Fabrication Smart pH Bionanocomposite Film Based on Biocompatible Polymer and Roslle Calyx Extract/Nano-Zinc Oxide for Monitoring Rainbow Trout Fillets
Subject Areas : Journal of Chemical Health Risks
Naeimeh Sheykholeslami
1
,
Saghar Sadat Zavareh Tabatabaee
2
,
Shahriyar Sheykhi
3
,
Anna Etemadi Razlighi
4
,
Neda Fallah
5
,
Maria Elizabeth
6
1 - Department of Food Hygiene, Faculty of Veterinary Medicine, Tabriz Medical Sciences, Islamic Azad University, Tabriz, Iran
2 - Department of Food Sciences and Technology, Faculty of Pharmacy, Tehran Medical Sciences, Islamic Azad University, Tehran, Iran
3 - Department of Food Science and Technology, Faculty of Agriculture, University of Tabriz, Tabriz P.O. Box 51666-16471, Iran
4 - Departmant of Food Science and Technology, Quchan Branch, Islamic Azad University, Quchan, Iran
5 - Department of Food Science and Technology, Najafabad Branch, Islamic Azad University, Najafabad, Isfahan, Iran.Department of Food Science and Technology, Qom Branch, Islamic Azad University, Qom, Iran
6 - Research Group for Nano-Bio Science, Division of Food Technology, National Food Institute, Technical University of Denmark, Lyngby, Denmark
Keywords: Antioxidant characteristics, Bionanocomposite film, Color properties, Intelligent Packaging, Nanoparticle,
Abstract :
This work aimed to make a smart biofilm based on tapioca starch/bovine gelatin and roselle calyx extract (RCE)/nanofiller-ZnO. Then the utilization of the biofilm was studied to monitor the rainbow trout fillets. The biofilms were fabricated by casting the starch/gelatin solution with sorbitol /glycerol (3.2g) on casting plates and were dried at 25°C. RCE was added into biofilms (0.5 g for TP/RCE/ZnO-N and 2g for TP/RCE), and the biofilm characteristics, such as thickness, color, and antioxidant properties were investigated. The films containing nanofiller-ZnO/RCE and RCE showed significantly (p<0.05) more antioxidant activity than the neat film which respective values of 18.31 11.42 and 3.1. The thickness of the smart films significantly increased (p<0.05) from 0.08 to 0.13 by the addition of RCE/nanofiller ZnO into the solution. According to the results, a* value was significantly higher (p<0.05) in smart film with nanofiller-ZnO/RCE and RCE. The lowest L* value was obtained in film with nanofiller-ZnO/RCE. At the end of the conservation, the TVB-N value reached 35.7 mg N/100 and with the TVB-N significantly increase (p<0.05), the color properties of the smart films also changed. The color of the biofilm was purple, but the a* value significantly decreased. Therefore, the film based tapioca starch/bovine gelatin/nanofiller ZnO/RCE can be applied as a natural indicator of rainbow trout fillets.
1. Vedove T.M.A.R.D., Maniglia B.C., Tadini C.C., 2021. Production of sustainable smart packaging based on cassava starch and anthocyanin by an extrusion process. Journal of Food Engineering. 289, 110274.
2. Said N.S., Howell N.K., Sarbon N.M., 2023. A Review on Potential Use of Gelatin-based Film as Active and Smart Biodegradable Films for Food Packaging Application. Food Reviews International. 39(2), 1063-1085.
3. Kuswandi B., Seftyani M., Pratoko D.K., 2024. Edible colorimetric label based on immobilized purple sweet potato anthocyanins onto edible film for packaged mushrooms freshness monitoring. Journal of Food Science and Technology.1-12
4. Yu D., Wu L., Regenstein J. M., Jiang Q., Yang F., Xu Y., Xia W., 2020. Recent advances in quality retention of non-frozen fish and fishery products: A review. Critical Reviews in Food Science and Nutrition. 60(10), 1747-1759.
5. Gasti T., Dixit S., D'Souza O.J., Hiremani V.D., Vootla S.K., Masti S.P., Chougale R.B., Malabadi R.B., 2021. Smart biodegradable films based on chitosan/methylcellulose containing Phyllanthus reticulatus anthocyanin for monitoring the freshness of fish fillet. International Journal of Biological Macromolecules. 187(2), 451-461.
6. Ekramian S., Abbaspour H., Roudi B., Amjad L., Mohammadi Nafchi A., 2021. An experimental study on characteristics of sago starch film treated with methanol extract from Artemisia sieberi Besser. Journal of Food Measurement and Characterization. 15(4), 3298-3306.
7. Alappat B., Alappat J., 2020. Anthocyanin Pigments: Beyond Aesthetics. Molecules. 25(23), 5500.
8. Nobari A., Marvizadeh M.M., Sadeghi T., Rezaei-savadkouhi N., Mohammadi Nafchi A., 2022. Flavonoid and Anthocyanin Pigments Characterization of Pistachio Nut (Pistacia vera) as a Function of Cultivar. Journal of Nuts. 13(4), 313-322.
9. Peredo Pozos G.I., Ruiz-López M.A., Zamora Nátera J.F., Álvarez Moya C., Barrientos Ramírez L., Reynoso Silva M., Rodríguez Macías R., García-López P.M., González Cruz R., Salcedo Pérez E., Vargas Radillo J.J., 2020. Antioxidant Capacity and Antigenotoxic Effect of Hibiscus sabdariffa L. Extracts Obtained with Ultrasound-Assisted Extraction Process. Applied Sciences. 10(2), 560.
10. Sadeghi T., Marvizadeh M.M., Ebrahimi F., Mafi S., Foughani O., Mohammadi Nafchi A., 2022. Assessment of Nutritional and Antioxidant Activity of Sport Drink Enriched with Spirulina platensis. Journal of Chemical Health Risks. 13(3) 485-496.
11. Nguyen Q.D., Dang T.T., Nguyen T.V.L., Nguyen T.T.D., Nguyen N.N., 2022. Microencapsulation of roselle (Hibiscus sabdariffa L.) anthocyanins: effects of drying conditions on some physicochemical properties and antioxidant activities of spray‐dried powder. Food Science & Nutrition. 10(1), 191-203.
12. Jafari R., Zandi M., Ganjloo A., 2023. Characterization of Alginate-Gelatin Edible Film Containing Anise (Pimpinella anisum L.) Essential Oil. Journal of Polymers and the Environment. 31(4), 1568-1583.
13. Duguma H.T., 2022. Potential applications and limitations of edible coatings for maintaining tomato quality and shelf life. International Journal of Food Science & Technology. 57(3), 1353-1366.
14. Fallah N., Nabeghvatan N., Sadeghi T., Etemadi Razlighi A., Marvizadeh M.M., Mohammadi Nafchi A., 2023. Antimicrobial and Hydrophilic Behavior of Soluble Soy Polysaccharide Starch/Cold Water Fish Gelatin Films Incorporated with Nano-Titanium Dioxide. Journal of Chemical Health Risks.[In Press]
15. Fallah N., Marvizadeh M.M., Jahangiri R., Zeinalzadeh A., Mohammadi Nafchi A., 2022. High-Barrier and Light–protective Bionanocomposite Film Based on Rye Starch/nanorod-ZnO for Food Packaging Applications. Journal of Chemical Health Risks. 13(2), 299-304.
16. Giusti M.M., Rodríguez-Saona L.E., Griffin D., Wrolstad R.E., 1999. Electrospray and Tandem Mass Spectroscopy As Tools for Anthocyanin Characterization. Journal of Agricultural and Food Chemistry. 47(11), 4657-4664.
17. Marvizadeh M.M., Mohammadi Nafchi A., Jokar M., 2016. Obtaining and Characterization of Bionanocomposite Film Based on Tapioca Starch/Bovine Gelatin/Nanorod Zinc Oxide, Conference: food structure and design: Antalya, Turkey.
18. Abdorreza M.N., Cheng L.H., Karim A.A., 2011. Effects of plasticizers on thermal properties and heat sealability of sago starch films. Food Hydrocolloids. 25(1), 56-60.
19. Subramanian K., Balaraman D., Kaliyaperumal K., Devi Rajeswari V., Balakrishnan K., Ronald Ross P., Perumal E., Sampath Renuga P., Panangal M., Swarnalatha Y., Velmurugan S., 2022. Preparation of an Intelligent pH Film Based on Biodegradable Polymers for Monitoring the Food Quality and Reducing the Microbial Contaminants. Bioinorganic Chemistry and Applications. 7975873.
20. Mirzapour-Kouhdasht A., Moosavi-Nasab M., 2020. Shelf-life extension of whole shrimp using an active coating containing fish skin gelatin hydrolysates produced by a natural protease. Food Science & Nutrition. 8(1), 214-223.
21. Fematt-Flores G.E., Aguiló-Aguayo I., Marcos B., Camargo-Olivas B.A., Sánchez-Vega R., Soto-Caballero M.C., Salas-Salazar N.A., Flores-Córdova M.A., Rodríguez-Roque M.J., 2022. Milk Protein-Based Edible Films: Influence on Mechanical, Hydrodynamic, Optical and Antioxidant Properties. Coatings. 12(2), 196.
22. Rahmawati S., Pathuddin, Nuryanti S., Dia Afrianti Sangkota V., Afadil, A., Syawaliah N., 2022. Characteristics and antioxidants of edible film from durian seeds (Durio zibethinus) with additions to rosella flower extract (Hibiscus sabdariffa L.). Materials Today: Proceedings. 65(2), 3109-3115.
23. Gómez-Aldapa C.A., Díaz-Cruz C.A., Castro-Rosas J., Jiménez-Regalado E.J., Velazquez G., Gutierrez M.C., Aguirre-Loredo R.Y., 2021. Development of Antimicrobial Biodegradable Films Based on Corn Starch with Aqueous Extract of Hibiscus sabdariffa L. Starch - Stärke. 73(1-2), 2000096.
24. Aydin G., Zorlu E.B., 2022. Characterisation and Antibacterial Properties of Novel Biodegradable Films Based on Alginate and Roselle (Hibiscus sabdariffa L.) Extract. Waste and Biomass Valorization. 13(6), 2991-3002.
25. Chavoshi N., Marvizadeh M.M., Fallah N., Rezaei-savadkouhi N., Mohammadi Nafchi A., 2023. Application of Novel Nano-biopackaging Based on Cassava Starch/Bovine Gelatin /Titanium oxide nanoparticle/Fennel Essential Oil to Improve Quality of the Raw Fresh Pistachio. Journal of Nuts. 14(1), 19-31.
26. da Nóbrega Santos E., Cesar de Albuquerque Sousa T., Cassiano de Santana Neto D., Brandão Grisi C.V., Cardoso da Silva Ferreira V., Pereira da Silva F.A., 2022. Edible active film based on gelatin and Malpighia emarginata waste extract to inhibit lipid and protein oxidation in beef patties. LWT. 154, 112837.
27. Dehankar H.B., Mali P.S., Kumar P., 2023. Edible composite films based on chitosan/guar gum with ZnONPs and roselle calyx extract for active food packaging. Applied Food Research. 3(1), 100276.
28. Liu J., Huang J., Hu Z., Li G., Hu L., Chen X., Hu Y., 2021. Chitosan-based films with antioxidant of bamboo leaves and ZnO nanoparticles for application in active food packaging. International journal of biological macromolecules. 189, 363-369.
29. Idham Z., Putra N.R., Aziz A.H. A., Zaini A.S., Rasidek N.A.M., Mili N., Yunus M.A.C., 2022. Improvement of extraction and stability of anthocyanins, the natural red pigment from roselle calyces using supercritical carbon dioxide extraction. Journal of CO2 Utilization. 56, 101839.
30. Marvizadeh M.M., Tajik A., Moosavian V., Oladzadabbasabadi N., Mohammadi Nafchi A., 2021. Fabrication of Cassava Starch/Mentha piperita Essential Oil Biodegradable Film with Enhanced Antibacterial Properties. Journal of Chemical Health Risks. 11(1), 23-29.
31. Marvizadeh M.M., Oladzadabbasabadi N., Mohammadi Nafchi A., Jokar M., 2017. Preparation and characterization of bionanocomposite film based on tapioca starch/bovine gelatin/nanorod zinc oxide. International journal of biological macromolecules. 99, 1-7.
32. Ali M.S., Ho T.C., Park J.S., Han J.M., Sorendhiran D., Lee H.G., Chun B.S., 2024. Fabrication of smart film based on fish gelatin incorporating phycoerythrin and cellulose nanofibrils to monitor fish freshness. Food Bioscience. 104111.
33. Sun W., Liu Y., Jia L., Saldaña M.D.A., Dong T., Jin Y., Sun W., 2021. A smart nanofibre sensor based on anthocyanin/poly-l-lactic acid for mutton freshness monitoring. International Journal of Food Science & Technology. 56 (1), 342-351.
34. Qin Y., Xu F., Yuan L., Hu H., Yao X., Liu J., 2020. Comparison of the physical and functional properties of starch/polyvinyl alcohol films containing anthocyanins and/or betacyanins. International journal of biological macromolecules. 163, 898-909.