首页 > 过刊浏览>2025年第44卷第1期 >239-245. DOI:10.13300/j.cnki.hnlkxb.2025.01.026
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可食性抑菌保鲜膜及其在水产品保藏中的应用研究进展
作者:
作者单位:

1.河北经贸大学生物科学与工程学院,石家庄 050061;2.河北省禽肉深加工技术创新中心,石家庄 050221;3.石家庄洛杉奇食品有限公司,石家庄 050221

作者简介:

赵士豪,E-mail:zhaoshihao_1@163.com

通讯作者:

刘晓柳,E-mail:liuxiaoliu@heuet.edu.cn

中图分类号:

S983

基金项目:

国家自然科学基金项目(32202233);河北省高等学校科学技术研究项目(QN2022085);河北经贸大学科学研究与发展计划项目(2023SGYB02);石家庄市鹿泉区产学研科技合作项目(鹿科工 2022 32号);河北省在读研究生创新能力培养项目(CXZZSS2024083)


Research progress of edible antimicrobial cling film and its application in preservation of aquatic product
Author:
Affiliation:

1.College of Bioscience and Engineering,Hebei University of Economics and Business, Shijiazhuang 050061,China;2.Hebei Provincial Poultry Deep Processing Technology Innovation Center,Shijiazhuang 050221,China;3.Shijiazhuang Luoshanqi Food Company Limited,Shijiazhuang 050221,China

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    摘要:

    可食性保鲜膜因原料来源安全、可降解等特点被广泛应用,添加了活性抑菌成分的可食性抑菌保鲜膜能有效缓解产品的水分流失和氧化劣变,对有害微生物具有较好的抑制效果。水产品在我国居民食品消费中占有重要地位,但捕捞后高效保鲜是影响其食用安全性的首要因素。为推动可食性抑菌保鲜膜在食品保藏中的应用,同时为水产品保藏提供新的思路和理论依据,本文从成膜基质、抗菌活性成分的抑菌作用和物理阻隔三方面介绍可食性抑菌保鲜膜的抑菌机制,从湿法制膜和干法制膜2种成膜工艺及可食性抑菌保鲜膜在水产品保藏中的应用研究、市场现状等方面展开综述,指出可食性抑菌保鲜膜作为环境友好型包装材料,在商业化应用上具有较大的潜力,然而要实现其大规模应用仍面临诸多挑战。

    Abstract:

    Edible cling film is widely used due to the safety of raw material source and its degradability. The edible antibacterial cling film added with active antibacterial ingredients can effectively alleviate the moisture loss and oxidative deterioration of the product,and has a good inhibition effect on harmful microorganisms. Aquatic products occupy an important position in the food consumption of Chinese residents,but efficient preservation after fishing is the primary factor affecting its food safety. In order to promote the application of edible antibacterial cling film in food preservation and provide new ideas and theoretical basis for aquatic product preservation,in this paper,the antibacterial mechanism of edible antibacterial cling film was introduced from three aspects of film-forming matrix,antibacterial activity of ingredients and physical barrier. Two kinds of film-forming technology,wet film-making and dry film-making,and the application research and market status of edible antibacterial cling film in aquatic product preservation were reviewed. It is pointed out that edible antibacterial cling film,as an environment-friendly packaging material,has great potential for commercial application,but there are still many challenges to realize its large-scale application.

    图1 湿法制膜工艺流程图Fig.1 Flow chart of wet film process
    图2 干法制膜工艺流程图Fig.2 Flow chart of dry film process
    参考文献
    [1] BEAUMONT N J,AANESEN M,AUSTEN M C,et al. Global ecological,social and economic impacts of marine plastic[J]. Marine pollution bulletin,2019,142:189-195.
    [2] 李雪,贺稚非,李洪军.可食性膜在肉及肉制品保鲜贮藏中的应用研究进展[J].食品与发酵工业,2019,45(2):233-239.LI X,HE Z F,LI H J.Research progress of edible film in preservation and storage of meat and meat products[J].Food and fermentation industries,2019,45(2):233-239 (in Chinese with English abstract).
    [3] NUNES C,SILVA M,FARINHA D,et al. Edible coatings and future trends in active food packaging-fruits’ and traditional sausages’ shelf life increasing [J/OL]. Foods,2023,12(17):3308[2024-01-23]. https://doi.org/10.3390/foods12173308.
    [4] 李莹,杨欣悦,王雪羽,等.壳聚糖基复合膜的成膜机理和特性研究进展[J].食品工业科技,2022,43(7):430-438.LI Y,YANG X Y,WANG X Y,et al.Research progress on the film-forming mechanism and characteristics of chitosan-based composite membranes[J].Science and technology of food industry,2022,43(7):430-438 (in Chinese with English abstract).
    [5] TABARI M.Investigation of carboxymethyl cellulose (CMC) on mechanical properties of cold water fish gelatin biodegradable edible films[J/OL].Foods,2017,6(6):41[2024-01-23].https://doi.org/10.3390/foods6060041.
    [6] 李帅,钟耕辉,刘玉梅.多糖类可食性膜的研究进展[J].食品科学,2018,39(3):309-316.LI S,ZHONG G H,LIU Y M.Progress in edible films prepared with polysaccharides[J].Food science,2018,39(3):309-316 (in Chinese with English abstract).
    [7] SUCHETA,CHATURVEDI K,SHARMA N,et al.Composite edible coatings from commercial pectin,corn flour and beetroot powder minimize post-harvest decay,reduces ripening and improves sensory liking of tomatoes[J].International journal of biological macromolecules,2019,133:284-293.
    [8] 李晓雁,曹博强,杨红澎,等.三赞胶-海藻酸钠可食用复合膜的制备及性能[J].食品工业科技,2021,42(19):255-260.LI X Y,CAO B Q,YANG H P,et al.Preparation and properties of sanxan/sodium alginate edible composite film[J].Science and technology of food industry,2021,42(19):255-260 (in Chinese with English abstract).
    [9] 郭利芳,马玲,赵勇.含Nisin的乳清蛋白涂膜在火腿肠包装中的应用[J].食品工业科技,2017,38(22):210-214.GUO L F,MA L,ZHAO Y.Application of whey protein isolate with Nisin coatings in preservation of ham[J].Science and technology of food industry,2017,38(22):210-214 (in Chinese with English abstract).
    [10] 郭新华,辛彦,王雷,等.大豆蛋白添加量与成膜环境对大豆分离蛋白膜的影响[J].包装工程,2011,32(9):5-8.GUO X H,XIN Y,WANG L,et al.Effect of soy protein isolate dosage and environment on performance of soy protein isolate film[J].Packaging engineering,2011,32(9):5-8 (in Chinese with English abstract).
    [11] RUIZ-MARTINEZ J,AGUIRRE-JOYA J A,ROJAS R,et al. Candelilla wax edible coating with flourensia cernua bioactives to prolong the quality of tomato fruits[J/OL]. Foods,2020,9:1303 [2024-01-23].https://www.webofscience.com/wos/alldb/full-record/WOS:000581238500001.DOI:10.3390/foods9091303.
    [12] TOMáS S A,BOSQUEZ-MOLINA E,STOLIK S,et al.Effects of mesquite gum-candelilla wax based edible coatings on the quality of guava fruit (Psidium guajava L.)[J].Journal de physique IV (proceedings),2005,125:889-892.
    [13] 杨振彦,李巧玲.壳聚糖膜的改性及在废水处理中的应用进展[J].应用化工,2018,47(9):1991-1995.YANG Z Y,LI Q L.Modification of chitosan membrane and its application in wastewater treatment[J]. Applied chemical industry,2018,47(9):1991-1995 (in Chinese with English abstract).
    [14] ZHU F.Polysaccharide based films and coatings for food packaging:effect of added polyphenols[J/OL].Food chemistry,2021,359:129871[2024-01-23]. https://doi.org/10.1016/j.foodchem.2021.129871.
    [15] SAHARIAH P,MáSSON M.Antimicrobial chitosan and chitosan derivatives:a review of the structure-activity relationship[J].Biomacromolecules,2017,18(11):3846-3868.
    [16] IMRE B,GARCíA L,PUGLIA D,et al.Reactive compatibilization of plant polysaccharides and biobased polymers:review on current strategies,expectations and reality[J].Carbohydrate polymers,2019,209:20-37.
    [17] 老莹,胡文忠,冯可,等.天然抑菌剂的抑菌机理及其在果蔬保鲜中的应用[J].食品与发酵工业,2018,44(9):288-293.LAO Y,HU W Z,FENG K,et al.Application of natural antimicrobial agents on fruits and vegetables preservation and its mechanism[J].Food and fermentation industries,2018,44(9):288-293 (in Chinese with English abstract).
    [18] 郝元元.可食性抑菌膜的研制与开发[D].呼和浩特:内蒙古农业大学,2013.HAO Y Y.Research and development of edible antimicrobial film[D].Hohhot:Inner Mongolia Agricultural University,2013 (in Chinese with English abstract).
    [19] 管骁,李律,刘静,等.大麦醇溶蛋白/纳米TiO2可食性膜的抑菌效果及对草莓的保鲜作用[J].生物加工过程,2016,14(6):61-65.GUAN X,LI L,LIU J,et al.Antibacterial effects of hordein/nano-TiO2 composite film and its application for strawberry preservation[J].Chinese journal of bioprocess engineering,2016,14(6):61-65 (in Chinese with English abstract).
    [20] ZHEN N,WANG X Y,LI X,et al.Protein-based natural antibacterial materials and their applications in food preservation[J].Microbial biotechnology,2022,15(5):1324-1338.
    [21] HASSAN B,CHATHA S A S,HUSSAIN A I,et al.Recent advances on polysaccharides,lipids and protein based edible films and coatings:a review[J].International journal of biological macromolecules,2018,109:1095-1107.
    [22] DEHGHANI S,HOSSEINI S V,REGENSTEIN J M.Edible films and coatings in seafood preservation:a review[J].Food chemistry,2018,240:505-513.
    [23] BENBETTA?EB N,DEBEAUFORT F,KARBOWIAK T.Bioactive edible films for food applications:mechanisms of antimicrobial and antioxidant activity[J].Critical reviews in food science and nutrition,2019,59(21):3431-3455.
    [24] ?IMAT V,?AGALJ M,SKROZA D,et al.Sustainable sources for antioxidant and antimicrobial compounds used in meat and seafood products[J].Advances in food and nutrition research,2021,97:55-118.
    [25] VALENCIA-CHAMORRO S A,PALOU L,DEL RíO M A,et al.Antimicrobial edible films and coatings for fresh and minimally processed fruits and vegetables:a review[J].Critical reviews in food science and nutrition,2011,51(9):872-900.
    [26] ZHANG D,IVANE N M A,HARUNA S A,et al.Recent trends in the micro-encapsulation of plant-derived compounds and their specific application in meat as antioxidants and antimicrobials[J/OL].Meat science,2022,191:108842[2024-01-17]. https://doi.org/10.1016/j.meatsci.2022.108842.
    [27] OCHOA-VELASCO C E,PEREZ-PEREZ J C,VARILLAS-TORRES J M,et al. Starch edible films/coatings added with carvacrol and thymol: in vitro and in vivo evaluation against Colletotrichum gloeosporioides[J/OL].Foods,2021,10(1):175[2024-01-23]. https://doi.org/10.3390/foods10010175.
    [28] BAI X,LI X,LIU X,et al. Antibacterial effect of eugenol on Shigella flexneri and its mechanism[J/OL].Foods,2022,11(17):2565[2024-01-23]. https://doi.org/10.3390/foods 11172565.
    [29] VILAS DHUMAL C,PAL K,SARKAR P.Synthesis,characterization,and antimicrobial efficacy of composite films from guar gum/sago starch/whey protein isolate loaded with carvacrol,citral and carvacrol-citral mixture[J/OL].Journal of materials science:materials in medicine,2019,30(10):117[2024-01-23].https://doi.org/10.1007/s10856-019-6317-8.
    [30] 蓝蔚青,刘嘉莉,翁忠铭,等.10种植物精油对腐生葡萄球菌抑制效果比较及肉桂精油抑菌机制分析[J].食品科学,2020,41(19):38-44.LAN W Q,LIU J L,WENG Z M,et al.Effects of ten plant essential oils and antimicrobial mechanism of cinnamon essential oil against Staphylococcus saprophyticus[J].Food science,2020,41(19):38-44 (in Chinese with English abstract).
    [31] ONYEAKA H,PASSARETTI P,MIRI T,et al.The safety of nanomaterials in food production and packaging[J].Current research in food science,2022,5:763-774.
    [32] HARIS M,HUSSAIN T,MOHAMED H I,et al. Nanotechnology-a new frontier of nano-farming in agricultural and food production and its development[J/OL].The science of the total environment,2023 857(3):159639 [2024-01-23].http://doi.prg/10.1016/j.scitotenv.2022.1596399.
    [33] NAJAFI Z,KAHN C J F,BILDIK F,et al.Pullulan films loading saffron extract encapsulated in nanoliposomes;preparation and characterization[J].International journal of biological macromolecules,2021,188:62-71.
    [34] CAI L Y,WANG Y R,CAO A L.The physiochemical and preservation properties of fish sarcoplasmic protein/chitosan composite films containing ginger essential oil emulsions[J/OL].Journal of food process engineering,2020,43(10):e13495[2024-01-23]. https://onlinelibrary.wiley.com/doi/10.1111/jfpe.13495.
    [35] UMARAW P,VERMA A K.Comprehensive review on application of edible film on meat and meat products:an eco-friendly approach[J].Critical reviews in food science and nutrition,2017,57(6):1270-1279.
    [36] PRAKOSO F,INDIARTO R,UTAMA G L. Edible film casting techniques and materials and their utilization for meat-based product packaging[J/OL]. Polymers (Basel),2023,15(13): 2800[2024-01-23].http://doi.org/10.3390/polym15132800.
    [37] OLIVEIRA DA SILVA A,CORTEZ-VEGA W R,PRENTICE C,et al.Development and characterization of biopolymer films based on bocaiuva (Acromonia aculeata) flour[J].International journal of biological macromolecules,2020,155:1157-1168.
    [38] SUHAG R,KUMAR N,PETKOSKA A T,et al.Film formation and deposition methods of edible coating on food products:a review[J/OL].Food research international,2020,136:109582[2024-01-23].https://doi.org/10.1016/j.foodres.2020.109582.
    [39] FOROUHI N G,MISRA A,MOHAN V,et al.Dietary and nutritional approaches for prevention and management of type 2 diabetes[J/OL].BMJ,2018,361:k2234[2024-01-23]. https://doi.org/10.1136%2Fbmj.k2234.
    [40] WALLIN A,DI GIUSEPPE D,ORSINI N,et al.Fish consumption,dietary long-chain n-3 fatty acids,and risk of type 2 diabetes:systematic review and meta-analysis of prospective studies[J].Diabetes care,2012,35(4):918-929.
    [41] HELLBERG R S,MIRELES DEWITT C A,MORRISSEY M T.Risk-benefit analysis of seafood consumption:a review[J].Comprehensive reviews in food science and food safety,2012,11(5):490-517.
    [42] YIN T,SHI L. Processing and preservation of aquatic products[J/OL].Foods,2023,12(10):2061 [2024-01-23].https://doi.org/10.3390/foods12102061.
    [43] 贺莹,刘恩悦,庞晓婷,等.姜黄素/壳聚糖可食性复合膜对鲈鱼片保鲜效果的研究[J].印刷与数字媒体技术研究,2023(5):83-91.HE Y,LIU E Y,PANG X T,et al.Effects of curcumin/chitosan edible composite film on the preservation of bass slices[J].Printing and digital media technology study,2023(5):83-91 (in Chinese with English abstract).
    [44] 吴双杰,智锦锦,王德华,等.光敏性壳聚糖基复合膜在南美白对虾保鲜中的应用[J].食品工业科技,2023,44(21):367-372.WU S J,ZHI J J,WANG D H,et al.Application of photosensitive chitosan-based composite films in the preservation of Litopenaeus vannamei[J].Science and technology of food industry,2023,44(21):367-372 (in Chinese with English abstract).
    [45] 蒋雨心,孙悦溪,杨晓玲,等.葡萄籽提取物、茶多酚可食性活性包装膜对罗非鱼的保鲜作用[J].食品与发酵工业,2024,50(6):169-176.JIANG Y X,SUN Y X,YANG X L,et al.Freshness preservation of tilapia by grape seed extract and tea polyphenol edible active packaging film[J].Food and fermentation industries,2024,50(6):169-176 (in Chinese with English abstract).
    [46] PARK K J,LEE J S,JO H J,et al.Antimicrobial and indicator properties of edible film containing clove bud oil-loaded chitosan capsules and red cabbage for fish preservation[J].International journal of biological macromolecules,2022,196:163-171.
    [47] 王鹏,郭丽,王红新,等.透明质酸-大豆β-伴球蛋白涂膜对微冻鲤鱼的保鲜效果[J].食品安全质量检测学报,2022,13(23):7613-7621.WANG P,GUO L,WANG H X,et al.Preservation effects of hyaluronic acidsoybean β-conglobulin coating film on superchilling of Cyprinus carpio meat[J].Journal of food safety & quality,2022,13(23):7613-7621 (in Chinese with English abstract).
    [48] CASTRO F V R,ANDRADE M A,SANCHES SILVA A,et al.The contribution of a whey protein film incorporated with green tea extract to minimize the lipid oxidation of salmon (Salmo salar L.)[J/OL].Foods,2019,8(8):E327[2024-01-23]. https://doi.org/10.3390/foods8080327.
    [49] YU D W,REGENSTEIN J M,ZANG J H,et al.Inhibitory effects of chitosan-based coatings on endogenous enzyme activities,proteolytic degradation and texture softening of grass carp (Ctenopharyngodon idellus) fillets stored at 4 ℃[J].Food chemistry,2018,262:1-6.
    [50] WANG Q Y,LEI J,MA J J,et al.Effect of chitosan-carvacrol coating on the quality of Pacific white shrimp during iced storage as affected by caprylic acid[J].International journal of biological macromolecules,2018,106:123-129.
    [51] TRANSPARENCY M R. Edible packaging market outlook 2023[EB/OL][2024-01-23].https://www.transparency market research.com/edible-packaging-market.html.
    [52] HAMED I,JAKOBSEN A N,LERFALL J.Sustainable edible packaging systems based on active compounds from food processing byproducts:a review[J].Comprehensive reviews in food science and food safety,2022,21(1):198-226.
    [53] NOTPLA. Notpla disappearing packaging[EB/OL][2024-01-23]. https://www.notpla.com/.2024.
    [54] MERCK. Edible packaging [EB/OL][2024-01-23].https://www.merckgroup.com.cn/cn-zh/stories/human-disposal.html.2018-08-20.
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赵士豪,窦梦思,巨浩羽,曹倩倩,刘晓柳.可食性抑菌保鲜膜及其在水产品保藏中的应用研究进展[J].华中农业大学学报,2025,44(1):239-245

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