023頁,昭人出版社,台中,1982。
    [158] K. Shibata, S. Iwata and M. Nakamura, Acta Phytochim., 1923, 1, 105.
    [159] Y. Kimura, M. Kubo, T. Tani, S. Arichi and H. Okuda, Chem. Pharm. Bull., 1981, 29, 2610.
    [160] 張永煜,瀋陽藥科大學學報,1991, 8, 137.
    [161] M. Liu and W. Gao, Yaowu Fenxi Zazhi, 1982, 2, 134; Chem. Abstr., 1982, 97, 203289b.
    [162] L. Yu, M. Liu and Y. Zhang, Yaowu Fenxi Zazhi, 1983, 3, 18; Chem. Abstr., 1983, 99, 10922k.
    [163] C. Yu., C. Li, Y. Xing, Y. Wang, H. Liu and C. Shen, Zhongguo Shouyi Zazhi, 1986, 12, 41; Chem. Abstr., 1987, 106, 72993f.
    [164] X. Zhang and L. Xu, Zhongcaoyao, 1985, 16, 216; Chem. Abstr., 1985, 103, 59375z.
    [165] E. Katsura and T. Yamagishi, Hokkaidoritsu Eisei Kenkyushoho, 1982, 32, 17; Chem. Abstr., 1984, 101, 12273h.
    [166] T. Tomimori, H. Jin, Y. Miyaichi, S. Toyofuku and T. Namba, Yakugaku Zasshi, 1985, 105, 154.
    [167] Y. Takino, T. Miyahara, E. Arichi, S. Arichi, T. Hayashi and M. Karikura, Chem. Pharm. Bull., 1987, 35, 3494.
    [168] 陳國祥,黃芩藥效成分之定量研究及相關製劑之探討,國立台灣師範大學化學研究所碩士論文,台北,1991。
    [169] 李桂蘭,黃連黃芩藥對及其相關製劑之CE、HPLC研究方法之開發,國立台灣師範大學化學研究所碩士論文,台北,1995。
    [170] 賴妙英,黃芩煎劑中黃芩在人體之口服吸收,第6-8頁,中國醫藥學院中國醫學研究所藥學碩士論文,台中,1999。
    [171] 趙宗越,微生物學報,1960,8,171。
    [172] M. Takido, M. Aimi, S. Takahashi, S. Yamanouchi, H. Torii and S. Dohi, Yakugaku Zasshi, 1975, 95, 108.
    [173] M. Takido, M. Aimi, S. Takahashi, S. Yamanouchi, H. Torii and S. Dohi, Yakugaku Zasshi, 1979, 99, 443.
    [174] S. Takagi, M. Yamaki and K. Inoue, Yakugaku Zasshi, 1980, 100, 1220.
    [175] S. Takagi, M. Yamaki and K. Inoue, Yakugaku Zasshi, 1981, 101, 899.
    [176] T. Tomimori, Y. Miyaichi and H. Kizu, Yakugaku Zasshi, 1982, 102, 388.
    [177] A. Koda, H. Nagai and H. Wada, Yakugaku Zasshi, 1970, 66, 471.
    [178] 呂小迅,周玉珍,方丹雲,呂華衡,廣東藥學院學報,1995,11,18。
    [179] 王毅,朱佩芳,王正國,中國中醫急症,1994,3,260。
    [180] A. Koda, T. Nishiyori, H. Nagai, N. Matsuura and H. Tsuchiya, Yakugaku Zasshi, 1982, 80, 31.
    [181] D. Gao, K. Sakurai, J. Chen and T. Ogiso, Res. Commun. Mol. Pathol. Pharmacol., 1995, 90, 103.
    [182] D. Gao, K. Sakurai, J. Chen, T. Ogiso and M. Katoh, Biochem. Mol. Biol. Int., 1995, 39, 215.
    [183] M. Kubo, H. Matsuda, M. Tanaka, Y. Kimura, H. Okuda and S. Arichi, Chem. Pharm. Bull., 1984, 32, 2724.
    [184] M. Kubo, H. Matsuda, T. Tani, S. Arichi and Y. Kimura, Chem. Pharm. Bull., 1985, 33, 2411.
    [185] Y. Kimura, M. Kubo, T. Tani, S. Arichi, H. Ohminami and H. Okuda, Chem. Pharm. Bull., 1981, 29, 2308.
    [186] Y. Kimura, H. Okuda, Z. Taira, N. Shoji, T. Takemoto and S. Arichi, Planta Med., 1984, 50, 290.
    [187] Y. Motoo and N. Sawabu, Cancer Lett., 1994, 86, 91.
    [188] 西安醫學院藥理教研組,西安醫學院學報,1958,5,30。
    [189] T. Miwa, Acta Phytochim., 1932, 6, 155.
    [190] T. Miwa, Acta Phytochim., 1936, 9, 89.
    [191] T. Miwa, Acta Phytochim., 1935, 8, 231.
    [192] K. Sagara, T. Oshima, H. Murayama, Y. Ito and H. Itokawa, Shoyakugaku Zasshi, 1986, 40, 72.
    [193] R. Muto, T. Motozuka, M. Nakano, Y. Tatsumi, F. Sakamoto and N. Kosaka, Yakugaku Zasshi, 1998, 118, 86.
    [194] 行政院衛生署中華藥典編修委員會編,中華藥典(第四版),第158頁,台北,1990。
    [195] 行政院衛生署中華藥典編修委員會編,中華藥典(第四版),第163頁,台北,1990。

    無法下載圖示
    QR CODE