簡易檢索 / 詳目顯示

研究生: 江慧玉
Huey-Yui Chiang
論文名稱: 麻黃、厚朴、吳茱萸之成分分析研究
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
中文關鍵詞: 麻黃厚朴吳茱萸生物鹼
英文關鍵詞: ephedrine, magnolia, rutaceae, alkaloids
論文種類: 學術論文
相關次數: 點閱:190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)和毛細管電泳( CE )同屬液相分離技術,具有多種分離模式,為目前最常用於定量中藥材指標成分的分析方法,本研究應用這兩種儀器於厚朴、吳茱萸藥材的分析。LC-UV及CE-UV的偵測範圍有一定的極限,對藥材微量成分或動物血液組成的分析,常有困難,本文開發毛細管電泳掃集法,成功地測定小白鼠血液中麻黃生物鹼的含量及厚朴藥材中微量生物鹼的含量。
    麻黃的主要藥效成分為六個麻黃生物鹼,1-ephedrine (E)、d-pseudo-
    ephedrine (PE)、1-norephedrine (NE)、d-norpesudoephedrine (NPE)、1-methylephedrine (ME) 和d -methylpseudoephedrine (MPE),利用場放大電動注射掃集法(CSEI-Sweep)分析,偵測極限可達20.0~70.3ppb;本分析方法以50 mM SDS之25 mM 磷酸溶液,及氰甲烷為緩衝溶液( 80:20,v/v ),在27分鐘內能完全分離出六成分峰,再現性良好,RSD值在1.06~2.86 ﹪之間。該方法並可應用於小白鼠的血液分析,測定極稀溶液中組成成分的存在及含量。
    厚朴為常用中藥材,具溫中下氣、燥濕消痰之效,含有酚類magnolol(M)、honokiol(H),及微量生物鹼magnocurarine(A1)、salicifoline(A2)、magnoflorine、anonaine、michelarbine、liriodenine及laurifoline等成分,其中以A1及A2較豐。本研究用HPLC及CE分析厚朴藥材:HPLC的P法,以流動相(a) 20 mM CH3COONH4及(b) CH3CN/H2O = 80/20(v/v)為沖提液,使用Cosmosil 5C18-MS為層析管柱,可在45分鐘內分析M及H兩酚類成分;A法則以 (a) buffer / CH3CN=60/40(buffer為50 mM NaOAc及5 mM SDS之混合液,以10﹪AcOH調至pH=3.63)及(b) CH3OH /CH3CN /H2O = 45 /45 /10(v/v)為沖提液,可在50分鐘內同時定量酚類H、M及生物鹼A1、A2等四成分。CE則用電壓注射樣品,以負電壓進行掃集,緩衝溶液為50mM磷酸、100mM SDS與10mM diethylamine溶液,及氰甲烷( 75:25,v/v),在此條件下放大倍數可達6.4 ×103,於45分鐘內可檢測出七個厚朴生物鹼成分吸收峰。
    市售厚朴來源極為複雜,除正品的川厚朴、凹葉厚朴及和厚朴外,並有非藥用部位樣品或偽品在市場上流通。本研究從台灣及日本市場收集32批藥材,用HPLC分析M、H、A1及A2含量,用CE掃集圖譜比對其批次間成分差異,發現各厚朴樣品中的酚類含量差異不大,但M/H及A1/A2比值則有明顯區隔,以M/H比值來看:凹葉厚朴>4.59,川厚朴<1.41,和厚朴則介於3.12~3.91之間;至於A1/A2比值:和厚朴>20.09是三者中最大者,凹葉厚朴<1.98,川厚朴則介於2.16~9.81之間。利用CE掃集法可區別厚朴正品與偽品,兩者的掃集峰圖紋迥異。正品厚朴樣品有一致的七個掃集峰,而混用藥材掃集結果有二:一是圖紋為成群交雜的重疊小峰,含量較少,看不出正品吸收峰的相對應成分;一是除正品七個掃集峰外,另有其他成分吸收峰夾雜或重疊其中。推測前者為偽品,後者為非藥用部位樣品。因此,結合LC定量及CE掃集圖譜不但可用來分辨厚朴藥材基原,且可用於辨識厚朴偽品的摻雜與混淆。
    市售吳茱萸藥材分吳茱萸和石虎兩品種,前本實驗室化學分析結果顯示,兩者在成分含量上沒有差異,但成熟與未成熟樣品則有明顯不同,前者有較高的生物鹼含量,後者則有較多的黃酮類成分。檢視市售樣品,發現同批藥材在成熟度、顏色、顆粒大小方面就有很大差別,本文的目的在開發一種以二或三成分辨識這些樣品的方法。首先依外觀性狀將十四批樣品分類,利用HPLC方法,以流動相(a) buffer / CH3CN=80/20 (buffer為30 mM NaOAc與1.25﹪AcOH混合溶液,pH=3.68 )及(b) CH3OH /CH3CN /H2O /
    AcOH = 45 /45 /10/0.25 (v/v)沖提分析,發現開口樣品之DE與E的總含量大於閉口樣品,而且以色黑、顆粒大、成花狀者為佳;然而,開口者的DE/E比值(0.699~2.460)卻小於閉口者(1.672~11.541)。文獻記載,具有類似腎上腺素功能的Synephrine與生長期有直接關連,分析結果顯示,不同批次間的差異極大,但同一批樣品中,閉口者總大於開口者。傳統上,吳茱萸以陳者良,本研究將吳茱萸樣品置於不同溫度、時間及環境中,發現高溫環境下藥效成分含量變動較大。室溫下的吳茱萸樣品,DE與E衰減速率緩慢且穩定,DE/E比例幾乎維持一定值;置於50℃烘箱之開口吳茱萸DE/E比值漸增,閉口者漸減,由於閉口樣品的DE快速遞減,其藥效成分比例與開口樣品漸趨一致。將以吳茱萸為君藥的吳茱萸湯製劑,存放於室溫下,發現藥效成分含量沒有太大的變動;而在高溫環境中DE與E的含量變化明顯減少,其衰變趨勢與開口吳茱萸藥材極為相似,其中Rutaecarpine與Evocarpine有先減後增的傾向,含量變化最小。

    Both high-performance liquid chromatography and capillary electrophoresis are belonging to the liquid chromatographic technology and have several separation modes each. Currently they have become the most commonly used methods for analyzing the marker substances of Chinese herbal drugs. This study employed these two methods in analyzing the Chinese herb drugs Magnoliae Cortex and Evodiae Fructus. Owing to the fact that LC-UV and CE-UV have limited detecting capability, there are difficult to apply them to the analysis of animal blood composition, especially those samples with very minute amounts of constituents. This study has developed the CE-Sweeping method, by which we can successfully determine the ephedra (Ephedra Herba) alkaloids in experimental mice’s blood and the trace magnolia (Magnoliae Cortex) alkaloids in a crude drug.
    Ephedra Herba has six major active constituents, namely l-ephedrine (E), d-pseudoephedrine (PE), l-norephedrine (NE), d-norpseudoephedrine (NPE), l-methylephedrine (ME) and d-methylpseudoephedrine (MPE). By means of the cation-selective exhaustive injection and sweeping (CSEI-Sweeping) method, the detectability limit can reach 20.0 ~ 99.5 ppb. This study used a buffer consisting of 25 mM phosphate solution of 50 mM SDS and acetonitrile (80 : 20, v/v) which can separate 6 constituent peaks successfully within 27 minutes with good reproducibility having an RSD.value of 1.06 ~ 2.86%. This method can be applied to analyze the contents of constituents in the mouse blood at very low concentrations.
    Magnoliae Cortex is a commonly used Chinese herb drug, which possesses the effects of warming the body center, settling down chi, drying up dampness, and resolving phlegm. It contains phenols such as magnolol (M) and honokiol (H) and trace alkaloids such as magnocurarine (A1), salicifoline (A2), magnoflorine, anonaine, michelarbine, liriodenine and laurifoline,etc. Among these alkaloids, A1 and A2 exist in higher amounts. This study used HPLC and CE to analyze the drug material magnolia. With HPLC, method P used a mobile phase composed of (a) 20 mM CH3COONH4 and (b) CH3CN/H2O = 80/20 (v/v) as the eluent, and Cosmosil 5C18-MS as the chromatographic column to separate the two phenols M and H within 45 minutes; whereas method A used an eluent composed of (a) buffer/CH3CN = 60/40 (the buffer is a mixture of 50 mM NaOAc and 5 mM SDS, which is adjusted to a pH=3.63 with AcOH) and (b) CH3OH/CH3CN/H2O = 45/45/10 (v/v) to simultaneously assay the four constituents: phenols H and M and alkaloids A1 and A2 within 50 minutes.With CE, the electrokinetic mode-injected sample was sweep run under a negative voltage, using a buffer composed of 50 mM phosphoric acid, 100 mM SDS and 10 mM diethylamine: acetonitrile = 75/25 (v/v). Under this condition, the magnification factor can reach 6.4 x 103, and the absorption peaks corresponding to seven magnolia alkaloids were separated within 45 minutes.
    The commercial sources of Magnolia Cortex are very complicated. In addition to the orthodox articles derived from Magnolia officinalis, M. officinalis var. biloba and M. obovata respectively, there are also articles derived from different non-medicinal used parts and counterfeits. This study collect 32 samples from the herb markets in Taiwan and Japan, and used HPLC to analyze the contents of M, H, A1 and A2 and used CE to compare the differences in trace alkaloids among different batches. As a result, it was found that the phenolic constituents did not vary very much among the various articles of Magnolia Cortex. However, the M/H and A1/A2 ratios showed marked distinctions. The M/H ratio was > 4.59 in M. offcinalis var. biloba, <1.41 in M. officinalis, and 3.12 ~ 3.91 in M. obovata. As for the A1/A2 ratio, it was >20.09 in M. obovata, the higher of all; <1.98 in M. offcinalis var. biloba; and 2.16 ~ 9.81 in M. officinalis. Using the CE-Sweeping method, we can discriminate the orthodox articles of Magnolia Cortex from the counterfeits. The sweeping patterns of both groups are drastically different. The orthodox articles showed seven sweeping peaks, whereas the counterfeits were of two groups. One group showed overlapped clusters of small peaks in lesser quantities, showing no peaks corresponding to those in the orthodox articles. The other group showed other peaks admixed with the seven sweeping peaks, showing the presence of other constituents. It is postulated that articles of the former group are counterfeits, and those of the latter group are derived from non-medicinal used parts. Hence, the combined use of LC assay and CE sweeping patterns can be applied to the identification of magnolia sources as well as to the discrimination of the orthodox articles from the counterfeits or adulterants.
    Commercial articles of evodia (Evodia Fructus) are divided into two kinds: those derived from Evodia rutaecarpa and from E. rutaecarpa var. officinalis. Both kinds do not differ from each other in terms of their constituent contents. However, there is marked difference between the mature and immature samples. The former contain higher alkaloid contents, and the latter contain higher flavones contents. Examination of the commercial samples also found marked differences in maturity, color and size of fruits among samples from the same batch. This study is aimed to develop a method whereby we can identify these samples in terms of two or three constituents. First we sorted the samples by their external appearance, and then analyzed them by HPLC, using a mobile phase composed of (a) buffer/CH3CN == 80/20 (the buffer is a mixture of 30 mMNaOAc and 1.25% AcOH, pH = 3.68) and (b) CH3OH/CH3CN/H2O/AcOH = 45/45/10/0.25 (v/v). As a result, it was found that the total of DE and E contents in the open-mouth articles were larger than those in the closed-mouth articles, and that those articles with a darker color, large sizes and flowery shapes were better. However, the DE/E ratio in the open-mouth samples (0.699 ~ 2.460) was smaller than that in the closed-mouth ones (1.672 ~ 11.541). Literature records indicate some linkage between the herb’s synephrine effect and the herb’s growth age. Analysis results showed great differences among different batches, but within the same batch the closed-mouth samples always have higher content than the open-mouth ones in quantity. Traditionally, the aged article of the herb is said to be of superior quality. This study put the evodia samples at different temperatures and in different environments for different lengths of time. It was found that at high temperatures, there were greater changes in constituents. At room temperature, deterioration in DE and E was slow and stable and the DE/E ratio almost remained constant. Put in a 50℃ oven, this ratio increased gradually in the open-mouth samples, but decreased gradually in the closed-mouth samples owing to rapid reduction in DE in the closed-mouth samples whose medicinal constituents gradually approached the same as those of the open-mouth samples. By storing the herbal formula Wu-chu-yu-tang (Evodia Combination), which contains Evodiae Fructus as its imperial ingredient, at room temperature, its medicinally active constituents were found to have no noticeable changes. However at high temperatures, the DE and E contents decreased markedly in a manner similar to that of the open-mouth samples of Evodiae Fructus. Among the constituents rutaecarpine and evodarpine showed a first decrease and then increase tendency in content change, which was the minimum of all.

    表目錄……………………………………………………………….Ⅱ 圖目錄………………………………………………………….……Ⅴ 中文摘要……………………………………………………….……Ⅷ 英文摘要…………………………………………………………….………ⅩⅠ 第一章 緒論 第一節 前言……………………………………………………………...1 第二節 高效液相層析…………………………………………………...2 第三節 毛細管電泳分析法……………………………………………...4 第四節 分析條件參數及適宜性之評估……………………………….20 第二章 麻黃藥材之毛細管電泳掃集法 第一節 前言…………………………………………………………….24 第二節 實驗部分……………………………………………………….28 第三節 結果與討論…………………………………………………….40 第四節 掃集法之放大倍數…………………………………………….63 第五節 掃集法之微量分析應用……………………………………….67 第三章 厚朴之HPLC/CE分析方法開發 第一節 前言…………………………………………………………….72 第二節 實驗部分……………………………………………………….78 第三節 結果與討論…………………………………………………….89 第四章 厚朴基原之化學辨識 第一節 前言…………………………………………………………...120 第二節 實驗部分……………………………………………………...129 第三節 結果與討論…………………………………………………...133 第五章 吳茱萸藥材之高效液相層析 第一節 前言…………………………………………………………...155 第二節 實驗部分……………………………………………………...161 第三節 結果與討論…………………………………………………...166 第六章 吳茱萸安定性探討 第一節 前言…………………………………………………………...185 第二節 實驗部分……………………………………………………...185 第三節 結果與討論…………………………………………………...187 第七章 結論 第一節 HPLC與CE的比較……………………………….…………199 第二節 麻黃藥材之毛細管電泳掃集法……………………………...200 第三節 厚朴之HPLC/CE分析方法開發…………………………….202 第四節 厚朴基原之化學辨識………………………………………...203 第五節 吳茱萸藥材之高效液相層析………………………………...205 參考文獻……………………………………………………………………...207

    [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. Chem. Acta, 1967, 38 , 305.
    [6] A. Tiselius, Tran. Faraday Soc. , 1937, 33 , 524.
    [7] S. Hjert&eacute;n, Chromatogr. Rev. , 1967, 9 , 122.
    [8] R. Virtanen, Acta Polytechnica Scand. , 1974, 123 , 1.
    [9] F. E. P. Mikkers, F. M. Everaerts and T. P. E. M. Verheggen, J. Chromatogr. 1979, 169, 11.
    [10] J. W. Jorgenson and K. D. Lukacs, Anal. Chem., 1981, 53, 1298.
    [11] S. Hjert&eacute;n, J. Chromatogr., 1985, 347, 171.
    [12] J. R. Mazzeo and I. S. Krell, Biotechniques, 1991, 10, 638.
    [13] T. Wehr, LC-GC Mag., 1993, 11, 14.
    [14] A. S. Cohen and B. L. Karger, J. Chromatogr., 1987, 397, 409.
    [15] A. S. Cohen, A. Paulus and B. L. Karger, Chromatographia, 1987, 24, 15.
    [16] 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.
    [17] H. Drossman, J. A. Luckey, A. Kostichka, J. D.Cunha and L. M. Smith, Anal. Chem., 1990, 62, 900.
    [18] P. Bocek and A. Chrambach, Electrophoresis, 1991, 12, 1059.
    [19] S. Terabe, K. Otsuka, K. Ichikawa, A. Tsuchiya and T. Ando, Anal. Chem., 1984, 56, 111.
    [20] S. Terabe, K. Otsuka and T. Ando, Anal. Chem., 1985, 57, 834.
    [21] S. Hjert&eacute;n, J. L. Liao and K. Yao, J. Chromatogr., 1987, 387, 127.
    [22] D. J. Rose and J. W. Jorgenson, Anal. Chem., 1988, 60, 642.
    [23] S. F. Y. Li, Capillary electrophoresis, chapter 1, p.1,
    Elservier Scientific Publishers, Amsterdam, 1992.
    [24] S. Compton and R. Brownlee, Biotechniques, 1988, 6, 432.
    [25] W. B. Hardy, J. Physiol., 1892, 24, 288.
    [26] W. B. Hardy, J. Physiol., 1905, 33, 273.
    [27] T. B. Coolidge, J. Biol. Chem. , 1939, 127, 551.
    [28] R. A. Consden, A. H. Gorden and A. J. P. Martin, Biochem. J. , 1946, 40, 33.
    [29] J. Porath, Biochem. Biophys. Acta., 1956, 22, 151.
    [30] T. Tsuda, Handbook of Capillary Electrophoresis, Chapter 1, J. P. Landers, Ed., CRC Press ,1997.
    [31] H. Z. Helmholtz, Anal. Phys. Chem., 1879, 7, 337.
    [32] D. N. Heiger,高效毛細管電泳導論 (中譯本),p.32,惠普公司出版物,北京,1993.
    [33] K. Shibata, S. Iwata and M. Nakamura, Acta PhytoChim., 1923, 1, 105.
    [34] 同[32],p.38.
    [35] J. C. Reijenga, G. U. A. Aben, T. P. E. M. Verheggen and F. M. Everaerts, J. Chromatogr. , 1983, 260, 241.
    [36] T. Tsuda, High Resoln Chromatogr. Commun. , 1987, 10, 622.
    [37] W. R. Jones and P. J Andik, J. Chromatogr. , 1991, 546, 445.
    [38] W. R. Jones and P. J Andik, J. Chromatogr. , 1992, 608, 385.
    [39] M. Albin, P. D. Grossman and S. E. Moring, Anal. Chem. , 1993, 65, 489A.
    [40] J. P. Quirino and S. Terabe, J. High Resoln Chromatogr. , 1999, 22, 367.
    [41] Z. Liu, P. Sam, S. R. Sirimanne, P. C. McClure, J. Grainger and D. G. Patterson, J. Chromatogr. A. , 1994, 673, 125.
    [42] K. R. Nielson and J. P. Foley, J. Chromatogr. A, 1994, 686, 283.
    [43] J. P. Quirino and S. Terabe, J. Chromatogr. A, 1997, 781, 119.
    [44] J. P. Quirino and S. Terabe, J. Chromatogr. A, 1997, 791, 255.
    [45] J. P. Quirino and S. Terabe, Anal. Chem. , 1998, 70, 149.
    [46] J. P. Quirino and S. Terabe, J. Chromatogr. A, 1998, 798, 251.
    [47] J. P. Quirino and S. Terabe, Anal. Chem., 1998, 70, 1893.
    [48] J. P. Quirino, K. Otsuka and S. Terabe, J. Chromatogr. B, 1998, 714, 29.
    [49] R. L. Chien, High Performance Capillary Electrophoresis
    (Theory, Techniques and Applications), Chapter 13, M.G. Khaledi, Ed., CRC Press ,1998.
    [50] J. Cai and Z. J. Elrassi, Liq. Chromatogr. , 1992, 15, 1179.
    [51] F. Foret, V. Sustacek and P. Bocek, J. Microcolumn Sep. , 1990, 2, 229.
    [52] J. L. Beckers and F. M. Everaerts, J. Chromatogr. , 1990, 508, 3.
    [53] D. S. Burgi and R. L. Chien, Anal. Chem. , 1991, 63, 2042.
    [54] D. S. Burgi and R. L. Chien, Anal. Chem. , 1992, 64, 1046.
    [55] D. S. Burgi and R. L. Chien, Anal. Chem. , 1991, 63, 2042.
    [56] D. S. Burgi ,Anal. Chem. , 1993, 65, 3776.
    [57] Y. He and H. K. Lee, Anal. Chem. , 1999, 71, 995.
    [58] J. P. Quirino and S. Terabe, Science, 1998, 282, 465.
    [59] J. P. Quirino and S. Terabe, Anal. Chem., 1999, 71, 1638.
    [60] C. X. Zhang and W. Thormann, Anal. Chem., 1998, 70, 540.
    [61] Z. K. Shihabi, J. Chromatogr. A, 1998, 817, 25.
    [62] J. Palmer, N. J. Munro and J. P. Landers, Anal. Chem., 1999, 71, 1679.
    [63] P. Britz-McKibbin, G. M. Bebault and D. Y. Chen, Anal. Chem., 2000, 72, 1729.
    [64] P. Britz-McKibbin and D. Y. Chen, Anal. Chem., 2000, 72, 1242.
    [65] J. Palmer and J. P. Landers, Anal. Chem., 2000, 72, 1941.
    [66] J. Palmer, N. J. Munro, D. S. Burgi and J. P. Landers, Anal. Chem., 2001, 73, 725.
    [67] J. P. Quirino and S. Terabe, Anal. Chem., 2000, 72, 1023.
    [68] 中國生草藥研究發展中心,現代本草中國藥材學,p.1051,啟業書局,台北,1974.
    [69] 顏焜熒,常用中藥之藥理, vol.Ⅱ,p.6,國立中國醫藥研究所,台北,1970.
    [70] 賴榮祥,原色生藥學,p.469,創譯出版社,台中,1976.
    [71] S. Smith, J. Chem. Soc., 1927, 2056.
    [72] S. Smith, J. Chem. Soc., 1928, 51.
    [73] W. N. Nagai and S. Kanao, J. Pharm. Soc., 1928, 48, 845.
    [74] 許鴻源、陳玉盤、許順吉、許照信、陳建志、張憲昌,簡明藥材學,p.31,新醫藥出版社,台北,1985.
    [75] K. Yamazaki, Wakan Iyaku Gakkaishi, 1985, 2, 93;Chem. Abstr., 1985, 104, 56500.
    [76] 行政院衛生署中醫藥委員會,認識常用中藥(二),p.16,台彩文化事業股份有限公司,台北,1999.
    [77] 許鴻源,中藥材之研究,p.132,新醫藥出版社,台北,1980.
    [78] K. Kimura, H. Shimada, S. Y. Normura and T. Tanaka, Yakugaku Zasshi, 1973, 93, 364.
    [79] Y. Hashimoto, Y. Ikeshiro, T. Higashiyama, K. Audo and M. Endo, Yakugaku Zasshi, 1977, 97, 594.
    [80] K. Yamasaki, K. Fujita, M. Sakamiti, K. Okada, M. Yoshida and O. Tanaka, Chem. Pharm. Bull., 1974, 22, 2898.
    [81] K. Yamasaki and K. Fujita, Chem. Pharm. Bull., 1979, 27, 43.
    [82] Y. Kasahara and H. Hikino, J. Chromatogr., 1985, 324, 503.
    [83] N. Iwanami, Y. Ohtsuka and H. Kubo, Yaoxue Tongbao, 1985, 20, 149;Chem. Abstr., 1985, 104, 56490t.
    [84] M. Anetai and T. Yamagishi, Hokkaidoritsu Eisei Kenkyushoho, 1987, 37,44;Chem. Abstr., 1987, 108, 101403n.
    [85] M. Noguchi, K. Hosoda and H. Suzuki, Yakugaku Zasshi, 1987, 107, 372.
    [86] J. Zhang, Z. Tian and Z. Lou, Planta Med., 1988, 54, 69.
    [87] C. Imaz, D. Carrearas, R. Navajas, C. Rodriguez, A. F. Rodriguez, J. Maynar and R. Cortes, J. Chromatogr., 1993, 631, 201.
    [88] K. Sagara, K. Suto, Y. Ito, Y. Nagai, H. Suzuki and M. Satake, Iyakuhin Kenkyu, 1996, 27, 255;Chem. Abstr., 1996, 125, 96269.
    [89] Y. M. Liu and S. J. Sheu, J. Chromatogr., 1992, 600, 370.
    [90] S. M. Masselter and A. J. Zemann, J. Chromatogr. A, 1995, 693, 359.
    [91] S. M. Masselter and A. J. Zemann, Anal. Chem., 1995, 67, 1047.
    [92] J. Palmer, N. J. Munro and J. P. Landers, Anal. Chem., 1999, 71, 1679.
    [93] 同[74],p.300.
    [94] 同[77],p.68.
    [95] 甘偉松,藥用植物學,p.224,國立中國醫藥研究所,台北,1979.
    [96] 同[69],p.34.
    [97] 清,寇宗奭,本草衍義,p.79,商務印刷館,北京,1959.
    [98] 徐珞珊、徐國鈞、金蓉鸞、何宏賢,中國藥材學,p.784,中國醫藥科技出版社,北京,1994.
    [99] S. Takagi, J. Pharm. Soc. (Japan), 1921, 473, 565.
    [100] Y. Sugii and H. Shindo, J. Pharm. Soc. (Japan), 1930, 50, 709.
    [101] Y. Sugii, Ber. 1930, 50, 183 ; Chem. Abstr. ,1930, 24, 3505.
    [102] M. Tomita, Y. Inubushi and M. Yamagata, J. Pharm. Soc. (Japan),1951, 71, 1069; Chem. Abstr. 1952, 46, 5059h.
    [103] M. Tomita and T. Nakano, Ber., 1952, 72, 197 ; Chem. Abstr. 1953, 47, 1627i.
    [104] M. Tomita and T. Nakano, Ber., 1952, 72, 1256 ; Chem. Abstr. 1953, 47, 12287i.
    [105] T. Nakano, Pharm. Bull. (Japan), 1954, 2, 329 ; Chem. Abstr. 1956, 50, 7117h.
    [106] T. Nakano, Chem. Pharm. Bull., 1956, 4, 408.
    [107] M. Tomita and M. Kozuka, Yakugaku Zasshi, 1967, 87, 1134.
    [108] M. Fujita, H. Itokawa and Y. Sashida, Yakugaku Zasshi, 1973, 93, 429.
    [109] 葛發歡,中藥材,1990, 13, 45.
    [110] 曹治儀、陳芳群,中草藥,1981, 12, 5.
    [111] 崔建芳,藥學學報,1988, 23, 383.
    [112] 曹治儀、陳芳群,中草藥,1985, 16, 2.
    [113] K. Ougi and M. Morita, J. Pharmacol.,(Japan), 1953, 2, 89 ; Chem. Abstr., 1953, 47, 10128b.
    [114] 吳葆杰,中草藥藥理學,p.133,人民衛生出版社,北京,1983.
    [115] 王浴生,中藥藥理與應用,p.770,人民衛生出版社,北京,1983.
    [116] 江蘇新醫學院,中藥大辭典(下冊),p.1665,上海人民出版社,上海,1977.
    [117] T. Namba, M. Tsunezuka and M. Hattori, Planta Med.,1982, 44, 100 ; Chem. Abstr., 1982, 96, 223080j.
    [118] K. Inoue, Nippon Yakurigaku Zasshi, 1957, 53, 797; Chem. Abstr., 1958, 52, 18870b.
    [119] 上海中醫學院藥理教研組,新醫藥學雜誌(第五卷),p.41,上海人民出版社,上海,1974.
    [120] K. Shimamoto, K. Inoue and K. Ougi, J. Pharmacol., (Japan),
    1958, 7, 135 ; Chem. Abstr., 1958, 52, 18896i.
    [121] T. Konoshima, J. Nat. Prod., 1991, 54, 816.
    [122] T. Konoshima, Planta Med., 1990, 56, 653.
    [123] 上海第一醫學院藥學系醫學基礎教研組,新醫藥學雜誌(第四卷),p.31,上海人民出版社,上海,1973.
    [124] 度邊和夫,中醫中藥分冊(第三冊),p.54,國外醫學,1981.
    [125] M. Fujita, H. Itokawa and Y. Sashida, Yakugaku Zasshi, 1973, 93, 415.
    [126] K. Watanabe, J. Pharmacol., (Japan), 1975, 25, 605 ; Chem. Abstr., 1976, 84, 99380t.
    [127] G. Zhou, Z. Zhu and R. Li, Yaoxue Tongbao, 1981, 16, 587;Chem. Abstr., 1981, 96, 214277b.
    [128] D. Chen and J. Liu, Yaoxue xuebao, 1982, 17, 360;Chem. Abstr., 1982, 97, 78974t.
    [129] A. Li, X. Guo, X. Wang, C. Chen, Y. Shi, N. Sui and J. Du, Yaowu Fenxi Zazhi, 1983, 3, 1;Chem. Abstr., 1983, 99, 1092j.
    [130] X. Ou, L. Zhang and Y. Xi, Yaoxue Tongbao, 1984, 19, 421;Chem. Abstr., 1984, 102, 100825x.
    [131] A. Li, X. Guo, X. Wang and C. Chen, Yaowu Fenxi Zazhi, 1984, 4, 271;Chem. Abstr., 1984, 101, 235655k.
    [132] E. Katsura, T. Yamagishi, S. Yahara and I. Nishioka, Hokkaidoritsu Eisei Kenkyushoho, 1984, 34, 24;Chem. Abstr., 1984, 103, 11529a.
    [133] G. Zhou and Z. Zhu, Zhongcaoyao, 1985, 16, 104;Chem. Abstr., 1985, 102, 225903w.
    [134] J. Cui, G. Zhang and W. Song, Yaowu Fenxi Zazhi, 1988, 8, 274;Chem. Abstr., 1988, 110, 63817g.
    [135] Z. Li, M. Zhang, X. Lin and Y. Hou, Zhongguo Zhongyao Zazhi, 1989, 14, 399;Chem. Abstr., 1989, 111, 201712t.
    [136] L. Hu, M. Sha, B. Fu and L. Zhao, Zhongguo Zhongyao Zazhi, 1991, 16, 535;Chem. Abstr., 1991, 116, 46390.
    [137] Z. Zhao, M. Hu and X. Tang, Zhongguo Zhongyao Zazhi, 1992, 17, 15;Chem. Abstr., 1992, 116, 211143.
    [138] C. Ye, Y. Feng and J. Teng, Yaowu Fenxi Zazhi, 1992, 12, 159;Chem. Abstr., 1992, 117, 76583x.
    [139] Q. Yu and J. Sheng, Zhongguo Zhongyao Zazhi, 1992, 17, 404;Chem. Abstr., 1992, 117, 239919c.
    [140] S. Su, C. Sui, C. Xu, R. Sun, Y. Wang, H. Liu and X. Shen, Shengyang Yaoxueyuan Xuebao, 1992, 9, 185;Chem. Abstr., 1992, 119, 125293e.
    [141] T. H. Tsai and C. F. Chen, J. Chromatogr., 1992, 598, 143.
    [142] P. Ma and T. Lin, Huaxi Yaoxue Zazhi, 1993, 8, 87;Chem. Abstr., 1993, 121, 187395.
    [143] N. Momma and K. Ohsawa, Yakugaku Zasshi, 1993, 113, 155;Chem. Abstr., 1993, 119, 80345e.
    [144] P. Ma and T. Lin, Huaxi Yaoxue Zazhi, 1993, 8, 87;Chem. Abstr., 1993, 121, 187395q.
    [145] Q. Zeng, X. Song, Q. Zhang, W. Tu and L. Zhang, Zhongcaoyao, 1996, 27, 11;Chem. Abstr., 1996, 125, 67932.
    [146] J. Ueda, N. Asaka, I. Tanaka, Y. Hayashi, Y. Hirose, N. Momma, T. Yasuda and K. Ohsawa, Yakugaku Zasshi, 1993, 113, 894;Chem. Abstr., 1997, 120, 280393.
    [147] K. H. Bae, H. H. Kim, D. H. Won, J. S. Lee and J. S. Kang, Yakhak Hoechi, 1997, 41, 407;Chem. Abstr., 1997, 127, 283436.
    [148] Z. Wu, L. Kuang, G. Zhang, Z. Pan, F. Li and X. Hu, Zhongguo Zhongyao Zazhi, 1998, 23, 223;Chem. Abstr., 1999, 130, 122156.
    [149] S. Yahara, T. Nishiyori, A. Kohda, T. Nohara and I. Nishioka, Chem. Pharm. Bull., 1991, 39, 2024;Chem. Abstr., 1991, 116, 67005.
    [150] M. Ogata, M. Hoshi, K. Shimotohno, S. Urano and T. Endo, J. Am. Oil Chem. Soc., 1997, 74, 557;Chem. Abstr., 1997, 127, 28634.
    [151] Z. P. Zhang, Z. D. Hu and G. L. Yang, Mikrochim. Acta, 1997, 127, 253;Chem. Abstr., 1997, 127, 253045.
    [152] H. Zhang, Z. Hu, G. Yang, Z. Shi and H. Sun, Anal. Lett., 1997, 30, 2327.
    [153] Q. Shen and Z. Fang, Fenxi Shiyanshi, 1998, 17, 1.
    [154] Y. Maruyama and H. Kuribara, CNS Drug Rev.,2000, 6, 35; Chem. Abstr., 2000, 133, 114439.
    [155] J. F. Cui, G. D. Zhang and W. Z. Song, Yaoxue Xuebao, 1988, 23, 383;Chem. Abstr., 1988, 109, 79805s.
    [156] J. Zhu, C. Heo, M. Wei, X. Wang and X. Luo, Fenxi Ceshi Tongbao, 1988, 7, 20;Chem. Abstr., 1988, 110, 141638.
    [157] W. Song, J. Gui and G. Zhang, Fitoterapia, 1990, 61, 245;Chem. Abstr., 1990, 114, 139727.
    [158] W. Song, J. Cui and G. Zhang, Tianran Chanwu Yanjiu Yu Kaifa, 1990, 2, 1;Chem. Abstr., 1990, 114, 192695.
    [159] M. Yao, L. Chen, Y. Dai, W. Liu and Z. Xian, Zhongcaoyao, 1991, 22, 351;Chem. Abstr., 1991, 116, 18397.
    [160] F. J. Wu and S. J. Sheu, Zhonghua Yaoxue Zazhi, 1992, 44, 317.
    [161] S. Su, C. Xu, C. Sui, R. Sun, Y. Wang, H. Liu and X. Shen, Shenyang Yaoxueyuan Xurbao, 1992, 9, 185;Chem. Abstr., 1992, 119, 125293.
    [162] C. Zhao, J. Huang and M. Zhou, Huazhong Nongye Daxue Xuebao, 1994, 13, 373;Chem. Abstr., 1994, 122, 310715.
    [163] M. Moriyasu, Y. Nishiyama, M. Ichimaru and A. Kato, Nat. Med., 1994, 48, 282.
    [164] Y. He, M. Wu, B. Cai, P. Zheng and Z. Yuan, Zhongguo Zhongyao Zazhi, 1995, 20, 84;Chem. Abstr., 1995, 122, 274194n.
    [165] M. Moriyasu, J. Wang, H. Zhang, G. B. Lu, M. Ichimaru and A. Kato, Nat. Med. (Tokyo), 1996, 50, 413.
    [166] R. Ziyaev, N. I. Shtonda, A. Abdusamatov and D. M. Tsakadze, Chem. Nat. Comp., 1999, 35, 366;Chem. Abstr., 2000, 132, 205497.
    [167] Y. Q. Zhu, Y. Y. Zeng, X. P. Pan, J. P. Si and Z. L. Wang, Zhejiang Linxueyuan Xuebao, 1999, 16, 387.
    [168] K. Kondo, N. Hattori, K. Kazushige, I. Sakakibara, S. Terabayashi, M. Kubo, M. Higuchi, H. Sasaki, H. Kamei, M. Okada, G. M. Shu, X. M. Xu and X. Z. Liu, Nat. Med. (Tokyo), 2000, 54, 61.
    [169] D. Chen and J. Liu, Yaoxue Xuebao, 1982, 17, 360 ; Chem. Abstr., 1982, 97, 78974t.
    [170] N. Okamura, H. Miki, T. Harada, S. Yamashita, Y. Masaoka, Y. Nakamoto, M. Tsuguma, H. Yoshitomi and A. Yagi, J. Pharm. Biomed. Anal., 1999, 20, 363.
    [171] 吳聰建,黃連藥材及其炮炙品之定量研究,國立台灣師範大學化學研究所,碩士論文,台北,1992.
    [172] 宋,唐慎微,重修政和經史證類備用本草,p.324,人民衛生出版社,北京,1982.
    [173] 全國中草藥匯編編寫組,全國中草藥匯編(上冊),第一版,p.394,人民衛生出版社,北京,1976.
    [174] 宋萬志,藥學學報,1984,19,213.
    [175] 宋萬志、童玉懿、王珂、馬林、吳豐、劉永隆,常用中藥材品種整理和質量研究(北方編),第二冊,p.211,徐國鈞、徐珞珊編,福建科學技術出版社,福建,1994.
    [176] 謝萬宗,中藥材品種論述(中冊),p.17,上海科學技術出版社,上海,1959.
    [177] 行政院衛生署中醫藥委員會網站:http://www.ccmp.gov.tw/.
    [178] T. J. Betts, J. Chromatogr., 1990, 511, 373.
    [179] P. Pietta, P. Mauri, E. Manera and P. Ceva, J. Chromatogr., 1988, 457, 442.
    [180] R. V. Smith and M. R. de Moreno, J. Chromatogr., 1983, 274, 376.
    [181] P. Lampen, J. L. Neumeyer and R. J. Baldedessarrini, J. Chromatogr., 1988, 426, 283.
    [182] H. Speisky, B. K.Cassela, S. Nieto, A. Valenzuela and L. J. Nunez-Vergara, J. Chromatogr., 1993, 612, 315.
    [183] A. Perico, A. Cocchini, R. Noferini, C. Mannucci and A. Cambi, J. Liq. Chromatogr., 1992, 15, 617.
    [184] M. Hutin, A. Oztekin, A. Cave and J. P. Foucher, J. Chromatogr., 1983, 265, 139.
    [185] J. P. Fels, P. Lechat, R. Rispe and W. C. Betts, J. Chromatogr., 1984, 308, 273.
    [186] 同[74],p.288.
    [187] 小泉榮次郎,和漢藥考,p.492,古亭書局,台北,1969.
    [188] 張鴻銘,張蘭昌,中醫大辭典,p.89,昭人出版社,台北,1980.
    [189] 陳存仁,中國醫藥大辭典,p.578,世界書局,台北,1979.
    [190] 陳榮福、顏焜熒,中藥藥理學,p.296,國立中國醫藥研究所,台北,1991.
    [191] 柯逢時、艾晟,經史證類大觀本草,p.361,正言出版社,台南,1977.
    [192] Y. Asahina and T. Ohta, Ber., 1928, 61B, 319 ; Chem. Abstr., 1928, 22, 1777.
    [193] C. Schopl and H. Steuer, Ber., 1948, 24;Chem. Abstr., 1948, 42, 2602.
    [194] Y. Kano, M. Yasuda, K. Saito and K. Komatsu, Shoyakugaku Zasshi, 1989, 43, 339.
    [195] 盧宏民、陳石中,本草藥性大辭典,p.201,五洲出版社,台北,1984.
    [196] Y. Pho, J. Jung, K. Ko and D. Han, Taehan Yakrihak Chapchi, 1980, 16, 57;Chem. Abstr., 1980, 93, 179704c.
    [197] F. Kusu, K. Matsumoto and K. Takamura, Chem. Pharm. Bull., 1995, 43, 1158.
    [198] S. Takagi, T. Konoshita, M. Sameshima, T. Akiyama, S. Kobayashi and U. Sankawa, Shoyakugaku Zzsshi, 1979, 33, 30.
    [199] Y. Asahina, J. Pharm. Soc. Japan, 1924, 503, 1;Chem. Abstr., 1924, 18, 1667.
    [200] Y. Asahina and T. Ohta, J. Pharm. Soc. Japan, 1926, 530,293;Chem. Abstr., 1927, 21, 2134.
    [201] A.Chatterjee, S. Bose and C. Ghosh, Tetrahedron, 1959, 7, 257.
    [202] K. W. Gopinath, T. R. Govindachari and U. R. Rao, Tetrahedron, 1960, 8 , 293.
    [203] I. J. Pachter and G. Suld, J. Org. Chem., 1960, 25, 1680.
    [204] T. Nakasato, S. Asada and K. Marui, Yakagaku Zasshi, 1962, 82, 619.
    [205] R. Tschesche and W. Werner, Tetrahedron, 1967, 23, 1873.
    [206] T. Kamikado, C. F. Chang, S. Murakoshi, A. Sakurai and S. Tamura, Agric. Biol. Chem., 1976, 40, 605;Chem. Abstr., 1976, 84, 180446r.
    [207] A. L. Chen and K. K. Chen, J. Am. Pharm. Assoc., 1933, 22, 716;Chem. Abstr., 1933, 27, 5151.
    [208] T. Akiyama, T. Konoshita, U. Sankawa and S. Shibata, Shoyakugaku Zasshi, 1979, 33, 30.
    [209] B.Danieli, G. Lesma and G. Palmisano, Experientia, 1979, 35, 156.
    [210] Y. Ashina and K. Kashiwaki, J. Pharm. Soc. Japan, 1921, 405, 1293;Chem. Abstr., 1922, 16, 607.
    [211] J. H. Chu, Science Record, 1951, 4, 279;Chem Abstr., 1952 ,46, 1589a.
    [212] Y. Hirose, Chem. Pharm. Bull., 1963, 11, 535.
    [213] G. Kurono, Y. Nishikawa, S. Miyano and S. Aburano, Chem. Pharm. Bull., 1967, 20, 126.
    [214] Y. Hirose, K. Kondo, H. Arita and A. Fujita, Shoyakugaku Zasshi, 1967, 21, 126.
    [215] D. L. Dreyer, J. Org. Chem., 1967, 32, 3442.
    [216] T. Sugimoto, T. Miyase, M. Kuroyanagi and A. Uene, Chem. Pharm. Bull., 1988, 36, 4453.
    [217] J. Grimshaw and E. Lamer-Zarawaka, Phytochemistry, 1975, 14, 838;Chem.Abstr., 1975, 83, 75388e.
    [218] K. Tayama and S. Ikemoto, Igaku to Seibutsugaku, 1981, 103, 553;Chem.Abstr., 1982, 96, 214341.
    [219] 莊武璋,吳茱萸藥材及製劑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,1993.
    [220] W. C. Chwang and S. J. Sheu, Chin. Pharm. J., 1994, 46, 89.
    [221] Q. Zhou, Z. Song and S. Zhou, Zhongguo Yaoke Daxue Xuebao, 1996, 27, 537.
    [222] T. Y. Wang and W. Yang ,Fenxi Ceshi Xuebao, 1996, 15, 60.
    [223] M. C. Lee, W. C. Chuang and S. J. Sheu, J. Chromatogr., A, 1996, 755, 113.
    [224] 莊武璋,中藥成分高效能液相層析研究,國立台灣師範大學化學研究所,博士論文,台北,1996.
    [225] S. S. Kang, B. H. Um, J. S. Kim and B. T. Ahn, Saengyak Hakhoech, 1997, 28, 9;Chem. Abstr., 1997, 128, 190416.
    [226] Y. Tang, X. Feng and L. Huang, J. Chin. Pharm. Sci., 1997, 6, 65.
    [227] H. Matsuda, J. X. Wu, T. Tanaka, M. Iinuma and M. Kubo, Biol. Pharm. Bull., 1997, 20, 243.
    [228] H. Matsuda, M. Yoshikawa, Y. Ido, H. Kuwazima, T. Tanaka, M. Iinuma and M. Kubo, Nat. Med., 1998, 52, 470.
    [229] H. Matsuda, M. Yoshikawa, M. Iinuma and M. Kubo, Planta Med., 1998, 64, 339.
    [230] D.Zhao, Y. Zhang and K. Bi, Yaowu Fenxi Zazhi, 1999, 19, 16;Chem. Abstr., 1999, 132, 345436.
    [231] Y. Hirose, K. Kondo, H. Arita and A. Fujita, Shoyakugaku Zasshi, 1967, 21, 126.

    無法下載圖示
    QR CODE