Recrystallized Resistant Starch: Structural Changes in the Stomach, Duodenum, and Ileum and the Impact on Blood Glucose and Intestinal Microbiome in Mice.

The structure and properties of resistant starch (RS) and its digestive products were assessed in mice. Digestion of recrystallized (group RS3, including RS3a and RS3b) and control RS (RS2, RS4, and RS5) in the stomach, duodenum, and ileum of mice was systematically analyzed along with in vivo digestive degradation of RS3. RS3a and RS3b significantly reduced the release of blood glucose. During in vivo digestion, the proportion of ultrashort and A chains in the RS3a and RS3b digestive residues gradually increased, whereas the proportion of B1 and B2 chains gradually reduced. B3+ chain proportions did not change. The final digestive residues in the ileum (RS3a-I90 and RS3b-I90) maintained a high proportion of suitable chain length, accounting for more than 60%. The crystalline structure of RS3a-I90 was weakened, indicating the hydrolysis of partial crystal structure. In comparison, RS3b-I90 maintained an orderly crystalline structure, indicating its higher resistance to enzymatic hydrolysis. In vivo experiments showed that RS could maintain the normal growth of mice and effectively control weight gain. RS3a significantly increased the concentrations of acetic, propionic, and butyric acids, while reducing the abundance of Firmicutes to Bacteroidetes ratio, further confirming the benefits of RS3 in gastrointestinal health.