Nanoencapsulation with Eudragit® and chia mucilage increases the stability and antifungal efficacy of carvacrol against Aspergillus spp.

IF 2.3 3区 农林科学 Q2 CHEMISTRY, APPLIED
Athos Aramis Tópor Nunes, Flávio Fonseca Veras, Fabiola Ayres Cacciatore, Rafaela Diogo Silveira, Patrícia da Silva Malheiros, Juliane Elisa Welke
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Abstract

Carvacrol is a consolidated natural antimicrobial. However, its use in food is a challenge due to characteristic odour and high volatility. Nanoencapsulation has emerged to overcome these drawbacks. Aspergillus spp. represent a concern in grapes for causing rot and producing mycotoxins. This study aimed to evaluate the effect of carvacrol (unencapsulated and loaded into Eudragit® and chia nanocapsules) on the growth of Aspergillus species. Spore germination and mycelial growth of Aspergillus spp. were evaluated using the agar dilution culture method. The stability of nanocapsules during storage was monitored monthly by evaluating the particle size distribution, polydispersity index, and zeta potential. Antifungal and antitoxigenic effectiveness of nanocapsules were assessed by counting fungal colony-forming units and determining mycotoxin levels in grapes. A dose-dependent effect of carvacrol (unencapsulated and encapsulated forms) on spore germination and mycelial growth was observed. During 180 days of storage, carvacrol into Eudragit® nanocapsules preserved their nanometric dimensions, whereas chia nanocapsules maintained this characteristic for 30 days. The antifungal effectiveness of both encapsulated forms persisted for 210 days. No mycotoxin was found, even when fungal growth was not completely suppressed. Nanoencapsulated carvacrol proved to be a new promising antifungal product to ensure quality and safety in the grape production chain.

用 Eudragit® 和奇异果粘液进行纳米封装可提高香芹酚的稳定性和对曲霉菌属的抗真菌功效。
香芹酚是一种综合天然抗菌剂。然而,由于其特有的气味和高挥发性,将其用于食品是一项挑战。纳米封装技术的出现克服了这些缺点。葡萄中的曲霉菌会导致葡萄腐烂并产生霉菌毒素,这也是一个令人担忧的问题。本研究旨在评估香芹酚(未封装和装入 Eudragit® 和奇异纳米胶囊)对曲霉菌生长的影响。采用琼脂稀释培养法评估了曲霉菌属的孢子萌发和菌丝生长情况。通过评估粒度分布、多分散指数和 zeta 电位,每月监测纳米胶囊在储存期间的稳定性。通过计算真菌菌落形成单位和测定葡萄中的霉菌毒素水平,评估了纳米胶囊的抗真菌和抗毒素效果。观察到香芹酚(未封装和封装形式)对孢子萌发和菌丝生长有剂量依赖性影响。在 180 天的储存过程中,Eudragit® 纳米胶囊中的香芹酚保持了其纳米尺寸,而奇异果纳米胶囊则在 30 天内保持了这一特性。两种封装形式的抗真菌效果均可持续 210 天。即使真菌生长没有完全被抑制,也没有发现霉菌毒素。纳米香芹酚胶囊被证明是一种有前途的新型抗真菌产品,可确保葡萄生产链的质量和安全。
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来源期刊
CiteScore
7.40
自引率
6.90%
发文量
136
审稿时长
3 months
期刊介绍: Food Additives & Contaminants: Part A publishes original research papers and critical reviews covering analytical methodology, occurrence, persistence, safety evaluation, detoxification and regulatory control of natural and man-made additives and contaminants in the food and animal feed chain. Papers are published in the areas of food additives including flavourings, pesticide and veterinary drug residues, environmental contaminants, plant toxins, mycotoxins, marine biotoxins, trace elements, migration from food packaging, food process contaminants, adulteration, authenticity and allergenicity of foods. Papers are published on animal feed where residues and contaminants can give rise to food safety concerns. Contributions cover chemistry, biochemistry and bioavailability of these substances, factors affecting levels during production, processing, packaging and storage; the development of novel foods and processes; exposure and risk assessment.
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