一测多评法在中药质量控制中的应用及研究进展＊

一测多评法（quantitative analysis of multi-components by single marker，QAMS）已成熟应用于中药材、中药提取物及中成药领域等中药复杂体系的质量评价研究中，有效解决了因对照品缺乏而导致的多指标质控技术推广难问题。本文查阅近五年的国内外研究文献，重点总结了高效液相色谱、气相色谱和质谱等技术在QAMS法中药质量控制中的应用。高效液相色谱联用紫外检测器（UV）技术应用最为广泛，最适合于中药QAMS法定量，结果稳定、准确；而高效液相色谱联用蒸发光检测器在中药QAMS法应用中，其测定准确性和适用性仍然需进一步探索和验证。液质联用技术虽然具有灵敏度高、线性范围宽等优点，但易受仪器参数、基质效应等的影响。进一步发展HPLC-UV技术在中成药制剂质量评价中的应用，是QAMS法多成分定量值得关注的方向；探索LC-MS和GC技术在中药QAMS质量评价中的稳定性和普适性是未来将面临的挑战。     

UPLC-MS/MS测定人痰液中异烟肼、吡嗪酰胺和左氧氟沙星的浓度

目的建立超高效液相色谱串联质谱法(UPLC-MS/MS)同时检测痰液中3种药物异烟肼(isoniazid,INH)、左氧氟沙星(levofloxacin,LFX)和吡嗪酰胺(pyrazinamide,PZA)浓度的方法,冒在为实现临床个体化用药提供帮助。方法痰液样品离心后经甲醇/乙腈蛋白沉淀法预处理后进样液质联用仪进行分析。实验采用的流动相A为含0.1%甲酸的水溶液,流动相B为含0.1%甲酸的乙腈;流速0.35mL·min^-1;采用ACQUITY UPLAC HSS T31.8μm column(2.1mm×100mm,Waters公司)分离;采用电喷零电离源,采用多反应监测(multiple reaction monitoring,MRM)模式对待测物进行正离子扫描检测。此外,本试验盲态收集5例患者的痰液,用该法进行定量分析。结果测得痰液中INH、PZA和LFX分别在48~6000 ng·mL^-1(r=0.9988)、480~60000 ng·mL^-1(r=0.9993)、120~15000 ng·mL^-1(r=0.9995)内表现出良好的线性关系。INH、PZA和LFX 3种药物的日内和日间精密度均低于15%,且3种药物的提取回收率均处于97.21%~107.80%之间。7例受试者体内均检测到药物INH,质量浓度分别为44.74、120.1、301.5、481、595.5、1220及1570 ng·mL^-1;PZA的质量浓度分别为104.2、6273.34和3185 ng·mL^-1;1例受试者检出LFX,质量浓度为199.86 ng·mL^-1。结论本试验建立了痰液中INH、PZA及LFX的检测方法,具有灵敏度高、测定结果准确、快速等诸多优点,可以应用于临床治疗药物的监测。     

利用电子顺磁波谱技术研究红参对羟自由基的清除作用

目的 探索电子顺磁波谱（electron paramagnetic resonance，EPR）技术检测红参清除自由基活性的适合产生体系，并研究红参对羟自由基（?OH）的清除作用及其物质基础。方法 采用电子顺磁共振波谱仪检测不同浓度的红参提取液对?OH的体外清除作用，并用液质联用技术（LC-MS）分析红参中的主要皂苷成分，然后研究这些人参皂苷成分对?OH的清除作用。结果 确定了羟自由基的生成体系为：Fe²⁺ 0.1 mmol?L^-1、H₂O₂ 500 mmol?L^-1、DMPO 225 mmol?L^-1；不同浓度的红参提取液对?OH具有明显的清除作用，且其清除?OH的效力与浓度成正相关；LC-MS分析显示该红参提取液中主要含有Rh1、Rf、Rb3、F1、F2、Rg3、Rg5等成分，其中人参皂苷Rg5的清除自由基活性最强。结论 本研究建立了用EPR技术研究红参清除自由基活性的适合产生体系，红参具有明显的清除?OH的能力，且人参皂苷Rg5是其清除自由基的活性成分之一，确定了红参抗自由基的主要物质基础，为红参及人参皂苷Rg5的开发、应用提供了科学依据和理论基础。     

LC-MS/MS based detection and characterization of covalent glutathione modifications formed by reactive drug of abuse metabolites

1. Conjugation with the tripeptide glutathione (GSH) is a common mechanism of detoxification of many endogenous and exogenous compounds. This phenomenon typically occurs through the formation of a covalent bond between the nucleophilic free thiol moiety of GSH and an electrophilic site on the compound of interest.

2. While GSH adducts have been identified for many licit drugs, there is a lack of information on the ability of drugs of abuse to adduct GSH. The present study utilized a metabolic assay with GSH as a nucleophilic trapping agent to bind reactive drug metabolites formed in situ.

3. Extracted ion MS spectra were collected via LC-QqQ-MS/MS for all potentially significant ions and examined for fragmentation common to GSH-containing compounds, followed by confirmation of adduction and structural characterization performed by LC-QTOF-MS/MS.

4. In addition to the two positive controls, of the 14 drugs of abuse tested, 10 exhibited GSH adduction, with several forming multiple adducts, resulting in a total of 22 individual identified adducts. A number of these are previously unreported in the literature, including those for diazepam, naltrexone, oxycodone and Δ⁹-THC.

     

Simultaneous determination of LY3214996, abemaciclib,and M2 and M20 metabolites in human plasma,cerebrospinal fluid,and brain tumor by LC-MS/MS

A sensitive and rapid liquid chromatography tandem mass spectrometry (LC-MS/MS) method was established for the quantification of total and unbound concentrations of LY3214996, an extracellular signal-regulated kinase inhibitor; abemaciclib, a cyclin-dependent kinase 4/6 inhibitor; and abemaciclib active metabolites, M2 and M20, in human plasma, brain tumor, and cerebrospinal fluid samples. The method was validated over a concentration range of 0.2–500 nM within a total run time of 3.8 min using isocratic elution on a Kinetex™ F₅ column. Detection was performed on a Sciex QTRAP 6500+ mass spectrometer employing multiple reaction monitoring mode under positive electrospray ionization. The intra- and inter-batch accuracy as well as the precision of the method for all matrices was within ±20% and ≤20% at the lower limit of quantification, and within ±15% and ≤15% for other quality control levels for all analytes. The unbound fractions of drugs and metabolites in spiked and patient samples were determined using an optimized equilibrium dialysis. The validated method was successfully applied in a phase 0/2 clinical trial to assess the central nervous system penetration of LY3214996 and abemaciclib.     

Influence of harvest season on chemical composition and bioactivity of wild rue plant hydroalcoholic extracts

The rue (Ruta graveolens) copiousness in rural areas of the Campania Region based a thorough chemical and biological investigation aimed at exploring the seasonal variability of phenol constituents in rue leaves and its influence on their antioxidant, cytotoxic and anti-inflammatory capabilities. To this purpose, hydroalcoholic extracts were prepared from plant samples seasonally collected. LC-ESI-MS/MS techniques were employed to analyze qualitatively and quantitatively the seasonal rue phenol content, whereas different chemical antioxidant assays (by DPPH, ABTS, Fe³⁺ RP, ORAC, and FCR methods) and XTT redox metabolic activity assay were performed to screen the seasonal phenol complex-related antioxidant and cytotoxic power. The ability of the rue leaf extracts to counteract cyclooxygenase-2 (COX-2) expression was also evaluated. Data obtained highlighted that the adopted extraction procedure markedly pauperized the furanocoumarin content in all the prepared rue extracts. Flavonol glycosides, along with the flavone acacetin and two sinapic acid derivatives were the main constituents of the spring harvest-derived extract, which exerted the highest antioxidant capability in cell-free systems and was capable to inhibit COX-2 synthesis by 44% comparably to dexamethasone, used as positive control. Data provide new insights for developing a proper management of rue plants for new safe industrial purposes in herbal medicine field.     

Cytokine-induced endogenous production of prostaglandin D2 is essential for human group 2 innate lymphoid cell activation

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Post-aggression suicide under the influence of new psychoactive substances AMB–FUBINACA and U-47700

The objective of the present study was the development and validation of the method for determining AMB-FUBINACA and its metabolite - AMB-FUBINACA O-desmethyl acid – in blood samples, followed by verification of the method in toxicological judicial and forensic medicine practice employing the example of post-aggression suicide. Most likely in consequence of development of adverse effects resulting in psychotic symptoms, a male being under the influence of the synthetic cannabinoid AMB-FUBINACA and the new synthetic opioid U-47700, mortally wounded his female partner and subsequently committed suicide. Identification and determination of the afore-mentioned xenobiotics in blood samples collected from the male and female victims were performed employing high performance liquid chromatography coupled with electrospray ionization tandem mass spectrometry (HPLC-ESI-MS/MS). The analytes were isolated from blood samples using the solid phase extraction (SPE) method. The blood samples collected from the male and female demonstrated respectively 110 and 196 ng/mL of AMB-FUBINACA O-desmethyl acid metabolite, 1935 and 357 ng/mL of U-47700, 250 and 200 ng/mL of N-desmethyl-U-47700, as well as 410 and 200 ng/mL of N,N-didesmethyl-U-47700. The concentration values of new psychoactive substances (NPS’s) in blood samples originating from the male and female were within the ranges encountered in cases of poisoning, including these resulting in death. Nevertheless, the evident signs of exsanguination proof that the woman was alive when she sustained lethal injuries. The presented cases illustrate the difficult to be anticipated effect exerted on the users by NPS’s.     

Simultaneous determination of cardiovascular drugs in dried blood spot by liquid chromatography-tandem mass spectrometry

A dried blood spot (DBS) sampling method was exploited to extract cardiovascular drugs using a small volume of whole blood of human and rodent. Thereafter, an analytical method using liquid chromatography with tandem mass spectrometry (LC-MS/MS) was developed and validated for the determination of 12 cardiovascular drugs. A 6 mm internal diameter disc containing 10 μL of blood was punched from a specifically designed card and analyzed by LC-MS/MS using a gradient elution method with a total run time of 16 min. For sample separation, a universal octadecyl-silica column was used with a flow rate of 0.2 mL/min. The developed method was validated in terms of linearity, accuracy, and precision, which showed satisfactory results. In addition, the matrix effects were closely investigated to confirm the extraction efficiency. Additionally, the stability was tested by storing DBSs at room temperature; the results showed that these drugs were stable for at least 30 days. Accordingly, the proposed LC-MS/MS method is capable to analyze several cardiovascular drugs in a single analysis. It can be applied to therapeutic drug monitoring in patients as well as in the in vivo settings.     

Forced Oxidative Degradation Pathways of the Imidazole Moiety of Daclatasvir

Daclatasvir hydrochloride (DCV) is the active pharmaceutical ingredient of Daklinza, a marketed product for the treatment of hepatitis C viral infection. The intrinsic stability of daclatasvir was evaluated via a forced degradation study. DCV was found to be stable in the solid state. In solution, its carbamate moiety is susceptible to basic hydrolysis, whereas its imidazole is liable to base-mediated autoxidation to form degradants 1 and 3, 7-8, respectively. The imidazole moiety can also be oxidized to form degradants 6-7 in the presence of hydrogen peroxide or azobisisobutyronitrile. The chloro-adduct degradant 9 was also observed in hydrogen peroxide solution. Furthermore, the imidazole moiety is sensitive to photodegradation in solution. Degradants 2-8 were observed in a solution of DCV exposed to high intensity light/UV light; the formation of degradants 2 and 5-8 was postulated through 4 degradation pathways. The degradants 3 and 4 were deemed to be secondary degradants of 7 and 5, respectively.