Long-term implantation of a new implantable programmable insulin pump in two diabetic dogs.

A positive-pressure implantable programmable pump with an integrated sideport and a detachable catheter was tested for long-term intraperitoneal insulin delivery in 2 diabetic dogs. Programming and refilling of the pump was simple and presented no problems during 28 months of pump function. During pump therapy an acceptable degree of glycemic control was maintained. No catheter occlusion occurred, and no skin erosions or infections were observed. Insulin in the pump reservoir was stable. After 9.5 months of pump function, flow progressively decreased because of insulin precipitation in the valved accumulator. Solubilization of these precipitates using 0.1 N NaOH injected in the reservoir and drained through the sideport normalized pump delivery rates. We conclude that this device is safe for long-term intraperitoneal insulin delivery. The sideport enables discrimination between different causes of pump malfunction and allows for the safe use of an alkaline solution to remove insulin precipitates, thus avoiding pump explantation.

[1]  D. Nathan,et al.  Clinical Trial of Programmable Implantable Insulin Pump For Type I Diabetes , 1992, Diabetes Care.

[2]  H. Pitt,et al.  A preliminary trial of the programmable implantable medication system for insulin delivery. , 1989, The New England journal of medicine.

[3]  J Mirouze,et al.  Continuous Peritoneal Insulin Infusion with Portable Pumps: Factors Affecting the Operating Life of the Chronic Catheter , 1985, Diabetes Care.

[4]  P. Zimmet,et al.  Computerized assessment of self-monitored blood glucose results using a Glucometer reflectance photometer with memory and microcomputer. , 1985, Diabetes research and clinical practice.

[5]  R. Eaton,et al.  A remotely programmable insulin delivery system. Successful short-term implantation in man. , 1982, JAMA.

[6]  R. Eaton,et al.  Electron Microscopy of Insulin Precipitates , 1982, Diabetes Care.

[7]  H Kritz,et al.  Long-term Continuous Intraperitoneal Insulin Infusion with an Implanted Remote-Controlled Insulin Infusion Device , 1981, Diabetes.

[8]  P. Blackshear,et al.  TREATMENT OF A TYPE II DIABETIC BY A TOTALLY IMPLANTABLE INSULIN INFUSION DEVICE , 1981, The Lancet.

[9]  H Keen,et al.  Continuous subcutaneous insulin infusion: an approach to achieving normoglycaemia. , 1978, British medical journal.

[10]  C. Dent Letter: Blood, plasma, or serum? , 1975, Lancet.

[11]  P. Blackshear,et al.  A permanently implantable self-recycling low flow constant rate multipurpose infusion pump of simple design. , 1970, Surgical forum.

[12]  D. F. Waugh Protein-protein interactions. , 2004, Advances in protein chemistry.

[13]  C. Tanford,et al.  The Physical Chemistry of Insulin. I. Hydrogen Ion Titration Curve of Zinc-free Insulin1-3 , 1954 .

[14]  D. F. Waugh Regeneration of insulin from insulin fibrils by the action of alkali. , 1948, Journal of the American Chemical Society.