The Effect of G/CHNF/ZnONPs Packaging on Nutritional Content, Antibacterial Activity, and Shelf Life of Cheddar Cheese

Asrul Bahar (1), Nita Kusumawati (2), Annis Catur Adi (3)
(1) Public Health Study Program, Faculty of Public Health, Airlangga University, Mulyorejo, Surabaya, 60115, Indonesia
(2) Department of Chemistry, Universitas Negeri Surabaya, Ketintang, Surabaya, 60231, Indonesia
(3) Department of Health Nutrition, Faculty of Public Health, Airlangga University, Mulyorejo, Surabaya, 60115, Indonesia
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How to cite (IJASEIT) :
Bahar, Asrul, et al. “The Effect of G CHNF ZnONPs Packaging on Nutritional Content, Antibacterial Activity, and Shelf Life of Cheddar Cheese”. International Journal on Advanced Science, Engineering and Information Technology, vol. 13, no. 4, Aug. 2023, pp. 1355-62, doi:10.18517/ijaseit.13.4.18531.
The packaging of food goods is crucial. Due to the presence of packaging, food goods' quality can be preserved while being stored. This research created gelatin-based nanocomposite packaging with the addition of active compounds in the form of CHNF and ZnONPs, which reduced the decrease in the nutritional content of cheddar cheese and increased its shelf life. Cheese is one of the nutrient-rich food products that are susceptible to changes in environmental conditions. The results showed that G/CHNF/ZnONPs films were able to minimize 7.76%, 4.84 %, 13.24%, and 1.78%, respectively, the potential for decreasing levels of protein, fat, carbohydrates, and minerals, especially calcium, during 30 days of storage of unpackaged cheddar cheese. Additionally, the G/CHNF/ZnONPs coating extended the shelf life of cheddar cheese to 131 days, longer than LDPE packaging and without packaging.

R. K. Gupta and P. Dudeja, "Food Safety in the 21st Century: Food packagng," pp. 547-553, 2017.

L. Lin, Y. Gu and H. Cui, "Moringa oil/chitosan nanoparticles embedded gelatin nanofibers for food packaging against Listeria monocytogenes and Staphylococcus aureus on cheese," Journal of Food Packaging and Shelf Life, vol. 19, pp. 86-93, 2019.

W. e. a. Li, "Evaluation of PLA nanocomposite fillms on physicochemical and microbiological properties of refrigerated cottage cheese," Journal of Food Processing and Preservation, vol. 42, no. 1, 2018.

S. Berti, C. P. O. Resa, F. Basanta, L. N. Gerschenson and R. J. Jagus, "Edible coating on Gauda cheese as a barrier against external contamination during ripening," Food Bioscience, vol. 31, 2019.

S. Jafarzadeh, A. Salehabadi, A. M. Nafchi, N. Oladzadabbasabadi and S. M. Jafari, "Cheese packaging by edible coating and biodegradable nanocomposites; improvement in shelf life, physicochemical and sensory properties," Trends in Food Science & Technology, vol. 116, pp. 218-231, 2021.

L. X. Mei, A. M. Nafchi, F. Ghasemipour, A. M. Easa, S. Jafarzadeh and A. A. Al-Hassan, "Characterization of pH sensitive sago starch films enriched with anthocyanin-rich torch ginger extract," International Journal of Biological Macromolecules, vol. 164, pp. 4603-4612, 2020.

M. Muhterem-Uyar, L. Ciolacu, K. H. Wagner, M. Wagner, S. Schmitz-Esser and B. Stessl, "New aspects on Listeria moncytogenes ST5-ECVI predominane in a heavily contaminated cheese processing environment," Frontiers in Microbiology, vol. 9, no. 64, 2018.

L. Zhang, Z. Zhang, Y. Chen, X. Ma and M. Xia, "Chitosan and procyanidin composite films with high antioxidant activity and pH responsivity for cheese packaging," Food Chemistry, vol. 338, 2021.

H. M., E. W. N. Chong, S. Jafarzadeh, M. T. Paridah, D. A. Gopakumar, H. A. Tajarudin, S. Thomas and H. P. S. A. Khalil, "Enhancement in the physico-mechanical functions of seaweed biopolymer film via embedding fillers for plasticulture application-A comparison with conventional biodegradable mulch film," Polymers, vol. 11, no. 2, p. 210, 2019.

P. Umaraw and A. K. Verma, "Comprehensive review on application of edible film on meat and meat products: An eco-friendly approach," Crit Rev Food Sci Nutr., vol. 57, no. 6, pp. 1270-1279, 2017.

S. Ramziia, H. Ma, Y. Yao, K. Wei and Y. Huang, "Enhanced antioxidant activity of fish gelatin-chitosan edible films incorporated with procyanidin," Journal of Applied Polymer Science, vol. 135, no. 10, 2017.

Y. Lu, Q. Luo, Y. Chu, N. Tao, S. Deng, L. Wang and L. Li, "Application of gelatin in food packaging: A review," Polymers (Basel), vol. 14, no. 3, p. 436, 2022.

J. Xu, R. Wei, Z. Jia and R. Song, "Characteristics and bioactive functions of chitosan/gelatin-based film incorporated with ε-polylysine and astaxanthin extracts derived from by-products of shrimp (Litopenaeus vannamei)," Food Hydrocolloids, vol. 100, 2020.

S. Ebrahimi, M. Fathi and M. Kadivar, "Production and characterization of chitosan-gelatin nanofibers by nozzle-less electrospinning and their application to enhance edible film's properties," Food Packaging and Shelf Life, vol. 22, 2019.

K. Qi, B. Cheng, J. Yu and W. Ho, "Review on the improvement of the photocatalytic and antibacterial activities of ZnO," Journal of Alloys and Compounds, vol. 727, pp. 792-820, 2017.

S. Saedi, M. Shokri, J. T. Kim and G. H. Shin, "Semi-transparent regenerated cellulose/ZnONP nanocomposite film as a potential antimicrobial food packaging material," Journal of Food Engineering, vol. 307, 2021.

T. Lindriati, Y. P. S., Tamtarini and M. Sholehudin, "Umur simpan edible film yang dibuat dengan cara solvent casting dan compression molding," Berkala Ilmiah Pertanian, 2014.

M. Lacroix and K. D. Vu, "Chapter 11 - Edible coating and film materials: Proteins," in Innovation in Food Packaging, Academic Press, 2014, pp. 277-304.

N. M. O'Brien and T. P. O'Connor, "Chapter 24 - Nutritional aspects of cheese," in Cheese, Aademic Press, 2017, pp. 603-611.

Z. Bubelova, B. Tremlova, L. Bunkova and M. Pospiech, "The effect of long-term storage on the quality of sterilized processed cheese," Journal of Food Science Technology, vol. 52, no. 8, pp. 4985-4993, 2015.

A. A. Furqon, I. Maflahah and A. Rahman, "Pengaruh jenis pengemas dan lama penyimpanan terhadap mutu produk nugget gembus," AGROINTEK, vol. 10, no. 2, 2016.

M. Nurhidayat and H. Adiluhung, "Eksplorasi kertas karton dalam produk kemasan tahan air," SISTEMIK (Jurnal Ilmiah Nasional Bidang Ilmu Teknik), vol. 9, no. 2, 2021.

S. Eshghi, R. Karimi, A. Shiri, M. Karami and M. Moradi, "Effects of polysaccharide-based coatings on postharvest storage life of grape: measuring the changes in nutritional, antioxidant and phenolic compounds," Journal of Food Measurement and Characterization, vol. 16, pp. 1159-1170, 2022.

F. Frau, J. N. L. Carate, F. Salinas and N. Pece, "Effect of vacuum packaging on artisanal goat cheese during refrigerated storage," Food Science and Technology, 2020.

N. Aini, B. Sustriawan, J. Sumarmono, V. Prihananto and T. P. Atmajayanti, "The effect of packaging type and storage temperature on the characteristics of cheese spread analogues from corn extract," IOP Conf. Series: Earth and Environmental Science, vol. 406, 2019.

D. S. Handayani, "Pengaruh jenis bahan pengemas berbeda dan masa simpan terhadap kadar lemak, kadar air, dan kadar FFA biskuit Spirulina," Universitas Brawijaya, Malang, 2016.

H. Rostami A., M. A. A., K. A. A., S. M. and K. N., "Effect of whey protein coating on physico-chemical properties of gutted Kilka during frozen storage," Iranian Journal of Fisheries Sciences, vol. 9, no. 3, pp. 412-421, 2010.

N. Chausali, J. Saxena and R. Prasad, "Recent trends in nanotechnology applications of bio-based packaging," Journal of Agriculture and Food Research, vol. 7, 2022.

A. Ashfaq, N. Khursheed, S. Fatima, Z. Anjum and K. Younis, "Application of nanotechnology in food packaging: Pros and Cons," Journal of Agriculture and Food Research, vol. 7, 2022.

F. K. Nzekoue, A. Alesi, S. Vittori, G. Sagratini and G. Caprioli, "Development of functional whey cheese enriched in vitamin D3: nutritional composition, fortification, analysis, and stability study during cheese processing and storage," Interntional Journal of Food Sciences and Nutrition, vol. 72, no. 6, 2021.

S. Kose and E. Ocak, "Mineral Composition of Herby Cheese Produced from Raw and Pasteurized Milk," Applied Ecology and Environmental Research, vol. 17, no. 3, pp. 7189-7201, 2019.

L. Bastarrachea, S. Dhawan and S. S. Sablani, "Engineering properties of polymeric-based antimicrobial films for food packaging," Food Eng Rev, vol. 3, pp. 79-93, 2011.

M. G. Corradini, "Shelf life of food products: From open labeling to real-time measurements," Annual Review of Food Science and Technology, vol. 9, pp. 251-269, 2018.

A. B. Soro, S. Noore, S. Hannon, P. Whyte, D. J. Bolton, C. O'Donnell and B. K. Tiwari, "Current sustainable solutions for extending the shelf life of meat and marine products in the packaging process," Food Packaging and Shelf Life, vol. 29, 2021.

E. Torrieri, "Storage stability: Shelf life testing," in Encyclopedia of food and health, Academic Press, 2016, pp. 188-192.

O. Tomar, G. Akarca, V. GOk and M. Y. Caglar, "The effects of packaging materials on the fatty acid composition, organic acid content, and texture profiles of Tulumm cheese," Journal of Food Science, vol. 85, pp. 3134-3140, 2020.

S. Jafarzadeh, J. W. Rhim, A. K. Alias, F. Ariffin and S. Mahmud, "Application of antimicrobial active packaging film made of semolina flour, nano zinc oxide and nano-kaolin to maintain the quality of low-moisture mozarella cheese during low-temperature storage," Journal of Science of Food and Agriculture, vol. 99, no. 6, pp. 2716-2725, 2018.

P. L. McSweeney, G. Ottogalli and P. F. Fox, "Diversity and classification of cheese varieties: An overview," Cheese, pp. 781-808, 2017.

P. Sharma, A. Segat, A. L. Kelly and J. J. Sheehan, "Colorants in cheese manufacture: Production, chemistry, interactions, and regulation," Comprehensive Reviews in Food Science, vol. 19, no. 4, pp. 1220-1242, 2020.

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