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PUBLICATIONS
Last Updated: 23-Aug-2002
- Parameters for Direct Cortical Electrical Stimulation in the Human: Histopathologic Confirmation. Gordon B, Lesser RP, Rance NE, Hart J Jr, Webber R, Uematsu S, and Fisher RS. Electroenceph clin. Neurophysiol, 75:371-377, 1990.
- On-Line Detection of Epileptic Spikes Using a Patient-Independent Neural Network. Wilson K, Webber WRS, Lesser RP, Fisher RS, Eberhart RC, and Dobbins RW. In: Bankman IN and Tsitlik JE (eds.),Computer Based Medical Systems. Proceedings of the Fourth Annual IEEE Symposium. Los Alamitos, California: IEEE Computer Society Press, 1991. pp. 264-271.
- Design Principles for Computerized Monitoring. Lesser RP, Webber WRS, Fisher RS. Electroenceph clin Neurophysiol 82:239-247, 1992.
- High-Frequency EEG Activity at the Start of Seizures. Fisher RS, WRS Webber, RP Lesser, S Arroyo, and S Uematsu. J Clin Neurophysiol 9:441-448, 1992.
- Superior cerebral protection with profound hypothermia during circulatory arrest.Gillinov AM. Redmond JM. Zehr KJ. Troncoso JC. Arroyo S. Lesser RP. Lee AW. Stuart RS. Reitz BA. Baumgartner WA. et al. Annals of Thoracic Surgery. 55(6):1432-9, 1993
- Automatic EEG Spike Detection: what should the Computer Imitate? Webber WRS, Litt B, Lesser RP, Fisher RS, and Bankman I. Electroenceph clin Neurophysiol, 87:364-373, 1994.
- Practical Detection of Epileptiform Discharges (EDs) in the EEG using an Artificial Neural Network: A Comparison of Raw and Parameterized EEG Data. Webber WRS, Litt B, Wilson K, and Lesser RP. Electroencephalogr Clin Neurophysiol 91:194-204, 1994.
- Clinical and Electroencephalographic Evidence for Sites of Origin of Seizures with Diffuse Electrodecremental Pattern. Arroyo S, Lesser RP, Fisher RS, Vining EP, Krauss GL, Bandeen-Roche K, Hart J, Gordon B, Uematsu S, and Webber R. Epilepsia 35:974-987, 1994.
- An approach to seizure detection using an artificial neural network (ANN). Webber WR. Lesser RP. Richardson RT. Wilson K. Electroencephalography & Clinical Neurophysiology. 98(4):250-72, 1996
- Neuronal generators of visual evoked potentials in humans: Visual processing in the human cortex. Arroyo S, Lesser RP, Poon W-T, Webber, WRS, and Gordon B. Epilepsia 38:600-610, 1997.
- Principles of Computerized Epilepsy Monitoring. Lesser RP and Webber WRS. In Niedermeyer E and Lopes da Silva F. Electroencephalography. Basic Principles, Clinical Applications, and Related Fields. Baltimore: Williams & Wilkins, 1993. pp. 776-780.
- Enhancing the Detection of Seizures with a Clustering Algorithm. Klatchko A, Raviv G, Webber WRS, and Lesser RP. Electroenceph clin Neurophysiol 106:52-63, 1998.
- Digital EEG. Krauss GL Webber WRS In Niedermeyer E and Lopes da Silva F. Electroencephalography. Basic Principles, Clinical Applications, and Related Fields. Baltimore: Williams & Wilkins, 1999. pp. 781-796.
- Brief bursts of pulse stimulation terminate afterdischarges caused by cortical stimulation. Lesser RP, Kim SH, Beyderman L, Miglioretti DL, Webber WRS, Bare M, Cysyk B, Krauss G, and Gordon B. Neurology 53:2073-2081, 1999.
- Wavelet-Crosscorrelation Analysis can help Predict whether Bursts of Pulse Stimulation will Terminate Afterdischarges. Mizuno-Matsumoto Y, Motamedi GK, Webber WRS, Lesser RP. Clinical Neurophysiology, 113: 33-42, 2002.
- Hypothermia terminates epileptiform discharges in an in vitro epilepsy model. Smith EL, Motamedi GK, Lesser RP, Rogawski MA. Epilepsia 42(suppl 7):230, 2001.
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When
Is Brief Pulse Stimulation Most Likely to Suppress after Discharges? An
Approach Using Neighbor Cross-Correlation Coefficient. Lee HW, Webber
WRS, Skolasky RL, Beyderman L, Motamedi GK, Mizuno-Matsumoto Y, Cho YW,
Lesser RP. Neurology, 2002; A453-454.
- Optimizing parameters for terminating cortical afterdischarges with pulse stimulation. Motamedi GK, Lesser RP, Miglioretti DL, Mizuno-Matsumoto Y, Gordon B , Webber WRS, Jackson DC, Sepkuty JP, and Crone NE. Epilepsia 43:836-846, 2002.