Thomas M. Amrein scite author profile

Glucose, fructose, sucrose, free asparagine, and free glutamine were analyzed in 74 potato samples from 17 potato cultivars grown in 2002 at various locations in Switzerland and different farming systems. The potential of these potatoes for acrylamide formation was measured with a standardized heat treatment. These potentials correlated well with the product of the concentrations of reducing sugars and asparagine. Glucose and fructose were found to determine acrylamide formation. The cultivars showed large differences in their potential of acrylamide formation which was primarily related to their sugar contents. Agricultural practice neither influenced sugars and free asparagine nor the potential of acrylamide formation. It is concluded that acrylamide contents in potato products can be substantially reduced primarily by selecting cultivars with low concentrations of reducing sugars.

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Acrylamide in Gingerbread: Critical Factors for Formation and Possible Ways for Reduction

Amrein

Schönbächler

Escher

et al. 2004

J. Agric. Food Chem.

250

209

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The influence of ingredients, additives, and process conditions on acrylamide formation in gingerbread was investigated. The sources for reducing sugars and free asparagine were identified, and the effect of different baking agents on acrylamide formation was evaluated. Ammonium hydrogencarbonate strongly enhanced acrylamide formation, but its N atom was not incorporated into acrylamide, nor did acrylic acid form acrylamide in gingerbread. Acrylamide concentration and browning intensity both increased with baking time and correlated with each other. The use of sodium hydrogencarbonate as baking agent reduced the acrylamide concentration by >60%. Free asparagine was a limiting factor for acrylamide formation, but the acrylamide content could also be lowered by replacing reducing sugars with sucrose or by adding organic acids. It is concluded that a significant reduction of acrylamide in gingerbread can be achieved by using sodium hydrogencarbonate as baking agent, minimizing free asparagine, and avoiding prolonged baking.

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French fries with less than 100�?g/kg acrylamide. A collaboration between cooks and analysts

Grob¹,

Biedermann²,

Biedermann-Brem³

et al. 2003

European Food Research and Technology

130

117

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In vitro digestibility and colonic fermentability of aleurone isolated from wheat bran

Amrein¹,

Gränicher

Arrigoni³

et al. 2003

LWT - Food Science and Technology

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Thomas M. Amrein

Potential of Acrylamide Formation, Sugars, and Free Asparagine in Potatoes: A Comparison of Cultivars and Farming Systems

Acrylamide in Gingerbread: Critical Factors for Formation and Possible Ways for Reduction

French fries with less than 100�?g/kg acrylamide. A collaboration between cooks and analysts

In vitro digestibility and colonic fermentability of aleurone isolated from wheat bran

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