Infant milk formulae processing : effect of wet-mix total solids and heat treatment temperature on rheological, emulsifying and nutritional properties

RODRÍGUEZ ARZUAGA, MARIANA - AALAEI, KATANEH - DA SILVA, DENISE FELIX - BARJON, SYLVAIN - AÑÓN, MARÍA CRISTINA - ABRAHAM, ANALÍA GRACIELA - AHRNÉ, LILIA

Resumen:

This study investigated the effects of total solids (TS) in the wet-mix and pasteurisation temperature on the whey protein (WP) denaturation, rheological behaviour, emulsifying properties and available lysine content of a model infant milk formula (IMF). IMF with 50% or 60% (w/w) TS were produced by wet-mix process and pasteurised at 75ºC or 100ºC for 18 s. Measurements were taken after dispersion, pasteurisation, homogenisation and spraydrying of wet-mix. Pasteurisation at 100ºC caused extensive WP denaturation (above 80%) and increased the viscosity. Available lysine content was 52% higher in powdered IMF obtained from wet-mixes pasteurised at 75ºC compared to 100ºC. A significant reduction in energy consumption could be achieved by producing IMF from60% TS wet-mixes pasteurised at 75ºC, while obtaining powders with less than 7% WP denaturation, no loss of available lysine during processing and post-reconstitution stability for 2 h.


Detalles Bibliográficos
2021
ALIMENTACIÓN INFANTIL
LECHE
NUTRICIÓN
TRATAMIENTO TÉRMICO
Inglés
Laboratorio Tecnológico del Uruguay
Catálogo digital del LATU
https://catalogo.latu.org.uy/opac_css/index.php?lvl=notice_display&id=32294
Acceso abierto
CC BY
Resumen:
Sumario:This study investigated the effects of total solids (TS) in the wet-mix and pasteurisation temperature on the whey protein (WP) denaturation, rheological behaviour, emulsifying properties and available lysine content of a model infant milk formula (IMF). IMF with 50% or 60% (w/w) TS were produced by wet-mix process and pasteurised at 75ºC or 100ºC for 18 s. Measurements were taken after dispersion, pasteurisation, homogenisation and spraydrying of wet-mix. Pasteurisation at 100ºC caused extensive WP denaturation (above 80%) and increased the viscosity. Available lysine content was 52% higher in powdered IMF obtained from wet-mixes pasteurised at 75ºC compared to 100ºC. A significant reduction in energy consumption could be achieved by producing IMF from60% TS wet-mixes pasteurised at 75ºC, while obtaining powders with less than 7% WP denaturation, no loss of available lysine during processing and post-reconstitution stability for 2 h.