REFERENCES
- MB Davidson, Diabetes Mellitus—Diagnosis and Treatment, 3rd edition, Churchill Livingstone, New York, 1991.
- American Diabetes Association, Implications of the diabetes control and application trial, Clinical Diabetes, pp 91–96. Jul-Aug. 1993.
- WHO Technical Report Series No.844, Prevention of Diabetes Mellitus, pp 11–18, WHO, Manila.
- Consensus report on self-monitoring of Blood Glucose, Diabetes Care 1987, vol 1, pp 95–99.
- G Phillipou, R K Farrant & P J Phillips, Aqueous-Based Glucose Control Solutions for use with glucose reagent strips and meters, Clinical Chem 1989, vol 35, pp 2017–2018.
- T Koschinsky, K Dannehl and F A Gries, New approach to technical and clinical evaluation of devices for self monitoring of blood glucose, Diabetes Care, vol 11, pp 619–629, 1988.
- Proceedings of Technical Workshop sponsored by NASA, JDF, National Institute on Diabetes, Digestive and Kidney Diseases (NIDDK) and National Centre for Research Resources (NCCR) organised during April 7 & 8, 1993 at Washington DC.
- Fredric M Ham, Ivica N Kostanic, Glenn M Cohen & Brent R Gooch, Determination of Glucose Concentrations in an Aqueous Matrix from NIR Spectra Using Optimal Time-Domain Filtering and Partial Least Squares Regression, IEEE Transactions on Biomedical Engineering, vol 44, no 6, June 1997, pp 475–485.
- Shinsuke Kayshima, Tsunenori Arai et al, New Noninvasive Transcutaneous Approach to Blood Glucose Monitoring: Successful Monitoring on Human 75g OGTT with Novel Sampling Chamber, IEEE Transactions on Biomedical Engineering, vol 38, no 8, August 1991, pp 752–757.
- Brent D Cameron & Gerard L Cote, Noninvasive Glucose Sensing Utilizing a Digital Closed-Loop Polarimetric Approach, IEEE Transations on Biomedical Engineering, vol 44, no 12, December 1997, pp 1221–1227.
- Gerald L Cote, Martin D Fox & Robert B Northrop, Noninvasive Optical Polarimetric Glucose Sensing Using a True Phase Measurement Technique, IEEE Transactions on Biomedical Engineering, vol 39, no 7, July 1992, pp 752–756.
- The non-invasive glucose meter, Diabetes watch, August-December 1997 Issue p-13, Philippine Diabetic Association Inc.
- F Stephen Malin, Timothy L Ruchti, Thomas B Blank, Suresh N Thennadil & Stephen L Monfre, Noninvasive prediction of Glucose by Near-Infrared Diffuse Reflectance Spectroscopy, J Cinical Chemistry, vol 45, no 9, pp 1651–1658, 1999.
- G Spanner, R Niener et al, New concepts for the noninvasive determination of physiological glucose Concentrations using Modulated Laser Diodes, Fresenius J Analytical Chemistry, vol 354, p 306, 1996.
- D M Haaland, M R Robinson, G W Koeep, E V Thomas & R P Eaton, Reagentless Near Infrared Determination of Glucose in Whole Blood using Multivariate Calibration, Appl Spectroscopy, vol 46, p 1575, 1992.
- J Kimura, N Ito T Kuriyama, M Kikuchi, T Arai, N Negishi and Y Tomita, A Novel Blood Glucose Monitoring Method: An ISFET Applied to Transcutaneous Effusion Fluid, J Electro Chem Soc, vol 136, no 6, pp 1744–1747, 1989.
- G B Christison & H A Mackenzie, Laser Photoacoustic Determination of Physiological Glucose Concentration in Human Whole Blood, Med & Biol Eng Comput, 1993, vol 31, pp 284–290.
- K M Quan, G B Christison, H A Mackenzie & P Hodgson, Glucose Determination by a Pulsed Photoacoustic Technique: An Experimental Study Using a Gelatin Based Tissue Phantom, Phys Med & Biol, vol 1993, vol 38, pp 1911–1922.
- A Dunccan, J Hannigan, S S Freeborn, P W H Rae, B Mclver, F Greig, E M Johnson, D T Binnie, H A Mackenzie, A Portable Non-invasive Blood Glucose Monitor, 8th Int. Conf Solid State Sensors and Actuators and Eurosensors IX; Stockholm, Sweeden 1995: pp 455–458.
- J T Bruulsema, M Essenpries, L Heinemann, J E Hayward, M Berger, F A Gries, T Koschinsky, J Sandah-Christiansen, H orskor, J J Farrel, M S Patterson & D Bocker, Detection of Changes in Blood Concentration in Vivo with Spatially Resolved Diffuse Reflectance, OSA Conf on Biomedical Optical Spectroscopy and Diagnostic 1996.
- S Y Wang, C E Hasty, P A Watson, J P Wickstead, R D Smith and W F March, Analysis of Metabolities ins Aqueous Solutions using Laser Raman Spectroscopy, App Optics 1993; vol 32, no 6, pp 925–929.
- R Chen, R Jin & L A Colon, Analysis of tear fluid by CE/LIF: a noninvasive approach for glucose monitoring, Journal of Capillary Electrophoresis, 1996, Sep-Oct, vol 3, no 5.
- B M Desai, M T Desai, B C Lavingia, Tear and blood glucose levels in diabetes mellitus, Journal association of Physicians India, Aug 1987, vol 35, no 8, pp 576–7.
- R K Mediratia, J N Rohatgi, Glucose estimation in tear fluid-its diagnostic significance a preliminary study, Indian Journal of Ophthalmology, 1983 Sep, vol 31, no 5.
- D K Sen, G S Sarin, Tear glucose levels in normal people and in diabetic patients, British Journal of Ophthalmology, Sep 1980, vol 64, no 9, pp 693–695.
- E J Guilbeau, B C Towe & M J Muehlbauer, A Potentially Implantable Thermoelectric Sensor for Measurement of Glucose. Transactions of the American Society of Artificial Internal Organs, vol 23, pp 1–6, September, 1987.
- Kost J, Mitragotri S, Gabbay, R Pishko M & Langer, R Non-invasive Measurement of Glucose and Other Analytes, Nature Medicine 2000, vol 6, no 3, pp 347–350.
- L Ljunggren, Methods for continuous monitoring of glucose and urea in blood, Proc 2nd Int Meeting Chemical Sensors, Bordeaux, 1986: pp 527–530.
- G Velho, Ph Froguel, G Reach & D Thevenot, In vivo calibration of needle type glucose sensor to determine the kinetics of subcutaneous glucose concentration, Diabetologia, vol 30, 1987, pp 592.