Jm. Del Valle et al., Effects of blanching and calcium infiltration on PPO activity, texture, microstructure and kinetics of osmotic dehydration of apple tissue, FOOD RES IN, 31(8), 1998, pp. 557-569
HTST blanching of apple pieces caused PPO inactivation and sample softening
. PPO inactivation was minimal during immersion in water at 40 degrees C, b
ut it increased with temperature after 15 min exposure at 55 to 65 degrees
C. Associated softening decreased when adding 0.6% CaCl2 to the blanching m
edium. Samples blanched at 40 degrees C were softer than those heated at 55
degrees C in calcium solution, thus suggesting PME activation after 15 min
at 55 degrees C. Vacuum infiltration of apple pieces caused cellular damag
e that increased as the applied pressure increased from 59.9 to 9.3 kPa, an
d was unaffected by the speed of restoration of ambient pressure. Texture i
mproved when using aqueous CaCl2 solutions instead of distilled water, but
no positive effect was observed for HTST blanched apples by vacuum infiltra
tion of calcium. As a result of osmotic dehydration (OD) with aqueous sucro
se solutions apple pieces lost water and texture and gained sucrose. HTST-b
lanched apple pieces suffered extensive material losses during OD and had p
oor final textures. Untreated apples and samples treated with 0.6% CaCl2 at
40 degrees C (Ih) behaved similarly. Samples treated with 0.6% CaCl2 at 55
degrees C (15 min) and vacuum (9.3 kPa) infiltrated with 2% CaCl2 had the
largest sucrose gains and best final textures. Improved texture was general
ly associated with improved maintenance of sample microstructure. (C) 1999
Published by Elsevier Science Ltd on behalf of the Canadian Institute of Fo
od Science and Technology. All rights reserved.