Abstract
The objectives of this study were to determine efficacy of a membrane filtration in soy hull pectin purification and evaluate combined effects of soy hull pectin and pre-emulsified fiber/oil (PE) on chemical composition and technological properties of low fat and low salt meat emulsions. Soy hull pectin was purified through two different methods (alcohol-washed (ASP) and membrane-filtered (MSP)). Insoluble soy hull residues after pectin extraction were incorporated with sunflower oil and water for the PE preparation. Meat emulsion was formulated with 58 % pork, 20 % ice, 20 % pork backfat, and 2 % NaCl as control. A total of six low fat and low salt meat emulsions (1 % NaCl and 10 % backfat) was manufactured with 1 % pectin (with/without ASP or MSP) and 10 % PE (with/without). The pectin content of ASP and MSP was 0.84 and 0.64 g L-galacturonic acid/g dry sample, respectively. The inclusion of soy hull pectin caused similar results on chemical composition, color, cooking loss, and texture of the meat emulsions, regardless of the purification method. In addition, positive impacts of the combined treatments with soy hull pectin and PE compared to single treatments on cooking loss and texture of the meat emulsions were observed. Results suggest that membrane filtration could be an effective alternative method to purify pectin, instead of alcohol-washing, and both soluble pectin and insoluble fiber from soy hulls could be used as a functional non-meat ingredient to manufacture various low fat and low salt meat products.
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References
AMSA (2012) Meat color measurement guidelines. American Meat Science Association, Champaign, IL, USA
AOAC (2000) Official methods of analysis of AOAC. Vol. 41., 17th edn. Association of Official Analytical Chemists, Washington DC
Bourne MC (1978) Texture profile analysis. Food Technol 32:62–66
Candogan K, Kolsarici N (2003) The effects of carrageenan and pectin on some quality characteristics of low-fat beef frankfurters. Meat Sci 64:199–206
Choi YS, Choi JH, Han DJ, Kim HY, Lee MA, Jeong JY, Chung HJ, Kim CJ (2010) Effects of replacing pork back fat with vegetable oils and rice bran fiber on the quality of reduced-fat frankfurters. Meat Sci 84:557–563
Colmenero FJ (1996) Technologies for developing low-fat meat products. Trends Food Sci Technol 7:41–48
Desmond E (2006) Reducing salt: A challenge for the meat industry. Meat Sci 74:188–196
Drewnowski A, Rehm CD, Maillot M, Monsivais P (2015) The relation of potassium and sodium intakes to diet cost among US adults. J Hum Hypertens 29:14–21
Garna H, Mabon N, Robert C, Cornet C, Nott K, Legros H, Wathelet B, Paquot M (2007) Effect of extraction conditions on the yield and purity of apple pomace pectin precipitated but no washed by alcohol. J Food Sci 72:C001–C009
Gerber N, Scheeder MRL, Wenk C (2009) The influence of cooking and fat trimming on the actual nutrient intake from meat. Meat Sci 81:148–154
Gnanasambandam R, Proctor A (1999) Preparation of soy Hull pectin. Food Chem 65:461–467
Grasso S, Brunton NP, Lyng JG, Lalor F, Monahan FJ (2014) Healthy processed meat products – regulatory, reformulation and consumer challenges. Trends Food Sci Technol 39:4–17
Havlin JL, Soltanpour PN (1980) A nitric acid plant tissue digest method for use with inductively couple plasma spectrometry. Commun Soil Sci Plant Anal 11:969–980
Jiménez-Colmenero F, Carballo J, Cofrades S (2001) Healthier meat and meat products: their role as functional foods. Meat Sci 59:5–13
Kalapathy U, Proctor A (2001) Effect of acid extraction and alcohol precipitation conditions on the yield and purity of soy Hull pectin. Food Chem 73:393–396
Kim HW, Lee YJ, Kim YHB (2015) Efficacy of pectin and insoluble fiber extracted from soy hulls as a functional non-meat ingredient. LWT Food Sci Technol 64:1071–1077
Kumar V, Biswas AK, Sahoo J, Chatil MK, Sivakumar S (2013) Quality and storability of chicken nuggets formulated with green banana and soybean hulls flours. J Food Sci Technol 50:1058–1068
Lau WJ, Ismail AF, Misdan N, Kassim MA (2012) A recent progress in thin film composite membrane: A review. Desalination 287:190–199
Mansour EH, Khalil AH (1997) Characteristics of low-fat beefburger as influenced by various types of wheat fibers. Food Res Int 30:199–205
Mittal GS, Zhang J (2000) Prediction of temperature and moisture content of frankfurters during thermal processing using neural network. Meat Sci 55:13–24
Monsoor MA (2005) Effect of drying methods on the functional properties of soy Hull pectin. Carbohydr Polym 61:362–367
Ordóñez M, Rovira J, Jaime I (2001) The relationship between the composition and texture of conventional and low-fat frankfurters. Int J Food Sci Technol 36:749–758
Pappa IC, Bloukas JG, Arvanitoyannis IS (2000) Optimization of salt, olive oil and pectin level for low-fat frankfurters produced by replacing pork backfat with olive oil. Meat Sci 56:81–88
Perez V, Chang ET (2014) Sodium-to-potassium ratio and blood pressure, hypertension, and related factors. Adv Nutr 5:712–741
Rodríguez R, Jiménez A, Fernández-Bolaños J, Guillén R, Heredia A (2006) Dietary fibre from vegetable products as source of functional ingredients. Trends Food Sci Technol 17:3–15
Sarıçoban C, Yılmaz MT, Karakaya M, Tiske SS (2010) The effect of different levels of sunflower head pith addition on the properties of model system emulsions prepared from fresh and frozen beef. Meat Sci 84:186–195
Sofos JN (1983) Effect of reduced salt (NaCl) levels on the stability of frankfurters. J Food Sci 48:1684–1691
Thakur BR, Singh RK, Handa AK, Rao MA (1997) Chemistry and uses of pectin – a review. Crit Rev Food Sci Nutr 37:47–73
Troy DJ, Desmond EM, Buckley DJ (1999) Eating quality of low-fat beef burgers containing fat-replacing functional blends. J Sci Food Agric 79:507–516
Vural H, Javidipour I, Ozbas OO (2004) Effects of interesterified vegetable oils and sugarbeet fiber on the quality of frankfurters. Meat Sci 67:65–72
Zhang L, Chen F, Yang H, Sun X, Liu H, Gong X, Jiang C, Ding C (2010) Changes in firmness, pectin content and nanostructure of two crisp peach cultivars after storage. LWT Food Sci Technol 43:26–32
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Thanks are given to Danika K. Miller for her help in the preparation and analysis of samples, and Traci Cramer for editorial inputs.
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Kim, HW., Lee, Y.J. & Kim, Y.H.B. Effects of membrane-filtered soy hull pectin and pre-emulsified fiber/oil on chemical and technological properties of low fat and low salt meat emulsions. J Food Sci Technol 53, 2580–2588 (2016). https://doi.org/10.1007/s13197-016-2221-0
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DOI: https://doi.org/10.1007/s13197-016-2221-0