Abstract
ABSTRACTThe effects of porosity and collapse on the kinetics of glucose loss and brown pigment formation via the Maillard reaction were analyzed in solid low‐moisture model food systems. Equimolar glucose and glycine were incorporated into amorphous polyvinylpyrrolidones having different porosities, ranging from high porosity to totally collapsed. Samples were equilibrated and stored in desiccators at water activity 0.33 or 0.44 and 25 °C. Glucose loss and brown pigment development were monitored for 3 months. Glucose loss rate constants were lower in collapsed systems compared to non‐collapsed systems. The extent of porosity did not affect glucose loss rate constants. Collapse and porosity had minimal effects on the browning rate constants. Porosity and collapse affect chemical reactivity in low‐moisture solids and should be considered during product development and shelf‐life testing.
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