Insulin resistance syndrome has recently been described as a unifying hypothesis to explain the relationship between the many risk factors of coronary heart disease. Carbohydrate that is malabsorbed and fermented in the colon has been demonstrated to decrease insulin response to a glucose load and improve other risk factors associated with coronary heart disease, although the mechanism remains unclear. The object of the present study was to investigate whether this observation could be explained by the production of fermentation products induced by malabsorbed carbohydrate in the colon, or by stimulating the incretin glucagon-like peptide 1 (7-36) amide that is released from the large bowel. We used lactulose as a model for resistant starch carbohydrate. Ten insulin-resistant male volunteers, who had undergone previous coronary artery bypass grafting, volunteered to take part in the study and underwent 6 d of lactulose loading (15 g/d for 2 d and 30 g/d for 4 d). There was no significant change in insulin, glucose, free fatty acids, or glucagon-like peptide 1 (7-36) amide response to an oral glucose tolerance test following the lactulose despite a significant rise in breath hydrogen. Large bowel fermentation stimulated by lactulose appears to have no significant effect on insulin, glucose, free fatty acids, and glucagon-like peptide 1 (7-36) response in patients with coronary heart disease.