Angós Iturgaiz, Ignacio
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Angós Iturgaiz
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Ignacio
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Agronomía, Biotecnología y Alimentación
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IS-FOOD. Research Institute on Innovation & Sustainable Development in Food Chain
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Publication Open Access Control of respiration and color modification on minimally processed potatoes by means of low and high O2/CO2 atmospheres(Elsevier, 2008) Angós Iturgaiz, Ignacio; Virseda Chamorro, Paloma; Fernández García, Teresa; Tecnología de Alimentos; Elikagaien Teknologia; Universidad Pública de Navarra / Nafarroako Unibertistate PublikoaThis study has demonstrated the potential of several controlled atmospheres for reducing the respiration rate and browning in minimally processed potatoes (cv. Monalisa) during a 14-day storage period at 4 ◦C. The gas combinations tested were 2.5/0, 2.5/5, 5/0, 5/10, 10/0, 10/10, 80/0, 80/10, 80/20, 90/0, and 90/10 (kPa O2/kPa CO2; N2 balance). Compared to the control atmosphere (synthetic air), minimally processed potatoes stored under the controlled atmosphere composed of 80 kPa O2/10–20 kPa CO2 afforded the best results in terms of reduced respiration rates (−68% RO2 and −84% RCO2), antibrowning activity (−35% in total surface color change), and mechanical properties (−37% potato hardening) after storage at 4 ◦C for 14 days. Significant decreases in acidity (higher pH values) compared to the fresh product were found at the end of the storage in the minimally processed potatoes stored under low O2/high CO2 and high O2/high–low CO2 conditions. In contrast, dry matter determinations showed no water losses in any of the experimental gas treatment batches.Publication Open Access Morphometry and textural surface properties of heat induced whey protein microparticles(Elsevier, 2025-09-01) Angós Iturgaiz, Ignacio; Vele, Lenin; Espinosa Rábanos, Isabel; Iturmendi Vizcay, Nerea; Fernández García, Teresa; Maté Caballero, Juan Ignacio; Agronomía, Biotecnología y Alimentación; Agronomia, Bioteknologia eta Elikadura; Institute on Innovation and Sustainable Development in Food Chain - ISFOODThe present work focuses on the study of four key factors controlling the process of whey protein microparticulation: protein suspension concentration (%WPI 2.5 % vs. 5.0 %); medium acidity (pH 4.5 vs. 5.5); denaturation temperature (80◦C vs. 90◦C); and particle size reduction method (180 bar x 1, 2 or 3 cycle(s); 1800 bar x 1 cycle). The effects of the microparticulation process were studied by analysing the degree of protein aggregation, morphometry, and surface textural characteristics of the microparticles. The results obtained indicate that the most favourable treatments to achieve a higher proportion of particles within the optimal range required by the food industry (1–10 μm) can be obtained by gentle protein denaturation (80◦C) using a medium with a pH lower than the isoelectric point of β-lactoglobulin and moderate concentrations of whey protein (2.5–5.0 %). Under these premises, it is necessary to use a high intensity particle size reduction method (1800 bar) to achieve the average diameter and the adequate homogeneity in a consistent fashion.