1.
Soluble fiber dextrin enhances the satiating power of beverages.
Monsivais, P, Carter, BE, Christiansen, M, Perrigue, MM, Drewnowski, A
Appetite. 2011;(1):9-14
Abstract
This study compared the effects of four types of fiber on satiety and energy intakes at the next meal using a standard double-blinded preload study design. Study participants (14 men and 22 women) each took part in 6 study sessions. Study preloads were a combination of a solid snack and a liquid beverage (energy range 0.78-0.83 MJ) containing four different types of fiber: soluble fiber dextrin (12 g), soluble corn fiber (11.8 g), polydextrose (11.8 g), and resistant starch (11.2g). All four fibers were compared to two control conditions of equal volume: an isoenergetic, low-fiber preload and a lower-energy, low-fiber preload. All preloads were presented twice for a total of 0.35-1.65 MJ and 1-24 g fiber. Satiety ratings were collected for 20 min intervals for 220 min during the morning testing session. A test meal was served at 1200 h and plate waste measured. The five higher-energy preloads led to higher fullness and lower hunger ratings compared to the low-energy control but were not significantly different from each other. Relative to the isoenergetic control, only soluble fiber dextrin significantly suppressed energy intakes (p=0.023). Supplementing beverages with soluble fiber dextrin affects short term energy intake and may have implications for weight control.
2.
Clarifying concepts about macronutrients' effects on satiation and satiety.
Gerstein, DE, Woodward-Lopez, G, Evans, AE, Kelsey, K, Drewnowski, A
Journal of the American Dietetic Association. 2004;(7):1151-3
Abstract
It seems that many people, including dietetics professionals and other nutrition experts, are unclear about some of the fundamental yet complex concepts behind the influence of dietary macronutrients (ie, protein, carbohydrate, and fat) on appetite regulation. Recent research has begun to unravel some of the more complicated physiological processes of appetite control and regulation generated by hormones such as leptin, ghrelin, and the gut hormone peptide YY3-35. Although the processes by which the macronutrients in our foods influence appetite regulation have been a topic of study for decades, they remain confusing and are often misunderstood. The objective of this article is to define the terminology commonly used to discuss the macronutrients' roles in appetite regulation and to discuss the interrelated concepts and roles of taste, palatability, and energy density.