Publications

1. Ward WK, House JL, Birck, J, Anderson EA, Jansen LB. 2004 A Wire-based Dual Analyte Sensor for Glucose and Lactate: In Vitro and In Vivo Evaluation. Diabetes Tech and Ther 6:389-401.
2. House JL, Anderson E, Ward WK: 2007 Immobilization techniques to avoid Enzyme Loss from Oxidase-based biosensors: a one-year study. Journal of Diabetes Science and Technology, 1:18-27.
3. Reifman J, Rajaraman S, Gribok A, Ward WK. 2007 Predictive Monitoring for Improved Management of Glucose Levels. J Diabetes Sci Tech (IN PRESS).
4. Ward WK, Slobodzian EP, Tiekotter KL, and W. ML, 2002. The Effect of Microgeometry, Implant Thickness and Polyurethane Chemistry on the Foreign Body Response to Subcutaneous Implants. Biomaterials, 23: 4185-4192.
5. Ward WK, Wood MD and S. EP., 2002. Continuous Amperometric Monitoring of Subcutaneous Oxygen in Rabbits by Telemetry. J Medical Engineering Tech, 26: 158-167.
6. Ward WK, C.H., Quinn MJ, Federiuk IF, Wood MD, 2003. A Fully-Implantable Subcutaneous Glucose Sensor Array: Enhanced Accuracy from Multiple Sensing Units and a Median-based Algorithm. Diabetes Technology and Therapeutics (in press).
7. Ward, W.K., Jansen L, Anderson, EA, Reach, G, Klein, JC, Wilson, GS, 2002. A new amperometric glucose microsensor: in vitro and short term in vivo evaluation. Biosensors and Bioelectronics, 17: 181-189.
8. Ward WK, Q.M., Wood MD, Tiekotter KL, Pidikiti S, Gallagher JA, 2003. Vascularizing the tissue surrounding a model biosensor: How localized is the effect of a subcutaneous infusion of vascular endothelial growth factor (VEGF)? Biosensors and Bioelectronics, in press.
9. Ward, W.K. and J.E. Troupe, 1999. Assessment of a chronically-implanted subcutaneous glucose sensor in the dog. ASAIO Journal, 45: 555-561.
10. Ward, W.K., M.D. Wood and J.E. Troupe, 2000. Rise in background current over time in a subcutaneous glucose sensor in the rabbit: relevance to calibration and accuracy. Biosens Bioelectron, 15: 53-61.
11. Ward, W.K., M.D. Wood and J.E. Troupe, 2000. Understanding spontaneous output fluctuations of an amperometric glucose sensor: effect of inhalation anesthesia and use of a nonenzyme containing electrode. Asaio J, 46: 540-546.
12. Yu, P. and G.S. Wilson, 2000. An independently addressable microbiosensor array: what are the limits of sensing element density? Faraday Discuss: 305-317; discussion 335-351.
13. Chen, X., Y. Hu and G.S. Wilson, 2002. Glucose microbiosensor based on alumina sol-gel matrix/electropolymerized composite membrane. Biosens Bioelectron, 17: 1005-1013.
14. Chen, X., N. Matsumoto, Y. Hu, and G.S. Wilson, 2002. Electrochemically mediated electrodeposition/electropolymerization to yield a glucose microbiosensor with improved characteristics. Anal Chem, 74: 368-372.
15. Choleau, C., P. Dokladal, J.C. Klein, W.K. Ward, G.S. Wilson, and G. Reach, 2002. Prevention of hypoglycemia using risk assessment with a continuous glucose monitoring system. Diabetes, 51: 3263-3273.
16. Choleau, C., J.C. Klein, G. Reach, B. Aussedat, V. Demaria-Pesce, G.S. Wilson, R. Gifford, and W.K. Ward, 2002. Calibration of a subcutaneous amperometric glucose sensor implanted for 7 days in diabetic patients. Part 2. Superiority of the one-point calibration method. Biosens Bioelectron, 17: 647-654.
17. Choleau, C., J.C. Klein, G. Reach, B. Aussedat, V. Demaria-Pesce, G.S. Wilson, R. Gifford, and W.K. Ward, 2002. Calibration of a subcutaneous amperometric glucose sensor. Part 1. Effect of measurement uncertainties on the determination of sensor sensitivity and background current. Biosens Bioelectron, 17: 641-646.
18. Matsumoto, N., X. Chen and G.S. Wilson, 2002. Fundamental studies of glucose oxidase deposition on a Pt electrode. Anal Chem, 74: 362-367.
19. Thome-Duret, V., B. Aussedat, G. Reach, M.N. Gangnerau, F. Lemonnier, J.C. Klein, Y. Zhang, Y. Hu, and G.S. Wilson, 1998. Continuous glucose monitoring in the free-moving rat. Metabolism, 47: 799-803.
20. Thome-Duret, V., M.N. Gangnerau, Y. Zhang, G.S. Wilson, and G. Reach, 1996. Modification of the sensitivity of glucose sensor implanted into subcutaneous tissue. Diabetes Metab, 22: 174-178.
21. Thome-Duret, V., G. Reach, M.N. Gangnerau, F. Lemonnier, J.C. Klein, Y. Zhang, Y. Hu, and G.S. Wilson, 1996. Use of a subcutaneous glucose sensor to detect decreases in glucose concentration prior to observation in blood. Anal Chem, 68: 3822-3826.