毛细管电泳法手性拆分合成药物氨氯地平及其中间体

 建立了毛细管电泳手性拆分氨氯地平药物中间体的方法 ,并同时拆分了氨氯地平。考察了不同手性拆分试剂对手性选择性的影响 ,其中羧甲基 β 环糊精 (CM β CD)能够给出满意的拆分结果。在以CM β CD为手性拆分试剂的基础上 ,还考察了各种因素诸如流动相的pH值、环糊精的浓度以及电压对分离的影响。最佳拆分条件为 :30mmol/L磷酸盐 +5 0mmol/LCM β CD(pH 6 12 )。在此条件下 ,药物中间体及氨氯地平的分离度分别为 1 5 5和 1 73,结果令人满意。     

用羧甲基聚合环糊精作手性剂的毛细电泳法分离3种碱性药物

采用5种环糊精衍生物对碱性药物--硫喷妥钠、盐酸氟桂利嗪、山梗菜碱进行了毛细管区带电泳的手性拆分.结果表明,采用含2%(质量分数,其余相同)聚合β-环糊精(P-β-CD)或0.5%羧甲基聚合β-环糊精(CM-P-β-CD)30 mmol/L的Tris-H3PO4缓冲液可使这3种药物达到基线分离;使用CM-P-β-CD时,分离度高达4～35.     

聚乙烯醇固载β-环糊精线性高聚物的合成及其药物控制释放研究

利用缩醛化反应将醛基化 β 环糊精 (β CD)固载到聚乙烯醇 (PVA)大分子链上 ,合成出了聚乙烯醇固载 β 环糊精 (PVA β CD)的线性环糊精高分子 ,其最佳反应条件是反应时间 2h ,温度 70℃ ,β CD 6 CHO与PVA的质量比小于等于 4∶1.采用红外光谱及核磁共振表征了该聚合物的分子结构 .通过研究PVA β CD与模型药物喜树碱 (CPT)的包合作用 ,对不同环糊精固载量的PVA β CD膜在不同pH值下的药物释放机理进行了探讨 .结果表明 ,PVA β CD因包合增溶作用促进了水难溶性药物的释放 .     

竞争包结法研究β-环糊精及其两种衍生物对一些手性脂肪族客体分子的识别作用

以酚酞作为光谱探针 ,采用紫外 可见光谱滴定法测定了 β 环糊精 (β CD)、单 (6 氧 α 麦芽糖 ) β 环糊精 (6 G2 β CD )和单 [2 氧 (2 羟丙基 ) ] β 环糊精 (2 HP β CD )在 2 5℃时 ,pH =10 5缓冲液中(0 0 2 5mol/L)与几种脂肪族手性客体分子所形成超分子配合物的稳定常数 .结果表明 ,多种弱相互作用力协同作用于环糊精的配位过程 ,主 客体间的尺寸匹配决定所形成配合物的稳定性 .环糊精衍生物的取代基影响主体的配位能力 ,对于尺寸较小的客体分子配位能力的大小一般为 2 HP β CD >β CD >6 G2 β CD .另一方面 ,3种环糊精主体化合物对一些脂肪族客体分子也表现出一定的手性识别能力 ,对 (+ ) 异构体给出相对较强的键合能力 ,其中 ,2 HP β CD对 (+ ) /(- ) 樟脑的配位选择性为 1 2 5 .     

毛细管电泳手性分离佐米曲坦及其对映体

1　引　　言佐米曲坦 (zolmitriptan,zomig)是继舒马曲坦后的新一代曲坦类药物 ,化学名为 4(s) [3 [2 (二甲胺基 )乙基 ] 1H 吲哚 5基甲基 ]恶唑烷 2 酮 ,是一种选择性很高的强效 5 HTIB ID受体激动剂 ,主要用于有或无先兆的偏头痛的预防和治疗。本文旨在通过选择不同的手性拆分试剂和不同的背景缓冲溶液 ,建立毛细管电泳手性分离佐米曲坦及其对映体的方法。2　实验部分2 .1　试剂与仪器　磺化β 环糊精 (SO3 β CD)由实验室自制 ,β 环糊精 (上海化学试剂采购进口分装 ) ,羟丙基 β 环糊精(HP β CD ,美国Acros公司 ) ,三羟甲…     

手性药物异丙嗪对映体的毛细管电泳-方波安培法检测

以未涂层融硅石英毛细管 (5 0cm× 75 μm)为分离柱 ,5mmol/LNaOH +10mmol/LCitricacid +3mmol/LH3 BO3 +10mmol/L β 环糊精 (β CD) (pH =3.5 )为电泳介质 ,分离电压 12kV ,采用毛细管电泳 方波安培法对手性药物异丙嗪对映体实现了分离检测。对影响手性对映体分离检测效果的缓冲溶液的种类、浓度和 pH等诸因素进行了研究。结果表明 :硼酸与手性选择剂 β CD分子中糖羟基发生键合配位作用 ,增加了β CD 的负电性的特性 ,在对映体拆分中起到关键性的作用。     

甲基丙烯酸N,N-二甲氨基乙酯与丙烯酰β-环糊精共聚水凝胶的合成及其性能研究

用不同的方法合成了两种结构不同的丙烯酰 β 环糊精酯 (β CD 3 A和 β CD 6 A) ,以此为单体与甲基丙烯酸N ,N 二甲氨基乙酯 (DMAEMA)通过氧化还原自由基引发聚合 ,合成出两类含 β 环糊精结构单元的新型水凝胶 .用核磁共振 ,红外光谱及元素分析对两种单体及共聚物的结构和组成进行了表征 .溶胀实验结果表明 ,两类水凝胶均具有较好的pH、温度及离子强度敏感性 ,且因其交联网络结构不同 ,其溶胀性能有所差异     

温度及pH敏感N-异丙基丙烯酰胺/β-环糊精水凝胶的合成与性能研究

用顺丁烯二酸酐 (MAH)对具有分子包结能力的 β 环糊精 (β CD)进行化学改性 ,合成出了丁烯二酸单酯化 β CD单体 (MAH β CD) .通过氧化还原自由基引发MAH β CD与N 异丙基丙烯酰胺 (NIPA)聚合 ,合成出含 β CD结构单元的新型水凝胶 .用核磁共振、红外光谱及元素分析对MAH β CD单体及共聚物的结构和组成进行了表征 .溶胀研究结果表明 ,该水凝胶具有较好的pH、温度及离子强度敏感性 ;并且水凝胶在较高羧基(—COOH)含量和弱碱环境中 ,仍能表现出明显的温敏性     

填充毛细管电色谱手性分离

采用两种毛细管填充电色谱手性分离模式 ,在短时间内对 3种手性化合物进行成功拆分 :( 1 )用匀浆法制成 75 μm内径的 β CD固定相填充电色谱柱 ,考察了电压、缓冲溶液pH值和有机添加剂浓度对该柱电渗流 (EOF)和两种手性物质分离的影响 .手性化合物安息香 (benzoin)和手性药物美芬妥因 (mephenytoin)在有效长度为6 2cm的β CD填充柱中获得快速、高效的分离 .安息香的最高柱效达 3.2万理论塔板数 /m ,最大分离度Rs 为 1 42 ,美芬妥因的最高柱效达 4 5万理论塔板数 /m ,最大分离度Rs 为 3 40 ,特别是美芬妥因在 1 5kV电压下 3 4min内获得Rs=2 .6 0和N1=2 .1万理论塔板数 /m的分离结果 . ( 2 )用匀浆法制成 75 μm内径的ODS填充电色谱柱 ,在该柱上用二甲基 β CD (DM β CD)作流动相手性添加剂 ,施加 1 0kV电压在1 2min内使手性药物心得安 (propranolol)得到基线分离 ,柱效达 8 1万理论塔板数 /m .     

毛细管区带电泳法拆分手性药物环扁桃酯

近年来,随着不同种类的手性添加剂[1]在毛细管电泳(CZE)中的使用,毛细管电泳越来越显示出其强有力的手性拆分性能。具有特殊笼状结构并含有多个手性中心的环糊精及其衍生物是毛细电泳手性分离研究中最常采用的手性添加添[2-4]。本文合成了环糊精衍生物单3 O 苯基胺甲酰基 β CD[2]并以之作为手性选择剂分离了β CD及手性药物环扁桃酯。1　实验部分932 3 HVPS高压电源(山东省化工研究院),DD 2000型可调波长紫外检测器(中国科学院大连化学物理研究所),XWT型记录仪(上海大华仪表厂),pHS 25型酸度计(上海雷磁仪器厂),石英毛细管45cm…     

用于毛细管电泳手性分离的一种新的手性选择剂－ Β环糊精聚合物

用新合成的Β 环糊精聚合物(EP-Β-CD),并以天然环糊精(Β-CD) 和羧甲基环糊精(CM-Β-CD)手性拆分剂作对比,选取扑尔敏、山梗菜碱、维拉帕米为测试物􀁯优化分离条件􀁯研究了EP-Β-CD的拆分能力􀁯并与其它两种拆分剂进行了比较。     

毛细管区带电泳法研究肾上腺素类药物的手性分离

使用β－环糊精（β－ＣＤ）及β－ＣＤ－羧甲基（ＣＭ－β－ＣＤ）作为手性选择剂,采用毛细管区带电泳法（ＣＺＥ）对去甲肾上腺素、肾上腺素和异丙肾上腺素的手性分离进行了研究。对影响这类药物手性分离的主要因素〔手性选择剂、背景电解质（ＢＧＥ）、分离体系的酸度和温度〕进行了讨论,并对手性识别机理进行了探讨。     

Chiral separation of synthetic vicinal diol compounds by capillary zone electrophoresis with borate buffer and beta-cyclodextrin as buffer additive.

The investigation on capillary electrophoretic enantioseparation of six synthetic compounds containing vicinal diol groups has been undertaken to acquire the optimum conditions using native beta-cyclodextrin (beta-CD) as chiral selector and borate as a background electrolyte. The separation was carried out in an uncoated capillary (58.5 cm x 75 microm i.d., effective length 48.5 cm) and the effects of several important factors were investigated in detail. The results showed that beta-CD as a chiral selector exhibited good enantioselectivity and that the enantioseparation was greatly influenced by the structure of the diols, the borate concentration and the buffer pH. The optimum performance was obtained for the chiral vicinal diols under the conditions of 200 mM borate buffer of pH 9.8 containing 1.7% beta-CD at an applied voltage of 15 kV and a capillary temperature of 20 degrees C. Under the conditions, four diols were baseline separated with fast analysis time and the good theoretical plate numbers (above 10 x 10(4)) and favorable migration-time reproducibilities (RSDs below 3.0%) were obtained. The separation results were satisfactory.     

毛细管区带电泳法拆分手性药物萘普生和氟联苯丙酸

 70-72 -------------------------------------------------------------------------------- 以β-环糊精(CD)作为手性选择剂 ,用毛细管区带电泳法成功地拆分了两种弱酸性药物萘普生(naproxen)和氟联苯丙酸(flurb iprofen),并比较了4种环糊精［β-环糊精(β-CD)、二甲基-β-环糊精( DM-β-CD)、羟丙基-β-环糊精(HP-β-CD)和三甲基-β-环糊精( TM-β-CD)］对手性拆分的影响,同时测定了萘普生对映体在不同环糊精中的出峰次 序。通过实验,发现对于此类化合物拆分的最佳pH值为5左右,即接近于该类化合物的pK a值。该方法适用于酸性手性药物的拆分。     

用去氧胆酸盐和β-环糊精的毛细管胶束电动色谱拆分手性药物

 用β－环糊精（β－ＣＤ）和去氧胆酸钠（ＳＤＣ）的环糊精改性毛细管胶束电动色谱，实际拆分了ＥＭＤ－５６４３１和扑尔敏两种手性药物，研究了ＳＤＣ和β－ＣＤ浓度及ｐＨ值对分离的影响。初步讨论了分离的机理。认为ＣＤ－ＳＤＣ体系中胶束单体分子几乎均被ＣＤ包合；ＣＤ可能与部分胶束单体包合而存在于ＳＤＣ的胶束中；该拆分体系中ＳＤＣ与β－ＣＤ的浓度比在４∶１～４∶３时拆分效果最好。并发现ＳＤＣ对β－ＣＤ有显著的增溶作用。     

以L-谷氨酰胺为手性选择剂毛细管电泳拆分几种药物旋光对映体

以Ｌ－谷氨酰胺为手性选择剂,建立了对普萘洛尔、慢心律、心律平、苯丙哌酮、异丙肾上腺素、氯胺酮、山莨菪碱、洛贝林、布比卡因、苯海索等１０种手性药物对映体的毛细管电泳快速分离方法,在含有６０ｍｍｏｌ／Ｌ Ｌ－谷氨酰胺,６０ｍｍｏｌ／Ｌ硼砂（ｐＨ＝９．２５）的缓冲溶液中,１０种手性药物在１１ｍｉｎ内达到基线分离。并对分离机理作了初步探讨。     

毛细管电泳法手性拆分14种二肽

以咔唑-9-乙基氯甲酸酯(CEOC)作为柱前衍生试剂,采用毛细管电泳对14种二肽进行了手性拆分。以5种二肽为代表,考察了缓冲液种类、浓度、pH值、二元手性选择剂的组合配比等因素对二肽的拆分效果,优化了实验条件。在各自的优化条件下,14种二肽手性拆分的分离度均在3.63以上,最高分离度可达43.14(Gly-Ala)。     

Fast enantiomeric separation of basis drugs by electrokinetic chromatography. Application to the quantitation of terbutaline in a pharmaceutical preparation

Electrokinetic chromatography (EKC) using micelles of bile salts alone or mixed with sodium dodecyl sulfate (SDS) and neutral, anionic, or cationic cyclodextrins (CDs) in the separation buffer has been employed in order to achieve fast enantiomeric separation of basic drugs. A study of the enantiomeric separation ability of these chiral selectors concerning four basic drugs (epinephrine, terbutaline, clenbuterol, and salbutamol) has been carried out under different experimental conditions. The best chiral selectors to perform the enantiomeric separation of these drugs were neutral beta-CD derivatives, specifically permethylated beta-CD PM-beta-CD. The effect of the PM-beta-CD concentration, temperature, and applied voltage on the enantiomeric resolution of the basic drugs was investigated. The use of a 25 mM ammonium acetate buffer (pH 5.0), 30 mM in PM-beta-CD together with an applied voltage of 20 kV and a temperature of 15 degrees C enabled the individual and fast enantiomeric separation of epinephrine, norepinephrine, terbutaline, clenbuterol, and salbutamol each one into its two enantiomers in less than 3 min. The EKC method was validated (precision and accuracy) to quantitate terbutaline in a pharmaceutical preparation, obtaining a limit of detection of 4 microg/mL.     

Hybridation of different chiral separation techniques with ICP-MS detection for the separation and determination of selenomethionine enantiomers: chiral speciation of selenized yeast

Enantioseparation and determination of selenomethionine enantiomers in selenized yeast was investigated using chiral separation techniques based on different principles, coupled on-line to inductively coupled plasma mass spectrometry (ICP-MS) for selenium-specific detection. High performance liquid chromatography (HPLC) on a beta-cyclodestrin (beta-CD) column, cyclodextrin-modified micellar electrokinetic chromatography (CD-MEKC), gas chromatography (GC) on a Chirasil-L-Val column, and HPLC on a Chirobiotic T column have been investigated as the chiral separation techniques. For HPLC separation on the beta-CD column, and also for CD-MEKC, selenomethionine enantiomers were derivatized with NDA/CN(-). For chiral separation by GC, selenomethionine enantiomers were converted into their N-trifluoroacetyl (TFA)-O-alkyl esters. The developed hybridation methodologies are compared with respect to enantioselectivity, sensitivity and analysis time. The usefulness of the best-suited method [HPLC (Chirobiotic T)-ICP-MS] was demonstrated by its application to the successful chiral speciation of selenium and D-and L-selenomethionine content determination in selenized yeast.     

Simultaneous chiral separation of triadimefon and triadimenol by sulfated beta-cyclodextrin-mediated capillary electrophoresis

Enantiomeric separation of two triazole fungicides, triadimefon and triadimenol, was investigated in sulfated beta-cyclodextrin (sulfated beta-CD)-mediated capillary electrophoresis (CE) systems. It was found that, at pH 2-4, sulfated beta-CD exhibited strong chiral recognition towards both triadimefon and triadimenol. The enantiorecognition was believed to result from the multiple interactions between sulfated beta-CD and the analytes, which included inclusion effect, electrostatic interaction, and hydrogen bonding. Under optimal conditions (phosphate buffer with 2% sulfated beta-CD, pH 2.5), simultaneous resolution of all chiral isomers of triadimefon and triadimenol was achieved in less than half an hour. In conjunction with solvent extraction and subsequent enrichment by solid-phase extraction (SPE), this new enantioseparation method was applied successfully in the study of stereoselectivity associated with the biotransformation of triadimefon to triadimenol by soil microorganisms. The present methodology was superior to the commonly adopted chiral gas chromatography (GC) approach in that a very mild procedure was involved from sample extraction to the ultimate chiral separation. Thus, the disturbance of the enantiomeric distribution patterns of the original soil samples by heat stress was an unlikely scenario. Furthermore, it was discovered that, owing to the unique selectivity of the present separation strategy, there was virtually no interference from the soil matrix, which led to improvements in both sensitivity and selectivity in real sample determination.