Comparison of genotoxic impurities in extracted nicotine vs. synthetic nicotine.

IF 3.8 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Frontiers in Chemistry Pub Date : 2024-10-14 eCollection Date: 2024-01-01 DOI:10.3389/fchem.2024.1483868
Ayesha Nisathar, Hui Chen, Xiaoli Lei, Zeyu Zeng, Jia Chen
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引用次数: 0

Abstract

Nicotine is a chiral alkaloid; nitrogen-containing organic compound that occurs naturally. (S)-nicotine is extracted from Tobacco plants and used as the key addictive ingredient in many smoking products. Synthetic nicotine has gained the interest of many smoking product manufacturers over the last few decades due to the ease and low cost of manufacturing. Another claimed advantage of synthetic nicotine is the absence of genotoxic impurities that form during the extraction process of nicotine. These impurities are other plant alkaloids, phenolic compounds, and heavy metals. Additionally, the U. S. FDA has implemented new regulations on the quality control of synthetic nicotine. However, only a very few research articles have been published on assessing the complete impurity profile of synthetic nicotine. Therefore, the need to know the composition difference between tobacco-extracted nicotine vs. synthetic nicotine is highly necessary. In this research study, the impurity profile of thirteen different lots of synthetic nicotine was compared with fourteen lots of nicotine extracted from plants using in-house analytical methods. First, the samples were tested for other alkaloids and phenols by reversed-phase High-Performance Liquid Chromatography (HPLC). Second, the chiral purity was analyzed by normal phase HPLC. Third, lead and arsenic content were tested by atomic absorption and fluorescence spectrometry. Fourth, nicotine-specific nitrosamines were tested by LC-MS. The reversed phase HPLC data suggested similar quantities of total impurities in both synthetic and tobacco-extracted nicotine (0.1%). However, synthetic nicotine lacks some impurities such as cotinine, nornicotine, and nicotine-N-oxide. Additionally, the synthetic nicotine lots used in this study have high enantiomeric purity similar to the tobacco-extracted nicotine.

提取尼古丁与合成尼古丁中基因毒性杂质的比较。
尼古丁是一种手性生物碱;是天然存在的含氮有机化合物。(S)-尼古丁是从烟草植物中提取的,是许多烟草产品中的主要致瘾成分。由于合成尼古丁易于制造且成本低廉,在过去的几十年里,合成尼古丁引起了许多烟草制品制造商的兴趣。合成尼古丁的另一个优点是不含尼古丁提取过程中形成的基因毒性杂质。这些杂质包括其他植物生物碱、酚类化合物和重金属。此外,美国食品和药物管理局对合成尼古丁的质量控制实施了新的规定。然而,只有极少数研究文章对合成尼古丁的全部杂质情况进行了评估。因此,了解烟草提取的尼古丁与合成尼古丁之间的成分差异是非常必要的。在这项研究中,我们采用内部分析方法,比较了 13 个不同批次的合成尼古丁和 14 个批次的植物提取尼古丁的杂质概况。首先,采用反相高效液相色谱法(HPLC)检测了样品中的其他生物碱和酚类物质。其次,采用正相高效液相色谱法分析手性纯度。第三,采用原子吸收和荧光光谱法检测铅和砷的含量。第四,采用 LC-MS 检测尼古丁特异性亚硝胺。反相高效液相色谱数据表明,合成尼古丁和烟草提取的尼古丁中的总杂质含量相似(0.1%)。不过,合成尼古丁中缺少一些杂质,如可替宁、烟碱和尼古丁-N-氧化物。此外,本研究中使用的合成尼古丁与烟草提取尼古丁的对映体纯度很高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Frontiers in Chemistry
Frontiers in Chemistry Chemistry-General Chemistry
CiteScore
8.50
自引率
3.60%
发文量
1540
审稿时长
12 weeks
期刊介绍: Frontiers in Chemistry is a high visiblity and quality journal, publishing rigorously peer-reviewed research across the chemical sciences. Field Chief Editor Steve Suib at the University of Connecticut is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to academics, industry leaders and the public worldwide. Chemistry is a branch of science that is linked to all other main fields of research. The omnipresence of Chemistry is apparent in our everyday lives from the electronic devices that we all use to communicate, to foods we eat, to our health and well-being, to the different forms of energy that we use. While there are many subtopics and specialties of Chemistry, the fundamental link in all these areas is how atoms, ions, and molecules come together and come apart in what some have come to call the “dance of life”. All specialty sections of Frontiers in Chemistry are open-access with the goal of publishing outstanding research publications, review articles, commentaries, and ideas about various aspects of Chemistry. The past forms of publication often have specific subdisciplines, most commonly of analytical, inorganic, organic and physical chemistries, but these days those lines and boxes are quite blurry and the silos of those disciplines appear to be eroding. Chemistry is important to both fundamental and applied areas of research and manufacturing, and indeed the outlines of academic versus industrial research are also often artificial. Collaborative research across all specialty areas of Chemistry is highly encouraged and supported as we move forward. These are exciting times and the field of Chemistry is an important and significant contributor to our collective knowledge.
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