Anti-inflammatory and anti-allodynic activities in mice of the essential oil and desmethylisoencecalin from Zinnia grandiflora Nuttall

IF 2.2 3区 农林科学 Q3 CHEMISTRY, APPLIED Journal of Essential Oil Research Pub Date : 2022-09-20 DOI:10.1080/10412905.2022.2118880
Valeria Reyes-Pérez, V. Granados-Soto, E. Linares, R. Bye, R. Mata, M. Déciga-Campos
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Abstract

ABSTRACT Zinnia grandiflora (Asteraceae) is used to alleviate several painful disorders. The effects of an essential oil prepared by hydrodistillation from Z. grandiflora (EOZ) and its major compound on neuropathic pain, allodynia, and inflammation in mice were assessed. Headspace-solid phase microextraction analysis of an aqueous extract was also carried out. GC-MS analyses of all volatiles revealed that germacrene D (13.24%) and desmethylisoencecalin (DME) (13.24%) were the most abundant compounds. EOZ was effective in reducing inflammation and allodynia in mice. EOZ (300 mg/paw) reverted tactile allodynia more effectively than gabapentin (100 μg/paw). DME (0.1‒10 µg/paw) responses in the carrageenan model were concentration-dependent; the maximum effect was observed at 10 µg/paw, like that of diclofenac (30 μg/paw). In the spinal nerve ligation model, DME (0.1‒10 μg/paw) exerted a concentration-dependent anti-allodynic action; its effect was better than that of gabapentin. A method to quantify zinagrandinolide E in the crude drug was developed and validated.
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大花菊精油和去甲基异绿卡林对小鼠的抗炎和抗异动作用
桔梗百日菊(菊科)被用来缓解几种疼痛性疾病。研究了水蒸馏法制备的桔梗挥发油及其主要化合物对小鼠神经性疼痛、异常性疼痛和炎症的影响。对一种水提物进行了顶空固相微萃取分析。所有挥发物的GC-MS分析显示,germacrene D(13.24%)和desmethylisoencecalin(13.24%)是含量最多的化合物。EOZ能有效减轻小鼠的炎症和异位性疼痛。EOZ (300 mg/只)比加巴喷丁(100 μg/只)更有效地恢复触觉异常性痛。二甲醚(0.1 ~ 10µg/爪)在卡拉胶模型中的反应呈浓度依赖性;与双氯芬酸(30 μg/爪)相同,10 μg/爪的效果最大。在脊髓神经结扎模型中,DME (0.1 ~ 10 μg/爪)具有浓度依赖性的抗异动作用;其效果优于加巴喷丁。建立了测定药材中锌石榴内酯E含量的方法,并进行了验证。
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来源期刊
Journal of Essential Oil Research
Journal of Essential Oil Research 工程技术-食品科技
CiteScore
6.00
自引率
3.30%
发文量
52
审稿时长
18-36 weeks
期刊介绍: Journal of Essential Oil Research ( JEOR) is the major forum for the publication of essential oil research and analysis. Each issue includes studies performed on the chemical composition of some of the 20,000 aromatic plants known in the plant kingdom. JEOR is devoted entirely to all phases of research from every corner of the world by the experts in their field. JEOR''s main areas of focus include: -Analytical chemistry- Biological activity- Biotechnology- Chemical composition- Chemical synthesis- Chemosystematics- Microbiological activity- Plant biochemistry/biosynthesis- Toxicology. Published six times per year, JEOR provides articles on the aromatic principles of a plant or its isolates and are directed toward furthering our readers'' knowledge of the aromatic plant and animal kingdoms.
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