David R. Lineback scite author profile

Acrylamide occurs in foods commonly consumed in diets worldwide. It is formed from the reaction of reducing sugars (e.g., glucose or fructose) with the amino acid asparagine via the Maillard reaction, which occurs during heat processing of foods, primarily those derived from plant origin, such as potato and cereal products, above 120°C (248°F). The majority of epidemiological studies concerning potential relationships between acrylamide consumption and different types of cancer have indicated no increased risk, except with a few types that warrant further study. Efforts to reduce the formation of acrylamide in food products have resulted in some successes, but there is no common approach that works for all foods. Reduction in some foods is probably not possible. The results from a major toxicological study (aqueous intake of acrylamide by rats and mice) are in the process of being released. The status of current knowledge in these areas is reviewed.

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A Critical Examination of the Evidence Relating High Fructose Corn Syrup and Weight Gain

Forshee

Storey

Allison

et al. 2007

Critical Reviews in Food Science and Nutrition

116

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The use of high fructose corn syrup (HFCS) has increased over the past several decades in the United States while overweight and obesity rates have risen dramatically. Some scientists hypothesize that HFCS consumption has uniquely contributed to the increasing mean body mass index (BMI) of the U.S. population. The Center for Food, Nutrition, and Agriculture Policy convened an expert panel to discuss the published scientific literature examining the relationship between consumption of HFCS or "soft drinks" (proxy for HFCS) and weight gain. The authors conducted original analysis to address certain gaps in the literature. Evidence from ecological studies linking HFCS consumption with rising BMI rates is unreliable. Evidence from epidemiologic studies and randomized controlled trials is inconclusive. Studies analyzing the differences between HFCS and sucrose consumption and their contributions to weight gain do not exist. HFCS and sucrose have similar monosaccharide compositions and sweetness values. The fructose:glucose (F:G) ratio in the U.S. food supply has not appreciably changed since the introduction of HFCS in the 1960s. It is unclear why HFCS would affect satiety or absorption and metabolism of fructose any differently than would sucrose. Based on the currently available evidence, the expert panel concluded that HFCS does not appear to contribute to overweight and obesity any differently than do other energy sources. Research recommendations were made to improve our understanding of the association of HFCS and weight gain.

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Gelatinization of Starch in Baked Products

Lineback¹,

Wongsrikasem²

1980

Journal of Food Science

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Scanning electron photomicrographs of starch isolated from white bread, sugar cookies, pie crust, angel food cake, cake doughnuts and cinnamon rolls revealed that the proportion of folded and deformed granules, an indication of the extent of gelatinization and pasting, varied from relatively few granules in sugar cookies to virtually all granules in angel food cake. Starch isolated from angel food cake had no birefringence and was about 97% gelatinized as measured enzymatically, while that from sugar cookies was approximately 91% birefringent and was 4% gelatinized. Starches from other baked products studied had residual birefringence and percent gelatinization intermediate to the values for angel food cake and sugar cookies. Thus starch in the baked products studied ranged from essentially completely gelatinized to that which had undergone very little change.

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David R. Lineback

Acrylamide in Foods: A Review of the Science and Future Considerations

A Critical Examination of the Evidence Relating High Fructose Corn Syrup and Weight Gain

Gelatinization of Starch in Baked Products

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