Anderson, “Analytical Techniques for Cell Fractions” (1968), Anal. Biochem., 28: 545-562. |
Aoki et al., “Electrochemical Response at Microarray Electrodes in Flowing Streams and Determination of Catecholamines”, (1990), Anal. Chem., 62: 2206-2210. |
Arquint et al., “Micromachined Analyzers on a Silicon Chip”, (Sep. 1994), Clinical Chemistry, vol. 40, No. 9, pp. 1805-1809. |
Ballantine et al., “Surface Acoustic Wave”, (Jun. 1989), Anal. Chem., 61/11: pp. 704-715. |
Bertrand et al., “A One-Step Determiniation of Serum 5′-nucleotidase using a centrifulgal Analyzer”, (1982), Clinica Chimica Acta, 119: 275-284. |
Blackburn et al., “Electrochemiluminescence Detection for Development of Immunoassays and DNA Probe Assays for Clinical Diagnostics”, (1991), Clin. Chem., 37/9: 1534-1539. |
Bor Fuh et al., “Isolation of Human Blood Cells, Platelets, and Plasma Proteins by Centrifugal SPLITT Fractionation”, (1995), Biotechnol. Prog., 11: 14-20. |
Burtis et al., “Optimization and Analytical Application of the Technique of Dynamic Introduction of Liquids into Centrifugal Analyzers”, (1974), Clin. Chem., 20: 932-941. |
Burtis et al., “Developement of a Multipurpose Optical System for Use with a Centrifugal Fast Analyzer”, (1975), Clin. Chem., 21/9: 1225-1233. |
Cho et al., “Development of a Multichannel Electrochemical Centrifugal Analyzer” (1982), Clin. Chem., 28/9: 1961-1965. |
Collison et al., “Chemical Sensors for Bedside Monitoring of Critically III Patients” (Apr. 1990), Anal. Chem., 62/7: pp. 425-437. |
Columbus et al., “Architextured Fluid Management of Biological Liquids”, (1987), Clin. Chem., 33/9:1531-1537. |
Dessy, “Waveguides as Chemical Sensors”, (Oct. 1989), Anal. Chem., 61/19: 1079-1094. |
Ekins et al., “Multianalyte Microspot Immunoassay. The microanalytical ‘compact disk’ of the future”, (1992), Ann. Biol. Clin., 50: 337-353. |
Esashi et al., “Anodic Bonding for Integrated Capactive Sensors” (Jul. 1992), Proc. Micro. Electro Mechanical Systems, 11: 43-48. |
Foucault, “Countercurrent Chromatography” (1991), Anal. Chem., 63. |
Fritsche et al., “Enzymatic Endpoint Analysis of Glucose with the Hexokinase Method and the Union Carbide Fast Centrifugal Analyzer”, (1975), Clin Biochem., 8: 240-246. |
Glass et al., “Effect of Numerical apertune on signal level in cylindrical waveguide evanescent fluorosensors” (Jun. 1987), Appl. Optics, 26/11: 2181-2187. |
Haab et al., “Single Molecule Fluoroscence Burst Detection of DNA Fragments Separated by Capillary Electrophoresis” Anal. Chem., 1995, 67, 3253-3260. |
Hadjiioannou et al., “Automated Enzymic Determination of Ethanol in Blood, Serum, and Urine with a Miniature Centrifugal Analyzer”, (1976), Clin. Chem. 22/6:802-805. |
Heineman, “Biosensors Based on Polymer Networks Formed by Gamma Irradiation Crosslinking”, (1993), App. Biochem. Biotech., 41: 87-97. |
Ikada, “Surface Modification of Polymers for Medical Applications”, (1994), Biomaterials, 15/10: 725-736. |
Lamture et al., “Direct Detection of Nucleic Acid Hybridization on the Surface of a Charge Coupled Device”, (1994), Nucleic Acids Res., 22/11: 2121-2125. |
Lee et al., “Automated System for Fractionation of Blood Samples” (1978), Clin. Chem., 24/8: 1361-1365. |
Linliu et al., “Development of a Centrifuge Ball Viscometer for Polymer Melts”, (1994), Rev. Sci. Instrum., 65/12: 3823-3828. |
Nakagawa et al., “A Micro Chemical Analyzing System Integrated on a Silicon Wafer”, Proc. IEEE Workshop of Micro Electro Mechanical Systems, pp. 89. |
Poole et al., “Instrumental Thin-Layer Chromatography”, (Jan. 1994), Anal. Chem., 66/1: 27A-37A. |
Reijenga et al., “Effect of Electroosmosis on Detection in Isotachophoresis”,(1983), J. Chromatography, 260: 241-254. |
Renoe et al., “A Versatile Minidisc Module for a Centrifugal Analyzer”(1974), Clain. Chem., 20/8:955-960. |
Rosenzweig et al., “Laser-Based Particle-Counting Microimmunoassay for the Analysis of Single Human Erythorcytes” (1994), Anal. Chem., 66: 1771-1776. |
Schembri et al., “Portable Simultaneous Multiple Analyte Whole-Blood Analyzer for Point-of-Care Testing” (1992), Clin. Chem., 38/9: 1665-1670. |
Shoji & Esashi, “Micro flow cell for blood gas analysis realizing very small sample volume” (1992), Sensors and Actuators, B8: 205-208. |
Wilding et al., “Manipulation and Flow of Biological Fluids in Straight Channels Micromachined in Silicon” (1994), Automat. Analyt. Tech., 40: 43-47. |
Wilding et al., Manipulation and Flow of Biological Fluids in Straight Channels Micromachined in Silicon (1994), Clin. Chem., 40/1: 43-47. |