INVESTIGADORES
PINOTTI Adriana Noemi
artículos
Título:
Diffusion of Sodium Chloride in Pork Tissue: Effect on its Microstructure
Autor/es:
GRAIVER, N; PINOTTI, A; CALIFANO, A; ZARITZKY, N
Revista:
SCANNING
Editorial:
Editorial: Scanning Microscopy International. FAMS, Inc.
Referencias:
Lugar: Mahwah, N.J. USA.; Año: 2005 vol. 27 p. 76 - 77
ISSN:
0161-0457
Resumen:
The objectives of the work were: a) to determine the diffusion coefficient of NaCl in pork tissue using brine
solutions at 4°C and 20°C; b) to establish the effect of NaCl on tissue microstructure. A unidirectional diffusion
system was adopted; long cylinders ofLongissimus dorsi pork tissue were immersed in well stirred NaCl solutions
(30, 70, 100, 140, 200g/L). At different times two cylinders were taken out from the brine, keeping the central
zone of each cylinder. Equilibrium concentrations were obtained by immersion ofsamples in the brines during 48
hours. Mass balances were proposedto analyze changes in the water, proteins, and NaCl contents in the tissue.
Meat samples were observed by Scanning Electron Microscopy (JEOL, JSMP 100, Japan). The diffusion
coefficients increased with NaCl concentration and temperature. NaCl uptake values expressed per mass of
water in the tissue led to correct values of Dm. In contrast, when solute uptake values were expressed per mass
of tissue without introducing the correction factors that consider the actual water content in the sample, erroneous
overestimated Dm were obtained, higher than the diffusion coefficient of NaCl in water. The microestructural
changes, as shown by the SEM micrographs, could explain the rise in the diffusion coefficients of NaCl at higher
brine concentrations. At low concentrations of NaCl swelling of the fibers, and higher values of water content
were observed. The phenomenon was reversed at higher NaCl concentrations; fiber volume decreased, the
tissue lost its own water and proteins precipitated causing disruption in the matrix which facilitates salt
penetration.