UHPLC测定芎菊上清丸中9种成分含量及化学模式分析

目的 建立UHPLC波长切换法同时测定芎菊上清丸中9种成分的含量方法。方法 采用Agilent Ecilipse C₁₈（2.1 mm×100 mm,1.6 μm）色谱柱,流动相：甲醇-0.05%磷酸水溶液,梯度洗脱;流速为0.3 mL·min^-1;检测波长：327,237,320,345,278,254 nm;柱温30℃;进样量2 μL;并采用SPSS 22.0统计软件对含量测定结果进行主成分分析与聚类分析。结果 绿原酸、3,5-二咖啡酰奎宁酸、栀子苷、甘草苷、阿魏酸、盐酸小檗碱、黄芩苷、升麻素苷、5-O-甲基维斯阿米醇苷线性范围分别为4.30~68.80 μg·mL^-1（r=0.999 0）、6.66~106.56 μg·mL^-1（r=0.999 2）、7.67~122.72 μg·mL^-1（r=0.999 4）、4.88~78.08 μg·mL^-1（r=0.999 1）、2.37~37.92 μg·mL^-1（r=0.999 1）、6.50~103.92 μg·mL^-1（r=0.999 2）、8.85~141.60 μg·mL^-1（r=0.999 4）、0.88~14.08 μg·mL^-1（r=0.999 7）、0.74~11.92 μg·mL^-1（r=0.999 3）;平均加样回收率（n=9）均在99.42%~103.10%,RSD均<2.0%。主成分分析与聚类分析均可将不同生产厂家的芎菊上清丸很好地分类,且分类结果一致。结论 所建立的多成分方法快捷、准确、重复性好,可用于芎菊上清丸的质量控制。     

HPLC同时测定通脉颗粒中丹参素、原儿茶醛、丹酚酸B、阿魏酸和葛根素的含量

目的 建立通脉颗粒中丹参素、原儿茶醛、丹酚酸B、阿魏酸和葛根素的HPLC测定方法。方法 采用Welch Ultimate XD-C₁₈色谱柱（4.6 mm×250 mm,5 μm）,以乙腈-0.1%三氟乙酸为流动相,梯度洗脱,双波长检测（282,305 nm）,柱温35℃,流速1.0 mL·min^-1。结果 丹参素、丹酚酸B、原儿茶醛、葛根素和阿魏酸的线性范围分别为3.117~62.33 μg·mL^-1（r=0.998 7）,4.044~80.88 μg·mL^-1（r=0.9985）,1.280~25.60 μg·mL^-1（r=0.997 9）,7.964~159.3 μg·mL^-1（r=0.992 8）,1.980~39.60 μg·mL^-1（r=0.999 1）;平均回收率分别为101.6%（RSD=1.62%）,99.7%（RSD=1.76%）,97.4%（RSD=1.19%）,99.9%（RSD=1.52%）,102.2%（RSD=1.56%）。结论 该方法操作简便、快速,结果准确,可用于通脉颗粒的质量控制。     

HPLC同时测定坤泰胶囊中毛蕊花糖苷、芍药苷和黄芩苷含量

目的 建立HPLC同时测定坤泰胶囊中毛蕊花糖苷、芍药苷和黄芩苷含量的方法，为完善现有质量标准提供参考。方法 采用Phenomsil C₁₈（4.6 mm×250 mm，5 μm）色谱柱；以乙腈为流动相A，以0.1%乙酸为流动相B，采用梯度洗脱；流速为1.0 mL·min^-1；柱温为35℃；毛蕊花糖苷的检测波长为334 nm，芍药苷检测波长为230 nm，黄芩苷的检测波长为280 nm。结果 毛蕊花糖苷在3.27~32.68 μg·mL^-1内线性关系良好，平均回收率为98.4%，RSD为0.68%（n=6）；芍药苷在17.65~176.51μg·mL^-1内线性关系良好，平均回收率为99.2%，RSD为1.08%（n=6）；黄芩苷在48.78~487.77 μg·mL^-1内线性关系良好，平均回收率为97.7%，RSD为0.87%（n=6）。结论 该方法简便、快捷、结果准确、重复性好，可应用于坤泰胶囊的质量控制。     

芥辛化痰通窍巴布剂的质量标准研究

目的 建立芥辛化痰通窍巴布剂的质量标准。方法 对芥辛化痰通窍巴布剂中白芥子、延胡索、甘遂和细辛采用TLC定性鉴别;采用HPLC对芥子碱硫氰酸盐、延胡索乙素和细辛脂素进行定量测定。结果 薄层色谱法鉴别斑点清晰,分离度好,阴性无干扰;芥子碱硫氰酸盐在20.2~202.0 μg·mL^-1（r=0.999 4）、延胡索乙素在1.312~20.992 μg·mL^-1（r=0.999 7）和细辛脂素在1.925~38.500 μg·mL^-1（r=0.999 4）内与峰面积的线性关系良好;芥子碱硫氰酸盐的平均回收率为99.06%,RSD=2.20%;延胡索乙素的平均回收率为98.66%,RSD=2.35%;细辛脂素的平均回收率为99.75%,RSD=1.74%。结论 该法简便、准确、重复性好,可用于芥辛化痰通窍巴布剂的质量控制。     

HPLC测定沅江产芦笋中3种酚酸和6种黄酮类成分含量

目的 建立同时测定沅江产芦笋中原儿茶酸、绿原酸、香草酸、柚皮苷、芦丁、槲皮素、木犀草素、山奈酚、芹菜素含量的HPLC。方法 采用Diamonsil C₁₈色谱柱（250 mm×4.6 mm,5 μm）,以甲醇-0.1%甲酸水溶液为流动相,梯度洗脱,双波长检测（酚酸：283,327 nm;黄酮：283,335 nm）,流速1 mL·min^-1,柱温35℃,进样量为10 μL。结果 3种酚酸及6种黄酮分别在25 min和50 min内分离,线性范围为14.8~500 μg·mL^-1（r=0.999 0~0.999 7）,检测限0.006 3~0.053 9 μg·mL^-1,定量限0.021 1~0.179 7 μg·mL^-1,加样回收率为98.73%~102.44%,RSD为1.27%~2.20%（n=6）。结论 该方法准确灵敏、重复性好,可用于检测芦笋中9种成分含量。     

HPLC波长切换法同时测定心神安胶囊中9种成分的含量

目的 建立HPLC波长切换法同时测定心神安胶囊中9种成分的含量。方法 采用Agilent Eclipse XDB-C₁₈色谱柱,流动相乙腈（A）-0.1%甲酸溶液（B）,梯度洗脱;流速0.9 mL·min^-1;检测波长分别为320 nm[检测远志（口山）酮Ⅲ、3,6''-二芥子酰基蔗糖]、203 nm （检测人参皂苷Rb₁、绞股蓝皂苷XLIX、绞股蓝皂苷XVⅡ）和254 nm （检测毛蕊异黄酮葡萄糖苷、芒柄花苷、毛蕊异黄酮、芒柄花素）;柱温25℃。结果 远志（口山）酮Ⅲ、3,6''-二芥子酰基蔗糖、人参皂苷Rb₁、绞股蓝皂苷XLIX、绞股蓝皂苷XVⅡ、毛蕊异黄酮葡萄糖苷、芒柄花苷、毛蕊异黄酮、芒柄花素分别在2.070~41.40 μg·mL^-1（r=0.999 2）、3.860~77.20 μg·mL^-1（r=0.999 6）、11.29~225.8 μg·mL^-1（r=0.999 8）、5.070~101.4 μg·mL^-1（r=0.999 9）、19.86~397.2 μg·mL^-1（r=0.999 5）、1.280~25.60 μg·mL^-1（r=0.999 1）、0.960 0~19.20 μg·mL^-1（r=0.999 3）、0.670 0~13.40 μg·mL^-1（r=0.999 7）、2.580~51.60 μg·mL^-1（r=0.999 1）内线性关系良好,平均回收率分别为98.04%,99.26%,99.05%,97.42%,100.0%,98.27%,97.81%,96.84%和99.86%,RSD分别为1.28%,0.82%,1.43%,1.43%,0.86%,1.26%,1.38%,1.16%和0.69%。结论 本方法操作简便、准确、重复性好,能够对心神安胶囊中9种成分进行同时含量测定,为提高和完善心神安胶囊的质量标准提供了有效方法。     

CO2超临界流体色谱法同时测定莪术油中3个倍半萜类成分的含量

目的 建立CO₂超临界流体色谱法测定莪术油中呋喃二烯、牻牛儿酮和莪术二酮含量的方法。方法 采用ACQUITY UPC² HSS C₁₈ SB色谱柱（3.0 mm×150 mm,1.8 μm）,以CO₂-乙腈为流动相,梯度洗脱;流速为1.0 mL·min^-1;检测波长为216 nm,柱温为55℃,背压为2 000 psi。结果 呋喃二烯在2.67~1 337.26μg·mL^-1内线性关系良好（r=1.000）,加样回收率为97.94%（n=6,RSD=1.50%）。牻牛儿酮在2.77~1 386.00 μg·mL^-1内线性关系良好（r=1.000）,加样回收率为96.07%（n=6,RSD=1.68%）;莪术二酮在6.99~3 493.00 μg·mL^-1内线性关系良好（r=1.000）,加样回收率为99.33%（n=6,RSD=1.88%）。结论 本方法快捷准确、稳定且绿色环保,可用于莪术油中上述3个倍半萜类成分的质量控制。     

HPLC测定肾炎宁片中大黄酸、大黄素、大黄酚及雷公藤甲素的含量

目的 建立HPLC测定肾炎宁片中大黄酸、大黄素、大黄酚及雷公藤甲素的含量。方法 大黄酸、大黄素、大黄酚的测定采用流动相为甲醇-0.1%磷酸（70∶30）,检测波长为254 nm;雷公藤甲素采用流动相为乙腈-水（25∶75）,检测波长为220 nm;两者均采用Lichrospher-C₁₈柱（4.6 mm×250 mm,5 mm）,流速均为1.0 ml·min^-1。结果 大黄酸、大黄素、大黄酚以及雷公藤甲素分别在1.83~14.64 μg·ml^-1（r=0.999 9）,2.895~23.16 μg·ml^-1（r=0.999 8）,7.625~61.00 μg·ml^-1 （r=0.999 8）以及1.52~24.32 μg·ml^-1（r=0.999 6）内与峰面积呈良好的线性关系,大黄酸平均回收率为103.2%,RSD=1.73% （n=9）;大黄素平均回收率为98.6%,RSD=3.94%（n=9）;大黄酚平均回收率为98.3%,RSD=2.54%（n=9）;雷公藤甲素平均回收率为99.61%,RSD=2.83%（n=9）。结论 本方法准确、可靠、专属性强,可作为该制剂的定量控制方法。     

HPLC同时测定复方鱼腥草片中4个有效成分的含量

目的 建立HPLC同时测定复方鱼腥草片中绿原酸、连翘酯苷A、槲皮苷和黄芩苷含量的方法。方法 采用CAPCELL PAK MG（4.6 mm×250 mm,5μm）色谱柱,流动相为乙腈（A）-0.1%磷酸溶液（B）,梯度洗脱（0~12 min,9% A;12~15 min,9%→15% A;15~32 min,15% A;32~48 min,15%→29% A;48~60 min,29% A）,流速1.0 mL·min^-1,柱温35℃,检测波长：330 nm。结果 绿原酸、槲皮苷浓度在2~100 μg·mL^-1内,连翘酯苷A浓度在4~200 μg·mL^-1内,黄芩苷浓度在12~600 μg·mL^-1内,与峰面积均呈良好的线性关系（r=0.999 9）;平均回收率（n=6）分别为98.0%,99.8%,99.1%和98.3%,RSD均<2.0%。结论 建立的HPLC可实现同时测定绿原酸、连翘酯苷A、槲皮苷和黄芩苷4种有效成分,方法快速、简便、结果准确,可为复方鱼腥草片提供更全面、可靠的质量控制方法。     

HPLC同时测定川芎清脑颗粒中8种成分

目的 建立同时测定川芎清脑颗粒中绿原酸、阿魏酸、升麻素苷、黄芩苷、汉黄芩苷、黄芩素、汉黄芩素、蛇床子素的HPLC方法。方法 采用Agilent Poroshell 120 EC-C₁₈色谱柱（150 mm×4.6 mm，2.7 μm），流动相为甲醇-0.05%的磷酸溶液，梯度洗脱，检测波长分别为330 nm（绿原酸、阿魏酸、蛇床子素），280 nm（黄芩苷、汉黄芩苷、黄芩素、汉黄芩素），254 nm（升麻素苷）。结果 绿原酸、阿魏酸、升麻素苷、黄芩苷、汉黄芩苷、黄芩素、汉黄芩素、蛇床子素的线性范围分别为4.97~37.29，5.29~39.68，2.54~19.08，35.46~265.94，25.65~192.37，2.40~18.02，1.66~12.47，2.64~19.80 μg·mL^-1；精密度、稳定性、重复性试验的RSD<2%；平均回收率（n=6）均>90%。结论 该方法精确可信、操作简便快捷，可用于川芎清脑颗粒中各成分同时测定。     

Efficacy of gut lavage,hemodialysis, and hemoperfusion in the therapy of paraquat or diquat intoxication

Clinical and in vitro investigations were carried out to test the efficacy of gut lavage, hemodialysis, and hemoperfusion in the treatment of poisoning with paraquat or diquat. In a patient suffering from diquat intoxication 130 times more diquat was removed by gut lavage 30 h after ingestion than was removed by complete aspiration of the gastric contents.Determination of in vitro clearances for paraquat and diquat by hemodialysis showed that, at serum concentrations of 1–2 ppm, such as are frequently encountered in poisoning in man, toxicologically relevant quantities of herbicide cannot be removed from the body. At a concentration of 20 ppm, on the other hand, hemodialysis proved to be effective, the clearance being 70 ml/min at a blood flow rate of 100 ml/min. The efficacy of hemoperfusion with coated activated charcoal was on the whole better. Especially at concentrations around 1–2 ppm, the clearance values for hemoperfusion were some 5–7 times higher than those for hemodialysis.In a patient suffering from paraquat poisoning, both hemodialysis as well as hemoperfusion were carried out. The in vitro results could be confirmed: At serum concentrations of paraquat less than 1 ppm no clearance could be obtained by hemodialysis while by hemoperfusion with activated charcoal quite high clearance values were measured and the serum level dropped down to zero.

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Zusammenfassung Klinische Untersuchungen und Laboratoriumsversuche wurden durchgeführt, um die Wirksamkeit von Darmspülung, Hämodialyse und Hämoperfusion bei Paraquat- und Deiquat-Vergiftungen zu prüfen.Bei einem Patienten wurde 30 Std nach Deiquat-Aufnahme durch Darmspülung 130mal mehr Deiquat entfernt als durch vollständige Aspiration des Mageninhaltes. In vitro-Versuche ergaben, daß bei Blutserumkonzentrationen von 1–2 ppm, die bei Vergiftungen oft gemessen werden, durch Hämodialyse keine toxikologisch relevanten Paraquat- oder Deiquat-Mengen entfernt werden können. Dagegen erwies sich die Hämodialyse bei 20 ppm und einer Blutumlaufgeschwindigkeit von 100 ml/min mit einer Clearance von 70 ml/min als wirksam. Die Hämoperfusion mit beschicheter Aktivkohle war in diesen Versuchen aber eindeutig überlegen, denn insbesondere bei Konzentrationen um 1–2 ppm waren die Clearance-Werte 5–7mal höher als bei der Hämodialyse.Die in vitro-Ergebnisse wurden bei einem Patienten mit einer Paraquat-Vergiftung bestätigt: Bei Konzentrationen unter 1 ppm war die Hämodialyse wirkungslos, während durch Hämoperfusion relativ hohe Clearance-Werte erreicht wurden, so daß der Serumspiegel rasch unter die Nachweisgrenze abfiel.

     

In vitro studies on sterically stabilized liposomes (SL) as enzyme carriers in organophosphorus (OP) antagonism

This study describes a new approach for organophosphorous (OP) antidotal treatment by encapsulating an OP hydrolyzing enzyme, OPA anhydrolase (OPAA), within sterically stabilized liposomes. The recombinant OPAA enzyme was derived from Alteromonas strain JD6. It has broad substrate specificity to a wide range of OP compounds: DFP and the nerve agents, soman and sarin. Liposomes encapsulating OPAA (SL)* were made by mechanical dispersion method. Hydrolysis of DFP by (SL)* was measured by following an increase of fluoride ion concentration using a fluoride ion selective electrode. OPAA entrapped in the carrier liposomes rapidly hydrolyze DFP, with the rate of DFP hydrolysis directly proportional to the amount of (SL)* added to the solution. Liposomal carriers containing no enzyme did not hydrolyze DFP. The reaction was linear and the rate of hydrolysis was first order in the substrate. This enzyme carrier system serves as a biodegradable protective environment for the recombinant OP-metabolizing enzyme, OPAA, resulting in prolongation of enzymatic concentration in the body. These studies suggest that the protection of OP intoxication can be strikingly enhanced by adding OPAA encapsulated within (SL)* to pralidoxime and atropine.     

Aquatic Insects and Trace Metals: Bioavailability,Bioaccumulation, and Toxicity

Abstract

The uptake of metals from food and water sources by insects is thought to be additive. For a given metal, the proportions taken up from water and food will depend both on the bioavailable concentration of the metal associated with each source and the mechanism and rate by which the metal enters the insect. Attempts to correlate insect trace metal concentrations with the trophic level of insects should be made with a knowledge of the feeding relationships of the individual taxa concerned. Pathways for the uptake of essential metals, such as copper and zinc, exist at the cellular level, and other nonessential metals, such as cadmium, also appear to enter via these routes. Within cells, trace metals can be bound to proteins or stored in granules. The internal distribution of metals among body tissues is very heterogeneous, and distribution patterns tend to be both metal and taxon specific. Trace metals associated with insects can be both bound on the surface of their chitinous exoskeleton and incorporated into body tissues. The quantities of trace meals accumulated by an individual reflect the net balance between the rate of metal influx from both dissolved and particulate sources and the rate of metal efflux from the organism. The toxicity of metals has been demonstrated at all levels of biological organization: cell, tissue, individual, population, and community. Much of the literature pertaining to the toxic effects of metals on aquatic insects is based on laboratory observations and, as such, it is difficult to extrapolate the data to insects in nature. The few experimental studies in nature suggest that trace metal contaminants can affect both the distribution and the abundance of aquatic insects. Insects have a largely unexploited potential as biomonitors of metal contamination in nature. A better understanding of the physico-chemical and biological mechanisms mediating trace metal bioavailability and exchange will facilitate the development of general predictive models relating trace metal concentrations in insects to those in their environment. Such models will facilitate the use of insects as contaminant biomonitors.     

Steroidal sapogenin contents in some domestic plants

In order to find out the values of the steroid resources for the future use. the compositions and contents of steroidal sapogenins from 13 domestic plants have been investigated. As a result,Dioscorea nipponica, D. quinqueloba andSmilax china were found to have large amount of diosgenin. And pennogenin inTrillium kamtschaticum andParis verticillata, yuccagenin inAllium fistulosum, hecogenin inAgave americana and neochlorogenin inSolanum nigum were appeared to be major steroidal sapogenins.     

Alzheimer’s disease – current trends in basic and clinical research. Highlights from the 16th ECNP

Advances in the molecular biological knowledge of neuronal nicotinic acetylcholine receptors (nAChRs) have led to a growing interest by the pharmaceutical industry in the development of novel compounds that selectively modulate nAChR function. The ability of (-)-nicotine, an activator of nAChRs, to enhance attentional aspects of cognition in animals and humans, to exert neuroprotective and anxiolytic-like effects, and presumably to mediate the negative correlation between smoking and Alzheimer's (and Parkinson's) Disease, has focused interest on the potential therapeutic utility of modulators of nAChR function for treatment of some of the deficits associated with these progressive, neurodegenerative conditions. Numerous compounds are known which activate nAChRs and which might serve as lead compounds toward the development of such agents. The pharmacologic diversity of neuronal nAChR subtypes suggests the possibility of developing selective compounds which would have more favourable side-effect profiles than existing agents. This broader class of agents, collectively called cholinergic channel modulators (ChCMs), is anticipated to encompass compounds which would have more favourable side-effect profiles than existing agents, which generally exhibit low selectivity. This selectivity may be achieved by preferentially activating some subtypes of nAChRs (i.e., Cholinergic Channel Activators, ChCAs) or inhibiting the function of other subtypes (Cholinergic Channel Inhibitors, ChCIs). An overview of the biology of nAChRs and the rationale for the use of ChCMs for the treatment of dementia related to neurodegenerative diseases are presented, followed by a discussion of lead compounds and compounds under consideration for clinical evaluation.