Full Text (PDF)
Review Article

Active Biodegradable Edible Packaging System: An Affluent Predisposition Towards Sustainable Meat Product

Sanjay Kumar Bharti, Anita Arya, Gourab Basak, Ajay Kumar, Alok Kumar Chaudhary

Author Information

Licence:

Attribution-Non-commercial 4.0 International (CC BY-NC 4.0)

This license enables reusers to distribute, remix, adapt, and build upon the material in any medium or format for noncommercial purposes only, and only so long as attribution is given to the creator.


Indian Journal of Agriculture Business 10(2):p 109-115, July - Dec 2024. | DOI: https://doi.org/10. 21088/ijab.2454.7964.10124.6

How Cite This Article:

Bharti SK, Arya A, et al. Active Biodegradable Edible Packaging System: An Affluent Predisposition Towards Sustainable Meat Product. Indian J Agri Busi. 2024;10(3):109-115.

Timeline

Received : September 19, 2024         Accepted : October 26, 2024          Published : December 30, 2024

Abstract

The nutritional affluence of meat and meat products makes them susceptible to spoilage, leading to restrictions on their consumption. Microbiological spoilage, chemical oxidation, and physical deterioration are common issues that meat products face through postharvest processing. Therefore, it is crucial to explore the use of functional edible films and coating to extend the shelf life of meat food products. The concept of incorporating active agents into a polymer matrix is growing to produce biodegradable active functional packaging, reducing postharvest spoilage during the storage of meat food products. This paper provides an overview of the composition of composite biodegradable polymers and the techniques used to produce biodegradable active packaging. It also summarizes the interactions between bioactive ingredients and biodegradable polymers, which can result in plasticizing or cross-linking effects.Furthermore, it illustrates the various applications of biodegradable active packaging, such as antibacterial, antioxidant, ethylene removal, barrier, and modified atmosphere packaging, in preserving meat and meat products. These films have the potential to enhance sensory acceptability, improve quality, and extend the shelf life of postharvest products. Lastly, the review addresses the challenges and trends associated with biodegradable active packaging in preservation, aiming to offer new ideas and insights for the development and practical application of novel biodegradable active packaging materials for meat food products.


References

  • 1.   Amanatidou, A., Smid, E. J., & Gorris, L. G. M. (1999). Effect of elevated oxygen and carbon dioxide on the surface growth of vegetable-associated micro-organisms. Journal of Applied Microbiology, 86(3), 429-438.
  • 2.   Arya, A., & Bharti, S. K. (2022) Functional meat foods and edible packaging: An emerging trend and future prospective of food technology.Technix International Journal for Engineering Research. 9(9), 9-16.
  • 3.   Arya, A., Mendiratta, S. K., Agarwal, R. K., Bharti, S. K., &Umarao, P. (2019). Antimicrobial profile and organoleptic acceptability of some essentials oils and their blends in hurdle treated chicken meat spread. International Journal of Current Microbiology and Applied Sciences, 8(09), 2162-77.
  • 4.   Arya, A., Mendiratta, S. K., Singh, T. P., Agarwal, R., & Bharti, S. K. (2017). Development of sweet and sour chicken meat spread based on sensory attributes: process optimization using response surface methodology. Journal of food science and technology, 54, 4220-4228.
  • 5.   Becerril, R., Manso, S., &Nerín, C. (2019). Metabolites identified as interaction products between EOs from food packaging and selected microorganisms. LWT, 116, 108518.
  • 6.   Bharti, S. K. Anita, Sharma, B., Goswami, M., Chappalar, A., Singh P. (2017a). Role of lipid peroxidation in quality aspects of muscle foods during storage. Indian Journal of Agriculture Business. 3(1), 33-38.
  • 7.   Bharti, S. K., Anita, B., Das, S. K., & Biswas, S. (2011). Effect of vacuum tumbling time on physicochemical, microbiological and sensory properties of chicken tikka. Journal of Stored Products and Postharvest Research, 2(7), 139-147.
  • 8.   Bharti, S. K., Basak, G., Anita, V. P., Goswami, M., & Shukla, A. (2017b). Relevance of Hurdle Technology in India: Opportunities in Dairy Processing Industry. IJAB, 3(2), 98.
  • 9.   Bharti, S. K., Pathak, V., Alam, T., Arya, A., Basak, G., & Awasthi, M. G. (2020). Materiality of edible film packaging in muscle foods: A worthwhile conception. Journal of Packaging Technology and Research, 4(1), 117-132.
  • 10.   Bharti, S. K., Pathak, V., Alam, T., Arya, A., Singh, V. K., Verma, A. K., & Rajkumar, V. (2020). Materialization of novel composite bio-based active edible film functionalized with essential oils on antimicrobial and antioxidative aspect of chicken nuggets during extended storage. Journal of Food Science, 85(9), 2857-2865.
  • 11.   Bharti, S. K., Pathak, V., Alam, T., Arya, A., Singh, V. K., Verma, A. K., & Rajkumar, V. (2022a). Starch bio-based composite active edible film functionalized with Carum carvi L. essential oil: antimicrobial, rheological, physic-mechanical and optical attributes. Journal of Food Science and Technology, 1-11.
  • 12.   Bharti, S. K., Pathak, V., Arya, A., Alam, T., Rajkumar, V., & Verma, A. K. (2021). Packaging potential of Ipomoea batatas and κ-carrageenan biobased composite edible film: Its rheological, physicomechanical, barrier and optical characterization. Journal of Food Processing and Preservation, 45(2), e15153.
  • 13.   Bharti, S. K., Pathak, V., Arya, A., Alam, T., Singh, V. K., Verma, A. K., & Rajkumar, V. (2022b). Characterization of composite active edible film functionalized through reinforced Pimpinellaanisum essential oil. Journal of Food Processing and Preservation, 46(8), e16766.
  • 14.   Cenci-Goga, B. T., Iulietto, M. F., Sechi, P., Borgogni, E., Karama, M., &Grispoldi, L. (2020). New trends in meat packaging. Microbiology Research, 11(2), 56- 67.
  • 15.   Chulayo, A. Y., & Muchenje, V. (2015). A balanced perspective on animal welfare for improved meat and meat products. South African Journal of Animal Science, 45(5), 452-469.
  • 16.   Dash, K. K., Ali, N. A., Das, D., & Mohanta, D. (2019). Thorough evaluation of sweet potato starch and lemon-waste pectin based-edible films with nanotitania inclusions for food packaging applications. International journal of biological macromolecules, 139, 449-458.
  • 17.   Gharby, S., Oubannin, S., Ait Bouzid, H., Bijla, L., Ibourki, M., Gagour, J., ... &Bouyahya, A. (2022). An overview on the use of extracts from medicinal and aromatic plants to improve nutritional value and oxidative stability of vegetable oils. Foods, 11(20), 3258.
  • 18.   Gil, M., & Rudy, M. (2023). Innovations in the packaging of meat and meat products—A review. Coatings, 13(2), 333.
  • 19.   Gumienna, M., &Górna, B. (2021). Antimicrobial food packaging with biodegradable polymers and bacteriocins. Molecules, 26(12), 3735.
  • 20.   Jin, T., & Zhang, H. (2008). Biodegradable polylactic acid polymer with nisin for use in antimicrobial food packaging. Journal of food science, 73(3), M127-M134.
  • 21.   Meherishi, L., Narayana, S. A., & Ranjani, K. S. (2019). Sustainable packaging for supply chain management in the circular economy: A review. Journal of cleaner production, 237, 117582.
  • 22.   Muthusamy, L., Balakumbahan, R., Rajangam, J., Sathiyamurthi, S., Anitha, T., Muthusamy, D., & Velmurugan, T. (2024). Spice and herb oil as potential alternative to agrochemicals in postharvest management of fruits and vegetables. Discover Applied Sciences, 6(8), 404.
  • 23.   Nieto, G., Martínez-Zamora, L., Peñalver, R., Marín-Iniesta, F., Taboada-Rodríguez, A., LópezGómez, A., & Martínez-Hernández, G. B. (2023). Applications of plant bioactive compounds as replacers of synthetic additives in the food industry. Foods, 13(1), 47.
  • 24.   Patel, P., Bharti, S. K., Pathak, V., Goswami, M., Verma, A. K., & Mahala, S. S. (2021). A comprehensive study on functional, rheological and sensory property of whey protein concentrate incorporated chicken meat nuggets.Indian Journal of Poultry Science,56(3): 271-276. DOI : 10.5958/0974- 8180.2021.00038.6.
  • 25.   Pellissery, A. J., Vinayamohan, P. G., Amalaradjou, M. A. R., &Venkitanarayanan, K. (2020). Spoilage bacteria and meat quality. In Meat quality analysis (pp. 334-307). Academic Press.
  • 26.   Shaikh, S., Yaqoob, M., & Aggarwal, P. (2021). An overview of biodegradable packaging in food industry. Current Research in Food Science, 4, 503-520.
  • 27.   Song, J., Cai, L., Yuen, K. F., & Wang, X. (2023). Exploring consumers’ usage intention of reusable express packaging: An extended norm activation model. Journal of Retailing and Consumer Services, 72, 103265.
  • 28.   Umaraw, P., Munekata, P. E., Verma, A. K., Barba, F. J., Singh, V. P., Kumar, P., & Lorenzo, J. M. (2020). Edible films/coating with tailored properties for active packaging of meat, fish and derived products. Trends in Food Science & Technology, 98, 10-24.
  • 29.   Zibaei, R., Ebrahimi, B., Rouhi, M., Hashami, Z., Roshandel, Z., Hasanvand, S., ... & Mohammadi, R. (2023). Development of packaging based on PLA/POE/SeNPsnanocomposites by blown film extrusion method: Physicochemical, structural, morphological and antioxidant properties. Food Packaging and Shelf Life, 38, 101104.

Data Sharing Statement

There are no additional data available.

Funding

This research received no funding.

Author Contributions

All authors contributed significantly to the work and approve its publication.

Ethics Declaration

This article does not involve any human or animal subjects, and therefore does not require ethics approval.

Acknowledgements

Information not provide.

Conflicts of Interest

The authors report no conflicts of interest in this work.


About this article


Cite this article

Bharti SK, Arya A, et al. Active Biodegradable Edible Packaging System: An Affluent Predisposition Towards Sustainable Meat Product. Indian J Agri Busi. 2024;10(3):109-115.


Licence:

Attribution-Non-commercial 4.0 International (CC BY-NC 4.0)

This license enables reusers to distribute, remix, adapt, and build upon the material in any medium or format for noncommercial purposes only, and only so long as attribution is given to the creator.


Received Accepted Published
September 19, 2024 October 26, 2024 December 30, 2024

DOI: https://doi.org/10. 21088/ijab.2454.7964.10124.6

Keywords

Active packagingMeat food sciencecomposite edible filmAntioxidantPreservation

Article Level Metrics

Last Updated

Friday 10 July 2026, 04:13:37 (IST)


1917

Accesses

13
366
00

Citations


NA
NA
NA

Download citation


Article Keywords


Keyword Highlighting

Highlight selected keywords in the article text.


Timeline


Received September 19, 2024
Accepted October 26, 2024
Published December 30, 2024

licence


Attribution-Non-commercial 4.0 International (CC BY-NC 4.0)

This license enables reusers to distribute, remix, adapt, and build upon the material in any medium or format for noncommercial purposes only, and only so long as attribution is given to the creator.


Access this article



Share