Potential Use of Jackfruit (Artocarpus Heterophyllus) and Breadfruit (Artocarpus Altilis) as Fat Replacer to Produce Low-Fat Chicken Patties
-
2019-12-24 https://doi.org/10.14419/ijet.v7i4.14.27659 -
chicken patties, jackfruit, breadfruit, fat replacer, low-fat. -
Abstract
Commercial chicken patties contain high fat, which could affect consumers’ health. Jackfruit (Artocarpus heterophyllus) and breadfruit (Artocarpus altilis) may have the potential to be used as the fat replacer in the chicken patties. This study aimed to evaluate the low-fat chicken patties produced by replacing the fat with jackfruit (JF) or breadfruit (BF) at 0% (control), 50% and 100%. The samples were analysed in terms of water holding capacity (WHC), cooking yield (CY), proximate analysis, colour, texture properties, and sensory parameters. Both BF and JF showed higher value (p<0.05) for WHC, moisture content and protein compared to the control. BF (100%) and JF (100%) were recorded of having significantly reduced fat (p<0.05) at 1.80% and 2.23%, respectively. BF showed higher L*(lightness) and b*(yellowness) values significantly (p<0.05) compared to the control. Not many significant differences (p>0.05) between the control and newly formulated chicken patties texture based on the hardness, cohesiveness, and chewiness recorded, proving that BF and JF did not affect the patties texture. Overall, the sensory evaluation of BF (100%) was preferred by the consumer in terms of appearance, texture, flavour, juiciness, and aroma. Thus, BF (100%) can be considered as the best fat replacer in this study.
Â
Â
-
References
[1] Nath PM, Kumar V, Praveen PK, & Ganguly S (2016), Effect of chicken skin, soy protein and olive oil on quality characteristics of chicken nuggets. International Journal of Science, Environment and Technology 5(3), 1574-1585.
[2] Ibrahim FN, Ismail-Fitry MR, Yusoff MM, & Shukri R (2018) Effects of Fish Collagen Hydrolysate (FCH) as Fat Replacer in the Production of Buffalo Patties. Journal of Advanced Research in Applied Sciences and Engineering Technology 11(1), 108-117.
[3] Wen MCY, Ismail-Fitry MR, Mustapha NA, Hanani ZAN (2018). Effects of Brine Concentration, Thickness and Microwave Finish Drying on the Textural Characteristics of Buffalo Jerky. Journal of Advanced Research Design 46(1), 14-22.
[4] Aslinah LNF, Yusoff MM, & Ismail-Fitry MR (2018). Simultaneous use of adzuki beans (Vigna angularis) flour as meat extender and fat replacer in reduced-fat beef meatballs (bebola daging). Journal of food science and technology 55(8), 3241-3248.
[5] Mallika EN, Prabhakar K & Reddy PM (2009). Low Fat Meat Products-An Overview. Veterinary World 2(9), 364-366.
[6] Kirchner JM, Beasley LC, Harris KB, & Savell JW (2000). Evaluating the cooking and chemical characteristics of low-fat ground beef patties. Journal of Food Composition and Analysis 13(3), 253-264.
[7] Keeton JT (1994). Low-fat meat products—technological problems with processing. Meat Science 36(1-2), 261-276.
[8] AktaÅŸ N & Genccelep H (2006). Effect of starch type and its modifications on physicochemical properties of bologna-type sausage produced with sheep tail fat. Meat Science 74(2), 404-408.
[9] Furlán LTR, Padilla AP & Campderrós ME (2014). Development of reduced fat minced meats using inulin and bovine plasma proteins as fat replacers. Meat Science 96(2), 762-768.
[10] Choi YS, Choi JH, Han DJ, Kim HY, Lee MA, Kim HW, & Kim C J (2009). Characteristics of low-fat meat emulsion systems with pork fat replaced by vegetable oils and rice bran fiber. Meat science 82(2), 266-271.
[11] Dosh KS, Tawfiq NN & Jabbar SH (2016). Preparation of modified chicken burger by partial replacement of chicken meat with powdered of oyster mushroom and study it is physical and sensory properties. The Iraqi Journal of Agricultural Science 47(7-special issue), 138-143.
[12] Guedes-Oliveira JM, Salgado RL, Costa-Lima BR, Guedes-Oliveira J & Conte-Junior CA (2016). Washed cashew apple fiber (Anacardium occidentale L.) as fat replacer in chicken patties. LWT-Food Science and Technology 71, 268-273.
[13] AOAC International (2012). Official method of analysis of AOAC International, 19th edn. AOAC International, Gaithersburg.
[14] Calliari CM, de Souza EL, Castro-Goméz RJH, Honório VG & Magnani M. (2015). Characterisation and microstructure of reduced-fat chicken patties made with a novel polymer from Agrobacterium radiobacter k84. Food Chemistry 173, 1150-1157.
[15] Brewer MS (2014) Chemical and physical characteristics of meat | Water-holding capacity. In ‘Encyclopedia of meat sciences’. 2nd edn. 274–282.
[16] Glicksman M (1991). Hydrocolloids and search for the" Oily Grail". Food Technology October, 94-103.
[17] Mudgil D & Barak S (2013). Composition, properties and health benefits of indigestible carbohydrate polymers as dietary fiber: a review. International Journal of Biological Macromolecules 61, 1-6.
[18] Food Act 1983 and Food Regulations 1985 (2014). International Law Book Services, Petaling Jaya.
[19] Verma AK, Singh VP & Pathak V (2015). Effect of jackfruit supplement and ageing on the Physico-chemical, texture and sensory characteristics of Chevon patties. Journal of Applied Animal Research 43(3), 247-255.
[20] Beyer R (2007, April). Breadfruit as a candidate for processing. In I International Symposium on Breadfruit Research and Development 757 (209-214).
[21] Sáyago-Ayerdi SG, Brenes A & Goñi I (2009). Effect of grape antioxidant dietary fiber on the lipid oxidation of raw and cooked chicken hamburgers. LWT-Food Science and Technology 42(5), 971-976.
[22] Verma AK, Chatli MK, Kumar D, Kumar P & Mehta N (2015). Efficacy of sweet potato powder and added water as fat replacer on the quality attributes of low-fat pork patties. Asian-Australasian Journal of Animal Sciences 28(2), 252.
[23] Jalal H, Para PA, Ganguly S, Padhy A, Praveen PK & Wakchaure, R (2015). Fat replacers in meat: a brief review. World Journal of Engineering Research and Technology 1(2), 16-21.
[24] Fernández-López J, Sendra E, Sayas-Barberá E, Navarro C & Pérez-Alvarez JA. (2008). Physico-chemical and microbiological profiles of “salchichónâ€(Spanish dry-fermented sausage) enriched with orange fiber. Meat Science 80(2), 410-417.
-
Downloads
-
How to Cite
Rashedi Ismail-Fitry, M., & Farihah Azwa Abas, N. (2019). Potential Use of Jackfruit (Artocarpus Heterophyllus) and Breadfruit (Artocarpus Altilis) as Fat Replacer to Produce Low-Fat Chicken Patties. International Journal of Engineering & Technology, 7(4.14), 292-296. https://doi.org/10.14419/ijet.v7i4.14.27659Received date: 2019-02-20
Accepted date: 2019-02-20
Published date: 2019-12-24