OBJECTIVE: The first step in the evolution of an artificial pancreas is the development of a reliable implantable pump for insulin delivery. Despite recent advances, significant issues remain, including small size of studies and frequent irreversible catheter obstructions. We report safety, feasibility, and efficacy results from 56 patients, representing 73 patient-yr of pump experience, entered into a multicenter trial with a new implantable programmable pump. RESEARCH DESIGN AND METHODS: All patients had insulin-dependent (type 1) diabetes, were 38 +/- 8 yr old, and were not prone to severe hypoglycemia. The pump (Infusaid 1000) has a pulsatile mechanism powered by freon-vapor pressure. Its rate is regulated by battery-powered valves, operated via a hand-held programmer. The pump is refilled transcutaneously with 25 ml U100 insulin (Hoechst 21PH) on a monthly basis and has a second septum (side port) proximal to the catheter, which allows flushing the catheter or lavaging the pump unit. The pumps were implanted after 3 mo intensive subcutaneous insulin therapy and catheters were positioned either in the peritoneum (i.p., n = 38) or the superior vena cava (i.v., n = 18). RESULTS: All implanted pumps have functioned safely with no instance of overdelivery or stoppage. The most frequent complications were flow slow downs, presumably due to insulin precipitation within the pump, which occurred in 86% of pumps and were resolved in all but one case by lavaging the pump in situ with alkaline solution. Flow slow downs due to catheter obstruction occurred in 52% of the intravenous catheters but only 21% of the intraperitoneal catheters (P less than 0.05) and were resolved in all but two cases by diluent flushing through the sideport. Incidence of severe hypoglycemia decreased from 0.47 before implant to 0.05 episodes/patient-yr after pump implantation (P less than 0.001). Mean HbA1c fell from 7.4 +/- 1.2% after intensive subcutaneous therapy to 7.1 +/- 1.0% 12 mo after implantation. Only 2 patients withdrew from study after recurrent catheter problems, and quality-of-life questionnaires showed improvement in satisfaction with diabetes-specific quality of life when on implantable pump therapy. CONCLUSIONS: Insulin therapy with implantable pumps is effective and safe for periods up to 1.7 yr with a decreased risk of severe hypoglycemia than with intensive subcutaneous insulin therapy.
OBJECTIVE: The first step in the evolution of an artificial pancreas is the development of a reliable implantable pump for insulin delivery. Despite recent advances, significant issues remain, including small size of studies and frequent irreversible catheter obstructions. We report safety, feasibility, and efficacy results from 56 patients, representing 73 patient-yr of pump experience, entered into a multicenter trial with a new implantable programmable pump. RESEARCH DESIGN AND METHODS: All patients had insulin-dependent (type 1) diabetes, were 38 +/- 8 yr old, and were not prone to severe hypoglycemia. The pump (Infusaid 1000) has a pulsatile mechanism powered by freon-vapor pressure. Its rate is regulated by battery-powered valves, operated via a hand-held programmer. The pump is refilled transcutaneously with 25 ml U100insulin (Hoechst 21PH) on a monthly basis and has a second septum (side port) proximal to the catheter, which allows flushing the catheter or lavaging the pump unit. The pumps were implanted after 3 mo intensive subcutaneous insulin therapy and catheters were positioned either in the peritoneum (i.p., n = 38) or the superior vena cava (i.v., n = 18). RESULTS: All implanted pumps have functioned safely with no instance of overdelivery or stoppage. The most frequent complications were flow slow downs, presumably due to insulin precipitation within the pump, which occurred in 86% of pumps and were resolved in all but one case by lavaging the pump in situ with alkaline solution. Flow slow downs due to catheter obstruction occurred in 52% of the intravenous catheters but only 21% of the intraperitoneal catheters (P less than 0.05) and were resolved in all but two cases by diluent flushing through the sideport. Incidence of severe hypoglycemia decreased from 0.47 before implant to 0.05 episodes/patient-yr after pump implantation (P less than 0.001). Mean HbA1c fell from 7.4 +/- 1.2% after intensive subcutaneous therapy to 7.1 +/- 1.0% 12 mo after implantation. Only 2 patients withdrew from study after recurrent catheter problems, and quality-of-life questionnaires showed improvement in satisfaction with diabetes-specific quality of life when on implantable pump therapy. CONCLUSIONS:Insulin therapy with implantable pumps is effective and safe for periods up to 1.7 yr with a decreased risk of severe hypoglycemia than with intensive subcutaneous insulin therapy.
Authors: Daniel Fine; Alessandro Grattoni; Randy Goodall; Shyam S Bansal; Ciro Chiappini; Sharath Hosali; Anne L van de Ven; Srimeenkashi Srinivasan; Xuewu Liu; Biana Godin; Louis Brousseau; Iman K Yazdi; Joseph Fernandez-Moure; Ennio Tasciotti; Hung-Jen Wu; Ye Hu; Steve Klemm; Mauro Ferrari Journal: Adv Healthc Mater Date: 2013-04-15 Impact factor: 9.933
Authors: Jan Willem Haveman; Susan J J Logtenberg; Nanne Kleefstra; Klaas H Groenier; Henk J G Bilo; Adri M Blomme Journal: Langenbecks Arch Surg Date: 2008-12-02 Impact factor: 3.445
Authors: Peter R van Dijk; Susan Jj Logtenberg; Klaas H Groenier; Jan Willem Haveman; Nanno Kleefstra; Henk Jg Bilo Journal: World J Diabetes Date: 2012-08-15