Institution: | Department of Internal Medicine, University of Lübeck, Ratzeburger Allee 160, D-23538 Lübeck, Germany Tel: [+49] 451 500 6407. Fax: [+49] 451 500 3339. Department of Internal Medicine, University of Ulm, Robert Koch Strasse 8, D-89070 Ulm, Germany Institute for Diabetes Technology, University of Ulm, Helmholtz Strasse 20, D-89081 Ulm, Germany |
Abstract: | Electroenzymatic glucose sensors implanted into sub-cutaneous (s.c.) tissue of human subjects and experimental animals exhibit lower sensitivities to glucose than in buffer solutions before implantation. The mechanism of the decrease of sensitivity is not known. Sensors used in this study were fabricated from platinum wires (diameter 0.125 mm) with covalently bound glucose oxidase at the tip of the wire. After coating the tip with polyurethane, wires were placed into 27 gauge steel needles. Sensors were operated potentiostatically at 700 mV against Ag/AgCl pseudo-reference electrodes. These sensors were implanted s.c. in 6 diabetic patients for 7 h. In 4 patients, sensors were responsive to successive increases of plasma glucose levels. Mean sensitivity to glucose in s.c. tissue was 29% of in vitro sensitivity. In 2 patients there was a sudden decrease of sensor currents, unrelated to glucose, shortly after implantation. Sensors were inhibited in human plasma to a similar extent. When sensors were exposed to native plasma and to plasma ultrafiltrate (mol. wt. <10 kDa) for 10 h, identical decreases of signals were found. Exposure to dialysed plasma (mol. wt. >12 kDa) caused much less decrease of sensor signals. Losses of sensor sensitivities to glucose in s.c. tissue and in plasma were totally reversible upon re-exposure of sensors to buffer solutions. We conclude that sensor inactivation in plasma and possibly in s.c. tissue is caused by low molecular weight substances not retained by the polyurethane membrane. |