Physicochemical characteristics of smoked cooked linguiças made with ostrich meat trimmings

Nascimento, R.S.; Fonseca, A.B.; Feijó, M.B.S.; Franco, R.M.; Miranda, Z.B.

doi:10.1590/1678-4162-8969

ABSTRACT

The aim of this study was to evaluate the physicochemical characteristics of three formulations of smoked cooked linguiças, only differing in the lean meat used: (Formula 1 ― 100% ostrich meat; Formula 2 ― 50% ostrich meat + 50% pork; and Formula 3 ― 50% ostrich meat + 50% chicken), elaborated with ostrich meat trimmings. The formulas showed slightly higher moisture content (62.00-64.41%) than the maximum allowed in the legislation for cooked linguiças (60%) (Brasil, 2000). However, their protein content (19.99-22.14%) was at least 42% higher than the minimum required level (14%); the fat content (11.82-14.25%) was less than half the maximum permitted level (35%) in the same legislation, and at least 45% less than three well-known smoked cooked linguiça brands commercialized in Brazil; and the energy value (194.89-208.19 Kcal%) was at least 31% less than the same smoked linguiça brands; thus the three ostrich smoked linguiça formulas elaborated could be claimed "light" in fat content and energy value (European Union, 2006; Brasil, 2012). The present study showed that ostrich meat trimmings can be successfully used to elaborate healthy, "light", smoked cooked linguiças, competing in the market with traditional smoked cooked linguiças, and adding value in the ostrich meat chain.

Keywords:
struthio camelus; moisture; fat; protein; ash

RESUMO

O objetivo do estudo foi avaliar as características físico-químicas de três formulações de linguiças cozidas defumadas, que somente diferiram em relação à carne magra utilizada: (Fórmula 1 ― 100% carne de avestruz; Fórmula 2 ― 50% carne de avestruz + 50% carne suína; e Fórmula 3 ― 50% carne de avestruz + 50% carne de frango), elaboradas com aparas de carne de avestruz. As fórmulas apresentaram teor de umidade levemente superior (62,00-64,41%) ao máximo permitido na legislação para linguiças cozidas (60%) (Brasil, 2000). No entanto, seu teor de proteína (19,99-22,14%) foi no mínimo 42% maior que o nível mínimo exigido (14%); o teor de gordura (11,82-14,25%) foi menos da metade do conteúdo máximo permitido (35%) na mesma legislação e pelo menos 45% inferior ao teor de gordura de três marcas bem conhecidas de linguiças cozidas defumadas comercializadas no Brasil; e o valor energético (194,89-208,19kcal%) foi no mínimo 31% menor que as mesmas marcas de linguiças defumadas; com isso, as três fórmulas de linguiças cozidas defumadas de carne de avestruz poderiam ser rotuladas como "light" em relação ao teor de gordura e valor energético (European Union, 2006; Brasil, 2012). O presente estudo mostrou que as aparas de carne de avestruz podem ser utilizadas com sucesso na elaboração de linguiças cozidas defumadas "light", saudáveis, competindo no mercado com linguiças defumadas tradicionais, e adicionando valor à cadeia de carne de avestruz.

Palavras-chave:
struthio camelus; umidade; gordura; proteína; cinzas

INTRODUCTION

In Western societies, ostrich (Struthio camelus) meat is reckoned as a delicacy, which is usually served grilled, cooked, or dried (biltong, South African dried and cured ostrich meat) (Böhme et al., 1996BÖHME, H.M.; MELLETT, F.D.; DICKS, L.M.T.; BASSON, D.S. Production of salami from ostrich meat with strains of Lactobacillus sake, Lactobacillus curvatus and Micrococcus sp. Meat Sci., v.44, p.173-180, 1996. ; Fernández-López et al., 2003FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ). Furthermore, ostrich meat is regarded and marketed as a healthy alternative to other red meats, due to its favourable nutritional characteristics: low levels of sodium, collagen and intramuscular fat content; favourable fatty acids profile (polyunsaturated fatty acids (PUFA)/saturated fatty acids (SFA) and ω-6/ω-3 ratios); and high levels of iron, zinc, vitamin B6, B12, and E (Fisher et al., 2000FISHER, P.; HOFFMAN, L.C.; MELLETT, F.D. Processing and nutritional characteristics of value added ostrich products. Meat Sci. , v.55, p.251-254, 2000. ; Lombardi-Boccia et al., 2002LOMBARDI-BOCCIA, G.; MARTINEZ-DOMINGUEZ, B.; AGUZZI, A. Total heme and non-heme iron in raw and cooked meats. J. Food Sci. , v.67, p.1738-1741, 2002. ; Fernández-López et al., 2003FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ; Fernández-López et al., 2006FERNÁNDEZ-LÓPEZ, J.; JIMÉNEZ, S.; SAYAS-BARBERÁ, E. et al. Quality characteristics of ostrich (Struthio camelus) burgers. Meat Sci. , v.73, p.295-303, 2006. ; Karakök et al., 2010KARAKÖK, S.G.; OZOGUL, Y.; SALER, M.; OZOGUL, F. Proximate analysis. Fatty acid profiles and mineral contents of meats: A comparative study. J. Muscle Foods, v.21, p.210-223, 2010. ; Poławska et al., 2011POŁAWSKA, E.; MARCHEWKA, J.; COOPER, R.G. et al. The ostrich meat: an updated review. II. Nutritive value. Anim. Sci. Pap. Rep., v.29, p.89-97, 2011. ; Xavier Medina and Aguilar, 2014XAVIER MEDINA, F.; AGUILAR, A. Ostrich meat: nutritional, breeding, and consumption aspects. The case of Spain. J. Food Nutr. Res., v.2, p.301-305, 2014.).

Currently, ostrich meat worldwide production level stands around 12,000 and 15,000 tons, with a growing trend in the last two decades, and South Africa, ostrich production pioneer, still accounts for 60% of this production (Xavier Medina and Aguilar, 2014XAVIER MEDINA, F.; AGUILAR, A. Ostrich meat: nutritional, breeding, and consumption aspects. The case of Spain. J. Food Nutr. Res., v.2, p.301-305, 2014.). Moreover, in 2015, 1,299 ostriches were slaughtered in abattoirs approved by the Brazilian Ministry of Agriculture, Livestock and Supply, with an increasing trend when compared with the previous years (Quantidade ..., 2016QUANTIDADE de Abate Estadual por Ano/Espécie. Ministério da Agricultura, Pecuária e Abastecimento. Available in: <Available in: http://sigsif.agricultura.gov.br/ sigsif_cons/!ap_abate_estaduais_cons?p_select=SIM >. Acessed in: 04 fev. 2016.
http://sigsif.agricultura.gov.br/ sigsif... ).

Since approximately one-third of the lean meat from the ostrich carcass consists of meat trimmings, derived from deboning (Harris et al., 1993HARRIS, S.D.; MORRIS, C.A.; JACKSON, T.C. et al. Ostrich meat industry development, final report to: American Ostrich Association. Texas: Agricultural Extension Service. 1993. Available in: <Available in: https://www.researchgate.net/publication/267362105_Ostrich_Meat_Industry_Development >. Accessed in: 12 Dec. 2015.
https://www.researchgate.net/publication... ), which are less noble and valuable than the ten major muscles, meat trimmings' use as a raw material for ostrich meat products is very important to increase the profitability of the ostrich industry (Mckenna et al., 2003MCKENNA, D.R.; MORRIS, C.A.; KEETON, J.T. et al. Consumer acceptability of processed ostrich meat products. J. Muscle Foods , v.14, p.173-179, 2003. ). Besides, ostrich meat's relatively high pH makes it an ideal meat for the elaboration of cooked meat products, since its natural water holding capacity is high, decreasing the use of moisture retaining agents, such as phosphates in the formulation (Fisher et al., 2000FISHER, P.; HOFFMAN, L.C.; MELLETT, F.D. Processing and nutritional characteristics of value added ostrich products. Meat Sci. , v.55, p.251-254, 2000. ; Fernández-López et al., 2003FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ). Thus, several authors have successfully used ostrich meat in the elaboration of a number of meat products (Böhme et al., 1996BÖHME, H.M.; MELLETT, F.D.; DICKS, L.M.T.; BASSON, D.S. Production of salami from ostrich meat with strains of Lactobacillus sake, Lactobacillus curvatus and Micrococcus sp. Meat Sci., v.44, p.173-180, 1996. ; Fisher et al., 2000FISHER, P.; HOFFMAN, L.C.; MELLETT, F.D. Processing and nutritional characteristics of value added ostrich products. Meat Sci. , v.55, p.251-254, 2000. ; Fernández-López et al., 2003FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ; Hoffman and Mellett, 2003HOFFMAN, L.C.; MELLETT, F.D. Quality characteristics of low fat ostrich meat patties formulated with either pork lard or modified corn starch, soya isolate and water. Meat Sci. , v.65, p.869-875, 2003. ; Lee and Kang, 2003LEE, S.W.; KANG, C.S. Effects of moisture content and drying temperature on the physicochemical properties of ostrich jerky. Nahrung/Food, v.47, p.330-333, 2003.; Mckenna et al., 2003; Dicks et al., 2004DICKS, L.M.T.; MELLETT, F.D.; HOFFMAN, L.C. Use of bacteriocin-producing starter cultures of Lactobacillus plantarum and Lactobacillus curvatus in production of ostrich meat salami. Meat Sci. , v.66, p.703-708, 2004. ; Capita et al., 2006CAPITA, R.; LLORENTE-MARIGÓMEZ, S.; PRIETO, M.; ALONSO-CALLEJA, C. Microbiological profiles, pH, and titratable acidity of chorizo and salchichón (two Spanish dry fermented sausages) manufactured with ostrich, deer, or pork meat. J. Food Prot., v.69, p.1183-1189, 2006. ; Fernández-López et al., 2006FERNÁNDEZ-LÓPEZ, J.; JIMÉNEZ, S.; SAYAS-BARBERÁ, E. et al. Quality characteristics of ostrich (Struthio camelus) burgers. Meat Sci. , v.73, p.295-303, 2006. ; Hautrive et al., 2008HAUTRIVE, T.P.; OLIVEIRA, V.R.; SILVA, A.R.D. et al. Physicochemical and sensorial analyses of ostrich hamburger. Ciênc. Tecnol. Aliment., v.28, Suppl., p.95-101, 2008.; Mastromatteo et al., 2009MASTROMATTEO, M.; LUCERA, A.; SINIGAGLIA, M.; CORBO, M.R. Microbiological characteristics of poultry patties in relation to packaging atmospheres. Int. J. Food Sci. Technol , v.44, p.2620-2628, 2009. ; Cavalheiro et al., 2010CAVALHEIRO, C.P.; TERRA, N.N.; FRIES, L.L.M. et al. Physico-chemical characteristics of fermented cured sausage with the addition of ostrich meat associated to pork meat. Ciênc. Rural, v.40, p.447-452, 2010. ; Nascimento et al., 2012NASCIMENTO, R.S.; FONSECA, A.B.M.; FRANCO, R.M.; MIRANDA, Z.B. Linguiças frescais elaboradas com carne de avestruz: características físico-químicas. Ciênc. Rural, v.42, p.184-188, 2012. ; Souza et al., 2012SOUZA, V.L.F.; SASAKI, J.Y.; FRANCO, M.L.R.S. et al. Processing, physicochemical, and sensory analyses of ostrich meat hamburger. Ciênc. Tecnol. Aliment. , v.32, p.450-454, 2012.).

Linguiça is one of the most consumed meat products in Brazil (Milani et al., 2003MILANI, L.I.G.; FRIES, L.L.M.; PAZ, P.B. et al. Bioproteção de lingüiça de frango. Ciênc. Tecnol. Aliment., v.23, p.161-166, 2003. ). It is a meat product, cured sausage, made of livestock meat, fat (optional) and other ingredients, stuffed into natural or artificial casings, and submitted for processing, i.e. smoked (cooked or dried), or fresh. Livestock meat and salt are the required ingredients, while the optional ones include fat, water, vegetable or animal protein, sugar, plasma, intentional additives, flavours, spices, and condiments. Linguiça has recognizable texture, colour, flavour, and aroma (Brasil, 2000BRASIL. Ministério da Agricultura e do Abastecimento. Secretária da Defesa Agropecuária. Instrução Normativa n.4, de 31 de março de 2000. Aprova os regulamentos técnicos de identidade e qualidade de carne mecanicamente separada, de mortadela, de linguiça e de salsicha. Diário Oficial da União Brasília, 05 abr. 2000. Seção 1, p.6. ).

The physicochemical characteristics of cooked linguiças should be: Moisture (max.): 60%; Fat (max.): 35%; Protein (min.): 14%; and Calcium (in dry base) (max.): 0.3%, according to the Technical Regulation of Identity and Quality (RTIQ) of Linguiça, annex 3 of Normative Instruction No 4 of 31 March 2000, of the Ministry of Agriculture, Livestock and Supply (Brasil, 2000BRASIL. Ministério da Agricultura e do Abastecimento. Secretária da Defesa Agropecuária. Instrução Normativa n.4, de 31 de março de 2000. Aprova os regulamentos técnicos de identidade e qualidade de carne mecanicamente separada, de mortadela, de linguiça e de salsicha. Diário Oficial da União Brasília, 05 abr. 2000. Seção 1, p.6. ).

To be claimed "light" in one or more nutrients content or energy value the product must show at least 25% and 30% reduction in the respective level compared with a similar product according to Brasil (2012)BRASIL. Ministério da Saúde. Resolução RDC n.54, de 12 de novembro de 2012. Dispõe sobre o regulamento técnico sobre informação nutricional complementar. Diário Oficial da União, Brasília, 13 nov. 2012. Seção 1, p.122. and Commission... (2006)COMMISSION Regulation (EC), 2006. N. 1924/2006 of 20 December 2006. Nutrition and health claims made on foods. Official Journal of the European Union, Bruxelles, 2006. p.L404/9. , respectively.

The aim of this study was to evaluate the physicochemical characteristics (moisture, protein, fat and ash contents) of three formulations of smoked cooked linguiças elaborated with ostrich meat trimmings, derived from deboning.

MATERIAL AND METHODS

Ostrich meat were obtained from 12 to 14 months old birds, pork and lard from 8 months old animals, and chicken from 45 days old birds, which were slaughtered in processing plants under the Federal Inspection Service (SIF) of the Brazilian Ministry of Agriculture, Livestock and Supply, Brazil, using industrial slaughtering techniques. Ostrich meat and pork used were meat trimmings obtained from deboning the carcasses, while chicken derived from the leg. All meat and lard batches were vacuum-packed and frozen at -18°C until processed.

The smoked cooked linguiças were prepared according to a simple traditional formula with 73.1% lean meat, 14.47% lard, 1.52% sodium chloride, 0.09% sucrose, 0.18% garlic powder, 0.04% black pepper powder, 0.03% chilli powder, 0.53% white wine, 0.04% nutmeg powder, 8.92% iced water, 0.28% cure mix (sodium nitrite), 0.28% antioxidant mix (sodium erythorbate), 0.23% smoke powder, and 0.30% sodium polyphosphate.

Three formulations of smoked cooked linguiças were prepared, only differing in the lean meat used: Formula 1 ― 100% ostrich meat; Formula 2 ― 50% ostrich meat + 50% pork; and Formula 3 ― 50% ostrich meat + 50% chicken.

The three smoked cooked linguiça formulas were processed in a pilot plant according to commercial processing. Ostrich meat, pork and lard were cut using a meat cutting bandsaw machine (Heavy Duty SI282HD, Skymsen(r), Brazil). Chicken legs were manually deboned and skinned with the use of stainless steel knives. The meat and the lard were ground using a 106 millimetres (mm) meat grinder (MC-106, Ibrasmak(r), Brazil), through a 12-mm plate, and mixed with the other ingredients in a mixer (MT-96, Incomaf(r), Brazil) for approximately five minutes. The mixed product was put in the cold chamber (Engepom(r), Brazil) for curing (two hours). The mass was vacuum-stuffed (RS 1040, Incomaf(r), Brazil) into 28 mm natural pork casings, twisted and tied off in 10 centimetres (cm) links. The linguiças links were draped on smoke-sticks, eight to nine links forming a loop. The draped smoke-sticks were placed on a smoke-tree, which was transferred to the smoke-house (EMI 01CPVI, Incomaf(r), Brazil), and the linguiças were cooked for approximately 40 minutes, until 74ºC were reached in the geometric centre of the linguiças. The products were showered with cold water for three minutes, and chilled by refrigeration in the cold chamber (Engepom(r), Brazil) during two hours. The smoked linguiças were vacuum-packaged (300 B, Selovac(r), Brazil), placed in isothermal bags with re-freezable ice blocks and carried to the storage location. They were stored in a refrigerator (CRC12, Consul(r), Brazil) at 3 ± 2ºC until the day of analysis.

For the physicochemical analyses, all parameters were tested in quintuplicate. Moisture was determined by Instituto Adolfo Lutz methods (Métodos..., 2008) and ash, protein, and fat content were determined by AOAC methods (Official..., 2005). Moisture (g water/100 g sample) was determined by drying 5 g of sample at 105°C to constant weight. Ash content (g ash/100 g sample) was determined at 550°C for 2h. Protein (g protein/100g sample) was analysed according to the Kjeldahl method. Factor 6.25 was used for conversion of nitrogen to crude protein. Fat (g fat/100 g sample) was calculated by weight loss after a 6-hours extraction with petroleum ether in a Sohxlet apparatus. Energy value (kcal/100g sample) was calculated according to Atwer coefficients (Carbohydrates: 4kcal/g, Protein: 4kcal/g, and Fat: 9kcal/g) (Brasil, 2003BRASIL. Ministério da Saúde. Resolução RDC n 360, de 23 de dezembro de 2003. Aprova regulamento técnico sobre rotulagem nutricional de alimentos embalados, tornando obrigatória a rotulagem nutricional. Diário Oficial da União , Brasília, 26 dez. dez. 2003. Seção 1, p.33.).

For the statistical analyses, each parameter was tested in quintuplicate. Descriptive analysis was used to calculate means, standard deviations, minimum and maximum values. Kruskal-Wallis test was used to determine significant differences (P<0,05) between treatments. Mann-Whitney U test was used to determine significant differences between treatments in multiple comparisons two to two, with the significance level of 0,05 divided by the number of comparisons two to two performed (P<0,017). Pearson product-moment correlation coefficient was performed to measure the degree of linear dependence between two variables. The statistical analyses were done using SPSS, version 17, for Windows.

RESULTS AND DISCUSSION

Results of physicochemical composition of the smoked cooked linguiça formulas are presented in Table 1. Differences in composition of the different formulas are attributed to the type of lean meat used as it was the only variable.

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Table 1:
Smoked cooked linguiça's physicochemical composition (%)

No differences have been found for moisture content between the three smoked cooked linguiça formulations, which were slightly higher than the 60% maximum moisture content in cooked linguiças established in the legislation (Brasil, 2000). Similarly, Nascimento et al. (2012NASCIMENTO, R.S.; FONSECA, A.B.M.; FRANCO, R.M.; MIRANDA, Z.B. Linguiças frescais elaboradas com carne de avestruz: características físico-químicas. Ciênc. Rural, v.42, p.184-188, 2012. ) did not find differences for moisture content between three fresh linguiça formulas elaborated with ostrich meat and mixed with pork and chicken. However, Fernández-López et al. (2003)FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ; Fernández-López et al. (2006)FERNÁNDEZ-LÓPEZ, J.; JIMÉNEZ, S.; SAYAS-BARBERÁ, E. et al. Quality characteristics of ostrich (Struthio camelus) burgers. Meat Sci. , v.73, p.295-303, 2006. ; Hautrive et al. (2008HAUTRIVE, T.P.; OLIVEIRA, V.R.; SILVA, A.R.D. et al. Physicochemical and sensorial analyses of ostrich hamburger. Ciênc. Tecnol. Aliment., v.28, Suppl., p.95-101, 2008.); and Cavalheiro et al. (2010CAVALHEIRO, C.P.; TERRA, N.N.; FRIES, L.L.M. et al. Physico-chemical characteristics of fermented cured sausage with the addition of ostrich meat associated to pork meat. Ciênc. Rural, v.40, p.447-452, 2010. ), found differences in moisture content between meat products elaborated with ostrich meat and with other meat types. According to Fernández-López et al. (2003)FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. the inverse relation between fat and moisture content is well known. Lastly, the moisture content in the formulas could be decreased by reducing the amount of iced water and/or sodium polyphosphate ? a moisture retaining agent ? in the formula.

There were differences between all three formulas for fat content. Formula 2 showed the higher fat content and the Formula 3 the lower, slightly less fat content than Formula 1. However, it is worthwhile to note that the ostrich meat and pork used were meat trimmings, which are supposed to have more fat content than the role muscle, while the chicken used was the skinless leg meat; probably, if the skin was used it would increase the fat content in Formula 3. Nascimento et al. (2012NASCIMENTO, R.S.; FONSECA, A.B.M.; FRANCO, R.M.; MIRANDA, Z.B. Linguiças frescais elaboradas com carne de avestruz: características físico-químicas. Ciênc. Rural, v.42, p.184-188, 2012. ) did not find differences between formulas with ostrich meat mixed with pork and chicken. However, Fernández-López et al. (2003)FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ; Mckenna et al. (2003MCKENNA, D.R.; MORRIS, C.A.; KEETON, J.T. et al. Consumer acceptability of processed ostrich meat products. J. Muscle Foods , v.14, p.173-179, 2003. ); Fernández-López et al. (2006)FERNÁNDEZ-LÓPEZ, J.; JIMÉNEZ, S.; SAYAS-BARBERÁ, E. et al. Quality characteristics of ostrich (Struthio camelus) burgers. Meat Sci. , v.73, p.295-303, 2006. ; Hautrive et al. (2008HAUTRIVE, T.P.; OLIVEIRA, V.R.; SILVA, A.R.D. et al. Physicochemical and sensorial analyses of ostrich hamburger. Ciênc. Tecnol. Aliment., v.28, Suppl., p.95-101, 2008.); and Cavalheiro et al. (2010CAVALHEIRO, C.P.; TERRA, N.N.; FRIES, L.L.M. et al. Physico-chemical characteristics of fermented cured sausage with the addition of ostrich meat associated to pork meat. Ciênc. Rural, v.40, p.447-452, 2010. ) found differences in fat content between meat products with ostrich meat and other types of meat. In addition, Mckenna et al. (2003)MCKENNA, D.R.; MORRIS, C.A.; KEETON, J.T. et al. Consumer acceptability of processed ostrich meat products. J. Muscle Foods , v.14, p.173-179, 2003. ; Hautrive et al. (2008)HAUTRIVE, T.P.; OLIVEIRA, V.R.; SILVA, A.R.D. et al. Physicochemical and sensorial analyses of ostrich hamburger. Ciênc. Tecnol. Aliment., v.28, Suppl., p.95-101, 2008.; and Cavalheiro et al. (2010)CAVALHEIRO, C.P.; TERRA, N.N.; FRIES, L.L.M. et al. Physico-chemical characteristics of fermented cured sausage with the addition of ostrich meat associated to pork meat. Ciênc. Rural, v.40, p.447-452, 2010. quoted that fat content decreases as ostrich meat content increases.

The fat content in the ostrich smoked linguiça formulas, between 11.82% and 14.25%, was less than half the maximum limit allowed in the legislation (Brasil, 2000BRASIL. Ministério da Agricultura e do Abastecimento. Secretária da Defesa Agropecuária. Instrução Normativa n.4, de 31 de março de 2000. Aprova os regulamentos técnicos de identidade e qualidade de carne mecanicamente separada, de mortadela, de linguiça e de salsicha. Diário Oficial da União Brasília, 05 abr. 2000. Seção 1, p.6. ), 35%, and was probably in great part due to the use of lard in the formulation, 14.47%, which according to National... (2016) is 100% fat, while ostrich meat fat content is 1.6% according to Paleari et al. (1998PALEARI, M.A.; CAMISASCA, S.; BERETTA, G. et al. Ostrich meat: physico-chemical characteristics and comparison with turkey and bovine meat. Meat Sci. , v.48, p.205-210, 1998. ), and 3.57% according to Fisher et al. (2000FISHER, P.; HOFFMAN, L.C.; MELLETT, F.D. Processing and nutritional characteristics of value added ostrich products. Meat Sci. , v.55, p.251-254, 2000. ). Furthermore, the three formulas produced could claim to be "light" in fat content (Commission..., 2006COMMISSION Regulation (EC), 2006. N. 1924/2006 of 20 December 2006. Nutrition and health claims made on foods. Official Journal of the European Union, Bruxelles, 2006. p.L404/9. ; Brasil, 2012BRASIL. Ministério da Saúde. Resolução RDC n.54, de 12 de novembro de 2012. Dispõe sobre o regulamento técnico sobre informação nutricional complementar. Diário Oficial da União, Brasília, 13 nov. 2012. Seção 1, p.122.) as they showed at least 45% less fat content than three well-known smoked linguiças brands commercialized in Brazil, which showed among 26 and 34% of fat content in their nutrition facts label.

There were no differences between the three formulas for protein content. Moreover, their protein content was at least 42% higher than the minimum limit required in legislation (Brasil, 2000BRASIL. Ministério da Agricultura e do Abastecimento. Secretária da Defesa Agropecuária. Instrução Normativa n.4, de 31 de março de 2000. Aprova os regulamentos técnicos de identidade e qualidade de carne mecanicamente separada, de mortadela, de linguiça e de salsicha. Diário Oficial da União Brasília, 05 abr. 2000. Seção 1, p.6. ). Similarly, Hautrive et al. (2008HAUTRIVE, T.P.; OLIVEIRA, V.R.; SILVA, A.R.D. et al. Physicochemical and sensorial analyses of ostrich hamburger. Ciênc. Tecnol. Aliment., v.28, Suppl., p.95-101, 2008.); and Nascimento et al. (2012NASCIMENTO, R.S.; FONSECA, A.B.M.; FRANCO, R.M.; MIRANDA, Z.B. Linguiças frescais elaboradas com carne de avestruz: características físico-químicas. Ciênc. Rural, v.42, p.184-188, 2012. ) did not find protein content differences between formulas. However, Fernández-López et al. (2003)FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ; Mckenna et al. (2003MCKENNA, D.R.; MORRIS, C.A.; KEETON, J.T. et al. Consumer acceptability of processed ostrich meat products. J. Muscle Foods , v.14, p.173-179, 2003. ); and Fernández-López et al. (2006)FERNÁNDEZ-LÓPEZ, J.; JIMÉNEZ, S.; SAYAS-BARBERÁ, E. et al. Quality characteristics of ostrich (Struthio camelus) burgers. Meat Sci. , v.73, p.295-303, 2006. found higher protein content in formulas with ostrich meat than in formulas with other livestock meats. In addition, Nascimento et al. (2012)NASCIMENTO, R.S.; FONSECA, A.B.M.; FRANCO, R.M.; MIRANDA, Z.B. Linguiças frescais elaboradas com carne de avestruz: características físico-químicas. Ciênc. Rural, v.42, p.184-188, 2012. observed the trend of increasing protein content as ostrich meat in the formula increased, whereas the opposite trend was observed by Hautrive et al. (2008)HAUTRIVE, T.P.; OLIVEIRA, V.R.; SILVA, A.R.D. et al. Physicochemical and sensorial analyses of ostrich hamburger. Ciênc. Tecnol. Aliment., v.28, Suppl., p.95-101, 2008..

There were differences between all three formulas for ash content, with Formula 1 showing the higher ash content and Formula 2 the lower. Nascimento et al. (2012NASCIMENTO, R.S.; FONSECA, A.B.M.; FRANCO, R.M.; MIRANDA, Z.B. Linguiças frescais elaboradas com carne de avestruz: características físico-químicas. Ciênc. Rural, v.42, p.184-188, 2012. ) did also find differences between formulas. In contrast, Fernández-López et al. (2003)FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ; Fernández-López et al. (2006)FERNÁNDEZ-LÓPEZ, J.; JIMÉNEZ, S.; SAYAS-BARBERÁ, E. et al. Quality characteristics of ostrich (Struthio camelus) burgers. Meat Sci. , v.73, p.295-303, 2006. ; and Cavalheiro et al. (2010CAVALHEIRO, C.P.; TERRA, N.N.; FRIES, L.L.M. et al. Physico-chemical characteristics of fermented cured sausage with the addition of ostrich meat associated to pork meat. Ciênc. Rural, v.40, p.447-452, 2010. ), did not find differences between formulas. However, Cavalheiro et al. (2010)CAVALHEIRO, C.P.; TERRA, N.N.; FRIES, L.L.M. et al. Physico-chemical characteristics of fermented cured sausage with the addition of ostrich meat associated to pork meat. Ciênc. Rural, v.40, p.447-452, 2010. found a slight increasing trend in ash content as ostrich meat increased in formulas. The higher ash content when compared with raw ostrich meat, that range from 1.07% (Sales and Hayes, 1996SALES, J.; HAYES, J.P. Proximate, amino acid and mineral composition of ostrich meat. Food Chem., v.56, p.167-170, 1996. ) to 2.42% (Karakök et al., 2010KARAKÖK, S.G.; OZOGUL, Y.; SALER, M.; OZOGUL, F. Proximate analysis. Fatty acid profiles and mineral contents of meats: A comparative study. J. Muscle Foods, v.21, p.210-223, 2010. ) is probably due to the use of salt and spices in the formulas as reported by Fisher et al. (2000FISHER, P.; HOFFMAN, L.C.; MELLETT, F.D. Processing and nutritional characteristics of value added ostrich products. Meat Sci. , v.55, p.251-254, 2000. ); Fernández-López et al. (2003)FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003. ; and Fernández-López et al. (2006)FERNÁNDEZ-LÓPEZ, J.; JIMÉNEZ, S.; SAYAS-BARBERÁ, E. et al. Quality characteristics of ostrich (Struthio camelus) burgers. Meat Sci. , v.73, p.295-303, 2006. .

No differences have been observed between the three formulas for energy value, kilocalories (Kcal), which ranged between 194.89 and 208.19 Kcal%, and the three formulas could be claimed "light" in energy value (Commission..., 2006COMMISSION Regulation (EC), 2006. N. 1924/2006 of 20 December 2006. Nutrition and health claims made on foods. Official Journal of the European Union, Bruxelles, 2006. p.L404/9. ; Brasil, 2012BRASIL. Ministério da Agricultura e do Abastecimento. Secretária da Defesa Agropecuária. Instrução Normativa n.4, de 31 de março de 2000. Aprova os regulamentos técnicos de identidade e qualidade de carne mecanicamente separada, de mortadela, de linguiça e de salsicha. Diário Oficial da União Brasília, 05 abr. 2000. Seção 1, p.6. ) as they showed at least 31% less energy value than three well-known smoked cooked linguiça brands commercialized in Brazil, which showed among 302 and 370 Kcal% in their nutritional facts label.

CONCLUSION

Despite the fact that the three formulas of smoked cooked linguiça elaborated with ostrich meat trimmings in the present study showed higher moisture content than the limit allowed in the Technical Regulation of Identity and Quality of Linguiça, at Normative Instruction No 4 of 31 march 2000 of Brazilian Ministry of Agriculture, Livestock and Supply (Brasil, 2000BRASIL. Ministério da Agricultura e do Abastecimento. Secretária da Defesa Agropecuária. Instrução Normativa n.4, de 31 de março de 2000. Aprova os regulamentos técnicos de identidade e qualidade de carne mecanicamente separada, de mortadela, de linguiça e de salsicha. Diário Oficial da União Brasília, 05 abr. 2000. Seção 1, p.6. ), the protein content was at least 42% above the minimum limit required and fat content was at least 50% below the maximum limit allowed. Thus, the higher moisture content did not reduce the nutritional value of the linguiças. The smoked cooked linguiças elaborated in this study could claim to be "light" in fat content and energy value, meeting the consumer's demands for healthy products. To decrease the moisture content in the formulas it would be necessary to reduce the amount of iced water and/or sodium polyphosphate ? a moisture retaining agent ? in the formula. In summary, the present study showed that ostrich meat trimmings can be successfully used in the elaboration of smoked cooked linguiças, which could compete in the market with traditional smoked cooked linguiças, both adding value in the ostrich meat chain, offering more options for the consumption of ostrich meat products and offering a "light" smoked cooked linguiça, a healthier option for the consumers of one of the most consumed meat products in Brazil.

ACKNOWLEDGEMENTS

To Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) for providing financial support during the pursuit of the Doctorate's Degree. To Betel Avestruzes for ostrich meat trimmings, Gabrilina Embalagens for the vacuum-packages, and Serviço Nacional de Aprendizagem Industrial (SENAI) unit of Vassouras, Rio de Janeiro, for the support in the smoked cooked linguiças processing.

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Publication Dates

Publication in this collection
Mar-Apr 2017

History

Received
08 Apr 2016
Accepted
20 July 2016

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] BÖHME, H.M.; MELLETT, F.D.; DICKS, L.M.T.; BASSON, D.S. Production of salami from ostrich meat with strains of Lactobacillus sake, Lactobacillus curvatus and Micrococcus sp. Meat Sci., v.44, p.173-180, 1996.

[2] BRASIL. Ministério da Saúde. Resolução RDC n.54, de 12 de novembro de 2012. Dispõe sobre o regulamento técnico sobre informação nutricional complementar. Diário Oficial da União, Brasília, 13 nov. 2012. Seção 1, p.122.

[3] BRASIL. Ministério da Saúde. Resolução RDC n 360, de 23 de dezembro de 2003. Aprova regulamento técnico sobre rotulagem nutricional de alimentos embalados, tornando obrigatória a rotulagem nutricional. Diário Oficial da União , Brasília, 26 dez. dez. 2003. Seção 1, p.33.

[4] BRASIL. Ministério da Agricultura e do Abastecimento. Secretária da Defesa Agropecuária. Instrução Normativa n.4, de 31 de março de 2000. Aprova os regulamentos técnicos de identidade e qualidade de carne mecanicamente separada, de mortadela, de linguiça e de salsicha. Diário Oficial da União Brasília, 05 abr. 2000. Seção 1, p.6.

[5] CAPITA, R.; LLORENTE-MARIGÓMEZ, S.; PRIETO, M.; ALONSO-CALLEJA, C. Microbiological profiles, pH, and titratable acidity of chorizo and salchichón (two Spanish dry fermented sausages) manufactured with ostrich, deer, or pork meat. J. Food Prot., v.69, p.1183-1189, 2006.

[6] CAVALHEIRO, C.P.; TERRA, N.N.; FRIES, L.L.M. et al. Physico-chemical characteristics of fermented cured sausage with the addition of ostrich meat associated to pork meat. Ciênc. Rural, v.40, p.447-452, 2010.

[7] COMMISSION Regulation (EC), 2006. N. 1924/2006 of 20 December 2006. Nutrition and health claims made on foods. Official Journal of the European Union, Bruxelles, 2006. p.L404/9.

[8] DICKS, L.M.T.; MELLETT, F.D.; HOFFMAN, L.C. Use of bacteriocin-producing starter cultures of Lactobacillus plantarum and Lactobacillus curvatus in production of ostrich meat salami. Meat Sci. , v.66, p.703-708, 2004.

[9] FERNÁNDEZ-LÓPEZ, J.; JIMÉNEZ, S.; SAYAS-BARBERÁ, E. et al. Quality characteristics of ostrich (Struthio camelus) burgers. Meat Sci. , v.73, p.295-303, 2006.

[10] FERNÁNDEZ-LÓPEZ, J.; SAYAS-BARBERÁ, E.; NAVARRO, C. et al. Physical, chemical, and sensory properties of bologna sausage made with ostrich meat. J. Food Sci., v.68, p.1511-1515, 2003.

[11] FISHER, P.; HOFFMAN, L.C.; MELLETT, F.D. Processing and nutritional characteristics of value added ostrich products. Meat Sci. , v.55, p.251-254, 2000.

[12] HARRIS, S.D.; MORRIS, C.A.; JACKSON, T.C. et al. Ostrich meat industry development, final report to: American Ostrich Association. Texas: Agricultural Extension Service. 1993. Available in: <Available in: https://www.researchgate.net/publication/267362105_Ostrich_Meat_Industry_Development >. Accessed in: 12 Dec. 2015.
» https://www.researchgate.net/publication/267362105_Ostrich_Meat_Industry_Development

[13] HAUTRIVE, T.P.; OLIVEIRA, V.R.; SILVA, A.R.D. et al. Physicochemical and sensorial analyses of ostrich hamburger. Ciênc. Tecnol. Aliment., v.28, Suppl., p.95-101, 2008.

[14] HOFFMAN, L.C.; MELLETT, F.D. Quality characteristics of low fat ostrich meat patties formulated with either pork lard or modified corn starch, soya isolate and water. Meat Sci. , v.65, p.869-875, 2003.

[15] KARAKÖK, S.G.; OZOGUL, Y.; SALER, M.; OZOGUL, F. Proximate analysis. Fatty acid profiles and mineral contents of meats: A comparative study. J. Muscle Foods, v.21, p.210-223, 2010.

[16] LEE, S.W.; KANG, C.S. Effects of moisture content and drying temperature on the physicochemical properties of ostrich jerky. Nahrung/Food, v.47, p.330-333, 2003.

[17] LOMBARDI-BOCCIA, G.; MARTINEZ-DOMINGUEZ, B.; AGUZZI, A. Total heme and non-heme iron in raw and cooked meats. J. Food Sci. , v.67, p.1738-1741, 2002.

[18] MASTROMATTEO, M.; LUCERA, A.; SINIGAGLIA, M.; CORBO, M.R. Microbiological characteristics of poultry patties in relation to packaging atmospheres. Int. J. Food Sci. Technol , v.44, p.2620-2628, 2009.

[19] MCKENNA, D.R.; MORRIS, C.A.; KEETON, J.T. et al. Consumer acceptability of processed ostrich meat products. J. Muscle Foods , v.14, p.173-179, 2003.

[20] MÉTODOS físico-químicos para análise de alimentos. 4.ed. São Paulo: Instituto Adolfo Lutz. 2008. [1020p.].

[21] MILANI, L.I.G.; FRIES, L.L.M.; PAZ, P.B. et al. Bioproteção de lingüiça de frango. Ciênc. Tecnol. Aliment., v.23, p.161-166, 2003.

[22] NASCIMENTO, R.S.; FONSECA, A.B.M.; FRANCO, R.M.; MIRANDA, Z.B. Linguiças frescais elaboradas com carne de avestruz: características físico-químicas. Ciênc. Rural, v.42, p.184-188, 2012.

[23] NATIONAL nutrient database for standard reference. [California]: USDA. (Basic Report 04002, Lard.). Available in: <Available in: ndb.nal.usda.gov/ndb/foods/show/635?format=Abridged&reportfmt=pdf&pdfQvs=%7B%7D >. Accessed in: 24 Feb. 2016.
» ndb.nal.usda.gov/ndb/foods/show/635?format=Abridged&reportfmt=pdf&pdfQvs=%7B%7D

[24] OFFICIAL methods of analysis. 18.ed. Gaithersburg: AOAC. 2005.

[25] PALEARI, M.A.; CAMISASCA, S.; BERETTA, G. et al. Ostrich meat: physico-chemical characteristics and comparison with turkey and bovine meat. Meat Sci. , v.48, p.205-210, 1998.

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	Formula 1	Formula 2	Formula 3
Moisture (%)	62.39 ± 3.51	62.00 ± 2.09	64.41 ±1.32
Fat (%)	12.92 ± 0.33^a	14.25 ± 0.28^b	11.82 ± 0.30^c
Protein (%)	20.41 ± 3.44	19.99 ± 3.22	22.14 ± 1.18
Ash (%)	3.77 ± 0.10^a	3.14 ± 0.03^b	3.49 ± 0.05^c
Energy (Kcal) (%)	197.96 ± 12.36	208.19 ± 13.78	194.89 ± 6.00

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