共查询到20条相似文献,搜索用时 15 毫秒
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肉类及肉制品是人类日常饮食中获取营养物质的主要来源, 食用营养和健康的肉制品已成为人们健康饮食的消费观念。然而, 由于肉制品供应难以满足全球人口快速增长的需求、过量摄入红肉可能导致的健康隐患以及肉类生产对环境造成的负面影响等问题, 新型肉类替代品的出现为消费者提供了更多的选择。其中, 食用菌在我国具有悠久的食用历史, 其菌丝体的营养成分与子实体相近, 且栽培消耗的资源少。因此, 将食用菌菌丝体应用于肉制品中极具开发潜力。本文结合近年的研究成果, 主要介绍了当前典型工业栽培食用菌(双孢菇、香菇、平菇、金针菇)菌丝的性质特点和营养价值, 重点综述了食用菌菌丝蛋白的生产加工技术及其在肉制品中的应用, 并分析了目前食用菌菌丝体在肉制品中应用的阻碍因素, 为食用菌菌丝体肉制品的研发提供理论基础。 相似文献
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可食性膜是当前包装材料研究中较为热门课题,并已应用到商品流通许多领域,特别是在食品包装和保鲜领域;该文主要对各类可食性膜制备及膜改性工艺进行综述。 相似文献
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目的研究膜芯片技术检测肉类及其制品中动物源性成分,验证该技术的准确性及可行性。方法利用膜芯片检测肉制品中的动物源性成分,对样品中猪、牦牛、驴及羊源性成分的灵敏度、检出限进行相关实验,并就实际样品的检测与国家标准进行比较。结果该技术用于动物源性成分检测特异性良好,4种动物源性检测的灵敏度为0.1 ng,检出限为0.1%(w:w),适用的样品种类较广,实际样品的检测结果与国家标准荧光PCR法一致。结论该技术可作为快速筛选的方法,为肉制品的动物源性成分鉴定和掺假检测提供理论依据。 相似文献
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近年来双酚奶瓶、聚氯乙烯保鲜膜等食品安全事件屡屡引起社会关注,人们对绿色食品包装材料的需求日趋迫切,可降解、可食性包装是替代传统塑料包装材料的有效途径。本文阐述可食性薄膜的三种类型(蛋白膜、多糖膜和脂类膜)的分类和在动物性食品保鲜加工中的应用现状及问题。 相似文献
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Cheng‐Pei Chen Be‐Jen Wang Yih‐Ming Weng 《International Journal of Food Science & Technology》2010,45(5):1050-1055
Edible antimicrobial aloe/gelatin composite films with different ratio of freeze–dried aloe leaf gel powder and gelatin (aloe/gelatin = 5/0, 4/1, 3/2, 2/3, 1/4 and 0/5) were fabricated. The thickness of the resulting films was between 0.055 (aloe/gelatin = 0/5) and 0.157 mm (aloe/gelatin = 4/1). The mechanical properties including maximum elongation, tensile strength, elongation at break and break strength were determined. The mechanical properties were increased with the increasing amount of gelatin used in the composite formulation. The tensile strength for composite films with the ratio of 4/1, 3/2, 2/3, 1/4 and 0/5 was 4.12, 5.29, 6.96, 11.47 and 37.76 MPa, respectively. Citrobacter freundii, Escherichia coli, Enterobacter aerogens, Serratia marcescens, Staphylococcus aureus and Bacillus cereus were used in antimicrobial activity test. The results showed that antimicrobial activities of the composite films increased as the amount of aloe gel powder used in the composite films increased. The average area of inhibitory zones for films with composition of aloe/gelatin = 1/4 and aloe/gelatin = 4/1 was 1.63–2.38 and 3.82–4.80 cm2, respectively. 相似文献
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离子色谱法测定肉及肉制品中多聚磷酸盐的研究进展 总被引:2,自引:0,他引:2
多聚磷酸盐是肉及肉制品中常用的品质改良剂,但摄入过量的磷酸盐也会危害人体健康。离子色谱由于具有可对不同形态的多聚磷酸盐同时进行分离测定的优点,目前研究较多,然而多聚磷酸盐在肉制品中的分解给多聚磷酸盐的准确测定带来困扰。本文主要介绍了近年来国内应用离子色谱法测定肉及肉制品中多聚磷酸盐的研究成果,对于准确、快速选择适于实际样品测定的方法具有一定意义。 相似文献
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目的 了解亚硝酸盐速测盒的可靠性,为现场监督执法及基层快速检测提供有力的技术支撑。方法采用速测盒方法检测亚硝酸盐标准溶液、肉及肉制品中亚硝酸盐添加情况,并与《GB 5009.33-2016食品中亚硝酸盐与硝酸盐的测定》第二法(盐酸萘乙二胺法)进行对比。结果速测盒对亚硝酸盐最低检出限可达到0.1 mg/L;检测样品时,速测盒与盐酸萘乙二胺法阴性符合率为97.8%,阳性符合率为100.0%。不同环境温度下,只需将反应时间控制在5 min以上,则不会对检测结果产生影响。样品经简单处理后,显色剂滴加到样品提取液中,混匀后反应3~5 min,即可观察结果。检测单个样品20 min内即可出结果。结论速测盒法具有快速、准确、方便、灵敏等特点,适用于肉及肉制品中亚硝酸盐现场定性分析。 相似文献
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BackgroundIn recent years, there has been growing consumer demand for the minimally processed and chemical additives free Ready-To-Eat (RTE) healthier meat products. On the other hand processed and RTE meat products have been notified as the primary cause for food borne outbreaks in different countries that commonly associated with emerging pathogens such as Salmonella, Listeria monocytogenes and Escherichia coli species.Scope and approachHigh pressure processing (HPP) has been renewed as a best non-thermal intervention for extending the shelf-life and safety of RTE meat products without altering the sensory and nutritional properties. Meat products are complex medium with different physical and chemical compositions that influence the lethality of the microorganisms during HPP. Using high pressure levels (above 600 MPa) for complete sterility of meat products may not be economically feasible more over it may negatively affect the product quality characteristics. The present review aimed to explore the recent research investigations addressed the multi hurdle approaches to increase the effectiveness of HPP at lower processing levels in order to reduce the processing costs and to improve the safety and quality of processed meat products.Key findings and conclusionsThe combination of natural antimicrobials (plant bioactive compounds and bacteriocins) and antioxidants (plant phenolic compounds) as additional hurdles through different mechanisms (active and intelligent packaging) during HPP can definitely be an effective and innovative intervention in ensuring the complete safety of processed meat products. Moreover, the development of low salt meat products with optimum quality attributes can be highly possible through HPP technology. 相似文献