对意大利两个种植基地的工业大麻花序中的微生物污染物进行了为期三年的调查。

IF 4.1 Q1 PHARMACOLOGY & PHARMACY
Gloria Spampinato, Francesco Candeliere, Alberto Amaretti, Roberta Paris, Massimo Montanari, Nino Virzì, Lorenzo Strani, Cinzia Citti, Giuseppe Cannazza, Maddalena Rossi, Stefano Raimondi
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引用次数: 0

摘要

背景:由于工业大麻(Cannabis sativa L.)富含宝贵的植物化学物质,如大麻二酚(CBD)和大麻萜醇(CBG),因此将其用于娱乐、药妆、保健品和医疗用途的势头日益强劲。然而,人们对在受控环境外种植的植物受到微生物污染的风险表示担忧。与大麻相关的微生物可以是附生微生物或内生微生物,可能会对人类造成感染性疾病的风险:从 2019 年到 2021 年,在卡塔尼亚和罗维戈两个不同的地理位置连续三年种植了七种意大利大麻基因型,包括 Bernabeo、Carmagnola、Carmaleonte、Codimono、CS、Eletta Campana 和 Fibranova。对需氧微生物总数(TAMC)、酵母菌/霉菌总数(TYMC)、耐胆汁革兰氏阴性菌的存在以及大肠埃希氏菌和沙门氏菌的不存在进行了评估和比较。对主要植物大麻素含量进行了测量,并将其与微生物污染相关联:结果:本研究分析的大多数样本都不符合《欧洲药典》的微生物限量标准。样品中检测到大肠杆菌和沙门氏菌等潜在病原体,这表明花序的使用可能是一个感染源。不同收获季节和生产地点的微生物污染情况各不相同,农业气候条件影响着微生物的数量和组成。潜在致病菌的存在与季节性气候变异的关系不大,更有可能受到来自外部的零星污染的影响。CBD 浓度与耐胆汁革兰氏阴性菌和酵母菌/霉菌总数呈负相关。CBD含量较低的样本比CBD含量较高的样本受到的污染更严重,这表明这种植物化学物质对植物具有潜在的保护作用:结论:工业大麻品种的脱粒残留物(花序、花苞片和叶子)是一种有价值的产品和有益植物化学物质的来源,值得进一步探索。虽然收获后消毒方法可降低微生物风险,但也可能降解对热和光敏感的生物活性植物化学物质。最有前途的策略是实施最佳农艺实践,以保持健康和未受污染的培养物。严格的监控和质量认证协议对于降低大麻衍生产品消费中的微生物风险至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A three-years survey of microbial contaminants in industrial hemp inflorescences from two Italian cultivation sites.

Background: The use of industrial Cannabis sativa L. for recreational, cosmeceutical, nutraceutical, and medicinal purposes has gained momentum due to its rich content of valuable phytochemicals, such as cannabidiol (CBD) and cannabigerol (CBG). However, there are concerns regarding the risk of microbial contamination in plants grown outside controlled environments. Microbes associated with hemp can be either epiphytes or endophytes and may pose a risk of infectious illness for humans.

Methods: Seven Italian hemp genotypes, including Bernabeo, Carmagnola, Carmaleonte, Codimono, CS, Eletta Campana, and Fibranova, were cultivated in two distinct geographic locations, Catania and Rovigo, for three consecutive years from 2019 to 2021. Total aerobic microbes (TAMC), total combined yeasts/moulds (TYMC), the presence of bile-tolerant Gram-negative bacteria, and the absence of Escherichia coli and Salmonella spp. were evaluated and compared. The main phytocannabinoid content was measured and correlated with microbial contamination.

Results: Most samples analyzed in this study did not meet the European Pharmacopoeia microbiological limits. The detection of potential pathogens, such as E. coli and Salmonella spp., in the samples indicates that the use of inflorescences may represent a possible source of infection. Microbial contamination varied among harvesting seasons and production sites, with agroclimatic conditions influencing microbial load and composition. The presence of potentially pathogenic bacteria was less associated with seasonal climate variability and more likely affected by sporadic contamination from external sources. CBD concentration exhibited a negative correlation with bile-tolerant Gram-negative bacteria and total yeasts/moulds levels. Samples with lower CBD content were more contaminated than those with higher CBD levels, suggesting a potential protective effect of this phytochemical on the plant.

Conclusions: The threshing residues (inflorescences, floral bracts, and leaves) of industrial hemp varieties represent a valuable product and a source of beneficial phytochemicals that warrants further exploration. While post-harvest sterilization methods may reduce microbiological risks, they may also degrade heat- and light-sensitive bioactive phytochemicals. The most promising strategy involves implementing best agronomic practices to maintain healthy and uncontaminated cultures. Rigorous monitoring and quality certification protocols are essential to mitigate the microbiological risk associated with the consumption of hemp-derived products.

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