Hertrich Sarah M, Boyd Glenn, Sites Joseph, Niemira Brendan A
Food Safety and Intervention Technologies Unit, U.S. Department of Agriculture, Agricultural Research Service, Eastern Regional Research Center, 600 East Mermaid Lane, Wyndmoor, Pennsylvania 19038, USA.
J Food Prot. 2017 Dec;80(12):2132-2136. doi: 10.4315/0362-028X.JFP-17-242.
Customer demand for convenient food products has led to an increased production of prepackaged and ready-to-eat food products. Most of these products rely mainly on surface disinfection and other traditional approaches to ensure shelf life and safety. Novel processing techniques, such as cold plasma, are currently being investigated to enhance the safety and shelf life of prepacked foods. The purpose of this study was to determine the effects of cold plasma corona discharge on the inactivation of Salmonella on prepackaged, tomato-and-lettuce mixed salads. Two different inoculation methods were evaluated to address cross-contamination of Salmonella from cherry tomatoes to lettuce and vice versa. In separate studies, a sample of either cherry tomatoes (55 g) or romaine lettuce (10 g) was inoculated with a Salmonella cocktail (6.93 ± 0.99 log CFU/mL), placed into a commercial polyethylene terephthalate plastic container, and thoroughly mixed together with its noninoculated counterpart. Mixed salads were allowed to dry in a biosafety cabinet for 1 h. Samples were treated with 35 kV cold plasma corona discharge inside plastic containers for 3 min. Samples were stomached and serially diluted in buffered peptone water and then were plated onto aerobic plate count Petrifilm and incubated for 18 h at 37°C. When lettuce was the inoculated counterpart, log kill of Salmonella was significantly greater on tomatoes (0.75 log CFU/g) compared with lettuce (0.34 log CFU/g) (P = 0.0001). Salmonella was reduced on mixed salad only when lettuce was the inoculated counterpart (0.29 log CFU/g) (P = 0.002). Cold plasma can kill Salmonella in a prepackaged mixed salad, with efficacy dependent on the nature of contamination, direction of transfer, and the surface topography of the contaminated commodity.
消费者对方便食品的需求促使预包装即食食品的产量增加。这些产品大多主要依靠表面消毒和其他传统方法来确保保质期和安全性。目前正在研究诸如冷等离子体等新型加工技术,以提高预包装食品的安全性和保质期。本研究的目的是确定冷等离子体电晕放电对预包装番茄和生菜混合沙拉中沙门氏菌灭活的影响。评估了两种不同的接种方法,以解决沙门氏菌从樱桃番茄交叉污染到生菜以及反之亦然的问题。在单独的研究中,用沙门氏菌混合菌液(6.93±0.99 log CFU/mL)接种一份樱桃番茄(55克)或长叶生菜(10克)样本,放入商用聚对苯二甲酸乙二醇酯塑料容器中,并与未接种的对应样本充分混合。混合沙拉在生物安全柜中晾干1小时。样本在塑料容器内用35 kV冷等离子体电晕放电处理3分钟。将样本匀浆并在缓冲蛋白胨水中进行系列稀释,然后接种到需氧平板计数Petrifilm上,于37°C培养18小时。当生菜是接种对象时,与生菜(0.34 log CFU/g)相比,番茄上沙门氏菌的对数杀灭率显著更高(0.75 log CFU/g)(P = 0.0001)。仅当生菜是接种对象时,混合沙拉上的沙门氏菌才会减少(0.29 log CFU/g)(P = 0.002)。冷等离子体可杀死预包装混合沙拉中的沙门氏菌,其效果取决于污染的性质、转移方向以及被污染商品的表面形貌。
