Journal
CLINICAL NUTRITION
Volume 27, Issue 2, Pages 248-253Publisher
CHURCHILL LIVINGSTONE
DOI: 10.1016/j.clnu.2007.12.001
Keywords
isoflavones; equol; lactase; lactose malabsorption; breath hydrogen
Categories
Ask authors/readers for more resources
Background & aims: The contribution of lactase to isoflavone bioavailability has not been clarified. We evaluated the association between lactase activity and the bioavailability of isoflavone glucosides in Japanese adults. Methods: Twenty-six Japanese adult participants completed a study that included tests of breath hydrogen after a Lactose load, orocecal. transit time, and isoflavone glucoside absorption. Lactose malabsorbers were defined as those with an increase in breath hydrogen level (Delta H-2) of more than 20 ppm after a load of lactose (20 g). Participants ingested 200 ml soymilk, and serum isoflavones were analyzed until 480 min. Results: Serum daidzein and genistein levels increased rapidly until 60 min, then slowly increased. The increases of serum isoflavones in the early phase, but not the later phase, were suppressed in Lactose malabsorbers. Delta H-2 (max) after a load of lactose inversely correlated with serum daidzein Levels at 30 min. The percentage of equol producers tended to be greater among Lactose malabsorbers (P = 0.067). Conclusions: Lactase may be involved in absorption of isoflavone glucosides in the small. intestine, but the bacterial deglycosylation in the large intestine compensates the reduction of isoflavone absorption. The beneficial effect of isoflavones may not be impaired by low lactase activity. (c) 2007 ELsevier Ltd and European Society for Clinical Nutrition and Metabolism. ALL rights reserved.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available