几种中药与复方中胆汁酸的药代动力学研究
|
摘要
目的以胆汁酸单体、人工牛黄和天然牛黄两种药材及安宫牛黄丸与清开灵注射液两个中成药中的多种胆汁酸作为主要研究对象,建立灵敏、专一、简便快速并能同时检测生物样品中多种胆汁酸的高效液相色谱-质谱法(HPLC-MS法),比较五种受试药中胆汁酸的药代动力学过程,从药代动力学角度分析其药效差异的原因,为进一步优化人工牛黄和方剂配伍提供依据,也为如何研究中药和中药方剂的药代动力学探索思路。
方法小鼠血样用微量采血法(全血20μl),乙腈直接沉淀蛋白后用HPLC-MS法检测全血中各种胆汁酸的浓度;组织分布研究取心、肺、肾、脑组织,匀浆离心后取上清液直接沉淀蛋白后检测;建立大鼠原位肠灌流模型,用于分析不同因素对胆汁酸吸收的影响。
结果
1.建立了能同时检测11种胆汁酸的HPLC-MS检测方法,各成分分离度好,中药成分与内源性成分无干扰,线性范围为4-4000 ng·ml~(-1),最低检测浓度为4 ng·ml~(-1),日间和日内精密度均小于6.0%,方法可满足药代动力学研究的要求。
2.比较胆酸、异去氧胆酸、鹅去氧胆酸和去氧胆酸的药代动力学参数和在组织中的分布,鹅去氧胆酸和去氧胆酸在小鼠体内的AUC和在心脏、肺脏、肾脏、脑组织中的分布明显高于胆酸和异去氧胆酸。其排列顺序与抗肺水肿作用一致。
3.比较小鼠腹腔注射清开灵注射液和胆酸/异去氧胆酸单体时胆酸和异去氧胆酸的药代动力学参数及其在主要组织心脏、肺脏、肾脏、脑中的分布,清开灵注射液中的胆酸和异去氧胆酸的AUC、MRT均明显高于胆酸和异去氧胆酸单体(P<0.05),CL明显低于单体(P<0.05)。清开灵注射液中胆酸和异去氧胆酸的分布明显优于单体胆酸和异去氧胆酸,胆酸和异去氧胆酸在组织中的浓度:肾脏>肺脏>心脏>脑,肺脏作为靶器官有较高的分布量。
4.小鼠口服给予胆汁酸单体、人工牛黄、天然牛黄、清开灵注射液和安宫牛黄丸五种受试药后,结果显示安宫牛黄丸中的胆汁酸在小鼠体内的吸收最好,在肺、脑组织中的浓度最高,其次为清开灵注射液和天然牛黄,第三为人工牛黄,单体胆汁酸在小鼠体内的吸收和分布最差。大鼠原位肠灌流模型结果与整体动物实验结果相类似。
5.小鼠口服给予人工牛黄和人工牛黄加胆红素后,比较两组中各种胆汁酸的药代动力学,人工牛黄加胆红素组中胆汁酸的AUC明显高于人工牛黄组中,CL明显低于人工牛黄组;组织分布结果显示胆红素不能促进人工牛黄中胆汁酸在小鼠肺、脑组织中的分布。大鼠原位肠灌流模型结果也显示相似结果,人工牛黄加胆红素组中总胆汁酸的肠吸收明显优于人工牛黄组,其中甘氨胆酸、牛磺胆酸、胆酸、熊去氧胆酸、异去氧胆酸、去氧胆酸在人工牛黄加胆红素组中肠吸收明显优于人工牛黄组。
6初步探讨了中药与中药复方药代动力学研究模式。
结论1.建立检测各种胆汁酸的HPLC-MS法灵敏度高,特异性好,适用于胆汁酸的体内和体外药代动力学研究。2.胆酸的同系物鹅去氧胆酸、去氧胆酸在小鼠体内的吸收和分布优于胆酸和异去氧胆酸,说明其药理学结果的差异可能是由于其药代动力学差异引起的。3.清开灵注射液中非胆汁酸成分可促进其胆汁酸成分的吸收和分布,胆酸和异去氧胆酸在脑中浓度低说明其不易透过血脑屏障。4.在五种受试药中,单体胆汁酸口服生物利用度低,天然牛黄中的胆汁酸吸收与组织分布优于人工牛黄,而安宫牛黄丸与清开灵注射液又优于单味药材。5.胆红素能促进人工牛黄中胆汁酸的吸收,减慢其在动物体内的消除速率,但不能提高组织中的分布量。
OBJIECTIVE: Pharmacokinetics of bile acids in monomer compounds, artificial calculus bovis, natural calculus bovis, qingkailing injection and angongniuhuangwan in biological specimen were studied using a simple, rapid, sensitive and reliable HPLC-MS method. The reasons for difference of pharmacodynamics were analyzed from pharmacokinetics of bile acids in five drugs. It can supply evidence for more optimizing artificial calculus bovis and compatibility of medicines in complex prescription, and search a way to study pharmacyokinetics of traditional Chinese medicines and complex prescription. METHODS: In vivo Drug concentration analytical method and in situ perfused rat intestine model were used. The concentrations of bile acids in mice blood, tissues and perfusate were measured by LC/ESI/MS. RESULTS: 1. The standard curves of bile acids in blood, tissue and perfusate were linear in the range from 4 to 4000 ng? ml~(-1) (r>0.999), the lowest limit of quantitation were 4 ng ? ml~(-1). The intra- and inter-day precisions were less than 6.0%. 2. Absorption and distributions in heart, lung, kidney and brain of CDCA and DCA were better than CA and HDCA, and absorption and distributions of HDCA were better than CA. 3. There were significant differences (P<0.05) between qingkailing injection group and CA/HDCA group in the main pharmacokinetic parameters and distributions in heart, lung, kidney and brain. Absorption and distribution of CA and HDCA in qingkailing injection group were better than in CA/HDCA group. The concentratons of CA and HDCA in tissues were C_(lung)> C_(kidney)>C_(henrt)>C_(?) 4. There were significant differences (P<0. 05) among bile acids in monomer compounds, artificial calculus bovis, natural calculus bovis, qingkailing injection and angongniuhuangwan in absorptions and distributions after oral administration. Absorption and distribution of bile acids in angongniuhuangwan were best, qingkailing injection and natural calculus bovis take second place, artificial calculus bovis third and monomer compounds lowest. The results of in situ perfused rat intestine model were similar. 5. There were significant differences (P<0.05) between absorption of bile acids in artificial calculus bovis group and artificial calculus bovis/bilirubin group. AUC of bile acids in artificial calculus bovis/bilirubin group were better than artificial calculus bovis group. CL were lower than in artificial calculus bovis group. Bilirubin could not advance distribution of bile acids in tissues. CONCLUSION: 1. The method is simple, rapid, sensitive and reliable, and it is applicable to assay bile acids in biological samples. 2. Absorption and distribution of CDCA and DCA are better than CA and HDCA, it explains the pharmacological difference with pharmacokinetic results. 3. The parts of non-cholic acid in qingkailing injection can improve absorption and distribution of CA and HDCA. CA and HDCA permeated blood brain barrier uneasily. 4. Absorption and distribution of Monomer compound in mice is lowest, non-bile acids in angongniuhuangwan and qingkailing injection can advance absorption and distribution of bile acids. Other substances(such as bilirubin, inorganic ions, amino acid) in natural calculus bovis can advance absorption and distribution of bile acids. 5. Bilirubin can promote absorption of bile acids in artificial calculus bovis and slow elimination of bile acids. But bilirubin has no effect on distribution of bile acid in artificial calculus bovis, it shows there are other substances contributing to distribution difference between natural and artificial calculus bovis.
方法小鼠血样用微量采血法(全血20μl),乙腈直接沉淀蛋白后用HPLC-MS法检测全血中各种胆汁酸的浓度;组织分布研究取心、肺、肾、脑组织,匀浆离心后取上清液直接沉淀蛋白后检测;建立大鼠原位肠灌流模型,用于分析不同因素对胆汁酸吸收的影响。
结果
1.建立了能同时检测11种胆汁酸的HPLC-MS检测方法,各成分分离度好,中药成分与内源性成分无干扰,线性范围为4-4000 ng·ml~(-1),最低检测浓度为4 ng·ml~(-1),日间和日内精密度均小于6.0%,方法可满足药代动力学研究的要求。
2.比较胆酸、异去氧胆酸、鹅去氧胆酸和去氧胆酸的药代动力学参数和在组织中的分布,鹅去氧胆酸和去氧胆酸在小鼠体内的AUC和在心脏、肺脏、肾脏、脑组织中的分布明显高于胆酸和异去氧胆酸。其排列顺序与抗肺水肿作用一致。
3.比较小鼠腹腔注射清开灵注射液和胆酸/异去氧胆酸单体时胆酸和异去氧胆酸的药代动力学参数及其在主要组织心脏、肺脏、肾脏、脑中的分布,清开灵注射液中的胆酸和异去氧胆酸的AUC、MRT均明显高于胆酸和异去氧胆酸单体(P<0.05),CL明显低于单体(P<0.05)。清开灵注射液中胆酸和异去氧胆酸的分布明显优于单体胆酸和异去氧胆酸,胆酸和异去氧胆酸在组织中的浓度:肾脏>肺脏>心脏>脑,肺脏作为靶器官有较高的分布量。
4.小鼠口服给予胆汁酸单体、人工牛黄、天然牛黄、清开灵注射液和安宫牛黄丸五种受试药后,结果显示安宫牛黄丸中的胆汁酸在小鼠体内的吸收最好,在肺、脑组织中的浓度最高,其次为清开灵注射液和天然牛黄,第三为人工牛黄,单体胆汁酸在小鼠体内的吸收和分布最差。大鼠原位肠灌流模型结果与整体动物实验结果相类似。
5.小鼠口服给予人工牛黄和人工牛黄加胆红素后,比较两组中各种胆汁酸的药代动力学,人工牛黄加胆红素组中胆汁酸的AUC明显高于人工牛黄组中,CL明显低于人工牛黄组;组织分布结果显示胆红素不能促进人工牛黄中胆汁酸在小鼠肺、脑组织中的分布。大鼠原位肠灌流模型结果也显示相似结果,人工牛黄加胆红素组中总胆汁酸的肠吸收明显优于人工牛黄组,其中甘氨胆酸、牛磺胆酸、胆酸、熊去氧胆酸、异去氧胆酸、去氧胆酸在人工牛黄加胆红素组中肠吸收明显优于人工牛黄组。
6初步探讨了中药与中药复方药代动力学研究模式。
结论1.建立检测各种胆汁酸的HPLC-MS法灵敏度高,特异性好,适用于胆汁酸的体内和体外药代动力学研究。2.胆酸的同系物鹅去氧胆酸、去氧胆酸在小鼠体内的吸收和分布优于胆酸和异去氧胆酸,说明其药理学结果的差异可能是由于其药代动力学差异引起的。3.清开灵注射液中非胆汁酸成分可促进其胆汁酸成分的吸收和分布,胆酸和异去氧胆酸在脑中浓度低说明其不易透过血脑屏障。4.在五种受试药中,单体胆汁酸口服生物利用度低,天然牛黄中的胆汁酸吸收与组织分布优于人工牛黄,而安宫牛黄丸与清开灵注射液又优于单味药材。5.胆红素能促进人工牛黄中胆汁酸的吸收,减慢其在动物体内的消除速率,但不能提高组织中的分布量。
OBJIECTIVE: Pharmacokinetics of bile acids in monomer compounds, artificial calculus bovis, natural calculus bovis, qingkailing injection and angongniuhuangwan in biological specimen were studied using a simple, rapid, sensitive and reliable HPLC-MS method. The reasons for difference of pharmacodynamics were analyzed from pharmacokinetics of bile acids in five drugs. It can supply evidence for more optimizing artificial calculus bovis and compatibility of medicines in complex prescription, and search a way to study pharmacyokinetics of traditional Chinese medicines and complex prescription. METHODS: In vivo Drug concentration analytical method and in situ perfused rat intestine model were used. The concentrations of bile acids in mice blood, tissues and perfusate were measured by LC/ESI/MS. RESULTS: 1. The standard curves of bile acids in blood, tissue and perfusate were linear in the range from 4 to 4000 ng? ml~(-1) (r>0.999), the lowest limit of quantitation were 4 ng ? ml~(-1). The intra- and inter-day precisions were less than 6.0%. 2. Absorption and distributions in heart, lung, kidney and brain of CDCA and DCA were better than CA and HDCA, and absorption and distributions of HDCA were better than CA. 3. There were significant differences (P<0.05) between qingkailing injection group and CA/HDCA group in the main pharmacokinetic parameters and distributions in heart, lung, kidney and brain. Absorption and distribution of CA and HDCA in qingkailing injection group were better than in CA/HDCA group. The concentratons of CA and HDCA in tissues were C_(lung)> C_(kidney)>C_(henrt)>C_(?) 4. There were significant differences (P<0. 05) among bile acids in monomer compounds, artificial calculus bovis, natural calculus bovis, qingkailing injection and angongniuhuangwan in absorptions and distributions after oral administration. Absorption and distribution of bile acids in angongniuhuangwan were best, qingkailing injection and natural calculus bovis take second place, artificial calculus bovis third and monomer compounds lowest. The results of in situ perfused rat intestine model were similar. 5. There were significant differences (P<0.05) between absorption of bile acids in artificial calculus bovis group and artificial calculus bovis/bilirubin group. AUC of bile acids in artificial calculus bovis/bilirubin group were better than artificial calculus bovis group. CL were lower than in artificial calculus bovis group. Bilirubin could not advance distribution of bile acids in tissues. CONCLUSION: 1. The method is simple, rapid, sensitive and reliable, and it is applicable to assay bile acids in biological samples. 2. Absorption and distribution of CDCA and DCA are better than CA and HDCA, it explains the pharmacological difference with pharmacokinetic results. 3. The parts of non-cholic acid in qingkailing injection can improve absorption and distribution of CA and HDCA. CA and HDCA permeated blood brain barrier uneasily. 4. Absorption and distribution of Monomer compound in mice is lowest, non-bile acids in angongniuhuangwan and qingkailing injection can advance absorption and distribution of bile acids. Other substances(such as bilirubin, inorganic ions, amino acid) in natural calculus bovis can advance absorption and distribution of bile acids. 5. Bilirubin can promote absorption of bile acids in artificial calculus bovis and slow elimination of bile acids. But bilirubin has no effect on distribution of bile acid in artificial calculus bovis, it shows there are other substances contributing to distribution difference between natural and artificial calculus bovis.
引文
1. http://www.sfda.gov.cn/cmsweb/webportal/W4278/A43748490.html
2.王凯平,石朝周.动物胆汁药用研究的概况与展望[J].中国中医药科技,2000,7(5):350-352
3.张宗信,盖雪,赵光纯.动物胆汁药的应用[J].河北医学,2006,12(2):191—192
4.张启明.天然牛黄的成分研究[J].中国生化药物杂志.1995,16(1):27-28.
5.任立波,周虹.天然牛黄、人工培植牛黄与人工牛黄的鉴别[J].传统医药,2004,13(10):63
6.王金华,叶祖光.安宫牛黄丸研究现状[J].中国中药杂志,2004,29(2):119-122
7.北京中医学院中药系安宫牛黄丸剂改专题研究小组.安富牛黄丸新型的研究[J],新医药杂志,1975,(8):12.
8.蒋玉风,朱陵群,黄启福,等.清开灵注射液对SHRsp出血性中风海马区兴奋性氨基酸含量的影响.中国中医急症,1997,6(5):219
9.蒋玉凤,黄启福,邹丽琰,等.清开灵注射液治疗SHRsp出血性中风病的研究[J].北京中医药大学学报.1997,20(2):34.
10.白丽敏,孙红梅,朱培纯,等.清开灵注射液对实验性脑出血大鼠脑内P物质的影响[J].北京中医药大学学报,1996,19(6):67.
11.刘莉,钱家骏,胡加跃,等.醒脑健神胶囊、清开灵注射液对急性脑出血大鼠脑含水量、离子含量及自由在代谢的影响.北京中医药大学学报,1997,20(1):38
12.特玉凤,张丹卉,黄启福,等.清开灵对内毒索性发热家兔的解热机制研究[J].北京中医药大学学报,2003,26(5):53—55
13.朱陵群,黄启福,王鸣川.清开灵抗内毒素所致肝细胞脂质过氧化损伤的研究[J].北京中医药大学学报.1996,19(4):32.
14.蒋玉凤,李萍,孔全菲,等.清开灵对巨噬细胞吞噬功能和多形白细胞释放H2O2的影响[J].北京中医药大学学报.1995,18(3):68.
15.陈泽涛,董倩,张玲,等 清开灵注射液及其有效成分诱导人急性早幼粒白血病细胞凋亡的研究[J].中国中西医结合杂志,2001,2l(11):840
16.邵志华,王和枚,陈嘉斌,等.清开灵注射液对小鼠全氟异丁烯吸入性急性肺水肿的治疗作用.中国职业医学.2006,33(4):241-244.
17.王智民,朱晓新,崔晓兰,等.防治SARS中药的筛选.中国中药杂志.2003,28(6):484.
18.常增荣,邸峰,周富荣.薄层扫描法测定天然牛黄中胆酸含量的研究[J].中国中药杂志,1999,24(11):684-686
19.战人美,崔丰民,王爱梅,等.野猪黄的体外培育及其成分研究[J].中草药,1995,26(11):592—594
20.范广平,朱静建,王智华.25个牛黄样品胆汁酸的多组分含量研究[J].中成药,1996,18(5):39-41
21.肖洪涛,杨光,石朝周.HPLC检测蛇胆和人工蛇胆中结合胆汁酸的含量[J].中成药,2002,24(2):124-126
22.封卫毅,侯家玉.回肠Na/胆汁酸转运体及其抑制剂的研究进展[J].生理科学进展,2002,33(3):215-219
23.卢兴红,张关桐,袁忐芳,等.RP-HPLC法测定血浆中栀子甙浓度及药动学研究[J].药物分析杂志,2004,22(2):140-143
24.马丽杰,张述禹,荀雅书,等.清开灵注射液中胆酸和猪去氧胆酸的药动学研究[J].内蒙古医学院杂志杂志,2004,26(3):175-178
25.阴健,任天池,曹春林.黄芩甙及其在清开灵注射液中的药代动力学研究[J].中国实验方剂学杂志,1998,4(4):31-33
26.曾进,徐燕,张永知,等.清开灵注射液指标成分的体内样品分析[J].中医药学刊,2003,21(12):1982-1984
27.王素军,王广基,李晓天,杨敏,阮金秀,张振清.氧化苦参碱大鼠肠道吸收机理及吸收部位[J].中国临床药理学与治疗学,2005;10(12):1326-9
28. Pang KS, Cherry WF, Ulm EH. Disposition of enalapril in the perfused rat intestine-liver preparation: absorption, metabolism and first-pass effect [J]. J Pharmacol Exp Ther. 1985; 233(3):788-95.
1.邵周理.3种牛黄的鉴别方法[J].中国医院药学杂志,2001,21(4):252—255
2.张启明.天然牛黄的成分研究[J].中国系列化药物杂志,1995,16(1):27—30
3.卫生部药典委员会.中华人民共和国药典[M].北京:化学工业出版社,2000.52
4.任立波,周虾.天然牛黄、人工培植牛黄与人工牛黄的鉴别[J].传统医药,2004,13(10):63
5.蔡红娇,裘法祖,刘仁则.体外培育牛黄的药学研究[J].中国天然药物,2004,2(60):335—338
6.卫生部药典委员会.中华人民共和国药典[M].北京:化学工业出版社,2005.120—121
7.卫生部药典委员会.中华人民共和国药典[M].北京:化学工业出版社,2005.4—5
8.郭淑民,苏燕生,王汝娟.牛齿根与牛黄的解热及镇静作用比较[J].中草药,1996,27(10):603-605
9.王本祥.现代中药药理与临床[M].天津:天津科技翻译出版公司,2002.318
10.蔡红娇,张晓琴,李承晏,等.体外培育牛黄治疗中风的临床研究[J].中药新药与临床药理,2004,15(4):287—289
11.潘善庆,张梦晖,袁惠南,等.新一代人工牛黄的药理与毒理学研究Ⅰ.对中枢神经 系统的影响[J].中国生化药物杂志,1994,15(2):99-103
12. Del Olmo N, Bustamante J, del Rio RM, et al. Taurine activates GABAA but not BABAB receptors in rat hippocampal CAI area[J]. Brain Res, 2000, 864(2): 298-307.
13. Nabekura J, Omura T, Akaike N. Alpha 2 adrenoceptor potentiates glycine receptor-mediated taurine response through protein kinse A in rat sustantia nigra neurons[J]. J Neurophysiol, 1996, 76(4): 2455-2460.
14. Lima L. Taurine and its trophic effects in the retina[J]. Neurochem Res, 1999, 24(11): 1333-1338.
15.李霞,于庆海,艾朋,等.人工培植牛黄抗炎作用及其机制的初步探讨[J].沈阳药科大学学报,2000,17(6):431-433
16.杜佐华,蔡红娇,杨荣光,等.体外培育牛黄抗炎作用的实验研究[J].中药新药与临床,1996,7(1):27-30
17.胡霞敏,石朝周.牛磺结合及其游离胆汁酸在小鼠镇咳祛痰抗炎模型上的作用比较[J].中国临床药学杂志,2001.10(2):85-88
18.潘善庆,董继萃,王凤仁,等.新一代人工牛黄的药理与毒理学研究Ⅳ.对心血管系统的影响[J].中国生化药物杂志,1994,15(3):172-176
19.哈斯苏荣,李培峰,关红,等.胆红素含量不同培植牛黄对动物心脏及血压的影响[J].内蒙古农业大学学报(自然科学版),1997,04:
20.臧恒昌,翟光喜,张泰松,等.牛磺酸应用于心血管疾病的研究进展[J].中国生化药物杂志,2001,22(4):215-217
21.薛小平,李东华,刘铮,等.活血化瘀中药对清热利胆中药利胆作用的增效研究[J].天津中医药,2006,23(1):70-72
22.刘红,刘建,李金艳.熊脱氧胆酸对抗乙炔雌二醇诱发孕大鼠肝内胆汁淤积的作用机制[J].现代妇产科进展,2005,14(3):229-232
23.苗彬,赵二鹏,崔乃强,等.胆囊结石患者肝细胞胆汁酸分泌与代谢[J].中国中西医结合外科杂志,2004,(04);297-299
24.刘丽萍,贺承山.熊去氧胆酸治疗肝脏疾病的作用机制和临床应用进展[J].解放军药学学报,2004,20(04):283-286
25.何秀玲,李培锋,关红,等.牛磺酸鹅去氧胆酸对小鼠免疫功能的影响[J].中药材,2005,28(12):1089-1092
26.王天成,王振宇,沈惠麒,贾光,王翔,邰昌松.胆红素和牛黄拮抗正己烷致小鼠脂质过氧化作用的初步研究[J].中国工业医学杂志,2004,17(06):356-358
27.蔡红娇,汪世元,刘烈刚,等.体外培育牛黄耐缺氧和清除自由基作用的研究[J].中药药理与临床,2003,19(06):20-22
28.蔡红娇,张晓琴,涂晋文,等.体外培育牛黄与天然牛黄的2种安宫牛黄丸治疗中风疗效与安全性比较研究[J].中医药临床杂志,2004,16(5):417-419
29.梁月俭.清开灵并安宫牛黄丸治疗肺性脑病临床观察[J].中国中医急症,2006,(06):614-615
30.郭闫葵,赵世珂,孟斌.醒脑静注射液在神经内科中的应用[J].河南中医,2005,(06):79-81
31.肖兰,赵绪元.清开灵注射液的研究进展[J].中国药房,2006,17(6):468-469
1 北京中医学院中药系安宫牛黄丸剂改专题研究小组.安宫牛黄丸新型的研究[J].新医药杂志,1975,(8):12
2 金玉龙,赵志新.清开灵注射液的临床研究[J].中医药学报,1995,10(4):54-56
3 郑虎占,董泽宏,佘靖.中药现代研究与应用(第四卷)[M].北京:学苑出版社,1998:3166-3187
4 郭新峰,赖世隆[J].清开灵注射液治疗急性中风的Meta分析[J].广州中医药大学学报,2000,17(1):9-14
5 蒋玉凤,董启福,严京,等.清开灵对家兔内毒素性发热和脑脊液cAMP含量的影响[J].北京中医药大学学报,1994,17(5):66-68
6 李文杰,曹力,李红梅.等.清开灵注射液药理作用与在儿科疾病中的应用[J].时珍国医国药,2002, 13(5):302—303
7 常增荣,邸峰,周富荣.薄层扫描法测定天然牛黄中胆酸含量的研究[J].中国中药杂志,1999,24(11):684-686
8 战人美,崔丰民,王爱梅,等.野猪黄的体外培育及其成分研究[J].中草药,1995,26(11):592—594
9 范广平,朱静建,王智华.25个牛黄样品胆汁酸的多组分含量研究[J].中成药,1996,18(5):39-41
10 肖洪涛,杨光,石朝周.HPLC检测蛇胆和人工蛇胆中结合胆汁酸的含量[J].中成药,2002,24(2):124-126
11 曹进,徐燕,张永知,等.清开灵注射液指标成分的体内样品分析[J].中医药学刊,2003,21(12):1982-1984
2.王凯平,石朝周.动物胆汁药用研究的概况与展望[J].中国中医药科技,2000,7(5):350-352
3.张宗信,盖雪,赵光纯.动物胆汁药的应用[J].河北医学,2006,12(2):191—192
4.张启明.天然牛黄的成分研究[J].中国生化药物杂志.1995,16(1):27-28.
5.任立波,周虹.天然牛黄、人工培植牛黄与人工牛黄的鉴别[J].传统医药,2004,13(10):63
6.王金华,叶祖光.安宫牛黄丸研究现状[J].中国中药杂志,2004,29(2):119-122
7.北京中医学院中药系安宫牛黄丸剂改专题研究小组.安富牛黄丸新型的研究[J],新医药杂志,1975,(8):12.
8.蒋玉风,朱陵群,黄启福,等.清开灵注射液对SHRsp出血性中风海马区兴奋性氨基酸含量的影响.中国中医急症,1997,6(5):219
9.蒋玉凤,黄启福,邹丽琰,等.清开灵注射液治疗SHRsp出血性中风病的研究[J].北京中医药大学学报.1997,20(2):34.
10.白丽敏,孙红梅,朱培纯,等.清开灵注射液对实验性脑出血大鼠脑内P物质的影响[J].北京中医药大学学报,1996,19(6):67.
11.刘莉,钱家骏,胡加跃,等.醒脑健神胶囊、清开灵注射液对急性脑出血大鼠脑含水量、离子含量及自由在代谢的影响.北京中医药大学学报,1997,20(1):38
12.特玉凤,张丹卉,黄启福,等.清开灵对内毒索性发热家兔的解热机制研究[J].北京中医药大学学报,2003,26(5):53—55
13.朱陵群,黄启福,王鸣川.清开灵抗内毒素所致肝细胞脂质过氧化损伤的研究[J].北京中医药大学学报.1996,19(4):32.
14.蒋玉凤,李萍,孔全菲,等.清开灵对巨噬细胞吞噬功能和多形白细胞释放H2O2的影响[J].北京中医药大学学报.1995,18(3):68.
15.陈泽涛,董倩,张玲,等 清开灵注射液及其有效成分诱导人急性早幼粒白血病细胞凋亡的研究[J].中国中西医结合杂志,2001,2l(11):840
16.邵志华,王和枚,陈嘉斌,等.清开灵注射液对小鼠全氟异丁烯吸入性急性肺水肿的治疗作用.中国职业医学.2006,33(4):241-244.
17.王智民,朱晓新,崔晓兰,等.防治SARS中药的筛选.中国中药杂志.2003,28(6):484.
18.常增荣,邸峰,周富荣.薄层扫描法测定天然牛黄中胆酸含量的研究[J].中国中药杂志,1999,24(11):684-686
19.战人美,崔丰民,王爱梅,等.野猪黄的体外培育及其成分研究[J].中草药,1995,26(11):592—594
20.范广平,朱静建,王智华.25个牛黄样品胆汁酸的多组分含量研究[J].中成药,1996,18(5):39-41
21.肖洪涛,杨光,石朝周.HPLC检测蛇胆和人工蛇胆中结合胆汁酸的含量[J].中成药,2002,24(2):124-126
22.封卫毅,侯家玉.回肠Na/胆汁酸转运体及其抑制剂的研究进展[J].生理科学进展,2002,33(3):215-219
23.卢兴红,张关桐,袁忐芳,等.RP-HPLC法测定血浆中栀子甙浓度及药动学研究[J].药物分析杂志,2004,22(2):140-143
24.马丽杰,张述禹,荀雅书,等.清开灵注射液中胆酸和猪去氧胆酸的药动学研究[J].内蒙古医学院杂志杂志,2004,26(3):175-178
25.阴健,任天池,曹春林.黄芩甙及其在清开灵注射液中的药代动力学研究[J].中国实验方剂学杂志,1998,4(4):31-33
26.曾进,徐燕,张永知,等.清开灵注射液指标成分的体内样品分析[J].中医药学刊,2003,21(12):1982-1984
27.王素军,王广基,李晓天,杨敏,阮金秀,张振清.氧化苦参碱大鼠肠道吸收机理及吸收部位[J].中国临床药理学与治疗学,2005;10(12):1326-9
28. Pang KS, Cherry WF, Ulm EH. Disposition of enalapril in the perfused rat intestine-liver preparation: absorption, metabolism and first-pass effect [J]. J Pharmacol Exp Ther. 1985; 233(3):788-95.
1.邵周理.3种牛黄的鉴别方法[J].中国医院药学杂志,2001,21(4):252—255
2.张启明.天然牛黄的成分研究[J].中国系列化药物杂志,1995,16(1):27—30
3.卫生部药典委员会.中华人民共和国药典[M].北京:化学工业出版社,2000.52
4.任立波,周虾.天然牛黄、人工培植牛黄与人工牛黄的鉴别[J].传统医药,2004,13(10):63
5.蔡红娇,裘法祖,刘仁则.体外培育牛黄的药学研究[J].中国天然药物,2004,2(60):335—338
6.卫生部药典委员会.中华人民共和国药典[M].北京:化学工业出版社,2005.120—121
7.卫生部药典委员会.中华人民共和国药典[M].北京:化学工业出版社,2005.4—5
8.郭淑民,苏燕生,王汝娟.牛齿根与牛黄的解热及镇静作用比较[J].中草药,1996,27(10):603-605
9.王本祥.现代中药药理与临床[M].天津:天津科技翻译出版公司,2002.318
10.蔡红娇,张晓琴,李承晏,等.体外培育牛黄治疗中风的临床研究[J].中药新药与临床药理,2004,15(4):287—289
11.潘善庆,张梦晖,袁惠南,等.新一代人工牛黄的药理与毒理学研究Ⅰ.对中枢神经 系统的影响[J].中国生化药物杂志,1994,15(2):99-103
12. Del Olmo N, Bustamante J, del Rio RM, et al. Taurine activates GABAA but not BABAB receptors in rat hippocampal CAI area[J]. Brain Res, 2000, 864(2): 298-307.
13. Nabekura J, Omura T, Akaike N. Alpha 2 adrenoceptor potentiates glycine receptor-mediated taurine response through protein kinse A in rat sustantia nigra neurons[J]. J Neurophysiol, 1996, 76(4): 2455-2460.
14. Lima L. Taurine and its trophic effects in the retina[J]. Neurochem Res, 1999, 24(11): 1333-1338.
15.李霞,于庆海,艾朋,等.人工培植牛黄抗炎作用及其机制的初步探讨[J].沈阳药科大学学报,2000,17(6):431-433
16.杜佐华,蔡红娇,杨荣光,等.体外培育牛黄抗炎作用的实验研究[J].中药新药与临床,1996,7(1):27-30
17.胡霞敏,石朝周.牛磺结合及其游离胆汁酸在小鼠镇咳祛痰抗炎模型上的作用比较[J].中国临床药学杂志,2001.10(2):85-88
18.潘善庆,董继萃,王凤仁,等.新一代人工牛黄的药理与毒理学研究Ⅳ.对心血管系统的影响[J].中国生化药物杂志,1994,15(3):172-176
19.哈斯苏荣,李培峰,关红,等.胆红素含量不同培植牛黄对动物心脏及血压的影响[J].内蒙古农业大学学报(自然科学版),1997,04:
20.臧恒昌,翟光喜,张泰松,等.牛磺酸应用于心血管疾病的研究进展[J].中国生化药物杂志,2001,22(4):215-217
21.薛小平,李东华,刘铮,等.活血化瘀中药对清热利胆中药利胆作用的增效研究[J].天津中医药,2006,23(1):70-72
22.刘红,刘建,李金艳.熊脱氧胆酸对抗乙炔雌二醇诱发孕大鼠肝内胆汁淤积的作用机制[J].现代妇产科进展,2005,14(3):229-232
23.苗彬,赵二鹏,崔乃强,等.胆囊结石患者肝细胞胆汁酸分泌与代谢[J].中国中西医结合外科杂志,2004,(04);297-299
24.刘丽萍,贺承山.熊去氧胆酸治疗肝脏疾病的作用机制和临床应用进展[J].解放军药学学报,2004,20(04):283-286
25.何秀玲,李培锋,关红,等.牛磺酸鹅去氧胆酸对小鼠免疫功能的影响[J].中药材,2005,28(12):1089-1092
26.王天成,王振宇,沈惠麒,贾光,王翔,邰昌松.胆红素和牛黄拮抗正己烷致小鼠脂质过氧化作用的初步研究[J].中国工业医学杂志,2004,17(06):356-358
27.蔡红娇,汪世元,刘烈刚,等.体外培育牛黄耐缺氧和清除自由基作用的研究[J].中药药理与临床,2003,19(06):20-22
28.蔡红娇,张晓琴,涂晋文,等.体外培育牛黄与天然牛黄的2种安宫牛黄丸治疗中风疗效与安全性比较研究[J].中医药临床杂志,2004,16(5):417-419
29.梁月俭.清开灵并安宫牛黄丸治疗肺性脑病临床观察[J].中国中医急症,2006,(06):614-615
30.郭闫葵,赵世珂,孟斌.醒脑静注射液在神经内科中的应用[J].河南中医,2005,(06):79-81
31.肖兰,赵绪元.清开灵注射液的研究进展[J].中国药房,2006,17(6):468-469
1 北京中医学院中药系安宫牛黄丸剂改专题研究小组.安宫牛黄丸新型的研究[J].新医药杂志,1975,(8):12
2 金玉龙,赵志新.清开灵注射液的临床研究[J].中医药学报,1995,10(4):54-56
3 郑虎占,董泽宏,佘靖.中药现代研究与应用(第四卷)[M].北京:学苑出版社,1998:3166-3187
4 郭新峰,赖世隆[J].清开灵注射液治疗急性中风的Meta分析[J].广州中医药大学学报,2000,17(1):9-14
5 蒋玉凤,董启福,严京,等.清开灵对家兔内毒素性发热和脑脊液cAMP含量的影响[J].北京中医药大学学报,1994,17(5):66-68
6 李文杰,曹力,李红梅.等.清开灵注射液药理作用与在儿科疾病中的应用[J].时珍国医国药,2002, 13(5):302—303
7 常增荣,邸峰,周富荣.薄层扫描法测定天然牛黄中胆酸含量的研究[J].中国中药杂志,1999,24(11):684-686
8 战人美,崔丰民,王爱梅,等.野猪黄的体外培育及其成分研究[J].中草药,1995,26(11):592—594
9 范广平,朱静建,王智华.25个牛黄样品胆汁酸的多组分含量研究[J].中成药,1996,18(5):39-41
10 肖洪涛,杨光,石朝周.HPLC检测蛇胆和人工蛇胆中结合胆汁酸的含量[J].中成药,2002,24(2):124-126
11 曹进,徐燕,张永知,等.清开灵注射液指标成分的体内样品分析[J].中医药学刊,2003,21(12):1982-1984