THE PHYSIOCHEMICAL AND ANTIBACTERIAL PROPERTIES OF GALACTOMANNAN EDIBLE FILM OF ARENGA PINNATA INCORPORATED WITH ZINGIBER OFFICINALE ESSENTIAL OIL
DOI:
https://doi.org/10.22159/ajpcr.2018.v11i12.28061Keywords:
Edible film, Galactomannan, Arenga pinnata, Zingiber officinale, Essential oil, AntibacterialAbstract
Objective: This study aimed to demonstrate the incorporation of Zingiber officinale essential (ZOE) oil onto galactomannan from Arenga pinnata (GAP) matrix and determined the antibacterial activity of the edible films (EF).
Methods: EF was obtained from the incorporation of GAP (0.5, 0.9, or 1.3 g) with ZOE (0.5 or 1 g) using glycerol (0.6 g) and monoglycerol oleic (0.2 g) as a plasticizer.
Results: The thickness of the films increased with the increase of GAP and ZOE oil. However, the tensile strength and water permeability decreased in the fourth EF when the ZOE oil was increased. The maximum value of tensile strength and modulus elongation was obtained with the ratio of GAP to ZOE oil at 0.9, 0.5, 4.502 MPa, and 0.0633 MPa, respectively. The Fourier transform infrared spectrum showed that the interaction occurred between GAP and ZOE oil. The EFs showed antibacterial activity against Escherichia coli, Staphylococcus aureus, Shigella dysenteriae, Salmonella typhi, Pseudomonas aeruginosa, Candida albicans, and Saccharomyces cerevisiae with the highest activity in the third EF. The total bacteria amount in a colony decreased until the 5th day compared with the control. Furthermore, the third EF could inhibit oxygen migration with a respiratory quotient of 7.71.
Conclusions: This study revealed that EFs from GAP and ZOE could be prepared and have antibacterial activity against several pathogenic bacteria.
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Lin D, Zhao Y. Innovations in the development and application of edible coatings for fresh and minimally processed fruits and vegetables. Compr Rev Food Sci Food Saf 2007;6:60-75.
Vargas M, Pastor C, Chiralt A, McClements DJ, González-MartÃnez C. Recent advances in edible coatings for fresh and minimally processed fruits. Crit Rev Food Sci Nutr 2008;48:496-511.
Ponce AG., Roura SI., Del Valle CE, Moreira MR. Antimicrobial and antioxidant activities of edible coatings enriched with natural plant extracts: In vitro and in vivo studies. Postharvest Biol Technol 2008;49:294-300.
Malhotra B, Keshwani A, Kharkwal H. Natural polymer based cling films for food packaging. International Journal of Pharmacy and Pharmaceutical Sciences 2015;7,4,10-8.
Abouhussein DMN, El-Bary AA, Shalaby SH, Nabarawi MAE. Chitosan mucoadhesive buccal films: Effect of different casting solvents on their physicochemical properties. International Journal of Pharmacy and Pharmaceutical Sciences 2016;8:206-13.
Tarigan JB. Karakterisasi Edible Film Yang Bersifat Antioksidan Dan Antimikroba Dari Galaktomanan Biji Aren (Arenga pinnata) Yang Diinkorporasi Dengan Minyak Atsiri Daun Kemangi (Ocimum basilicum l.) [Disertasi]. Medan: Universitas Sumatera Utara; 2014.
Cerqueira MA., Souza BW, Martins JT, Teixeira JA, Vicente AA. Seed extracts of Gleditsia triacanthos: Functional properties evaluation and incorporation into galactomannan films. Food Res Int 2010;43:2031-8.
Cerqueira MA, Lima ÃM, Teixeira JA, Moreira RA, Vicente AA. Suitability of novel galactomannans as edible coatings for tropical fruits. J Food Eng 2009;94:3-4, 372-8.
Cerqueira MA, Lima AL, Souza BW, Teixeira JA, Moreira RA, Vicente AA. Functional polysaccharides as edible coatings for cheese. J Agric Food Chem 2009;57:1456-62.
Tarigan JB, Barus T, Marpongahtun KJ. Characteristic and Study of Antioxidant Activity Galactomanan from Kolang-Kaling†(Arenga pinnata). Penang: Asian International Conference on Materials, Mineral and Polymer; 2012.
Sultan M., Bhatti HN, Iqbal Z. Chemical analysis of essential oil. Of ginger (Zingiber officinale). Pak J Biol Sci 2005;8:1576-8.
Toure A, Xiaoming Z. Gas chromatographic analysis of volatile components of Guinean and Chinese ginger oils (Zingiber officinale) extracted by steam distillation. J Agron 2007;6:350.
El-Baroty GS., El-Baky HA., Farag R, Saleh MA. Characterization of antioxidant and antimicrobial compounds of cinnamon and ginger essential oils. Afr J Biochem Res 2010;4:167-74.
Bozdemir ÖA, Tutaş M. Plasticiser effect on water vapour permeability properties of locust bean gum--based edible films. Turk J Chem 2003;27:773-82.
Fardiaz S. Mikrobiologi Pangan 1. Jakarta: Gramedia; 1992.
Cerqueira MA, Bourbon AI, Pinheiro AC, Martins JT, Souza BW, Teixeira JA, et al. Galactomannans use in the development of edible films/coatings for food applications. Trends Food Sci Technol 2011;22:662-71.
Pelissari FM, Grossmann MV, Yamashita F, Pineda EA. Antimicrobial, mechanical, and barrier properties of cassava starch−chitosan films incorporated with oregano essential oil. J Agr Food Chem 2009;57:7499-504.
Boual Z, Pierre G, Delattre C, Benaoun F, Petit E, Gardarin C, et al. Mediterranean semi-arid plant Astragalus armatus as a source of bioactive galactomannan. Bioact Carbohydr Diet Fibre 2015;5:8-10.
Buriti FC, Dos Santos KM, Sombra VG, Maciel JS, Teixeira Sá DM, Salles HO, et al. Characterisation of partially hydrolysed galactomannan from Caesalpinia pulcherrima seeds as a potential dietary fibre. Food Hydrocol 2014;35:512-21.
Prosapio V, Reverchon E, De Marco I. Incorporation of liposoluble vitamins within pvp microparticles using supercritical antisolvent precipitation. J CO2 Util 2017;19:230-7.
Gupta S, Ravishankar S. A comparison of the antimicrobial activity of garlic, ginger, carrot, and turmeric pastes against Escherichia coli O157: H7 in laboratory buffer and ground beef. Foodborne Pathog Dis 2005;2:330-40.
Pantastico EB. Post-Harvest Physiology, Handling and Utilization of Tropical and Subtropical Fruits and Vegetables. Westport: Avi Publishing Company, Inc; 1975. p. 560.
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