Hyperglycemia and diabetic renal change in a model of polyvinyl alcohol bioartificial pancreas transplantation.

Objectives: We have developed a bioartificial pancreas transplantation method using polyvinyl alcohol. Using this model, the relationship between hyperglycemia and parameters that represent renal function was investigated.

Methods: Plasma glucose, 1,5-anhydro-d-glucitol (1,5-AG), and renal factors including plasma urea nitrogen and creatinine levels, urine volume, glucose, and albumin were examined once a week for 9 weeks in diabetic mice with or without transplantation of encapsulated rat islets, and in normal C57BL/6 mice. The mesangial matrix fraction of the glomerulus was measured histologically. The mice were classified into 3 groups according to their mean plasma glucose levels as either severe (n = 17) or mild (n = 23) hyperglycemia or normoglycemia (n = 11). The plasma glucose, renal factors, and mesangial matrix fraction were tested by single and multiple regression analyses.

Results: Almost all the renal factors correlated significantly with mean plasma glucose and 1,5-AG levels. The level and duration of hyperglycemia estimated by the area under the curve above basal correlated most significantly with mesangial matrix fraction.

Conclusions: Bioartificial pancreas transplantation significantly reduced the deterioration of renal factors. The 1,5-AG was useful to predict urine albumin loss. The level and duration of hyperglycemia determined the degree of renal damage, which were reduced by bioartificial pancreas transplantation.