Slow release of insulin from a biodegradable matrix implanted in diabetic rats.

This report describes the development of a long-acting insulin accomplished by the slow release of hormone from an implantable, biodegradable matrix. Rats made diabetic with streptozotocin received a single subcutaneous implant of insulin-albumin microbeads that released biologically active insulin for periods up to 3 wk. The mean fasting blood glucose level for treated animals was 88 mg/dl as compared with 392 mg/dl for untreated diabetic controls. With a mean starting body weight of 187 g, treated animals gained weight reaching a mean weight of 228 g; in contrast, untreated animals lost weight to a mean of 175 g. When insulin-albumin microbeads were periodically implanted and removed, lower blood glucose levels were only associated with the presence of the implants. The microbead implants biodegraded in 4-8 wk, thus obviating the need for surgical removal. These results suggest that a long-acting insulin may be produced by the entrapment of insulin within a biodegradable matrix.