A practiced nanobiotechnology approach with the scope of nutrition, food safety, dietetics, gastronomy, and sustainability for humans by fish meat and fish products preservation – A review

Abdou E.S., Osheba A.S., Sorour M. (2012). Effect of chitosan and chitosan-nanoparticles as active coating on microbiological characteristics of fish fingers. Int. J. Appl. Sci. Technol., 2: 158–169. Search in Google Scholar

Ajeeshkumar K.K., Aneesh P.A., Raju N., Suseela M., Ravishankar C.N., Benjakul S. (2021). Advancements in liposome technology: Preparation techniques and applications in food, functional foods, and bioactive delivery: A review. Comp. Rev. Food Sci. F. Safe., 20: 1280–1306. Search in Google Scholar

Ashaolu T.J. (2021). Nanoemulsions for health, food, and cosmetics: A review. Enviro. Chem. Let., 19: 3381–3395. Search in Google Scholar

Aswathanarayan J.B., Vittal R.R. (2019). Nanoemulsions and their potential applications in food industry. Front. Sustain. Food Syst., 3: 1–21. Search in Google Scholar

Azmi N.A.N., Elgharbawy A.A.M., Motlagh S.R., Samsudin N., Salleh H.M. (2019). Nanoemulsions: factory for food, pharmaceutical and cosmetics. Processes, 7: 617. Search in Google Scholar

Behnam S., Anvari M., Rezaei M., Soltanian S., Safari R. (2015). Effect of nisin as a biopreservative agent on quality and shelf life of vacuum packaged rainbow trout (Oncorhynchus mykiss) stored at 4°C. J. Food Sci. Technol., 52: 2184–2192. Search in Google Scholar

Bonerba E., Ceci E., Bozzo G., Di Pinto A., Tantillo G. (2013). Analysis of the sulphite content in shrimps and prawns. Italian J. Food Safe., 2: 55–60. Search in Google Scholar

Bouletis A.D., Arvanitoyannis I.S., Hadjichristodoulou C. (2017). Application of modified atmosphere packaging on aquacultured fish and fish products: A review. Crit. Rev. Food Sci. Nutr., 11: 2263–2285. Search in Google Scholar

Çatak J., Çaman R., Yaman M., Ceylan Z. (2022). Effect of baking and grilling on B vitamins of selected fishes and chicken parts. J. Culi. Sci. Technol., 10.1080/15428052.2022.2060161 Search in Google Scholar

Çetinkaya T., Ceylan Z. (2019). Ambalajı açıldıktan sonra buzdolabında depolanan iki farklı tütsülenmiş balık ürününün mikrobiyal kalite değişimlerinin gözlenmesi. E. J. Sci. Technol., 17: 982–988. Search in Google Scholar

Ceylan Z. (2018). Use of characterized chitosan nanoparticles integrated in poly(vinyl alcohol) nanofibers as an alternative nanoscale material for fish balls. J. Food Saf., 38: 6-e12551. Search in Google Scholar

Ceylan Z. (2019). A new cost-effective process for limitation of microbial growth in fish fleshes: Wrapping by aluminum foil coated with electrospun nanofibers. J. Food Saf., 39: 5: e12697. Search in Google Scholar

Ceylan Z., Özoğul Y. (2019). Irradiation Technology. In: Innovative Technologies in Seafood Processing, CRC Press, pp. 115–130. Search in Google Scholar

Ceylan Z., Unal K. (2019). Farklı çözündürme yöntemlerinin dondurulmuş midye ve karides etlerinin kalite parametreleri üzerindeki etkisi. Tur. J. Agri.-F. Sci. Technol., 7: 927–933. Search in Google Scholar

Ceylan Z., Unal Sengor G. F., Sağdıç O., Yilmaz M.T. (2017). A novel approach to extend microbiological stability of sea bass (Dicentrarchus labrax) fillets coated with electrospun chitosan nanofibers. LWT, 79: 367–375. Search in Google Scholar

Ceylan Z., Meral R., Cavidoglu I., Yagmur Karakas C., Tahsin Yilmaz M. (2018 a). A new application on fatty acid stability of fish fillets: Coating with probiotic bacteria-loaded polymer-based characterized nanofibers. J. Food Saf., 38: e12547. Search in Google Scholar

Ceylan Z., Meral R., Karakaş C.Y., Dertli E., Yilmaz M.T. (2018 b). A novel strategy for probiotic bacteria: Ensuring microbial stability of fish fillets using characterized probiotic bacteria-loaded nanofibers. Innov. Food Sci. Emerg. Technol., 48: 212–218. Search in Google Scholar

Ceylan Z., Unal Sengor G.F., Basahel A., Yilmaz M.T. (2018 c). Determination of quality parameters of gilthead sea bream (Sparus aurata) fillets coated with electrospun nanofibers. J. Food Saf., 38: e12518. Search in Google Scholar

Ceylan Z., Unal Sengor G.F., Yilmaz M.T. (2018 d). Nanoencapsulation of liquid smoke/thymol combination in chitosan nanofibers to delay microbiological spoilage of sea bass (Dicentrarchus labrax) fillets. J. Food Eng., 229: 43–49. Search in Google Scholar

Ceylan Z., Yaman M., Sağdıç O., Karabulut E., Yilmaz M.T. (2018 e). Effect of electrospun thymol-loaded nanofiber coating on vitamin B profile of gilthead sea bream fillets (Sparus aurata). LWT, 98: 162–169. Search in Google Scholar

Ceylan Z., Meral R., Alav A., Karakas C.Y., Yilmaz M.T. (2020 a). Determination of textural deterioration in fish meat processed with electrospun nanofibers. J. Tex. Stud., 51: 917–924. Search in Google Scholar

Ceylan Z., Meral R., Kose S., Sengor G., Akinay Y., Durmus M., Ucar Y. (2020 b). Characterized nano-size curcumin and rosemary oil for the limitation microbial spoilage of rainbow trout fillets. LWT, 134: 109965. Search in Google Scholar

Ceylan Z., Meral R., Kose Y.E., Cavidoglu I. (2020 c). Wheat germ oil nanoemulsion for oil stability of the cooked fish fillets stored at 4°C. J. Food Sci. Technol., 57: 1798–1806. Search in Google Scholar

Ceylan Z., Meral R., Özogul F., Yilmaz M.T. (2020 d). Importance of electrospun chitosan-based nanoscale materials for seafood products safety. Hand. Ch. Chito., 1: 195–223. Search in Google Scholar

Ceylan Z., Kutlu N., Meral R., Ekin M.M., Kose Y.E. (2021 a). Protective effect of grape seed oil-loaded nanofibers: Limitation of microbial growth and lipid oxidation in kashar cheese and fish meat samples. Food Biosci., 42: 101076. Search in Google Scholar

Ceylan Z., Okat Ç., Koç P., Torusdağ G.B., Ocak E. (2021 b). Yerel mutfak kültürünün sürdürülebilirliği kapsamında van gastronomi rotası önerisi (Within the scope of the sustainability of local culinary culture van gastronomy route proposal). J. Tour. Gastro. Stud., 9: 2655–2669. Search in Google Scholar

Ceylan Z., Kılınc B., Yılmaz A., Ünal K., Ödenir B. (2022 a). Production of rosmarinic acid nanoparticles, and ınvestigation of antioxidation effects on salmon fish meat. J. Tur. Chem. Soc. Sec. A: Chem., 9: 311–320. Search in Google Scholar

Ceylan Z., Unal K., Kutlu N., Meral R., Balcı B.A., Doğu Baykut E. (2022 b). A novel gastronomy application technique for ready-toeat salmon meat samples: Curcumin and black seed oil nanofibers with sous vide cooking. J. Food Proc. Preser., 46: e16538. Search in Google Scholar

Çiçek S., Özoğul F. (2022). Nanotechnology-based preservation approaches for aquatic food products: A review with the current knowledge. Crit. Rev. Food Sci. Nutr., pp. 1–24. Search in Google Scholar

Donsì F., Ferrari G. (2016). Essential oil nanoemulsions as antimicrobial agents in food. J. Biotech., 233: 106–120. Search in Google Scholar

Donsì F., Annunziata M., Sessa M., Ferrari G. (2011). Nanoencapsulation of essential oils to enhance their antimicrobial activity in foods. LWT, 44: 1908–1914. Search in Google Scholar

Durmus M. (2020). The effects of nanoemulsions based on citrus essential oils (orange, mandarin, grapefruit, and lemon) on the shelf life of rainbow trout (Oncorhynchus mykiss) fillets at 4±2°C. J. Food Saf., 40: e12718. Search in Google Scholar

Ekin M.M., Kutlu N., Meral R., Ceylan Z., Cavidoglu İ. (2021). A novel nanotechnological strategy for obtaining fat-reduced cookies in bakery industry: Revealing of sensory, physical properties, and fatty acid profile of cookies prepared with oil-based nanoemulsions. Food Biosci., 42: 101184. Search in Google Scholar

Elsharawy N.T. (2018). Evaluation of residues and antibacterial effect of AgNPs containing packages of fish fillet. Inter. J. App. Sci. Technol., 8: 40–47. Search in Google Scholar

FAO (2020). The State of World Fisheries and Aquaculture 2020. Sustainability in Action. FAO. 244. Search in Google Scholar

Feng X., Tjia J.Y.Y., Zhou Y., Liu Q., Fu C., Yang H. (2020). Effects of tocopherol nanoemulsion addition on fish sausage properties and fatty acid oxidation. LWT, 118: 108737. Search in Google Scholar

García-Márquez E., Higuera-Ciapara I., Espinosa-Andrews H. (2017). Design of fish oil-in-water nanoemulsion by microfluidization. Innov. Food Sci. Emerg. Technol., 40: 87–91. Search in Google Scholar

Ghorbanzade T., Jafari S.M., Akhavan S., Hadavi R. (2017). Nanoencapsulation of fish oil in nano-liposomes and its application in fortification of yogurt. Food Chem., 216: 146–152. Search in Google Scholar

Gulzar S., Benjakul S. (2020). Characteristics and storage stability of nanoliposomes loaded with shrimp oil as affected by ultrasonication and microfluidization. Food Chem., 310: 125916. Search in Google Scholar

Homayounpour P., Jalali H., Shariatifar N., Amanlou M., Khanjari A. (2020). Protective effect of nanochitosan ıncorporated with free/nanoliposome cumin (Cuminum cyminum L.) aqueous extract on sardine fish. J. Aquat. Food Prod.Technol., 29: 949–961. Search in Google Scholar

Hosseini S.F., Soofi M., Rezaei M. (2021). Enhanced physicochemical stability of ω-3 PUFAs concentrates-loaded nanoliposomes decorated by chitosan/gelatin blend coatings. Food Chem., 345: 128865. Search in Google Scholar

Javadian S.R., Shahosseini S.R., Ariaii P. (2017). The effects of liposomal encapsulated thyme extract on the quality of fish mince and Escherichia coli O157:H7 inhibition during refrigerated storage. J. Aquat. Food Prod. Technol., 1: 115–123. Search in Google Scholar

Khanzadi S., Keykhosravy K., Hashemi M., Azizzadeh M. (2020). Alginate coarse/nanoemulsions containing Zataria multiflora Boiss essential oil as edible coatings and the impact on microbial quality of trout fillet. Aquat. Res., 3: 873–881. Search in Google Scholar

Khorasani S., Danaei M., Mozafari M.R. (2018). Nanoliposome technology for the food and nutraceutical industries. Trends Food Sci. Technol., 79: 106–115. Search in Google Scholar

Kuley E., Kuscu M.M., Durmus M., Ucar Y. (2021). Inhibitory activity of co-microencapsulation of cell free supernatant from Lactobacillus plantarum with propolis extracts towards fish spoilage bacteria. LWT, 146: 111433. Search in Google Scholar

Li Y., Li M., Qi Y., Zheng L., Wu C., Wang Z., Teng F. (2020). Preparation and digestibility of fish oil nanoemulsions stabilized by soybean protein isolate-phosphatidylcholine. Food Hydro., 100: 105310. Search in Google Scholar

Maghami M., Motalebi A.A., Anvar S.A.A. (2019). Influence of chitosan nanoparticles and fennel essential oils (Foeniculum vulgare) on the shelf life of Huso huso fish fillets during the storage. F. Sci. Nutr., 19: 3030–3041. Search in Google Scholar

McClements D.J. (2012). Nanoemulsions versus microemulsions: terminology, differences, and similarities. Soft Mat., 8: 1719–1729. Search in Google Scholar

Meral R., Ceylan Z., Kose S. (2019). Limitation of microbial spoilage of rainbow trout fillets using characterized thyme oil antibacterial nanoemulsions. J. Food Saf., 39: e12644. Search in Google Scholar

Meral R., Ekin M.M., Kutlu N., Erim Kose Y. (2022). The nanoemulsions: a new design and fat-reducing strategy for the bakery industry. Their effects on some quality attributes of fat-reduced cakes. J. Food Proc. Preser., 46: e17160. Search in Google Scholar

Mohammadi A., Jafari S.M., Esfanjani A.F., Akhavan S. (2016). Application of nano-encapsulated olive leaf extract in controlling the oxidative stability of soybean oil. Food Chem., 190: 513–519. Search in Google Scholar

Mousavipour N., Babaei S., Moghimipour E., Moosavi-Nasab M., Ceylan Z. (2021). A novel perspective with characterized nanoliposomes: Limitation of lipid oxidation in fish oil. LWT, 152: 112387. Search in Google Scholar

Ocak E., Ceylan Z. (2021). Van balığı ve gastonomiye etkisi. In: Denizden Gastronomiye, Ceylan Z., Baykut E.D. (ed.). Detay Yayıncılık, pp. 73–84. Search in Google Scholar

Ojagh S.M., Hasani S. (2018). Characteristics and oxidative stability of fish oil nano-liposomes and its application in functional bread. J. Food Measur. Char., 12: 1084–1092. Search in Google Scholar

Oner B., Meral R., Ceylan Z. (2021). Determination of some quality indices of rainbow trout fillets treated with nisin-loaded polyvinylalcohol-based nanofiber and packed with polyethylene package. LWT, 149: 111854. Search in Google Scholar

O’Sullivan ‘4A.J., Drapala K.P., Kelly A.L., O’Mahony J.A. (2018). The use of inline high-shear rotor-stator mixing for preparation of high-solids milk protein-stabilised oil-in-water emulsions with different protein: fat ratios. J. Food Engin., 222: 218–225. Search in Google Scholar

Özogul Y., Kuley Boğa E., Akyol I., Durmus M., Ucar Y., Regenstein J.M., Köşker A.R. (2020). Antimicrobial activity of thyme essential oil nanoemulsions on spoilage bacteria of fish and food-borne pathogens. Food Biosci., 36: 100635. Search in Google Scholar

Pace-Schott E.F. (2010). The neurobiology of dreaming. In: Principles and practice of sleep medicine, 5th Ed., pp. 1679–1730. Search in Google Scholar

Perogamvros L., Dang-Vu T.T., Desseilles M., Schwartz S. (2013). Sleep and dreaming are for important matters. Front. Psychol., 4: 474. Search in Google Scholar

Pinelli J.J., Helena de Abreu Martins H., Guimarães A.S., Isidoro S.R., Gonçalves M.C., Junqueira de Moraes T.S., Ramos E.M., Piccoli R.H. (2021). Essential oil nanoemulsions for the control of Clostridium sporogenes in cooked meat product: An alternative? LWT, 143: 111123. Search in Google Scholar

Pouryousef N., Ahmady M., Shariatifar N., Jafarian S., Shahidi S.A. (2022). The effects of essential oil Mentha pulegium L. and nisin (free and nanoliposome forms) on inoculated bacterial in minced silver carp fish (Hypophthalmichthys molitrix). J. Food Measur. Char., 16: 3935–3945. Search in Google Scholar

Qiu L., Zhang M., Bhandari B., Yang C. (2022). Shelf life extension of aquatic products by applying nanotechnology: A review. Crit. Rev. Food Sci. Nutr., 62: 1521–1535. Search in Google Scholar

Radi M., Akhavan-Darabi S., Akhavan H., Amiri S. (2018). The use of orange peel essential oil microemulsion and nanoemulsion in pectin-based coating to extend the shelf life of fresh-cut orange. J. Food Proc. Preser., 42: e13441. Search in Google Scholar

Rai M., Yadav A., Gade A. (2009). Silver nanoparticles as a new generation of antimicrobials. Biotech. Adv., 27: 76–83. Search in Google Scholar

Rasti B., Erfanian A., Selamat J. (2017). Novel nanoliposomal encapsulated omega-3 fatty acids and their applications in food. Food Chem., 230: 690–696. Search in Google Scholar

Salvia-Trujillo L., Rojas-Graü A., Soliva-Fortuny R., Martín-Belloso O. (2015). Physicochemical characterization and antimicrobial activity of food-grade emulsions and nanoemulsions incorporating essential oils. Food Hydrocoll., 43: 547–556. Search in Google Scholar

Seyitoğlu F. (2019). Gastronomy scholars perspectives towards the gastronomy term: a metaphorical analysis. J. Tour. Gastro. Stud., 7: 688–699. Search in Google Scholar

Shehzad Q., Rehman A., Jafari S. M., Zuo M., Khan M.A., Ali A., Khan S., Karim A., Usman M., Hussain A. (2021). Improving the oxidative stability of fish oil nanoemulsions by co-encapsulation with curcumin and resveratrol. Coll. Surf. B: Bioint., 199: 111481. Search in Google Scholar

Sheng L., Wang L. (2021). The microbial safety of fish and fish products: Recent advances in understanding its significance, contamination sources, and control strategies. Comp. Rev. Food Sci. F. Safe., 20: 738–786. Search in Google Scholar

Shokri S., Parastouei K., Taghdir M., Abbaszadeh S. (2020). Application an edible active coating based on chitosan-Ferulago angulata essential oil nanoemulsion to shelf life extension of rainbow trout fillets stored at 4°C. Int. J. Biol. Macromol., 153: 846–854. Search in Google Scholar

Šimat V., Elabed N., Kulawik P., Ceylan Z., Jamroz E., Yazgan H., Čagalj M., Regenstein J. M., Özogul F. (2020). Recent advances in marine-based nutraceuticals and their health benefits. Mar. Drug., 18: 627. Search in Google Scholar

Ünal Şengör G.F., Ceylan Z., Doğruyol H. (2018). Determination of the quality changes of whole cuttlefish (Sepia officinalis L., 1758) stored at 2°C. E. J. Fish. Aquat. Sci., 35: 115–119. Search in Google Scholar

Ünal Şengör G.F., Balaban M.O., Topaloğlu B., Ayvaz Z., Ceylan Z., Doğruyol H. (2019). Color assessment by different techniques of gilthead seabream (Sparus aurata) during cold storage. Food Sci. Technol., 39: 696–703. Search in Google Scholar

Ünal Şengör G.F., Ceylan Z., Yardımcı R.E., Özturan S. (2020). İstavrit balığında ayıklama işlemi: Kalite, gıda güvenliği ve halk sağlığı ilişkisi. Su Ürn. Der., 37: 85–91. Search in Google Scholar

Walker R.M., Gumus C.E., Decker E.A., McClements D.J. (2017). Improvements in the formation and stability of fish oil-in-water nanoemulsions using carrier oils: MCT, thyme oil, and lemon oil. J. Food Eng., 39: 60–68. Search in Google Scholar

Woon-Fong Leung W. (2022). Nanofiber production. In nanofiber filter technologies for filtration of submicron aerosols and nanoaerosols. Elsevier, pp. 1–552. Search in Google Scholar

Yaman M., Sar M., Ceylan Z. (2022). A nanofiber application for thiamine stability and enhancement of bioaccessibility of raw, cooked salmon and red meat samples stored at 4°C. Food Chem., 373: 131447. Search in Google Scholar

Zarrabi A., Abadi M.A.A., Khorasani S., Reza Mohammadabadi M., Jamshidi A., Torkaman S., Taghavi E., Mozafari M.R., Rasti B. (2020). Nanoliposomes and tocosomes as multifunctional nanocarriers for the encapsulation of nutraceutical and dietary molecules. Molecules, 25: 1–23. Search in Google Scholar