Klutuk banana leaf is widely used as food packaging material since it has large size and not easily torn. Many traditional packaging materials are recently abandoned, thus it is necessary to develop an active packaging having an advantage of synthetic packaging. This study aimed to create active packaging from methylcellulose (MC) added with glutaraldehyde (GA) and Klutuk banana leaf extract (EDPK), as well as to determine its properties and antioxidants. The casting method with GA as a crosslinker and EDPK as an antioxidant agent was used to make film/active packaging. Banana Klutuk leaves were dried using cabinet dryer for 24 hours and the leaf powder was extracted using maceration method with methanol 80%. The extract was concentrated with a rotary evaporator to be tested for its antioxidant capacity. The results showed that the film with EDPK addition exhibited dark green color. Tensile strength values increased when EDPK and GA were added at concentrations of 30 and 45%. However, EDPK film elongation was not affected by GA addition. Addition of EDPK decreased thermal stability by 25-45 oC, whereas the addition of GA improved thermal stability by 5-25 oC. Antioxidants in banana leaf extract can migrate to 10 and 50% simulant ethanol. 

Aiedeh, K. M., Taha, M. O., Al-Hiari, Y., Bustanji, Y., and Alkhatib, H. S. (2006). Effect of Ionic Crosslinking on The Drug Release Properties of Chitosan Diacetate Matrices. Journal of Pharmaceutical Sciences, 96: 38–43.

Akhtar, M.J., Jacquot, M., Jasniewski, J., Jacquot, C., Imran, M., and Jamshidian, M. (2012). Antioxidant Capacity and Light-aging Study of HPMC Films Functionalized with Natural Plant Extract. Carbohydrate Polymers, 89: 1150–1158.

Appendini, P. and Hotchkiss, J.H. (2002). Review of Antimicrobial Food Packaging. Innovative Food Science and Emerging Technologies, 3 (2): 113-126.

Ayana, B. and Turhan, K.N. (2009). Use of Antimocrobial Methylcellulose Films to Control Staphylococcus aureus During Storage of Kasar Cheese. Packaging Technologi and Science, 22: 461-469.

Balaguer, M. P., Gomez-Estaca, J., Gavara, R., and Hernandez-Munoz, P. (2011). Biochemical Properties of Bioplastics Made From Wheat Gliadins Cross-linked With Cinnamaldehyde. Journal of Agricultural and Food Chemistry, 59: 13212–13220.

Calatayud, M., Lopez de Dicastillo, C., Lopez-Carballo, G., Velez, D.,Hernandez-Munoz, P., and Gavara, R. (2013). Active Films Based on Cocoa Extract With Antioxidant, Antimicrobial and Biological Applications. Food Chemistry, 139: 51–58.

Choe, E. and Min, D.B. (2006). Mechanism and Factors For Edible Oil Oxidation. Comprehensive Reviews in Food Science and Food Savety, 5 : 1-5.

Dicastillo, C.L., Nerin, C., Alfaro, P., Catala, R., Gavara, R., dan Hernandez-Munoz, P. (2011). Development of New Antioxidant Active Packaging Film Based on EVOH and Green tea Extract. Journal of Agricultural and Food Chemistry, 53: 7832-7840.

Dicastillo, C.L., Rodriguez, F., Guarda, A., and Galotto, M.J. (2015). Antioxidant Films Based on Cross-linked Methyl Cellulose and Native Chilean Berry For Food Packaging Applications. Journal of Carbohydrate Polymers, 136: 1052-1060.

Dicastillo, C.L., Bustos, F., Guarda, A., and Galotto, M.J. (2016). Cross-linked Methyl Cellulose Films with Murta Fruit Extract for Antioxidant and Antimicrobial Active Food Packaging. Journal of Food Hydrocolloids, 60: 335-344.

Fitriani, V. (2016). Tesis, Karakter Fisik dan Kimia serta Identifikasi Senyawa Bioaktif dari Daun Pisang Klutuk (Musa bracycarpa) Sebagai Bahan Pengemas Makanan. Fakultas Teknologi Pertanian, Universitas Gadjah Mada Yogyakarta.

Garcia, M.A., Pinotti, A., Martino, M.N., and Zaritzky, N.E. (2004). Characterization of Composite Hydrocolloids Films. Journal of Carbohydrate Polymers, 56: 339-345.

Haile, D.M., De Smet, S., Claeys, E., and Vossen, E. (2013). Effect of Light, Packaging Condition and Dark Storage Durations on Colour and Lipid Oxidative Stability of Cooked Ham. Journal of Food Science Technology, 50 (2): 239 – 247.

Hauser, C., Penaloza, A., Guarda, A., Galotto, M.J., Bruna, J.E., and Rodriguez, F.J. (2015). Development of an Active Packaging Film Based on a Methylcellulose Coating Containing Murta (Ugni molinae Tutcz) leaf Extract). Food Bioprocess Technology, 9: 298-307.

Hernandez-Munos, P., Villalobos, R., and Chiralt, A. (2004). Effect of Cross-linking Using Aldehydes on Properties of Glutenin-rich Films. Food Hydrocolloids, 18: 403-411.

Kerry, J.P., O’Grandy, M.N., and Hogan, S.A. (2006). Past current and Potential Utilisation of Active and Intelligent Packaging Systems for meat and Muscle-based Products. A review: Meat Science, 74: 113-130.

Khalil, A. A., Deraz, S. F., Elrahman, S. A., and El-Fawal, G. (2015). Enhancement of Mechanical Properties, Microstructure, and Antimicrobial Activities of Zein Films Cross-linked Using Succinic Anhydride, Eugenol and Citric Acid. Preparative Biochemistry and Biotechnology, 45: 551–567.

Mahalik, N.P., Arun, N., and Nambiar. (2010). Trends in Food Packaging and Manufacturing Systems and technology. Trends in Food Science and Technology, 21: 117-128.

Mi, F. L., Huang, C. T., Liang, H. F., Chen, M. C., Chiu, Y. L., and Chen, C. H. (2006). Physicochemical, Antimicrobial, and Cytotoxic Characteristics of a Chitosan Film Cross-linked by a Naturally Occurring Cross-linking Agent, Aglycone Geniposidic Acid. Journal of Agricultural and Food Chemistry, 54: 3290–3296.

Mohapatra, D., Mishra, S., and Sutar, N. (2010). Banana and its By-product utilisation: an overview. Journal of Scientific and Industrial Research. 69: 323-329.

Nimni, M.E., Cheung, D., Strates, B., Kodama, M., and Sheikh, K. (1987). Chemically Modified Collagen: A Natural Biomaterial for Tissue Replacement. Journal Biomedicine Material, 21: 741-771.

Noronha, C.M., Carvalho, S.M., Lino, R.C., and Barreto, P.L.M. (2014). Characterization of Antioxidant Methylcellulose Film Incorporated with α-Tocopherol Nanocapsules. Food Chemistry, 159: 529-535.

Okuda, K., Urabe, I., Yamada, Y., and Okada, H. (1991). Reactions of Glutaraldehyde With Amino and Thiol Compounds. Journal Fermentation Bioengineering, 71: 100-105.

Park, J.S. and Ruckenstein, E. (2001). Viscoelastic Properties of Plasticized Methylcellulose and Chemically Crosslinked Methylcellulose. Journal Carbohydrate Polymer, 46: 373-381.

Rimdusit, S., Somsaeng, K., Kewsuwan, P., Jubsilp, C., and Tiptipakorn, S. (2008). Biodegradability and Property Characterization of Methyl Cellulose: Effect of Nanocompositing and Chemical Crosslinking. Carbohydrate Polymers, 72: 444 – 445.

Robertson, G. L. (2006). Active and intelligent packaging. In Food packaging: principles and practice - 2nd ed. CRC Press, Boca Raton, Fl.

Sahaa, R.K., Srijan A., Syed Sohidul H.S., and Priyanka R. (2013). Medicinal activities of the leaves of Musa sapientum var. sylvesteris in vitro. Asian Pacific Journal of Tropical Biomedicine, 3: 476-482.

Vermeiren, L., Devlieghree, F., and Debevere, J. (1999). Evaluation of Meat Born Lactic Acid Bacteria as Protective Cultures for the Biopreservation of Cooked Meat Product. International Journal of Food Microbiology, 96: 149-164.

Yu, S., Tsai, M., Lin, B., Lin, C., and Mi, F. (2014). Tea Catechins-cross-linked ethylcellulose Active Films For Inhibition of Light Irradiation and Lipid Peroxidation Induced β-carotene Degradation. Journal Food Hydrocolloids, 44: 491-505.