Biomedical Engineering Reference
In-Depth Information
[31]
Gasser, T., P. Bächer, and J. Möcks, “Transformation Towards the Normal Distribution of
Broadband Spectral Parameters of the EEG,”
Electroencephalography and Clinical
Neurophysiology,
Vol. 53, 1982, pp. 119-124.
[32]
Arom, K. V., D. E. Cohen, and F. T. Strobl, “Effect of Intraoperative Intervention on Neu-
rologic Outcome Based on Electroencephalographic Monitoring During Cardiopulmonary
Bypass,”
Annals of Thoracic Surgery,
Vol. 48, 1989, pp. 476-483.
[33]
Burch, N. R., “Period analysis of the EEG on a General-Purpose Digital Computer,”
Annals
of the NY Academy of Sciences,
Vol. 115, 1964, pp. 827-843.
[34]
Klein, F. F., “A Waveform Analyzer Applied to the Human EEG,”
IEEE Trans. on Biomed.
Eng.,
Vol. 23, 1976, pp. 246-252.
[35]
Dwyer, R. C., et al., “The Electroencephalogram Does Not Predict Depth of Isoflurane
Anesthesia,”
Anesthesiology,
Vol. 81, 1994, pp. 403-409.
[36]
Demetrescu, M. C., “The Aperiodic Character of the Electroencephalogram [Abstract],”
Physiologist,
Vol. 18, 1975, p. 189.
[37]
Gregory, T. K., and D. C. Pettus, “An Electroencephalographic Processing Algorithm Spe-
cifically Intended for Analysis of Cerebral Electrical Activity,”
Journal of Clinical Monitor-
ing,
Vol. 2, 1986, pp. 190-197.
[38]
Shannon, C. E., “A Mathematical Theory of Communication,”
Bell System Technical Jour-
nal,
Vol. 27, 1948, pp. 379-423.
[39]
Viertiö-Oja, H., et al., “Description of the Entropy Algorithm as Applied in the
Datex-Ohmeda S/5 Entropy Module,”
Acta Anaesthesiologica Scandinavica,
Vol. 48,
2004, pp. 154-161.
[40]
Vakkuri, A., et al., “Time-Frequency Balanced Spectral Entropy as a Measure of Anesthetic
Drug Effect in Central Nervous System During Sevoflurane, Propofol, and Thiopental
Anesthesia,”
Acta Anaesthesiologica Scandinavica,
Vol. 48, No. 2, February 2004,
pp. 145-153.
[41]
Vakkuri, A., et al., “Spectral Entropy Monitoring Is Associated with Reduced Propofol Use
and Faster Emergence in Propofol-Nitrous Oxide-Alfentanil Anesthesia,”
Anesthesiology,
Vol. 103, No. 2, August 2005, pp. 274-279.
[42]
Rampil, I. J., and M. J. Laster, “No Correlation Between Quantitative
Electroencephalographic Measurements and Movement Response to Noxious Stimuli Dur-
ing Isoflurane Anesthesia in Rats,”
Anesthesiology,
Vol. 77, No. 5, 1992, pp. 920-925.
[43]
Rampil, I. J., et al., “I653 and Isoflurane Produce Similar Dose-Related Changes in the Elec-
troencephalogram of Pigs,”
Anesthesiology,
Vol. 69, 1988, pp. 298-302.
[44]
Cooley, J. W., and J. W. Tukey, “An Algorithm for Machine Calculation of Complex Fou-
rier Series,”
Mathematics of Computation,
Vol. 19, 1965, pp. 297-301.
[45]
Brigham, E. O.,
The Fast Fourier Transform,
Englewood Cliffs, NJ: Prentice-Hall, 1974.
[46]
Bickford, R. G., et al., “Proceedings: Compressed Spectral Displays in Epileptic Patients,”
Epilepsia,
Vol. 13, No. 2, 1972, pp. 347-348.
[47]
Fleming, R. A., and N. T. Smith, “An Inexpensive Device for Analyzing and Monitoring the
Electroencephalogram,”
Anesthesiology,
Vol. 50, 1979, pp. 456-460.
[48]
Volgyesi, G. A., “A Brain Function Monitor for Use During Anaesthesia,”
Canadian Anaes-
thetists' Society Journal,
Vol. 25, 1978, pp. 427-430.
[49]
Burrows, F. A., G. A. Volgyesi, and P. D. James, “Clinical Evaluation of the Augmented
Delta Quotient Monitor for Intraoperative Electroencephalographic Monitoring of Chil-
dren During Surgery and Cardiopulmonary Bypass for Repair of Congenital Cardiac
Defects,”
British Journal of Anaesthesia,
Vol. 63, No. 5, November 1989, pp. 565-573.
[50]
Jonkman E. J., et al., “The Use of Neurometrics in the Study of Patients with Cerebral
Ischaemia,”
Electroencephalography
and
Clinical
Neurophysiology,
Vol.
61,
1985,
pp. 333-341.
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