Prescription versus over-the-counter venotonics: HPLC-DAD and static digestive model simulation comparison.

IF 1.5 4区医学 Q3 PERIPHERAL VASCULAR DISEASE

International Angiology Pub Date : 2024-10-01 DOI:10.23736/S0392-9590.24.05291-X

Robert Novotny, Matyas Orsak, Jaromir Lachman, Kotikova Zora, Barbora Novotna, Jaroslav Hlubocky, Jan Pitha, Libor Janousek

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引用次数: 0

Abstract

Background: Venotonics are a class of therapeutically active molecules that have vaso-protective effects. They are used to alleviate venous diseases and disorders, particularly venous insufficiency. We compared the composition of prescription versus over-the-counter (OTC) venotonics using high-performance liquid chromatography with UV detection (HPLC-DAD) and simulating their digestion using a static digestive model.

Methods: From each drug, five tablets were weighed. A homogenate was prepared, and 25 mg of crushed homogenized tablets were weighed into 25 ml volumetric flasks. Dissolved in MeOH and added two drops of saturated NaOH solution. The samples were filtered into vials (Teflon, 0.45 μm) and used for analysis. An Ultimate 3000 HPLC system (Thermo Fisher Scientific, Waltham, MA, USA) consisting of a quaternization pump, autosampler, column thermostat and DAD (UV/VIS detector) was used. The composition of the mobile phase proceeded in a linear gradient from 30% methanol and 70% phosphoric acid (0.15%) in water at time t=0 min. to 80% methanol and 20% phosphoric acid (0.15%) at time t=15 min., at a constant mobile phase flow rate of 1.2 mL/min. Detection was performed using a DAD detector in the 190-450 nm wavelength range. The content of monitored flavonoids was calculated from peaks at a wavelength of 277 nm, in which both flavonoids have their absorption maxima. The static digestive model was used to simulate the digestive phase from the oral cavity to the corresponding intestinal phase.

Results: The content of diosmin and hesperidin (mg per table) for a prescription drug: Detralex: 480 mg, 26 mg. The content of diosmin and hesperidin (mg per tablet) for OTC drugs: Venostop: 502 mg, 48 mg, Diosminol: 520 mg, 50 mg, Devenal: 496 mg, 49 mg, Diohes: 493 mg, 46 mg. Digestion did not affect the solubility of all tested drugs. The active substances could not be determined in the non-alkalized sample. After alkalization, part of the insoluble matter was visibly dissolved and converted to a yellow flavonoid complex. Neither diosmin nor hesperidin could be identified afterwards.

Conclusions: Our experimental results show that the contents of both listed active substances, diosmin and hesperidin, met the declared amounts in all tested medicaments. Digestion simulation showed identical behaviour in prescription and OTC venotonics. The active substances could not be determined in the non-alkalized sample. Digestion did not affect the solubility of the tested drugs.

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处方与非处方毒液：HPLC-DAD和静态消化模型模拟比较。

背景：血管张力剂是一类具有血管保护作用的治疗活性分子。它们用于缓解静脉疾病和紊乱，特别是静脉功能不全。我们采用高效液相色谱-紫外检测（HPLC-DAD）比较处方和非处方（OTC）静脉强张剂的组成，并采用静态消化模型模拟其消化。方法：从每种药物中取5片称重。制备匀浆，将25mg粉碎匀浆的片剂称入25ml容量瓶中。在MeOH中溶解，加入两滴饱和NaOH溶液。将样品过滤入小瓶（Teflon, 0.45 μm）中进行分析。使用Ultimate 3000高效液相色谱系统（Thermo Fisher Scientific, Waltham， MA， USA），由季铵化泵、自动进样器、柱恒温器和DAD （UV/VIS检测器）组成。流动相的组成以线性梯度进行，从t=0 min时水中30%甲醇和70%磷酸（0.15%）到t=15 min时80%甲醇和20%磷酸（0.15%），流动相流速为1.2 mL/min。用DAD检测器在190 ~ 450 nm波长范围内进行检测。测定黄酮类化合物在277 nm处的含量，两种黄酮类化合物在277 nm处均有最大吸收峰。采用静态消化模型模拟从口腔到相应肠道的消化期。结果：某处方药中地奥司明、橙皮苷的含量（mg /表）：德曲利：480 mg、26 mg。非处方药地奥司明和橙皮苷的含量（毫克/片）：维诺止：502毫克、48毫克，地奥司醇：520毫克、50毫克，德维纳尔：496毫克、49毫克，地奥司醇：493毫克、46毫克。消化不影响所有被试药物的溶解度。未碱化样品中活性物质无法测定。碱化后，部分不溶物明显溶解并转化为黄色的类黄酮复合物。事后无法鉴定出地奥司明和橙皮苷。结论：我们的实验结果表明，所列活性物质地奥司明和橙皮苷的含量符合所有被试药物的申报量。消化模拟显示处方和非处方毒液的行为相同。未碱化样品中活性物质无法测定。消化不影响被试药物的溶解度。

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来源期刊

International Angiology 医学-外周血管病

CiteScore

2.80

自引率

28.60%

发文量

审稿时长

6-12 weeks

期刊介绍： International Angiology publishes scientific papers on angiology. Manuscripts may be submitted in the form of editorials, original articles, review articles, special articles, letters to the Editor and guidelines. The journal aims to provide its readers with papers of the highest quality and impact through a process of careful peer review and editorial work. Duties and responsibilities of all the subjects involved in the editorial process are summarized at Publication ethics. Manuscripts are expected to comply with the instructions to authors which conform to the Uniform Requirements for Manuscripts Submitted to Biomedical Editors by the International Committee of Medical Journal Editors (ICMJE).