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Abstract
Monitoring of urinary enzymuria has been utilized to detect allograft dysfunction after pancreas transplantation with pancreaticocystostomy. In addition, pharmacologic exocrine suppression has been advocated to minimize bicarbonate and protein wasting. Ensuring the validity of these approaches requires controlling both for immunologic alterations in transplant function and for the renal excretion of amylase, bicarbonate, and protein. Toward this end, adult mongrel dogs were divided into two groups. Group A animals underwent distal pancreatectomy alone, and group B animals underwent distal pancreatectomy with autotransplantation and pancreaticocystostomy. In each group, amylase, bicarbonate, and protein output were determined over a 5-hour period in the basal state, during a continuous infusion of octapeptide-cholecystokinin (OP-CCK) at 125 ng/kg/hour, and during a continuous infusion of OP-CCK (125 ng/kg/hour) plus a bolus injection of one clinical unit of secretin per kilogram. Bicarbonate output was not significantly different in the groups with and without autografts. Compared to nonautograft experiments, a statistically significant increase in amylase output was demonstrated in the autograft animals. An increase in protein output was also demonstrated in the autograft experiments, and this increase was statistically significant in the OP-CCK group and the OP-CCK and secretin group. In addition, compared to basal autograft secretion, OP-CCK and OP-CCK plus secretin stimulation resulted in a sustained and significant increase in urinary amylase and protein secretion, indicating preserved sensitivity of the denervated pancreas to exogenous hormones. These results indicate that the canine segmental pancreatic autograft model with pancreaticocystostomy is a suitable model to identify agents associated with exocrine inhibition after transplantation.