Summary                                                                       187

                  [24] Kovacs, G. T. A., “Introduction to the Theory, Design, and Modeling of Thin-Film Microe-
                       lectrodes for Neural Interfaces,” in Enabling Technologies for Cultured Neural Net-
                       works, D. A. Stenger and T. M. McKenna (eds.), San Diego, CA: Academic Press, 1994,
                       pp. 121–166.
                  [25] U.S. Patents 5,605,662, February 25, 1997, and 5,632,957, May 27, 1997.
                  [26] Heller, M. J., et al., “Active Microelectronic Array Systems for DNA Hybridization, Geno-
                       typing, Pharmacogenomic, and Nanofabrication Applications,” in Integrated Microfabri-
                       cated Biodevices, M. J. Heller and A. Guttman (eds.), New York: Marcel Dekker, 2002,
                       Chapter 10.
                  [27] Borkholder, D. A., B. D. DeBusschere, and G. T. A. Kovacs, “An Approach to the Classifi-
                       cation of Unknown Biological Agents with Cell Based Sensors,” Tech. Digest Solid-State
                       Sensor and Actuator Workshop, Hilton Head Island, SC, June 8–11, 1998, pp. 178–182.



            Selected Bibliography

                       Heller, M. J., and A. Guttman (eds.), Integrated Microfabricated Biodevices, New York:
                       Marcel Dekker, 2002.
                       Horton, R. M., and R. C. Tait, Genetic Engineering with PCR, Norfolk, UK: Horizon
                       Press, 1998.
                       The reader will find extensive coverage of the research activities in this field in past proceed-
                       ings of the conference on Micro Total Analysis Systems (µTAS).