以半仿生提取模式研制麻杏石甘喷雾剂
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摘要
目的:以麻杏石甘汤为例,进一步探讨中药复方“半仿生提取法(简称SBE法)”研究的模式和意义。方法:以盐酸麻黄碱、氢氰酸、钙离子、甘草次酸、干浸膏为指标,用均匀设计法优选SBE法的工艺条件,并对方中4味药材的15种组合方式、澄清工艺进行筛选;依此条件对SBE法、SBAE法(半仿生提取醇沉法)、WE法(水提取法)、WAE法(水提醇沉法)4种方法提取液的成分、药效、兔血清指纹图谱进行比较。在此基础上,制备麻杏石甘喷雾剂,并对其质量标准、HPLC指纹图谱、稳定性进行考察。结果:麻杏石甘方药SBE法的工艺条件为:3煎用水pH依次为2.0、6.5、9.0,煎煮时间依次为2h、1.5h、0.5h;方药较佳组合方式为麻黄与石膏、甘草与苦杏仁分别煎提再合并;60%醇沉为制剂的较佳澄清工艺;4种方法提取液中指标成分综合评价值Y值顺序为:Y_(SBE液)>Y_(WE液)>Y_(SBAE液)>Y_(WAE液);4种方法提取液均能明显延长氨水刺激引起的小鼠咳嗽潜伏期,减少小鼠的咳嗽次数,提高小鼠单核巨噬细胞对碳粒的吞噬功能,对哮喘模型大鼠有增加体重、延长咳喘潜伏期、恢复机体的白细胞数目及正常分布、降低血中及肺组织中内皮素含量、改善支气管肺部病理形态学结构等作用,但对小鼠免疫器官的重量无明显影响,4种方法提取液药效强度无明显差异;兔血清HPLC、HPCE指纹图谱均显示,SBE液在体内的吸收代谢速度整体快于WE液。制备麻杏石甘喷雾剂,初步规定该制剂的质控方法和标准,其指标成分的含量范围分别为:盐酸麻黄碱不得少于1.2mg·mL~(-1),氢氰酸含量范围为0.7mg·mL~(-1)~1.1mg·mL~(-1),钙离子不得少于34mg·mL~(-1),甘草次酸不得少于0.66mg·mL~(-1),干浸膏得率不得少于0.24%。初步确定13个峰为制剂HPLC指纹图谱的特征峰,选择其中1峰为参比峰,各特征峰相对保留时间(相对峰面积)依次为:0.31(0.50),0.35(0.21),0.44(0.42),0.53(0.91),0.58(0.95),0.86(0.21),0.90(0.42),0.96(0.36),1.07(0.21),1.22(0.56),1.50(0.38),1.58(0.10)。对其稳定性考察结果显示,该制剂有效期为1年。结论:SBE法能够遵循中医药整体理论指导,体现中药复方多靶点、多环节、多途径的作用特点,是较常规WE法更优的提取新方法,可为中药新药研究中的药效物质提取提供新的研究思路和方法,具有较高的科学性和实用性。
Objective: To approach the basic mode and the meaning of the compound prescriptions of the traditional Chinese medicine (TCM) extracted by "the semi-bionic extraction method (SBE method)" with Maxing Shigan Tang as the illustration.
Method: With hydrochloric ephedrine> glycyrrhetinic acid^ hydrocyanic acid> calcium-ion and dried extract as the indexes, the uniform-design was used to optimize the prescription's extract conditions for the SBE method. The optimal combination for the four medical herbs and the optimal clarify conditions for the prescription were selected. According to the former conditions, the 4 kinds of extract methods, including SBE (semi-bionic extraction) method, SBAE (semi-bionic extraction and alcohol precipitate) method, WE (water extraction) method and WAE (water extraction and alcohol precipitate) method, were compared in the contents of the index ingredients, in the pharmacologic activity and in the fingerprinting of the rabbit's blood serum. Based on the former study, the Maxing Shigan aerosol was prepared and the quality control standards, the HPLC fingerprinting, and the stability of the preparation were studied.
Results: The conditions of the SBE method are that the pH values of the water for the 1st, 2nd and 3rd decoctions are 2.00, 6.50 and 9.00; and the times of the 3 decoctions are 2.0h, l.Oh and 0.5h. The optimal combination of the prescription is Ephedra and Gypsum, Liquorice and Bitter Apricot Seed decocted respectively and the decoctions combined finally. The optimal clarify condition is 60% alcohol sediment. The order of the total index Y value of the five ingredients is YSBE>YWE >YSBAE>YWAE.
The 4 kinds extractions can prolong the cough incubation period of the mouse
stimulated by aqua ammonia, decrease the cough times and improve the mononuclear-macrophage's phagocytic function of the mouse obviously. The 4 kinds of extractions can also enhance the weight, prolong the cough incubation period, restore the leukocytes' count and classification, reduce the ET-1 content in the blood and the lung tissue, and improve the bronchi's and the lung's pathological structure of the asthma cat, but have no effect on the weight of the mouse's immune organs. With statistics procession there have no significant difference among the 4 kinds of extractions. The HPLC fingerprinting and the HPCE fingerprinting of the rabbit blood serum show that the SBE decoction's metabolic rate is more rapid than the WE decoction in vivo.
Maxing Shigan aerosol was prepared. The quality control standards were formulated and the content range of the index ingredients are: hydrochloric ephedrine above 1.2 mg ?ml/1, hydrocyanic acid form 0.7mg ?ml/1 to l.lmg ?ml/1, calcium-ion above 34 mg ?ml/1, Glycyrrhetinic acid above 0.66mg ?ml/1 and dried extract above 0.24%. 13 peaks are established as the characteristic absorption peaks of the preparation's HPLC fingerprinting, the relative retention time (the relative peak area) of the characteristic peaks in order are 0.31(0.50), 0.35(0.21), 0.44(0.42), 0.53(0.91), 0.58(0.95), 0.86(0.21), 0.90(0.42), 0.96(0.36), 1.07(0.21), 1.22(0.56), 1.50(0.38), 1.58(0.10). The study of the preparation's stability shows that the expiration date of the aerosol is 1 year.
Conclusion: SBE method can persist the holism theory of TCM and embody the multi-target, multi-link and multi-channel features of the traditional Chinese medicine's action. It is a new extract method superior to the conventional WE method. SBE method provides new thinking and new method for the study of the prescriptions of the TCM and has high scientific meaning and high practicability.
Objective: To approach the basic mode and the meaning of the compound prescriptions of the traditional Chinese medicine (TCM) extracted by "the semi-bionic extraction method (SBE method)" with Maxing Shigan Tang as the illustration.
Method: With hydrochloric ephedrine> glycyrrhetinic acid^ hydrocyanic acid> calcium-ion and dried extract as the indexes, the uniform-design was used to optimize the prescription's extract conditions for the SBE method. The optimal combination for the four medical herbs and the optimal clarify conditions for the prescription were selected. According to the former conditions, the 4 kinds of extract methods, including SBE (semi-bionic extraction) method, SBAE (semi-bionic extraction and alcohol precipitate) method, WE (water extraction) method and WAE (water extraction and alcohol precipitate) method, were compared in the contents of the index ingredients, in the pharmacologic activity and in the fingerprinting of the rabbit's blood serum. Based on the former study, the Maxing Shigan aerosol was prepared and the quality control standards, the HPLC fingerprinting, and the stability of the preparation were studied.
Results: The conditions of the SBE method are that the pH values of the water for the 1st, 2nd and 3rd decoctions are 2.00, 6.50 and 9.00; and the times of the 3 decoctions are 2.0h, l.Oh and 0.5h. The optimal combination of the prescription is Ephedra and Gypsum, Liquorice and Bitter Apricot Seed decocted respectively and the decoctions combined finally. The optimal clarify condition is 60% alcohol sediment. The order of the total index Y value of the five ingredients is YSBE>YWE >YSBAE>YWAE.
The 4 kinds extractions can prolong the cough incubation period of the mouse
stimulated by aqua ammonia, decrease the cough times and improve the mononuclear-macrophage's phagocytic function of the mouse obviously. The 4 kinds of extractions can also enhance the weight, prolong the cough incubation period, restore the leukocytes' count and classification, reduce the ET-1 content in the blood and the lung tissue, and improve the bronchi's and the lung's pathological structure of the asthma cat, but have no effect on the weight of the mouse's immune organs. With statistics procession there have no significant difference among the 4 kinds of extractions. The HPLC fingerprinting and the HPCE fingerprinting of the rabbit blood serum show that the SBE decoction's metabolic rate is more rapid than the WE decoction in vivo.
Maxing Shigan aerosol was prepared. The quality control standards were formulated and the content range of the index ingredients are: hydrochloric ephedrine above 1.2 mg ?ml/1, hydrocyanic acid form 0.7mg ?ml/1 to l.lmg ?ml/1, calcium-ion above 34 mg ?ml/1, Glycyrrhetinic acid above 0.66mg ?ml/1 and dried extract above 0.24%. 13 peaks are established as the characteristic absorption peaks of the preparation's HPLC fingerprinting, the relative retention time (the relative peak area) of the characteristic peaks in order are 0.31(0.50), 0.35(0.21), 0.44(0.42), 0.53(0.91), 0.58(0.95), 0.86(0.21), 0.90(0.42), 0.96(0.36), 1.07(0.21), 1.22(0.56), 1.50(0.38), 1.58(0.10). The study of the preparation's stability shows that the expiration date of the aerosol is 1 year.
Conclusion: SBE method can persist the holism theory of TCM and embody the multi-target, multi-link and multi-channel features of the traditional Chinese medicine's action. It is a new extract method superior to the conventional WE method. SBE method provides new thinking and new method for the study of the prescriptions of the TCM and has high scientific meaning and high practicability.
引文
[1] 谢培山.中药制剂色谱指纹图谱(图像)鉴别.中成药,2000;22(6):391~394.
[2] 张兆旺,孙秀梅.试论“半仿生提取法”制备中药口服制剂.中国中药杂志,1995;20(11):670~673.
[3] 张瑞亭,张兆旺,孙秀梅.思维方式的转换与中药“半仿生提取法”.中国中药杂志,1997;22(9):542~544.
[4] 张兆旺,孙秀梅.中药方剂药效物质提取新技术-对“半仿生提取模式”的探讨.世界科学技术-中药现代化,2000;2(4):53~56.
[5] 张兆旺,孙秀梅,半仿生提取法是中药药剂现代化的科学途径.中国中医药报,2000;4.
[6] 张兆旺,孙秀梅.“半仿生提取法”的特点与应用.世界科学技术—中药现代化,2000;2(1):35~38.
[7] 孙秀梅,张兆旺,郭婕,等.芍甘止痛颗粒剂4种提取方法的比较.中成药,1996;18(11):3~4.
[8] 孙秀梅,张兆旺,丁菊英,等.寒痛定泡腾冲剂4种提取方法的比较。中国中药杂志,1996;21(3):159~161.
[9] Sun Xiumei, Zhang Zhaowang and Ding Juying et al. Extraction technology of effervescent granules for arresting cold pain optimized by orthogonal tests. BA on CD 7/96-9/96.
[10] 孙秀梅,张兆旺,张学兰,等.四神茶剂4种提取方法的比较.中国中药杂志,1997;22(6):349~351.
[11] 张学兰,张兆旺,孙秀梅,等.四神茶剂4种提取方法的药效学比较.中国中药杂志,1997;22(增刊):201~203.
[12] Sun Xiumei, Zhang Zhaowang and Zhang Xuelan et al. Comparison of four extraction methods for chemical constituents in medicinal tea Sishen Chaji. Biological abstracts, Vol. 104, 1997.
[13] 张兆旺,孙秀梅,王蕾,等.麻杏石甘汤2种提取方法的成分比较.中国中药杂志,1997;22(7):413~415.
[14] Zhang Zhaowang, Sun Xiumei and Wang Lei et al. Comparison of two extraction methods for Maxing Shigan decoction. Biological abstracts, Vol. 104, 1997.
[15] 张兆旺,王英姿.当归苦参丸2种方法提取液的成分比较.中国中药杂志,1999;24(12):734~736.
[16] Zhang Zhaowang, Wang Yingzi. Comparison of chemical components between 2 processing technology of Danggui Kushen pills. Chemical Abstracts, Vol.133, No.5, 2000.
[17] 孙秀梅,张兆旺,修彦凤.参附汤2种方法提取液的成分比较.中成药(电子版),1999.
[18] 吕青涛,张兆旺,孙秀梅,等.乙肝颗粒剂4种方法提取液的成分比较.中成药,2000;22(11):752~754.
[19] 孙秀梅,张兆旺,卢连华,等.黄连解毒颗粒剂4种提取方法的成分比较.中国中药杂志,1996;21(8):474~476.
[20] Sun Xiumei, Zhang Zhaowang and Lu Lianhua et al. Comparison of four extraction methods for antidotal granules of coptis. Biological Abstracts, Vol.102, 1996.
[21] 张学兰,张兆旺,徐霞,等.黄柏SBE法与WE法的成分比较.中国中药杂志,1999;24(10):600~602.
[22] Zhang Xuelan, Zhang Zhaowang and Xu Xia et al. Comparison of chemical constituents extracted by SBE and WE from processed cortex phellodendri. Chemical Abstracts, Vol.132, No.3, 2000.
[23] 孙秀梅,黄树明,王英姿.甘草SBE法与WE法的成分比较.中国中药杂志,1999;24(9):542~544.
[24] Sun Xiumei, Huang Shuming and Wang Yingzi et al. Comparison of constituents extracted by SBE and WE from prepared licorice. Chemical Abstracts, Vol.132, No. 19, 2000.
[25] 战旗,张兆旺,孙秀梅,等.麻黄2种方法提取液的成分含量比较.山东中医杂志,1999;18(7):322~323.
[26] 张兆旺,孙秀梅,尉小慧,等.川乌2种方法提取液的成分比较.中成药,1999;21(1):5~7.
[27] 刘国强.麻杏甘石汤不应归为“辛凉解表剂”.中医药研究,1990;(1):26,47.
[28] 牛兴旺.浅谈麻杏石甘汤的主药及分类.陕西中医,1989;(3):134~135.
[29] 周世熊.有关麻杏石甘汤在方剂学中的分类.山东中医学院学报,1988,(1):70.
[30] 杨瑾,温凯军.麻杏甘石汤刍议.陕西中医,1997;18(4):186.
[31] 贾波,赖玉琴,胡鹏.对麻杏石甘汤功效、主治的再认识.国医论坛,2000;15(1):7.
[32] EiRichi Hosoya(日).麻杏石甘汤之结构分析.中医药研究,1989;(1):32~33.
[33] 王胜春,王汝娟,胡永武.麻杏石甘汤的清热解毒作用.中成药,1996;18(12):32~33.
[34] 张仲海,王胜春,王汝娟,等.麻杏石甘汤不同方法提取液对家兔发热模型及抗病毒作用的影响.第四军医大学学报,1997;18(6):522~524.
[35] 丁汀,陈品菊.“宁喘微型灌肠液”的平喘实验研究.浙江中医学院学报,2000;24 (2):52~53.
[36] 叶宗仁,高尚德,叶丰次,等.麻杏石甘汤拆方对过敏性气喘的研究.新中医,1998;30(4):40~41.
[37] 叶宗仁,高尚德,叶丰次,等.麻杏石甘汤及其减石膏、甘草对过敏原激发气喘天竺鼠呼吸道阻力与炎细胞的影响.安徽中医学院学报,1998;17(1):51~55.
[38] 徐小平,杨鸿.复方麻杏石甘汤的动物实验研究.陕西中医学院学报,1999;22(5):37~38.
[39] 李健春,吕乃群,隋文作,等.麻杏石甘汤对第Ⅰ型变态反应影响的实验研究.辽宁中医杂志,1983;(8):43~45.
[40] 陈永辉,琚玮.麻杏石甘煮散的解热抗炎实验研究.中医研究,1995:8(5):20~21.
[41] 向希雄,吴贺算.麻杏石甘汤免疫药理实验研究.湖北中医杂志,1993;15(3):48~49.
[42] 李明华.支气管哮喘的现代免疫学和中药免疫药理学研究进展.中国山西医结合杂志,1997;17(4):199~200.
[43] 马振亚,居民建.麻杏石甘汤对甲型流感病毒等病原微生物的影响.陕西中医学
院学报,1988:11(4):40~42.
[44] 二阶堂保.顾进华(译).抑制3′,5′-环磷酸腺苷磷酸二脂酶活性的麻杏石甘汤的研究.国外医学·中医中药分册,1993;(2):48.
[45] 伊藤忠倍.现代东洋医学,1983;4(3):56.
[46] 孙静芸,谢年庚,陈萍,等.麻杏石甘汤、散剂实验研究的方法学探讨,中成药,1994;16(8):8~11.
[47] 杨岭,陈晓丽.麻杏石甘合剂的制备及临床应用.河南中医药学刊,1998;13(6):15~16.
[48] 马涵涛.麻杏止咳口服液生产工艺研究.时珍国医国药,2000;11(1):25.
[49] 何群,邓清平.麻杏石甘滴丸成型工艺的研究.中草药,1996;27(3):150~152.
[50] 何群,蒋孟良,刘学琼,等.麻杏石甘栓体外溶出度实验研究.中药材,1998;21(6):314~316.
[51] 胡志方,朱卫丰,喻伟华.清肺止咳平喘微丸的初步研究.中成药,1995;17(9):1~2.
[52] 宋雪.麻杏石甘软胶囊治疗风温犯肺证临床验证.天津中医学院学报,1997;16(2):18~19.
[53] 何群,曾嵘,王丽,等.麻杏石甘滴丸与栓剂体外溶出度比较.中成药,2000;22(12):833~835.
[54] 何群,罗杰英,邓清平.麻杏石甘滴丸提取工艺的比较研究.中草药,1995;26(9):463~464.
[55] 谢虞升,李汉保,宋炳生.天然澄清剂与乙醇沉淀对中药口服液中钙含量影响比较.中草药,1998;29(7):459.
[56] 田荣祥,田宏.麻杏石甘汤加味治疗肺系四病临床观察.时珍国药研究,1997;8 (2):111.
[57] 郭东球.麻杏石甘汤加减治疗麻疹并发肺炎临床体会.湖南中医药导报,1996;2(3):37.
[58] 叶景华.辨证治疗大叶性肺炎32例的临床观察.浙江中医杂志,1980;15(3):133.
[59] 肖甫媛.中医治疗大叶性肺炎64例疗效分析.江西中医药,1988;(2):20~21.
[60] 孙华英,丁静.加减麻杏石甘汤对“老慢支”的临床应用.时珍国药研究,1996;7(3):142~143.
[61] 曹银珠.麻杏石甘汤加减治疗慢性支气管炎急性发作46例.南京中医药大学学报,1996;12(1):59~60.
[62] 蒋瑞峰.麻杏石甘汤加减治疗急性气管炎.广州医药,1985;(6):35~36.
[63] 黄俊山.汉方药治疗支气管哮喘及其基础研究.国外医学·中医中药分册,1997;19(5):3~6.
[64] 周耀群,于俊洋.麻杏石甘汤治疗内源性哮喘47例临床体会.实用中医内科杂志,1989;3(4):23~24.
[65] 金礼忠,唐静.肺心病合并多系统多器官衰竭及中西医结合治疗53例临床分析.贵阳中医学院学报,1997;19(1):14~15.
[66] 邢瑞林.肺心病辨治探析.江苏中医,1997:18(9):10~11.
[67] 洪文.麻杏石甘汤加味治疗炎性外痔68例.山西中医,1997;13(3):49.
[68] 洪文.麻杏石甘汤治疗痔瘘举偶.湖北中医杂志,1996;18(6):48.
[69] 李新.乳痈.新中医,1992;24(7):22.
[70] 汤太义.麻杏石甘汤合葛根芩连汤加减治愈肠套叠术后并发肺炎、中度脱水酸中毒1例.江西中医药,1986;(2):40.
[71] 韩晓雪.麻杏石甘汤加味治疗神经性皮炎2例.北京中医,1997;16(3):58.
[72] 郑锟.麻杏石甘汤加味治疗顽固性荨麻疹14例.湖北中医杂志,1996;18(5):25.
[73] 张一军,姜跃武.麻杏石甘汤治疗荨麻疹的实验研究.吉林中医药,1984;(6):21.
[74] 马玉起.麻杏石甘汤加味治疗急性鼻窦炎112例.国医论坛,1994;9(6):14.
[75] 邹世光.麻杏石甘汤加味治疗酒齄鼻39例.浙江中医杂志,1993;(7):323.
[76] 汤于嘉.麻杏石甘汤加味治疗口疳52例临床观察.甘肃中医,1993;(1):26~27.
[77] 方开泰.均匀设计-数论方法在试验设计中的应用.应用数学学报,1980;3(4):363~365.
[78] 程怡,冯青,王辉人,等.薄层扫描法测定麻黄汤冲剂中麻黄碱含量的研究.中成药,1990;12(6):15~16.
[79] 黄萍.薄层扫描法测定脑乐静口服液中甘草酸水解产物甘草次酸的含量.中国中药杂志,1998;23(5):289~290.
[80] 汪致敬,郭建明,殷昊.麻杏甘石合剂内在质量指标的探索.重庆医药,1984;3(3):41~43.
[81] 国家药典委员会.《中国药典》(2000年版)一部.北京:化学工业出版社,2000:71.
[82] 毕云生.以麻杏石甘汤为例探讨“半仿生提取法”的研究模式.山东中医药大学 2002届硕士研究生毕业论文.
[83] 梁宏,李文英,陈燕.高效液相色谱法测定清宣颗粒剂中麻黄碱的含量.药物分析杂志,1999;19(4):276~278.
[84] 张国刚,徐绥绪,金凤环.高效液相色谱法测定气滞胃痛冲剂中甘草次酸的含量.沈阳药科大学学报,1999;16(1):65~67.
[85] 罗兴洪,周进东,吴静,等.壳聚糖用于咳喘宁口服液澄清工艺的研究。中成药,2002;24(5):337~339.
[86] 陈章荣,徐开俊,吴洪元,等.壳聚糖对黄芩煎煮液的絮凝作用.中国药科大学学报,1999;30(3):227~230.
[87] 彭智聪,张少文,刘德炎,等.壳聚糖用于清热解毒口服液澄清工艺的探讨.中成药,2000;22(4):299~300.
[88] 常津,任晓文,胡宗定.甲壳胺对双黄连提取液的精制研究.中草药,1997;28(5):63~65.
[89] 章元沛.药理学实验,北京:人民卫生出版社,1985,第1版:83~84.
[90] 陈奇.中药药理学,贵州:贵州人民出版社,1988,第1版:69~71.
[91] 陈奇.中药药理学,贵州:贵州人民出版社,1988,第1版:64.
[92] 赵孟辉,张丽芬,张伟萍,等.大鼠哮喘模型中气道炎症的定量研究.浙江医科大学学报,1997;26(3):100.
[93] Hotoson PA, Church MK, Clay TP, et al. Early and late-phase bronchocon-striction after challenge of nonanesthetized guinea pigs. Am Rew Respir Dis, 1988, 137:548.
[94] 王琳.小青龙汤治疗支气管哮喘作用机制的实验研究.河南中医学院 2000届硕士研究生学位论文:13~14.
[95] 刘朝晖,徐军,钟南山.内皮素肿瘤坏死因子在哮喘发病中的作用.中华结核和呼吸杂志,1995;18(6):366~368.
[96] 徐军,任筱兰,钟南山.粒细胞-巨噬细胞集落刺激因子对人体气道平滑肌内皮素-1及内皮素转换酶基因表达的影响及茶碱对其的作用.中华结核和呼吸杂志,1997;20(5):276~279.
[97] 赵卫国.内皮素与哮喘.国外医学·呼吸系统分册,1994;14(4):196.
[98] 方杏春,相秉仁,安登魁.裂解-高分辨气相色谱—模式识别技术在中药牡丹皮分析中的应用.药学学报,1990;25(6):462~468.
[99] 郭祖超.医用数理统计方法.北京:人民卫生出版社,1988.
[100] 王娟,张军,毛磊.氟代烷烃抛射剂在医用气雾剂中的应用.中国医药工业杂志,1995;25(5):227~230.
[2] 张兆旺,孙秀梅.试论“半仿生提取法”制备中药口服制剂.中国中药杂志,1995;20(11):670~673.
[3] 张瑞亭,张兆旺,孙秀梅.思维方式的转换与中药“半仿生提取法”.中国中药杂志,1997;22(9):542~544.
[4] 张兆旺,孙秀梅.中药方剂药效物质提取新技术-对“半仿生提取模式”的探讨.世界科学技术-中药现代化,2000;2(4):53~56.
[5] 张兆旺,孙秀梅,半仿生提取法是中药药剂现代化的科学途径.中国中医药报,2000;4.
[6] 张兆旺,孙秀梅.“半仿生提取法”的特点与应用.世界科学技术—中药现代化,2000;2(1):35~38.
[7] 孙秀梅,张兆旺,郭婕,等.芍甘止痛颗粒剂4种提取方法的比较.中成药,1996;18(11):3~4.
[8] 孙秀梅,张兆旺,丁菊英,等.寒痛定泡腾冲剂4种提取方法的比较。中国中药杂志,1996;21(3):159~161.
[9] Sun Xiumei, Zhang Zhaowang and Ding Juying et al. Extraction technology of effervescent granules for arresting cold pain optimized by orthogonal tests. BA on CD 7/96-9/96.
[10] 孙秀梅,张兆旺,张学兰,等.四神茶剂4种提取方法的比较.中国中药杂志,1997;22(6):349~351.
[11] 张学兰,张兆旺,孙秀梅,等.四神茶剂4种提取方法的药效学比较.中国中药杂志,1997;22(增刊):201~203.
[12] Sun Xiumei, Zhang Zhaowang and Zhang Xuelan et al. Comparison of four extraction methods for chemical constituents in medicinal tea Sishen Chaji. Biological abstracts, Vol. 104, 1997.
[13] 张兆旺,孙秀梅,王蕾,等.麻杏石甘汤2种提取方法的成分比较.中国中药杂志,1997;22(7):413~415.
[14] Zhang Zhaowang, Sun Xiumei and Wang Lei et al. Comparison of two extraction methods for Maxing Shigan decoction. Biological abstracts, Vol. 104, 1997.
[15] 张兆旺,王英姿.当归苦参丸2种方法提取液的成分比较.中国中药杂志,1999;24(12):734~736.
[16] Zhang Zhaowang, Wang Yingzi. Comparison of chemical components between 2 processing technology of Danggui Kushen pills. Chemical Abstracts, Vol.133, No.5, 2000.
[17] 孙秀梅,张兆旺,修彦凤.参附汤2种方法提取液的成分比较.中成药(电子版),1999.
[18] 吕青涛,张兆旺,孙秀梅,等.乙肝颗粒剂4种方法提取液的成分比较.中成药,2000;22(11):752~754.
[19] 孙秀梅,张兆旺,卢连华,等.黄连解毒颗粒剂4种提取方法的成分比较.中国中药杂志,1996;21(8):474~476.
[20] Sun Xiumei, Zhang Zhaowang and Lu Lianhua et al. Comparison of four extraction methods for antidotal granules of coptis. Biological Abstracts, Vol.102, 1996.
[21] 张学兰,张兆旺,徐霞,等.黄柏SBE法与WE法的成分比较.中国中药杂志,1999;24(10):600~602.
[22] Zhang Xuelan, Zhang Zhaowang and Xu Xia et al. Comparison of chemical constituents extracted by SBE and WE from processed cortex phellodendri. Chemical Abstracts, Vol.132, No.3, 2000.
[23] 孙秀梅,黄树明,王英姿.甘草SBE法与WE法的成分比较.中国中药杂志,1999;24(9):542~544.
[24] Sun Xiumei, Huang Shuming and Wang Yingzi et al. Comparison of constituents extracted by SBE and WE from prepared licorice. Chemical Abstracts, Vol.132, No. 19, 2000.
[25] 战旗,张兆旺,孙秀梅,等.麻黄2种方法提取液的成分含量比较.山东中医杂志,1999;18(7):322~323.
[26] 张兆旺,孙秀梅,尉小慧,等.川乌2种方法提取液的成分比较.中成药,1999;21(1):5~7.
[27] 刘国强.麻杏甘石汤不应归为“辛凉解表剂”.中医药研究,1990;(1):26,47.
[28] 牛兴旺.浅谈麻杏石甘汤的主药及分类.陕西中医,1989;(3):134~135.
[29] 周世熊.有关麻杏石甘汤在方剂学中的分类.山东中医学院学报,1988,(1):70.
[30] 杨瑾,温凯军.麻杏甘石汤刍议.陕西中医,1997;18(4):186.
[31] 贾波,赖玉琴,胡鹏.对麻杏石甘汤功效、主治的再认识.国医论坛,2000;15(1):7.
[32] EiRichi Hosoya(日).麻杏石甘汤之结构分析.中医药研究,1989;(1):32~33.
[33] 王胜春,王汝娟,胡永武.麻杏石甘汤的清热解毒作用.中成药,1996;18(12):32~33.
[34] 张仲海,王胜春,王汝娟,等.麻杏石甘汤不同方法提取液对家兔发热模型及抗病毒作用的影响.第四军医大学学报,1997;18(6):522~524.
[35] 丁汀,陈品菊.“宁喘微型灌肠液”的平喘实验研究.浙江中医学院学报,2000;24 (2):52~53.
[36] 叶宗仁,高尚德,叶丰次,等.麻杏石甘汤拆方对过敏性气喘的研究.新中医,1998;30(4):40~41.
[37] 叶宗仁,高尚德,叶丰次,等.麻杏石甘汤及其减石膏、甘草对过敏原激发气喘天竺鼠呼吸道阻力与炎细胞的影响.安徽中医学院学报,1998;17(1):51~55.
[38] 徐小平,杨鸿.复方麻杏石甘汤的动物实验研究.陕西中医学院学报,1999;22(5):37~38.
[39] 李健春,吕乃群,隋文作,等.麻杏石甘汤对第Ⅰ型变态反应影响的实验研究.辽宁中医杂志,1983;(8):43~45.
[40] 陈永辉,琚玮.麻杏石甘煮散的解热抗炎实验研究.中医研究,1995:8(5):20~21.
[41] 向希雄,吴贺算.麻杏石甘汤免疫药理实验研究.湖北中医杂志,1993;15(3):48~49.
[42] 李明华.支气管哮喘的现代免疫学和中药免疫药理学研究进展.中国山西医结合杂志,1997;17(4):199~200.
[43] 马振亚,居民建.麻杏石甘汤对甲型流感病毒等病原微生物的影响.陕西中医学
院学报,1988:11(4):40~42.
[44] 二阶堂保.顾进华(译).抑制3′,5′-环磷酸腺苷磷酸二脂酶活性的麻杏石甘汤的研究.国外医学·中医中药分册,1993;(2):48.
[45] 伊藤忠倍.现代东洋医学,1983;4(3):56.
[46] 孙静芸,谢年庚,陈萍,等.麻杏石甘汤、散剂实验研究的方法学探讨,中成药,1994;16(8):8~11.
[47] 杨岭,陈晓丽.麻杏石甘合剂的制备及临床应用.河南中医药学刊,1998;13(6):15~16.
[48] 马涵涛.麻杏止咳口服液生产工艺研究.时珍国医国药,2000;11(1):25.
[49] 何群,邓清平.麻杏石甘滴丸成型工艺的研究.中草药,1996;27(3):150~152.
[50] 何群,蒋孟良,刘学琼,等.麻杏石甘栓体外溶出度实验研究.中药材,1998;21(6):314~316.
[51] 胡志方,朱卫丰,喻伟华.清肺止咳平喘微丸的初步研究.中成药,1995;17(9):1~2.
[52] 宋雪.麻杏石甘软胶囊治疗风温犯肺证临床验证.天津中医学院学报,1997;16(2):18~19.
[53] 何群,曾嵘,王丽,等.麻杏石甘滴丸与栓剂体外溶出度比较.中成药,2000;22(12):833~835.
[54] 何群,罗杰英,邓清平.麻杏石甘滴丸提取工艺的比较研究.中草药,1995;26(9):463~464.
[55] 谢虞升,李汉保,宋炳生.天然澄清剂与乙醇沉淀对中药口服液中钙含量影响比较.中草药,1998;29(7):459.
[56] 田荣祥,田宏.麻杏石甘汤加味治疗肺系四病临床观察.时珍国药研究,1997;8 (2):111.
[57] 郭东球.麻杏石甘汤加减治疗麻疹并发肺炎临床体会.湖南中医药导报,1996;2(3):37.
[58] 叶景华.辨证治疗大叶性肺炎32例的临床观察.浙江中医杂志,1980;15(3):133.
[59] 肖甫媛.中医治疗大叶性肺炎64例疗效分析.江西中医药,1988;(2):20~21.
[60] 孙华英,丁静.加减麻杏石甘汤对“老慢支”的临床应用.时珍国药研究,1996;7(3):142~143.
[61] 曹银珠.麻杏石甘汤加减治疗慢性支气管炎急性发作46例.南京中医药大学学报,1996;12(1):59~60.
[62] 蒋瑞峰.麻杏石甘汤加减治疗急性气管炎.广州医药,1985;(6):35~36.
[63] 黄俊山.汉方药治疗支气管哮喘及其基础研究.国外医学·中医中药分册,1997;19(5):3~6.
[64] 周耀群,于俊洋.麻杏石甘汤治疗内源性哮喘47例临床体会.实用中医内科杂志,1989;3(4):23~24.
[65] 金礼忠,唐静.肺心病合并多系统多器官衰竭及中西医结合治疗53例临床分析.贵阳中医学院学报,1997;19(1):14~15.
[66] 邢瑞林.肺心病辨治探析.江苏中医,1997:18(9):10~11.
[67] 洪文.麻杏石甘汤加味治疗炎性外痔68例.山西中医,1997;13(3):49.
[68] 洪文.麻杏石甘汤治疗痔瘘举偶.湖北中医杂志,1996;18(6):48.
[69] 李新.乳痈.新中医,1992;24(7):22.
[70] 汤太义.麻杏石甘汤合葛根芩连汤加减治愈肠套叠术后并发肺炎、中度脱水酸中毒1例.江西中医药,1986;(2):40.
[71] 韩晓雪.麻杏石甘汤加味治疗神经性皮炎2例.北京中医,1997;16(3):58.
[72] 郑锟.麻杏石甘汤加味治疗顽固性荨麻疹14例.湖北中医杂志,1996;18(5):25.
[73] 张一军,姜跃武.麻杏石甘汤治疗荨麻疹的实验研究.吉林中医药,1984;(6):21.
[74] 马玉起.麻杏石甘汤加味治疗急性鼻窦炎112例.国医论坛,1994;9(6):14.
[75] 邹世光.麻杏石甘汤加味治疗酒齄鼻39例.浙江中医杂志,1993;(7):323.
[76] 汤于嘉.麻杏石甘汤加味治疗口疳52例临床观察.甘肃中医,1993;(1):26~27.
[77] 方开泰.均匀设计-数论方法在试验设计中的应用.应用数学学报,1980;3(4):363~365.
[78] 程怡,冯青,王辉人,等.薄层扫描法测定麻黄汤冲剂中麻黄碱含量的研究.中成药,1990;12(6):15~16.
[79] 黄萍.薄层扫描法测定脑乐静口服液中甘草酸水解产物甘草次酸的含量.中国中药杂志,1998;23(5):289~290.
[80] 汪致敬,郭建明,殷昊.麻杏甘石合剂内在质量指标的探索.重庆医药,1984;3(3):41~43.
[81] 国家药典委员会.《中国药典》(2000年版)一部.北京:化学工业出版社,2000:71.
[82] 毕云生.以麻杏石甘汤为例探讨“半仿生提取法”的研究模式.山东中医药大学 2002届硕士研究生毕业论文.
[83] 梁宏,李文英,陈燕.高效液相色谱法测定清宣颗粒剂中麻黄碱的含量.药物分析杂志,1999;19(4):276~278.
[84] 张国刚,徐绥绪,金凤环.高效液相色谱法测定气滞胃痛冲剂中甘草次酸的含量.沈阳药科大学学报,1999;16(1):65~67.
[85] 罗兴洪,周进东,吴静,等.壳聚糖用于咳喘宁口服液澄清工艺的研究。中成药,2002;24(5):337~339.
[86] 陈章荣,徐开俊,吴洪元,等.壳聚糖对黄芩煎煮液的絮凝作用.中国药科大学学报,1999;30(3):227~230.
[87] 彭智聪,张少文,刘德炎,等.壳聚糖用于清热解毒口服液澄清工艺的探讨.中成药,2000;22(4):299~300.
[88] 常津,任晓文,胡宗定.甲壳胺对双黄连提取液的精制研究.中草药,1997;28(5):63~65.
[89] 章元沛.药理学实验,北京:人民卫生出版社,1985,第1版:83~84.
[90] 陈奇.中药药理学,贵州:贵州人民出版社,1988,第1版:69~71.
[91] 陈奇.中药药理学,贵州:贵州人民出版社,1988,第1版:64.
[92] 赵孟辉,张丽芬,张伟萍,等.大鼠哮喘模型中气道炎症的定量研究.浙江医科大学学报,1997;26(3):100.
[93] Hotoson PA, Church MK, Clay TP, et al. Early and late-phase bronchocon-striction after challenge of nonanesthetized guinea pigs. Am Rew Respir Dis, 1988, 137:548.
[94] 王琳.小青龙汤治疗支气管哮喘作用机制的实验研究.河南中医学院 2000届硕士研究生学位论文:13~14.
[95] 刘朝晖,徐军,钟南山.内皮素肿瘤坏死因子在哮喘发病中的作用.中华结核和呼吸杂志,1995;18(6):366~368.
[96] 徐军,任筱兰,钟南山.粒细胞-巨噬细胞集落刺激因子对人体气道平滑肌内皮素-1及内皮素转换酶基因表达的影响及茶碱对其的作用.中华结核和呼吸杂志,1997;20(5):276~279.
[97] 赵卫国.内皮素与哮喘.国外医学·呼吸系统分册,1994;14(4):196.
[98] 方杏春,相秉仁,安登魁.裂解-高分辨气相色谱—模式识别技术在中药牡丹皮分析中的应用.药学学报,1990;25(6):462~468.
[99] 郭祖超.医用数理统计方法.北京:人民卫生出版社,1988.
[100] 王娟,张军,毛磊.氟代烷烃抛射剂在医用气雾剂中的应用.中国医药工业杂志,1995;25(5):227~230.