含有不同有机酸类型和浓度的尼古丁盐溶液的电子烟中自由基的定量。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-05-22 DOI:10.1021/acs.chemrestox.4c00065
Lillian N. Tran, Guodong Rao, Nicholas E. Robertson, Haylee C. Hunsaker, Elizabeth Y. Chiu, Brett A. Poulin, Amy K. Madl, Kent E. Pinkerton, R. David Britt and Tran B. Nguyen*, 
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引用次数: 0

摘要

含有一系列有机酸共轭物和 pH 值尼古丁盐的电子(电子)香烟配方在商业市场上占据主导地位。尼古丁盐配方中的酸可能会改变电子烟中的氧化还原环境,影响电子烟气溶胶中自由基的形成。在这里,我们评估了在 2 wt % 尼古丁盐(pH 值为 7,丙二醇与植物甘油的混合比例为 30:70)条件下,第四代电子烟设备产生的气溶胶质量和自由基,以及电子烟液中使用的八种有机酸:苯甲酸 (BA)、水杨酸 (SLA)、乳酸 (LA)、乙酰丙酸 (LVA)、琥珀酸 (SA)、苹果酸 (MA)、酒石酸 (TA) 和柠檬酸 (CA)。此外,还研究了 2 wt % BA 尼古丁盐,其尼古丁与酸的比例如下:1:2(pH 值为 4)、1:1(pH 值为 7)和 2:1(pH 值为 8),与游离基尼古丁(pH 值为 10)进行比较。通过自旋俘获和电子顺磁共振(EPR)光谱对自由基产量进行了量化。尼古丁盐气溶胶中自由基的电子顺磁共振光谱与芬顿反应产生的自由基光谱相吻合,这些自由基主要是羟基(OH)自由基和其他活性氧(ROS)。虽然大多数测试的尼古丁盐和酸浓度形成的气溶胶质量没有明显差异,但在研究条件下,只有 BA、CA 和 TA 产生了明显的 ROS。含有 SLA、LA、LVA、SA 和 MA 的电子烟液产生的 ROS 量低于 2 wt % 游离基尼古丁电子烟液,这表明有机酸可能在产生和清除 ROS 方面发挥了双重作用。研究发现,BA 尼古丁盐的 ROS 产量随着酸浓度(或尼古丁与酸的比率)的提高而增加。观察发现,在第四代 Vape 设备产生的气溶胶中,BA 尼古丁盐产生的 ROS 量最高,且随酸浓度的增加而增加,这对 ROS 介导的健康结果具有重要影响,可能与消费者、制造商和监管机构有关。
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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Quantification of Free Radicals from Vaping Electronic Cigarettes Containing Nicotine Salt Solutions with Different Organic Acid Types and Concentrations

Electronic (e-) cigarette formulations containing nicotine salts from a range of organic acid conjugates and pH values have dominated the commercial market. The acids in the nicotine salt formulations may alter the redox environment in e-cigarettes, impacting free radical formation in e-cigarette aerosol. Here, the generation of aerosol mass and free radicals from a fourth-generation e-cigarette device was evaluated at 2 wt % nicotine salts (pH 7, 30:70 mixture propylene glycol to vegetable glycerin) across eight organic acids used in e-liquids: benzoic acid (BA), salicylic acid (SLA), lactic acid (LA), levulinic acid (LVA), succinic acid (SA), malic acid (MA), tartaric acid (TA), and citric acid (CA). Furthermore, 2 wt % BA nicotine salts were studied at the following nicotine to acid ratios: 1:2 (pH 4), 1:1 (pH 7), and 2:1 (pH 8), in comparison with freebase nicotine (pH 10). Radical yields were quantified by spin-trapping and electron paramagnetic resonance (EPR) spectroscopy. The EPR spectra of free radicals in the nicotine salt aerosol matched those generated from the Fenton reaction, which are primarily hydroxyl (OH) radicals and other reactive oxygen species (ROS). Although the aerosol mass formation was not significantly different for most of the tested nicotine salts and acid concentrations, notable ROS yields were observed only from BA, CA, and TA under the study conditions. The e-liquids with SLA, LA, LVA, SA, and MA produced less ROS than the 2 wt % freebase nicotine e-liquid, suggesting that organic acids may play dual roles in the production and scavenging of ROS. For BA nicotine salts, it was found that the ROS yield increased with a higher acid concentration (or a lower nicotine to acid ratio). The observation that BA nicotine salts produce the highest ROS yield in aerosol generated from a fourth-generation vape device, which increases with acid concentration, has important implications for ROS-mediated health outcomes that may be relevant to consumers, manufacturers, and regulatory agencies.

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