Iranian Food Science and Technology Research Journal

Current Issue

By Issue

By Author

Author Index

Keyword Index

About Journal

Aims and Scope

Publication Ethics

Indexing and Abstracting

FAQ

Peer Review Process

Journal Metrics

Manuscript Structure

Download guide files

Article Submission Checklist

Reviewer Guide

Journal Reviewers List

The effect of Xanthan gum added to the coated breaded shrimp (Litopenaeusvannamei) on oil uptake, nutritional quality indices and sensory properties

Document Type : Research Article

Authors

1 Department of Food and Science Technology, Azadshahr Branch, Islamic Azad University, Azadshahr, Iran.

2 Department of Chemistry, Azadshahr Branch, Islamic Azad University, Azadshahr, Iran.

3 Department of Fishery, Azadshahr Branch, Islamic Azad University, Azadshahr, Iran.

Abstract

Introduction: Value-added products, referring to the fact that a raw commodity or commodities are transformed into a processed product through use of materials and technology, may have different appearances, textures, tastes and smells than their raw material. Fried product is one of the most popular ready to eat foods all around the world. They have excellent sensory qualities due to their appealing flavor and texture. Products such as shrimp usually coated with breading before frying to induce additional sensory and quality attributes. The process of battering and breading provides special functions in food products, including improved appearance of the products, increased texture crispness, reduced oil uptake during the frying process and increased the shelf life of the coated products.
Hydrocolloids are used extensively in food technology as thickening and gelling agents, stabilizers, and emulsifiers. In addition, the hydrocolloid coatings are of great interests due to their desirable barrier properties to gas/moisture and good mechanical characteristics. Thus, a variety of foods have been coated with hydrocolloids to prevent moisture loss, preserve texture, and maintain color, consequently extending the product shelf-life. Specifically, the hydrocolloid coatings are often known to reduce the oil uptake of fried foods. The mechanisms of the oil uptake during frying are associated with heat transfer from the frying oil to the food and the migration of water and oil. Various hydrocolloids have been tested as an oil barrier coating material and the effectiveness of hydrophilic and thermo-gelling hydrocolloids in reducing oil uptake during frying has been well reported in previous studies.
Material and Methods: Fresh peeled shrimp (Litopenaeus vannamei) was purchased from Gomishan city, Golestan province, Iran. Xanthan gum was bought from Asia Research Petrochemisry (Iran). White flour, corn flour, breading powder, oil and salt were prepared from the local supermarket. All other chemicals used in this study had analytical grade and were gained from Fluka or Merck companies.
The freezed shrimps were thawed at room temperature before processing. Four different formulations were applied in pre-dusting and battering as following:
Control= without xanthan in pre-dust and batter,
A=2% xanthan in predust,
B=2% xanthan in batter,
C=1% xanthan in predust + 1% xanthan in batter.
The batter formulation was consisted of wheat flour (75%), corn flour (24.5%), salt (0.5%). The dry ingredients were blended for 3 min at speed 2 m/s in a Kenwood Major Classic mixer (Kenwood-BL460) with water (1:1.4 solid to water ratio). In each treatment, firstly, pre-dusting was done and then, battering. Afterwards, it was allowed to drip additional batter for 30 s. For final coating, orange bread crumbs were used (Gols Company). The samples were pre-deep-fried by sunflower oil at 190 °C for 30 s (Fritaurus Professional 3 domestic fryer, Barcelona, Spain). The treatments were cooled to room temperature for 30 min. Then, they were placed in plastic freezer bags (LDPE film, thickness 150 μ) and stored at -18 °C.
Moisture content in the samples was determined in quadruplicate according to the Association of Official Analytical Chemists (AOAC) (2000) method. Fat content of fried products was distinguished using Soxhlet extractions according to the AOAC (2000) method No. 992.15.
Batter pickups (%) were determined as following equation:
Batter pickup (%) = (Weight of coated shrimp–Weight of uncoated shrimp)/(Weight of coated shrimp)×100
Product yield (%) was calculated by weight of the cooked shrimp block/ weight of the raw shrimp block × 100.
Quantitation of fatty acid methyl esters in raw and fried breaded shrimp was carried out by gas chromatography (Unicam-4600) with 30 mm×0.25 mm column (Film Tekness-0.22 μl) and FID detector, using glyceryl tritridecanoate (C13:0) as an internal standard (Sigma, Barcelona, Spain). Fatty acids were expressed as percentage of total fatty acid methyl esters or in absolute content (mg/100 g food).
Fried shrimp coated with the selected formulations was evaluated by a trained sensory panel of 12 members. Each sample was randomly numbered and presented to the panel member. A hedonic panel was also performed by the same panelists, who evaluated aroma, taste, texture, color, appearance and overall acceptability characteristics. A hedonic 5-point scale was used, 1s unusable, 2s dislike, 3s acceptable, 4s like and 5s like very much. All data are reported as mean± standard deviations of triplicate. One-way analysis of variance (ANOVA) was used to compare the means of all evaluated parameters. Differences were considered significant at P

Keywords

References
A.O.A.C., 2000, Official Method of Analysis. (17 thd). Washington, DC, Association of Official Analytical Chemists.
Akdeniz, N., 2004, Effects of different batter formulations on quality of deep fat fried carrot slices. A Thesis Submitted to the Graduate school of Natural and Applied Sciences of Middle east Technical University.
Albert, A., Perez-Munuera, I., Quiles, A., Salvador, A., Fiszman, S. M., and Hernando, I., 2009, Adhesion in fried battered nuggets: performance of different hydrocolloids as predust using three cooking procedures. Food Hydrocolloids, 23, 1443-1448.
Asmita, S. P., and Uday, S. A., 2012, Effect of coating of hydrocolloids on chickpea (Cicer arietinum L.) and green gram (Vigna radiata) splits during deep fat frying. International Food Research Journal, 20, 565-573.
Avaz Khajeh, H., and Jorjani, S., 2015, Added hydroxypropyl methyl cellulose in coverage Fried shrimp and its effect on the absorption profile of fatty acids in the oil and deep frying. International Journal of Food Industries, 10, 75-82.
Çelik, M., Diler, A., and Kücükgülmez, A., 2005. A comparison of the proximate compositions and fatty acid profiles of zander (Sander lucioperca) from two different regions and climatic condition. Food Chemistry, 92, 637–641.
Chen, S. D., Chen, H.H., Chao, Y. C., and Lin, R. S., 2009, Effect of batter formula on qualities of deep-fat and microwave fried fish nuggets. Journal of Food Engineering, 95, 359–364.
Das, A. K., Anjaneyulu, A. S. R., Gadekar, Y. P., Singh, R. P., and Pragati. H., 2008, Effect of full-fat soy paste and textured soy granules on quality and shelf-Life of goat meat nuggets in frozen storage. Journal of Meat Science, 80, 607-614.
Dogan, S. F., Sahin, S., and Sumnu, G., 2005, Effects of soy and rice flour addition on batter rheology and quality of deep-fat fried chicken nuggets. Journal of Food Engineering, 71, 127-132.
FAO., 2006, State of world aquaculture: FAO Fisheries Technical Paper, 500, Food and Agriculture Organization. Rome, Italy.
Farajzadeh, Z., Rahimi, E., Hojjatoleslamy, M., and Molavi, H., (2013), Production of low fat hamburger using hydrocolloid coatings. Journal of Food Hygiene, 2, 61-71.
Filho, M. M. R., Ramos, M. I. L., Hiane, P. A., and Souza, E. M. T. D., 2010, Nutritional value of seven freshwater fish species from the Brazilian pantanal. Journal of the American Oil Chemists’ Society, 87, 1461–1467.
Fiszman, S. M., and Salvador, A., 2003, Recent developments in coating batters. Trends in Food Science and Technology, 14, 399-407.
Folch. J., Less, M., and Stanley, G. H. S., 1957, A Simple Method for The Isolation and Isolation and Purification of Total Lipids From Animal Tissues. J. Biological Chemistry, 226, 497-509.
Garcia, M. A., Ferrero, C., Campana, A., Bertola, N., Martino, M., and Zaritzky, N., 2004, Edible coatings from cellulose derivatives to reduce oil uptakes in fried products. Innovative Food Science and Emerging Technologies, 3, 391-397.
Gol Mohammadi, M., Khademi Shormasti, D., (2016), The effect of food active coating based on xanthan on microbial contamination of chicken fillet during storage in cold conditions, Nutrition Sciences Student Conference, Tehran.
HMSO, U. K., 1994, Nutritional aspects of cardiovascular disease (report on health and social subjects No. 46. London: HMSO.
Hong-wu, J. I., Guang-kun, P. A. N., Shu-cheng, L. I. U., Wei-ming, S. U., Hong-yu, L. U., and Chuang, P. A. N., 2014, Effect of soy protein isolate on quality of fried breaded shrimp. Modern Food Science and Technology, 30(4), 104-111.
Hosseini, H., Mahmoudzadeh, M., Rezaei, M., Mahmoudzadeh, L., Khaksar R., Karimian Khosroshani, N., and Babakhani, A., 2014, Effect of different cooking methods on minerals, vitamins and nutritional quality indices of Kutum Roach (Rutilus Frisii Kutum). Food Chemistry, 148, 86-91.
Jamshidi, A., and Shabanpour, B., 2013, The effect of hydroxypropyl methylcellulose (HPMC) gum added to predust and batters of talang queen fish (Scomberoides Commersonnianus) nuggets on the quality and shelf life during frozen storage (-18 °C). World Journal of Fish and Marine Sciences, 4, 382-391.
Jamshidi, A., Shabanpour, B., Rahmani Farah, K., Peyghambari, Y., Rostamzadeh, H., Azari Beh, M., and Barzegar, L., 2012, The effect of xanthan gum, carboxymethyl cellulose and alginate and thawing conditions on the quality of Fish Finger. Journal of Research and Innovation in Food Science and Technology, 4(1), 295-306.
Kan Pan, G., Wu Ji, H., Cheng Liu, S., Ming Su, W., and Yu Lu, H., 2013, Effect of soy protein isolate addition on quality of deep-fat fried breaded shrimp. Journal of Food and Nutritional Research, 6, 174-180.
Katzbauer B., 1998, Properties and applications of xanthan gum. Poly. Degrad. Stabil., 59, 81-84.
Miranda, J. M., Martinez, B., Perez, B., Anton, Y., Vaazquez, B. I., Fente, C. A., Franco, C. M., Rodriguez, J. L., and Cepeda, A., 2010, The effects of industrial pre-frying and domestic cooking methods on the nutritional compositions and fatty acids profile of two different frozen breaded foods. Food Science and Technology, 43, 1271-1276.
Mitchaothai, J., Yuangklang, C., Wittayakun, S., Vasupen, K., Wongsutthavas, S., Srenanul, P., Hovenier. R., Everts, H., and Beynen, A. C., 2007, Effect of dietary fat type on meat quality and fatty acid composition of various tissues in growing-finishing swine. Meat Science, 76, 95-101.
Moreira, R. G., Castell-Perez, M. E., and Barrufet, M. A., 1999, Deep-Fat Frying fundamentals and applications. Aspen Publishers, Inc. Gaithersburg, Maryland. PP: 75-104.Aspen Publishers, Inc., Gaithersburg, Maryland.
Parvaneh, V., 1998. Quality control and chemical analysis of food. Tehran University Press. 325 p.
Pawar, P. A., Monga, R., Purwar, A., 2014, Effect of hydrocolloids on the oil uptake of kachori. International Journal of Scientific Engineering and Technology, 3(5), 686-688.
Pazos, M., Gallardo, J. M., Torres, J. L., Medina, I., 2005, Activity of grape polyphenols as inhibitors of the oxidation of fish lipids and frozen fish muscle. Food Chemistry, 92, 547-557.
Pirestani, S., Sahari, M. A., Barzegar, M., 2010, Fatty acids changes during frozen storage in several fish species from south Caspain sea. Journal of Agricultural Science and Technology, 12, 321-329.
Razmaitė, V., Švirmickas, G. J., 2012, Comparison of fatty acid composition in different PGI tissues. Veterinarija Ir Zootechnika (Vet Med Zoot). T, 58 (80), 77-82.
Roman, M. C., 2003, Lipide in Human Nutrition. Chemical and Functional Properties of Food Lipids. Zdzislaw, E. Sikorski (ed), CRC PRESS, New York Washington DC: 201.
Shabanpour, B., and Jamshidi, A., 2013, Combined effect of light salting and hydrocolloids as flour milling quality salmon nuggets. Journal of Exploitation and Aquaculture, 1, 13-26.
Simopoulos, A. P., 2008, The importance of the omega-6/omega-3 fatty acid ratio in cardiovascular disease and other chronic diseases. Experimental Biology and Medicine, 233, 674-688.
Testi, S., Bonaldo, A., Gatta, P. P., and Badiani, A., 2006, Nutritional traits of dorsal and ventral fillets from three farmed fish species. Food Chemistry, 98, 104–111.
Turan, H., Sonmez, G., and Kaya, Y., 2007, Fatty acid profile and proximate composition of the thornback ray (Raja clavata, L. 1758) from the Sinop coast in the Black Sea. Journal of Fisheries Sciences, 1, 97–103.
Usawakesmanee, W. S., Wuttijunong, P., Chinnan, M., Jangchud, A., and Raksakulthai, N., 2005, The effects of edible coating ingredient as a barrier to moisture and fat of fried breaded Potato. Kasetsart Journal-Natural Science, 39, 98-108.
Usawakesmanee, W. S., Chinnan, M., Wuttijumnong, P., Jangchud, A., Raksakulthai, N., 2008, Effect of edible coating ingredients incorporated into predusting mix on moisture content, fat content and consumer acceptability of fried breaded product. Songklanakarin Journal of Science and Technology, 30, (Suppl 1), 25-34.
Venugopal, V., 2006, Seafood processing. CRC Press 2006. P. 485.
Wijendran, V., Hayes, K. C., 2004, Dietary n-6 and n-3 fatty acid balance and cardiovascular health. Annual Review of Nutrition, 24, 597-615.
Williams, P. A., Phillips, G. O., 2000, Handbook of hydrocolloid, Introduction to food hydrocolloids. Woodhead Publishing Limited and CRC Press LLC
Send comment about this article
CAPTCHA Image
Iranian Food Science and Technology Research Journal
Volume 14, Issue 1 - Serial Number 49
March and April 2018
Pages 107-118
Files
History
  • Receive Date: 18 June 2016
  • Revise Date: 05 January 2017
  • Accept Date: 18 June 2016
  • First Publish Date: 21 March 2018
Share
How to cite
Statistics