Publications

152.Sacks, DB; Arnold, MA: Diabetic control with non-invasive devices; Proceedings XVI Winter Course: Quality Control in Telemedicine.Biobanking (Ed. Ferrer-Roca O) 2008, 81-85.

151. Cho, DS; Olesberg, JT; Flanigan, MJ; Arnold, MA: On Line near infrared spectrometer to monitor urea removal in real-time during hemodialysis; Applied Spectroscopy , 2008 62,866-872

150. Arnold, MA; Liu, L; Olesberg, JT: Selectivity assessment of noninvasive glucose measurements based on analysis of multivariate calibration vectors; Journal of Diabetes Science and Technology, 2007 1(4) , 454-462.

149. Reece, JA; Murhammer, DW; Arnold, MA; Radioluminescent oxygen sensor for monitoring dynamic oxygen concentrations during cell cultivation; submitted for publication

148. Ren, M; Arnold, MA; Comparison of multivariate calibration models for glucose, lactate and urea from near infrared and Raman spectra; Analytical and Bioanalytical Chemistry 2007 387, 879-888.

147. Lee, Y-B; Chung, H; Arnold, MA; Improving the robustness of a PLS model based on pure component selectivity analysis and range optimization: Case study for the analysis of an etching solution containing hydrogen peroxide; Analytica Chimica Acta 2006 572, 93-101.

146. Amerov, AK; Small, GW; Arnold, MA; Selective multivariate analysis of blood glucose with near infrared spectral range; SPIE Proceedings 2005, 6007, 180-189.

145. Kanukurthy K, Viswanathan U, Andersen DR, Olesberg J, Arnold MA, and Coretsopoulos C, “Controller for a continuous near infrared glucose sensor”, Proc. Sensors for Industry Conf. (SICON/05), Houston, TX, Feb. 8-10, 2005, 59-65 .

144. Kanukurthy, K; Andersen, DR; Olesberg, J; Arnold, MA; Coretsopoulos, C; Wireless NIR glucose sensor controller; Proceeding of the International Conference on Biomedical Engineering 2005; Paper YIA-04; Dec. 7-10, 2005.

143. Olesberg JT; Liu L; Van Zee V; and Arnold MA; “In vivo near-infrared spectroscopy of rat skin tissue with varying blood glucose levels,” Analytical Chemistry 2006 , 78: 215-223 .

142. Olesberg JT, Cao C, Yager JR, Prineas JP, Coretsopoulos C, Arnold MA, Olafsen LJ, Santilli M, “Optical microsensor for continuous glucose measurements in interstitial fluid,” SPIE Proceedings 2006 609403.

141. Arnold, MA; Small, GW; Perspectives in Analytical Chemistry: Noninvasive glucose sensing; Analytical Chemistry 2005 77, 5429-5439.

140. Amerov AK; Chen, J; Small, GW; Arnold, MA; Scattering and absorption effects in the determination of glucose in whole blood by near infrared spectroscopy; Analytical Chemistry 2005 77, 4587-4594.

139. Olesberg JT, Arnold MA, Mermelstein C, Schmitz J, and Wagner J, “Tunable laser diode system for noninvasive blood glucose measurements,” Applied Spectroscopy 2005 59: 1480-1484.

138. Olesberg JT, Arnold MA, Mermelstein C, Schmitz J, and Wagner J, “Tunable laser diode system for noninvasive blood glucose measurements,” SPIE Proceedings 2005 5702: 23-29.

137. Jones, WF; Arnold, MA; Wiencek, JM; Precipitant-controlled growth of lysozyme crystals in sodium thiocyanate, Journal of Crystal Growth and Design 2004 4, 1387-1393.

136. Amerov, AK; Chen, J; Arnold, MA; Molar absorptivities of glucose, water and other biological molecules over the first overtone and combination regions of the near infrared spectrum, Applied Spectroscopy 2004 58, 1195-1204.

135. Chen, J; Arnold, MA; Small, GW; Comparison of combination and first overtone spectral regions for near infrared calibration models for glucose and other biomolecules in aqueous solutions, Analytical Chemistry 2004 76 , 5405-5413 .

134. Olesberg, JT; Liu, L; Van Zee, V; Arnold, MA; In vivo near-infrared spectroscopy of rat skin tissue with varying blood glucose levels, Proceedings of the SPIE 2004 , 5325, 11–20.

133. Amerov, AK; Chen, J; Small, GW; Arnold, MA; The influence of glucose upon the transport of light through whole blood, Proceedings of the SPIE 2004, 5330, 101-111.

132. Rhiel, MH; Cohen, MB; Arnold, MA; Murhammer, DW; On-line monitoring of human prostate cancer cells in a perfusion rotating wall vessel by near-infrared spectroscopy, Biotechnology and Bioengineering 2004 86, 852 – 861.

131. Arnold, MA; Small, GW; Xiang, D, Qiu, J; Murhammer, DW; Pure component selectivity analysis of multivariate calibration models from near infrared spectra, Analytical Chemistry 2004 76, 2583-2590.

130. Olesberg, JT; Flanigan, M; Arnold, MA; Online measurement of urea concentration in spent dialysate during hemodialysis, Clinical Chemistry 2004 50, 175-181.

129. Waboma, MJ; Small, GW; Arnold, MA; Evaluation of selectivity and robustness of near-infrared glucose measurements based on short-scan Fourier transform infrared interferograms, Analytica Chimica Acta 2003 490 , 325-340.

128. Zhang, L; Small, GW; Arnold, MA; Multivariate calibration standardization across instruments for the determination of glucose by Fourier transform near-infrared spectroscopy; Analytical Chemistry 2003 75, 5905-5915.

127. Amerov, AK; Arnold, MA; In Vivo Kromoscopic analysis of glucose in blood; Proceedings of the SPIE 2003 4965, 7- 16.

126. Eddy, CV; Flanigan, M; Arnold, MA; Near infrared spectroscopic measurement of urea in dialysate samples collected during hemodialysis treatments; Applied Spectroscopy 2003 57, 1230-1235 .

125. Saarinen, MA; Reece, JS; Arnold, MA; Murhammer, DW; Monitoring and controlling the dissolved oxygen (DO) concentration within the high aspect ratio vessel (HARV); Biotechnology Progress 2003, 19, 1335-1341.

124. .Winkenwerder, JJ; Palechek, PL; Reece, JS; Saarinen, MA; Arnold, MA; Cohen, MB; Murhammer, DW; Evaluating prostate cancer cell culturing methods: A comparison of cell morphologies and metabolic activity, Oncology Reports 2003 10, 783-789 .

123. Reece, JS; Miller, MJ; Arnold, MA; Waterhouse, C; Delaplaine, T; Cohn, L; Cannon, T; Continuous oxygen monitoring of mammalian cell growth on space shuttle mission STS-93 with a novel radioluminescent oxygen sensor, Applied Biochemistry and Biotechnology 2003 104, 1-11.

122. Zhang, L; Small, GW; Arnold, MA; Calibration standardization algorithm for partial least-squares regression: Application to the determination of physiological levels of glucose by near-infrared spectroscopy; Analytical Chemistry 2002 74, 4097 – 4108.

121. Leary, JA; Arnold, MA; Bioanalytical Chemistry, Current Opinion in Chemical Biology 2002 6, 631-632.

120. Green, CE; Wiencek, JM; Arnold, MA; Multivariate calibration models for lysozyme from near-infrared transmission spectra in scattering solutions, Analytical Chemistry 2002, 74, 3392-3399.

119. Rhiel, M; Cohen, MB; Murhammer, DW; Arnold, MA; Nondestructive near infrared spectroscopic measurement of multiple analytes in undiluted samples of serum-based cell culture media, Biotechnology and Bioengineering , 2002, 77, 73-82.

118. Olesberg, JT; Armitage, B; Arnold, MA; Flanigan, MJ; On-line measurement of urea concentration in spent dialysate during hemodialysis, Proceedings of the SPIE 2002, 4624, 95-105.

117. Amerov, AK; Yu, S; Small, GW; Arnold, MA; Kromoscopic measurement of glucose in the first overtone region of the near infrared spectrum, Proceedings of the SPIE 2002, 4624, 11-19.

116. Eddy, C; Arnold, MA; Near infrared spectroscopy for measuring urea in hemodialysis fluids, Clinical Chemistry , 2001 47, 1279-1286.

115. Amerov, AK; Yu, S; Arnold, MA; Small, GW; Kromoscopic analysis in two and three component aqueous solutions of blood constituents, Proceedings of the SPIE 2001 4363, 1-10.

114. Hu, S-YB; Wiencek, JM; Arnold, MA; Application of near-infrared spectra to temperature-controlled protein crystallization – A simulation study; Applied Biochemistry and Biotechnology 2001 94, 179-196.

113. Patterson, SL; Sluka, KA; Arnold, MA; Novel transverse push-pull micro-probe: In vitro characterization and in vivo demonstration of the enzymatic production of adenosine in the spinal cord dorsal horn, Journal of Neurochemistry 2001 76, 234-246.

112. Olesberg, JT; Arnold, MA; Hu, S-YB; Wiencek, JM; Temperature insensitive near-infrared method for determination of protein concentration during protein crystal growth, Analytical Chemistry 2000 72, 4985-4990.

111. Arnold, MA; In vivo chemical sensing: opportunities and challenges, e-biomed: Regenerative Medicine 2000 1, 55-58.

110. Burmeister, JJ; Arnold, MA; Small, GW; Noninvasive blood glucose measurements by near infrared transmission spectroscopy across human tongues, Diabetes Technology & Therapeutics 2000 2, 5-16.

109. Helwig, AM; Arnold, MA; Small, GW; Evaluation of Kromoscopy: Resolution of glucose and urea, Applied Optics 2000 39, 4715-4720.

108. Hu, S-Y B; Arnold MA; Wiencek, JM; Temperature-independent near-infrared analysis of lysozyme aqueous solutions, Analytical Chemistry 2000 72, 696-702.

107. Cingo, NA; Small, GW; Arnold, MA; Determination of glucose in a synthetic biological matrix with decimated time-domain filtered near-infrared interferogram data, Vibrational Spectroscopy 2000 23, 103-117.

106. Riley, MR; Arnold, MA; Murhammer, DW; Effect of sample complexity on quantification of analytes in aqueous samples by near infrared spectroscopy; Applied Spectroscopy 2000 54 , 255-261.

105. Chung, H; Arnold, MA; Near infrared spectroscopy for monitoring starch hydrolysis, Applied Spectroscopy 2000 54, 277-283.

104. Hu, SB; Lillquist, A; Arnold, MA; Wiencek, JM; Partial-least squares analysis of lysozyme near-infrared spectra; Applied Biochemistry and Biotechnology 2000 87, 153-163.

103. Burmeister, JJ; Arnold, MA; Evaluation of measurement sites for noninvasive blood glucose sensing with near-infrared transmission spectroscopy, Clinical Chemistry 1999 45, 1621-1627.

102. Razek, TMA; Miller, MJ; Hassan, SSM; Arnold, MA; Optical sensor for sulfur dioxide based on fluorescence quenching, Talanta 1999 50, 491-498.

101. Chuang, H; Arnold, MA; Radioluminescent sources for optical chemical sensors; Proceedings of the 15 th IUPAC International Conference on Chemical Education; Pure and Applied Chemistry , 1999, 71, 803-810.

100. Ding, Q; Small, GW; Arnold, MA; Evaluation of data pretreatment and model building methods for the determination of glucose from near-infrared single-beam spectra; Applied Spectroscopy 1999 53, 402-414.

99. Ding, Q; Small, GW; Arnold MA; Evaluation of nonlinear model building strategies for the determination of glucose in biological matrices by near-infrared spectroscopy; Analytical Chimica Acta 1999 384, 333-343.

98. Ding, Q; Small, GW; Arnold, MA; Genetic algorithm-based wavelength selection for the near infrared determination of glucose in biological matrices: Initialization strategies and effects of spectral resolution; Analytical Chemistry 1998 70, 4472-4479.

97. Spear, SK; Martin, Rhiel, Murhammer, DW; Arnold, MA; Ammonia measurements in mammalian cell culture media with a diffuse reflectance based fiber-optic ammonia sensor; Applied Biochemistry and Biotechnology 1999 75, 175-186.

96. Razek, TMA; Spear, S; Hassan, SSM; Arnold, MA; Selective measurement of chromium (VI) by fluorescence quenching of ruthenium; Talanta 1999 48, 269-275.

95. Spear, SK; Patterson, SL; Arnold, MA; Flow through fiber optic ammonia sensor for analysis of hippocampus slice perfusates; Analytica Chimica Acta 1998 357, 79-84.

94. Hazen, KH; Arnold, MA; Small, GW; Measurement of glucose in water with first overtone near infrared spectra; Applied Spectroscopy 1998 52, 1597-1605.

93. Riley, MR; Arnold, MA; Murhammer, DW; Matrix-enhanced calibration procedure for multivariate calibration models with near-infrared spectra; Applied Spectroscopy 1998 52, 1339-1347.

92. Hazen, KH; Arnold, MA; Small, GW; Measurement of glucose and other analytes in undiluted human serum with near infrared transmission spectroscopy; Analytica Chimica Acta 1998 371 , 255-267.

91. Riley, MR; Arnold, MA; Murhammer, DW; Walls, EL; DelaCruz, N; Adaptive calibration scheme for quantification of metabolites in insect cell media by near infrared spectroscopy; Biotechnology Progress 1998 14, 527-533.

90. Chuang, H; Arnold, MA; Linear calibration function for optical oxygen sensors based on quenching of ruthenium fluorescence; Analytica Chimica Acta 1998 368, 83-89.

89. Burmeister, JJ; Arnold, MA; Small, GW; Spectroscopic considerations for noninvasive blood glucose measurements with near infrared spectroscopy; IEEE Lasers and Electro-Optics Society 1998 12, 6-9

88. Small, GW; Arnold, MA; Data handling issues for near-infrared glucose measurements; IEEE Lasers and Electro-Optics Society 1998 12, 16-17.

87. Arnold, MA; Burmeister, JJ; Small, GW; Phantom glucose calibration models from simulated noninvasive human near infrared spectra; Analytical Chemistry 1998 70, 1773-1781.

86. Burmeister, JJ; Chung, H; Arnold, MA; Phantoms for noninvasive blood glucose sensing with near-infrared transmission spectroscopy; Photochemistry and Photobiology (Symposium-in-print) 1998 , 6, 50-55.

85. Wang, P; Amarasinghe, S.; Leddy, J; Arnold, M.; Dordick, JS; Enzymatically prepared poly(hydroquinone) as a mediator for amperometric glucose sensors; Polymer 1997 39, 123-127.

84. Mattu, MJ; Small, GW; Arnold, MA; Determination of glucose in a biological matrix by multivariate analysis of multiple bandpass-filtered Fourier transform near-infrared interferograms; Analytical Chemistry 1997 69, 4695-4702.

83. Mattu, JM; Small, GW; Arnold, MA; Application of multivariate calibration techniques to quantitative analysis of bandpass filtered Fourier transform infrared interferogram data; Applied Spectroscopy 1997 51, 1369-1376.

82. Lu, G; Zhou, X; Arnold, MA; Small, GW; Multivariate calibration models based on the direct analysis of near-infrared spectra; Applied Spectroscopy 1997 51, 1330-1339.

81. Chuang, H; Arnold, MA; Radio-luminescent light source for optical oxygen sensors; Analytical Chemistry 1997 69, 1899-1903.

80. Riley, MR; Rhiel, M; Zhou, X; Arnold, MA; Murhammer, DW; Simultaneous monitoring of glucose and glutamine in insect cell cultures by near infrared spectroscopy; Biotechnology and Bioengineering 1997 55, 11-15.

79. Bangalore, AS; Shaffer, RE; Small, GW; Arnold, MA; Genetic algorithm based method for selecting wavelengths and model size for use with partial least-squares regression: application to near-infrared spectroscopy; Analytical Chemistry 1996 68, 4200-4212.

78. Shaffer, RE; Small, GW; Arnold, MA; Genetic algorithm-based protocol for coupling digital filtering and partial least-squares regression: Application to the near-infrared analysis of glucose in biological matrices; Analytical Chemistry 1996 68, 2663-2675.

77. Zhou, X; Arnold, MA; Response characteristics and mathematical model for a nitric oxide fiber-optic chemical sensor; Analytical Chemistry 1996 68, 1748-1754.

76. Pan, S; Arnold, MA; Selective enhancement for glutamate with nafion/glutamate oxide biosensors; Talanta 1996 43, 1157-1162.

75. Pan, S; Chung, H; Arnold, MA; Small, GW; Near-infrared spectroscopic measurement of physiological glucose levels in variable matrices of protein and triglycerides; Analytical Chemistry 1996 68, 1124-1135.

74. Arnold, MA; Noninvasive glucose monitoring; Current Opinion in Biotechnology 1996 7, 46-49.

73. Chung, H; Arnold, MA; Rhiel, M; Murhammer, DW; Simultaneous measurements of glucose, glutamine, ammonia, lactate and glutamate in aqueous solutions by near-infrared spectroscopy; Applied Spectroscopy 1996 50, 270-276.

72. Arnold, MA; New developments and clinical impact of noninvasive monitoring; in Handbook of Clinical Laboratory Automation, Robotics, and Optimization , (Kost, GJ, Ed); John Wiley & Sons; 1996, Chapter 26, pp. 631-647.

71. Diaz-Arnold, AM; Arnold, MA; Wilcox, LR; Optical detection of hemoglobin in pulpal blood; Journal of Endodontics 1996 22, 19-22.

70. Zhou, X; Chung, H; Arnold, MA; Rhiel, M; Murhammer, DW; Selective measurement of glutamine and asparagine in aqueous media by near-infrared spectroscopy; Biosensor and Chemical Sensor Technology: Process Monitoring and Control , (Rogers, KR; Mulchandani, A; Zhou, W; Eds.; ACS Symposium Series 613 ; ACS Books, Washington, D.C.; 199, Chapter 12, pp. 116-132.

69. Li, L; Arnold, MA; General Model for the Steady-State Response Properties of Fiber Optic Ammonia Gas Sensors; Analytica Chimica Acta 1995 317, 265-273.

68. Chung, H; Arnold, MA; Monitoring the acid catalyzed hydrolysis of starch with near infrared spectroscopy; Applied Spectroscopy 1995 4 , 1097-1102.

67. Kar, S; Arnold, MA; Fiber-optic chlorine sensor based on fluorescence decay of N-(6-methonyquinolyl)acetothyl ester; Talanta 1995 42, 663-670.

66. Burmeister, JJ; Arnold, MA; Accuracy of the YSI Stat Plus analyzer for glucose and lactate; Analytical Letters 1995 28, 581-592.

65. Zhou, X; Arnold, MA; Internal enzyme fiber-optic biosensors for hydrogen peroxide and glucose; Analytica Chimica Acta 1995 304 , 147-156.

64. Chung, H; Arnold, MA; Rhiel, M; Murhammer, DW; Simultaneous measurement of glucose and glutamine in aqueous solutions by near infrared spectroscopy; Applied Biochemistry and Biotechnology 1995 50, 109-126.

63. Kar, S; Arnold, MA; Cylindrical sensor geometry for absorbance-based fiber-optic ammonia sensors; Talanta 1994 4, 1051-1058.

62. Arnold, MA; Zhou, X; Petsch, RC; Gas-sensing internal enzyme biosensor for hydrogen peroxide; Talanta 1994 4, 783-787.

61. Hazen, KK; Arnold, MA, Small, GW; Temperature insensitive near infrared measurements of glucose in aqueous matrices; Applied Spectroscopy 1994 48, 477-483.

60. Diaz-Arnold, AM; Wilcox, LR; Arnold, MA; Optical detection of pulpal blood; Journal of Endodontics 1994 20, 164-168.

59. Marquardt, LA; Arnold, MA; Small, GW; Near infrared spectroscopic measurement of glucose in a protein matrix; Analytical Chemistry 1993 65, 3271-3278.

58. Small, GW; Marquardt, LA; Arnold, MA; Strategies for coupling Fourier filtering and partial least-squares regression: Application to the determination of glucose in plasma by Fourier transform near-infrared spectroscopy; Analytical Chemistry 1993 65, 3279-3289.

57. Pan, S; Arnold, MA; Amperometric interanal enzyme gas-sensing probe for hydrogen peroxide; Analytica Chimica Acta 1993 283, 663-671.

56. DeMeulenaere, RL; Onsrud, PJ; Arnold, MA; Selectivity for phosphate and citrate with benzyltin based polymer membrane electrodes; Electroanalysis 1993 5, 833-838.

55. Li, L; Arnold, MA; Dordick, JS; Mathematical model for the luminol chemiluminescence reaction catalyzed by peroxidase; Biotechnology and Bioengineering 1993 41, 1112-1120.

54. Kar, S; Arnold, MA; Air-gap fiber-optic ammonia gas sensor; Talanta 1993 40, 757-760.

53. Arnold, MA; Fiber-optic chemical sensors; Analytical Chemistry 1992 64, 1015-1025A.

52. Kar, S; Arnold, MA; Fiber-optic ammonia sensor for measuring synaptic glutamate and extracellular ammonia; Analytical Chemistry 1992 64, 2438-2443.

51. Colin, TB; Yang, KH; Arnold, MA; Small, GW; Stwalley, WC; Effect of length and diameter on the signal-to-noise ratio for evanescent field absorption fiber-optic sensors; Applied Spectroscopy 1992 46, 1129-1133.

50. Kaltenbach, MS; Arnold, MA; pH dependent hyrdolysis of reagents and flow injection analytsis of hydrogen peroxide and glutamate; Mikrochimica Acta 1992 108, 205-219.

49. Sharma, A; Arnold, MA; Fluorescence quenching of thionine by reduced nicotinamide adenine dinucleotide; Spectrochimica Acta 1992 48A, 647-651.

48. Wang, A-J; Arnold, MA; Dual-enzyme fiber-optic biosensor for glutamate based on reduced nicotinamide adenine dinucleotide luminescence; Analytical Chemistry 1992 64, 1051-1055.

47. Diaz-Arnold, AM; Arnold, MA; Williams, VD; Measurement of water sorption by resin composite adhesives with near infrared spectroscopy; Journal of Dental Research 1992 71, 438-442.

46. Arnold, MA; Fiber-optic biosensors: Recent advances and future prospects; in Immunochemical Assays and Biosensor Technology for the 1990's (Nakamura, RM; Kasahara, Y; Rechnitz, GA; Eds.); American Society of Microbiology, Washington, DC; 1992, Chapter 16.

45. Kaltenbach, MS; Barber, AS; Diaz, GV; Arnold, MA; Microscopic evaluation of acid etched optical fibers; Analytical Letters 1991 24, 2123-2145.

44. Arnold, MA; Fluorophore- and chromophore-based fiber-optic biosensors; in Biosensors Principles and Applications ; (Blum, LJ; Coulet, PR; Eds.); Marcel Dekker Publishers; 1991, Chapter 9, pp. 195-211.

43. Glazier, SA; Arnold, MA; Selectivity of membrane based electrodes based on deriviative of dibenzyltin dicholoride; Analytical Chemistry 1991 63, 754-759.

42. Wangsa, J; Arnold, MA; Transducer-based and intrinsic biosensors; in Fiber Optic Chemical Sensors and Biosensors , (Wolfbeis, OS; Ed.); CRC Press, Boca Raton, FL; 1991 , Volume II, Chapter 16, pp. 193-216

41. Arnold, MA; Small, GW; Rhines, TD; Wangsa, J; Kaltenbach, MS; Biosensing with fiber-optic chemical sensors and near infrared spectroscopy; Proceedings of the International Symposium on Methodology and clinical applications of electrochemical and fiber-optic sensors , (Burritt, MF; Moran, RF; Eds.); Electro-lyte/Blood Gas Division of the American Association for Clinical Chemistry, 1990, 11, 101-112.

40. Arnold, MA; Fiber-optic biosensors; Journal of Biotechnology 1990 15, 219-228.

39. Arnold, MA; Small, GW; Determination of physiological levels of glucose in an aqueous matrix with digitally filtered Fourier transform near-infrared spectra; Analytical Chemistry 1990 62, 1457-1464.

38. Arnold, MA; Potentiometric and fiber-optic based biocatalytic sensors; in BioInstrumentation: Research, Developments and Applications ; (Wise, DL; Ed.); Butterworths Publishers, Stoneham, MA; 1990, Chapter 19, pp. 501-523.

37. Rhines, TD; Arnold, MA; Fiber-optic biosensor for urea based on ammonia gas-sensing; Analytica Chimica Acta 1989 227, 387-396.

36. Glazier, SA; Arnold, MA; Progress in phosphate-selective electrode development; Analytical Letters 1989 22, 1075-1088. [Invited paper for special issue in honor of Professor Erno Pungor's 65th birthday].

35. Arnold, MA; Fiber-optic based biocatalytic biosensors; in Chemical Sensors and Microinstrumentation, (Murray, RW; Dessy, RE; Heineman, WR; Janata, J; and Seitz, WR; Eds.); ACS Symposium Series 403; 1989, Chapter 20, pp. 303-317.

34. Glazier, SA; Arnold, MA; Phosphate selective polymer membrane electrode; Analytical Chemistry 1988 60, 2540-2.

33. Arnold, MA; Meyerhoff, ME; Recent advances in the development and analytical applications of biosensing probes; Critical Reviews in Analytical Chemistry 1988 20, 149-196.

32. Arnold, MA; Fiber-optic biosensing probes for biomedically important compounds; Proceedings of the SPIE-International Society for Optical Engineering 1988 906, 128-133.

31. Wangsa, J; Arnold, MA; Fiber-optic biosensors based on the fluorometric detection of reduced nicotinamide adenine dinucleotide; Analytical Chemistry 1988 60, 1080-1082.

30. Glazier, SA; Arnold, MA; Glazier, JP; Evaluation of an overdetermined system based on multiple ion-selective electrodes of the same type; Talanta 1988 35, 215-219.

29. Rhines, TD; Arnold, MA; Simplex optimization of a fiber-optic ammonia sensor for wastewater analysis; Analytical Chemistry 1988 60, 76-81.

28. Walters, BS; Nielsen, TJ; Arnold, MA; Fiber-optic biosensor for ethanol using an internal enzyme configuration; Talanta 1988 35, 151-155.

27. Diaz, GV; El-Issa, LH; Arnold, MA; Miller, RF; Feasibility of continuous glutamate monitoring in perfused retinal tissue with a potentiometric biosensing probe; Journal of Neurochemical Methods 1988 23, 63-69.

26. Arnold, MA; Development of biosensors using optical fibers; Proceedings of an international workshop on biosensors; GBF Monograph Series 1987 10, 223-227.

25. Wangsa, J; Arnold, MA; Selectivity of sodium glass membrane electrodes under non-steady state conditions; Analytical Chemistry 1987 59, 1604-1608.

24.Bunker, OW; Arnold, MA; Potentiometric determination of enzyme activities with slopes computed with the Savitzky-Golay digital filter; Analytica Chimica Acta 1987 192, 315-319.

23. Arnold, MA; Rechnitz, GA; Biosensors based on plant and animal tissue; in Biosensors: Fundamentals and Applications ; (Turner, APF; Karube, I; Wilson, GS; Eds.); Oxford University Press; 1987, Chapter 3, pp. 30-59.

22. Collison, ME; Arnold, MA; Ammonia electrode performance in deuterium oxide solutions; Analytical Letters 1986 19, 1759-1776.

21. Arnold, MA; Zisman, SA; Hise, SM; Time-dependent selectivity of glass membrane electrodes; Analytica Chimica Acta 1986 18 , 17-29.

20. Arnold, MA; Potentiometric membrane electrodes; in Materials Characterization Handbook , American Society for Metals 1986 10, 181-187.

19. Arnold, MA; Potentiometric biosensors using whole tissue sections; Ion-Selective Electrode Reviews 1986 8, 85-113.

18. Arnold, MA; Ostler, TJ; Fiber optic ammonia gas-sensing probe; Analytical Chemistry 1986 58, 1137-1140.

17. Arnold, MA; Solsky, RS; Ion-selective electrodes; Analytical Chemistry 1986 58, 84R-101R.

16. Arnold, MA; Enzyme-based fiber optic sensor; Analytical Chemistry 1985 57, 565-566.

15. Arnold, MA; Fiocchi, JA; Rabbit muscle acetone powder as biocatalyst for adenosine 5'-monophosphate biosensors; Analytical Letters 1984 17, 2091-2109.

14. Arnold, MA; Glazier, SA; Jack bean meal as biocatalyst for urea biosensors; Biotechnology Letters 1984 6, 313-318.

13. Arnold, MA; Rechnitz, GA; Dynamic behavior of potentiometric ammonia-sensing probes in samples of high osmolarity; Analytica Chimica Acta 1984 158, 209- 214.

12. Arnold, MA; Meyerhoff, ME; Ion-selective electrodes; Analytical Chemistry 1984 56, 20R-48R.

11. Arnold, MA; Improved dynamic response of potentiometric ammonia gas-sensing electrodes using pure Teflon membranes; Analytica Chimica Acta 1983 154 33-39.

10. Arnold, MA; Introduction to biocatalytic membrane electrodes; American Laboratory 1983 15, 34-40.

9. Kuriyama, S; Arnold, MA; Rechnitz, GA; Improved membrane electrode using plant tissue as biocatalyst; Journal of Membrane Science 1983 12, 269-278.

8. Arnold, MA; Rechnitz, GA; Substrate consumption by biocatalytic potentiometric membrane electrodes; Analytical Chemistry 1982 54, 2315-2317

7. Arnold, MA; Rechnitz, GA; Optimization of a tissue-based membrane electrode for guanine; Analytical Chemistry 1982 54, 777-782

6. Arnold, MA; Rechnitz, GA; Tissue-based membrane electrode with high biocatalytic activity for measurement of Adenosine 5-monophosphate; Analytical Chemistry 1981 53 1837-1842 .

5. DiPaolantonio, CL; Arnold, MA; Rechnitz, GA; Serine selective membrane electrode using immobilized anaerobic bacteria; Analytica Chimica Acta 1981 128, 121- 127.

4. Arnold, MA; Rechnitz, GA; Selectivity enhancement of a tissue-based adenosine sensing membrane electrode; Analytical Chemistry 1981 53, 515-518.

3. Arnold, MA; Rechnitz, GA; Comparison of bacterial, mitochondrial, tissue and enzyme biocatalysts for glutamine selective membrane electrodes; Analytical Chemistry 1980 52, 1170-1174.

2. Arnold, MA; Rechnitz, GA; Determination of glutamine in cerebrospinal fluid with a tissue-based membrane electrode; Analytica Chimica Acta 1980 113, 351-354.

1. Rechnitz, GA; Arnold, MA; Meyerhoff, ME; Bio-selective membrane electrode using tissue slices; Nature (London) 1979 278, 466-467.

Publications

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2000 - 2010

1999 - 1990

1989 and Earlier