Vol. 19 No. 4 (2017)
Original articles

Physicochemical properties of hot-dog of meat of flame with incorporation of albumen, rubber of tare and protein of soy bean

Apaza Apaza
Peruvian Union University
C. Elias,
National Agrarian La Molina, Lima – Peru
B. Salvá
National Agrarian La Molina, Lima – Peru

Published 2017-10-25

Keywords

  • Llama meat,
  • improvers,
  • texture profile

How to Cite

Apaza, A., Elias, C. ., & Salvá, B. . (2017). Physicochemical properties of hot-dog of meat of flame with incorporation of albumen, rubber of tare and protein of soy bean. Revista De Investigaciones Altoandinas - Journal of High Andean Research, 19(4), 367-372. https://doi.org/10.18271/ria.2017.310

Abstract

We assessed the texture profile (TPA), Aw and PH of hot-dog elaborated on the basis of llama meat; We worked with 16 formulations that included different levels of inclusion of egg albumin (AH), Tara Gum (GT) and functional soy Concentrate (CSF). By TPA, cohesiveness, mastication, hardness, gumminess and elasticity were assessed. To evaluate the individual and synergistic effect of the components, the mixture design method was used. It was found that the addition of CSF influenced significantly in hardness (R2 = 0.92) and chewability (r2 = 0.94), while cohesiveness was positively influenced by the greater proportion of GT and AH (r2 = 0.97). On the other hand, the elasticity showed greater magnitude when the proportion of CSF and AH (R2 = 0.90) increased in the mixture. The microbiological barriers of ph and AW were also evaluated, it was observed that the Aw was reduced mainly by CSF and AH (r2 = 0.765) and ph decreased when Tara gum increased (r2 = 0.79). In the program, hardness (79,115 N) and elasticity (10,930 mm) were optimized. The three components replaced 3% of the base formulation. The optimized formula (FO) presented 14.6% AH, 16.3% of GT and 69.1% of CSF. The texture characteristics of the FO were compared with a hot dog made with pork HDCC (hardness 75.828 ± 10%, elasticity 11.470 ± 10%), and another flame HDCLL (hardness 41.830 ± 10%, elasticity 9.180 ± 10%), no significant differences were found with respect to the Elasticity. Regarding hardness, HDLL compared with HDCC showed significant differences (P < 0.05); But when 3% of the components were incorporated into the formulation of llama meat (FOCM) it did not present significant differences.

 

References

  1. Ayadi, M., Kechaou, A., Makni, I and Attia, H. 2009. Influence of carrageenan addition on turkey meat sausages properties. Journal of Food Engineering 93 (3): 278-283.
  2. Bourne, M. C. 1978. Texture Profile Analysis. Food Technology, 32, 62-66, 72.
  3. Carballo, J., P. Fernandez., G. Barreto, M. Solas and C. F. Jimenez. 1996. Morphology and texture of bologna contining different levels of fat, starch and egg white. Journal of Food Science, 61, 652-655.
  4. Chin, K., J. Keeton, R. Miller, M. Longnecker, and J. Lamkey. 2000. Evaluation of konjac blends and soy protein isolate as fat replacements in low-fat bologna. Journal of Food Science 65, 756-763.
  5. Clemens R, Kranz S, Mobley AR, Nicklas TA, Raimondi MP, Rodriguez JC, Slavin JL, Warshaw H. 2012. Filling America’s fiber intake gap: Summary of a roundtable to probe realistic solutions with a focus on grain-based foods. J Nutr; 142: 1390S– 1401S. 63, 5717 - 5727.
  6. Dawkins, N. L., J. Gager, J. P. Cornillon, Y. Kim, H. Howard and O. Pheps. 2001. Comparative studies on th physicochemical properties and hydration behavior of oat gum and oat trim in meat-based patties. Journal of food science, 66, 1276-1282.
  7. Han-Sul, Y., C. Sung-Gil, J. Jin-Tae, P. Gu-Boo, and J. Seon-Tea. 2007. Textural and sensory properties of low fat pork sausages with added hydrated oatmeal and tofu as texture-modifying agents. Meat Science 75, 283–289
  8. MINAG, 2012. Estadisticas Sectoriales - Agropecuario, In: INEI (Ed.). Ministerio de Agricultura y Riego, Lima Perú.
  9. Lundin, L. and A. Hermansson. 1998. Multivariate analysis of the influences of locust bean gum, a,-casein, Ic-casein on viscoelastic properties of Na-K-carrageenan gels. Food Hydrocolloids 12(1): 175-187.
  10. Palacios, A. C., & Loyola, W. 2010. Elaboración de chorizo y salchicha Frankfurt a partir de proteína de soya (Glycine max).
  11. Paredes,G.F. 2013. Concentración molecular de las llamas Ch'aku y Ccara del banco germoplasma de alpacas y llamas del Centro Experimental ILLPA - INIA anexo Quimasachata usando marcadores Microsatelitales, Facultad de Ciencias. UNALM, Lima Perú, p. 119.
  12. Pietrasik, Z., and Z. Duda. 2000. Effect of fat content and soy protein/carrageenan mix on the quality characteristics of comminuted, scalded sausages. Meat Science 56, 181-188.
  13. Rebatta, M. 2014. Utilización de quinua (Chenopodium quinoa) y harina de cebada (Hordeum vulgare) en la elaboración de cabanossi con carne de ovino (Ovis orientalis aries). Perú. UNMSM 107p.
  14. Restrepo, D.A., F.A. Molina, and K. R. Cabrera. 2010. Efecto de la Adición de Carragenina Kappa I.II y Goma Tara sobre Características de Calidad del Jamón de Cerdo Picado y Cocido. Revista Facultad Nacional de Agronomía - Medellin