Insulin-loaded polymer microparticles (ILP) composed of crosslinked poly(methacrylic acid) and poly(ethylene glycol) are multi-functional carriers showing high insulin incorporation efficiency, a rapid insulin release in the intestine based on their pH-dependent complexation properties, enzyme-inhibiting effects and mucoadhesive characteristics. Thus, they are potential carriers for insulin delivery via an oral route. Recent studies suggest that the polymer composition and particle size of ILP strongly influenced insulin bioavailability. Therefore, the present study aimed at finding an optimal formulation and designing carriers for oral insulin delivery using in vivo experiments. Various types of ILPs were prepared and administered orally to healthy and type 1 and 2 diabetic rats. The most promising formulation was subsequently used for in vivo multiple oral administration studies using diabetic rats. The microparticles of diameters of <53 microm (SS-ILP) composed of a 1:1 molar ratio of methacrylic acid/ethylene glycol units showed the most pronounced hypoglycaemic effects following oral administration to healthy rats, achieving a 9.5% pharmacological availability compared to subcutaneous insulin injection. Their usefulness was also confirmed with both type 1 and 2 diabetic rat groups. In a multiple administration study, SS-ILP significantly suppressed the postprandial rise in blood glucose and showed continuous hypoglycaemic effects following 3 times/day oral administration to both diabetic rat groups in the presence of foods. These results indicate that the blood glucose levels of diabetic rats can be effectively controlled by oral SS-ILP administration, and thus SS-ILP would be a promising delivery carrier of insulin via the oral route.