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1. Adams DC, Heyer EJ, Emerson RG, et al. The reliability of quantitative electroencephalography as an indicator of cerebral ischemia [see comments]. Anesthesia & Analgesia 81:80-83.1995;

2. Arom KV, Cohen DE, Strobl FT. Effect of intraoperative intervention on neurological outcome based on electroencephalographic monitoring during cardiopulmonary bypass. Annals of Thoracic Surgery 48:476-483.1989;

3. Barlow JS, Creutzfeldt OD, Michael D, et al. Automatic adaptive segmentation of clinical EEGs. Electroencephalography & Clinical Neurophysiology 51:512-525.1981;

4. Barlow JS. Artifact Processing (Rejection and Minimization) in EEG Data Processing. In: Lopes da Silva FH, Storm van Leeuwen W, Remond A, editors. Clinical Applications of Computer Analysis of EEG and other Neurophysiological Signals. Revised Series ed. Amsterdam: Elsevier, 1986; 15-62.

5. Bashein G, Nessly ML, Bledsoe SW, et al. Electroencephalography during surgery with cardiopulmonary bypass and hypothermia [see comments]. Anesthesiology 76:878-891.1992;

6. Bender R, Schultz B, Schultz A, et al. Identification of EEG patterns occurring in anesthesia by means of autoregressive parameters. Biomedizinische Technik 36:236-240.1991;

7. Bickford RG, Melby G, Johnson S, et al. Computer automated EEG, diagnostic and interpretation system (CAEDIS): pilot studies with a hybrid system. Electroencephalography & Clinical Neurophysiology 30:951971;

8. Bloom MJ. Techniques to identify clinical contexts during automated data analysis. International Journal of Clinical Monitoring & Computing 10:17-22.1993;

9. Bloom MJ, Whitehurst S, Mandel M, et al. Bispectral Index as an EEG measure of the Sedative Effect of Isoflurane. [Abstract]. Anesthesiology 83:A1951995;

10. Bloom MJ, Whitehurst S, Mandel M, et al. Bispectral Index as an EEG Measure of Sedation with Methohexital. [Abstract]. Anesthesiology 85:A4611996;

11. Bodenstein G, Schneider W, Malsburg CV. Computerized EEG pattern classification by adaptive segmentation and probability-density-function classification. Description of the method. Computers in Biology & Medicine 15:297-313.1985;

12. Boeijinga PH, Lopes da Silva FH. Differential distribution of beta and theta EEG activity in the entorhinal cortex of the cat. Brain Research 448:272-286.1988;

13. Brundidge PK, Leavell ME, Tempelhoff R. EEG-controlled "overdosage" of anesthetics in a patient with a history of intra-anesthetic awareness [see comments]. Journal of Clinical Anesthesia 6:496-499.1994;

14. Cascino GD, So EL, Sharbrough FW, et al. Alfentanil-induced epileptiform activity in patients with partial epilepsy. Journal of Clinical Neurophysiology 10:520-525.1993;

15. Chiappa KH, Burke SR, Young RR. Results of electroencephalographic monitoring during 367 carotid endarterectomies. Use of a dedicated minicomputer. Stroke 10:381-388.1979;

16. Craft RM, Losasso TJ, Perkins WJ, et al. EEG Monitoring for Cerebral Ischemia during Carotid Endarterectomy (CEA): How Much is Enough?. [Abstract]. Anesthesiology 81:A2141994;

17. Dwyer RC, Rampil IJ, Eger EI, et al. The electroencephalogram does not predict depth of isoflurane anesthesia. Anesthesiology 81:403-409.1994;

18. Edmonds HL, Jr., Griffiths LK, van der Laken J, et al. Quantitative electroencephalographic monitoring during myocardial revascularization predicts postoperative disorientation and improves outcome [see comments]. Journal of Thoracic & Cardiovascular Surgery 103:555-563.1992;

19. Edmonds HL, Jr., Rodriguez RA, Audenaert SM, et al. The role of neuromonitoring in cardiovascular surgery. [Review]. Journal of Cardiothoracic & Vascular Anesthesia 10:15-23.1996;

20. Emerson RG, Turner CA. Monitoring during supratentorial surgery. [Review]. Journal of Clinical Neurophysiology 10:404-411.1993;

21. Facco E, Deriu GP, Dona B, et al. EEG monitoring of carotid endarterectomy with routine patch-graft angioplasty: an experience in a large series. Neurophysiologie Clinique 22:437-446.1992;

22. Frawley JE, Hicks RG, Horton DA, et al. Thiopental sodium cerebral protection during carotid endarterectomy: perioperative disease and death. Journal of Vascular Surgery 19:732-738.1994;

23. Gaitini L, Vaida S, Collins G, et al. Awareness detection during caesarean section under general anaesthesia using EEG spectrum analysis. Canadian Journal of Anaesthesia 42:377-381.1995;

24. Glass P, Gan TJ, Sebel PS, et al. Comparison of the Bispectral Index (BIS) and Measured Drug Concentrations for the Monitoring of Effects of Propofol, Midazolam, Alfentanil, and Isoflurane. [Abstract]. Anesthesiology 83:A3741996;

25. Grote CL, Shanahan PT, Salmon P, et al. Cognitive outcome after cardiac operations. Relationship to intraoperative computerized electroencephalographic data. Journal of Thoracic & Cardiovascular Surgery 104:1405-1409.1992;

26. Gurman GM. Assessment of depth of general anesthesia. Observations on processed EEG and spectral edge frequency. International Journal of Clinical Monitoring & Computing 11:185-189.1994;

27. Gurman GM, Fajer S, Porat A, et al. Use of EEG spectral edge as index of equipotency in a comparison of propofol and isoflurane for maintenance of general anaesthesia. European Journal of Anaesthesiology 11:443-448.1994;

28. Hanowell LH, Soriano S, Bennett HL. EEG power changes are more sensitive than spectral edge frequency variation for detection of cerebral ischemia during carotid artery surgery: a prospective assessment of processed EEG monitoring. Journal of Cardiothoracic & Vascular Anesthesia 6:292-294.1992;

29. Jansen C, Moll FL, Vermeulen FE, et al. Continuous transcranial Doppler ultrasonography and electroencephalography during carotid endarterectomy: a multimodal monitoring system to detect intraoperative ischemia. Annals of Vascular Surgery 7:95-101.1993;

30. Jones TH, Chiappa KH, Young RR, et al. EEG monitoring for induced hypotension for surgery of intracranial aneurysms. Stroke 10:292-294.1979;

31. Jopling M, Lang E, Embree P, et al. An Evaluation of the Aspect "ZIPprep" Surface Electrode. [Abstract]. Anesthesia & Analgesia 80:SCA901995;

32. Kearse LA, Jr., Lopez-Bresnahan M, McPeck K, et al. Preoperative cerebrovascular symptoms and electroencephalographic abnormalities do not predict cerebral ischemia during carotid endarterectomy. Stroke 26:1210-1214.1995;

33. Kearse LA, Jr., Manberg P, Chamoun N, et al. Bispectral analysis of the electroencephalogram correlates with patient movement to skin incision during propofol/nitrous oxide anesthesia. Anesthesiology 81:1365-1370.1994;

34. Kearse LA, Jr., Marota JJ. The role of the electroencephalogram in assessing memory function under general anesthesia [editorial; comment]. Journal of Clinical Anesthesia 6:457-461.1994;

35. Kearse LA, Jr., Martin D, McPeck K, et al. Computer-derived density spectral array in detection of mild analog electroencephalographic ischemic pattern changes during carotid endarterectomy. Journal of Neurosurgery 78:884-890.1993;

36. Kopruner V, Pfurtscheller G. Multiparametric asymmetry score (MAS)--distinction between normal and ischaemic brains. Electroencephalography & Clinical Neurophysiology 57:343-346.1984;

37. Levy WJ. Intraoperative EEG patterns: implications for EEG monitoring. Anesthesiology 60:430-434.1984;

38. Levy WJ. Effect of epoch length on power spectrum analysis of the EEG. Anesthesiology 66:489-495.1987;

39. Levy WJ, Shapiro HM, Maruchak G, et al. Automated EEG processing for intraoperative monitoring: a comparison of techniques. Anesthesiology 53:223-236.1980;

40. Levy WJ, Shapiro HM, Meathe E. The identification of rhythmic EEG artifacts by power-spectrum analysis. Anesthesiology 53:505-507.1980;

41. Liu PW, Wang H, Kearse LA, Jr. The Bispectral Index does not Predict Hemodynamic Responses to Laryngoscopy and Intubation during Propofol-induced EEG Burst Suppression. [Abstract]. Anesthesiology 85:A1751996;

42. Lopes da Silva FH. Analysis of EEG non-stationarities. [Review]. Electroencephalography & Clinical Neurophysiology - Supplement 163-179.1978;

43. Lopes da Silva F. Neural mechanisms underlying brain waves: from neural membranes to networks. [Review]. Electroencephalography & Clinical Neurophysiology 79:81-93.1991;

44. Lopes da Silva F, Pijn JP, Boeijinga P. Interdependence of EEG signals: linear vs. nonlinear associations and the significance of time delays and phase shifts. Brain Topography 2:9-18.1989;

45. Matthis P, Scheffner D, Benninger C. Spectral analysis of the EEG: comparison of various spectral parameters. Electroencephalography & Clinical Neurophysiology 52:218-221.1981;

46. Muthuswamy J, Roy R, Sharma A. A Study of Electroencephalographic descriptors and End-tidal Concentration in Estimating Depth of Anesthesia. Journal of Clinical Monitoring 12:353-364.1996;

47. Nussmeier NA, Arlund C, Slogoff S. Neuropsychiatric complications after cardiopulmonary bypass: cerebral protection by a barbiturate. Anesthesiology 64:165-170.1986;

48. Nuwer MR. Intraoperative electroencephalography. [Review]. Journal of Clinical Neurophysiology 10:437-444.1993;

49. Nuwer MR. Electroencephalograms and evoked potentials. Monitoring cerebral function in the neurosurgical intensive care unit. [Review]. Neurosurgery Clinics of North America 5:647-659.1994;

50. Nuwer MR. Quantitative EEG analysis in clinical settings. Brain Topography 8:201-208.1996;

51. Nuwer MR, Daube J, Fischer C, et al. Neuromonitoring during surgery. Report of an IFCN Committee [see comments]. Electroencephalography & Clinical Neurophysiology 87:263-276.1993;

52. Pfurtscheller G, Aranibar A. Event-related cortical desynchronization detected by power measurements of scalp EEG. Electroencephalography & Clinical Neurophysiology 42:817-826.1977;

53. Pivik RT, Broughton RJ, Coppola R, et al. Guidelines for the recording and quantitative analysis of electroencephalographic activity in research contexts. [Review]. Psychophysiology 30:547-558.1993;

54. Prior PF. EEG monitoring and evoked potentials in brain ischaemia. [Review]. British Journal of Anaesthesia 57:63-81.1985;

55. Pronk RA, Simons AJ. Processing of the electroencephalogram in cardiac surgery. Computer Programs in Biomedicine 18:181-189.1984;

56. Pronk RA, Simons AJ, De Boer SJ. The use of the EEG for patient monitoring during open heart surgery. pp. 77-81. In: Anonymous Calif., IEEE Computer Society, 1975. WG 141 C736 1975. In: Computers in cardiology. Long Beach, 1996;

57. Rampil IJ. What Every Neuroanesthesiologist Should Know about Electroencephalograms and Computerized Monitors. In: Bissonnette B, editor. Cerebral Protection, Resuscitation, and Monitoring: A Look in the Future of Neuroanesthesia. Philadelphia: W.B. Saunders, 1996; 683-718.

58. Redekop G, Ferguson G. Correlation of contralateral stenosis and intraoperative electroencephalogram change with risk of stroke during carotid endarterectomy [see comments]. Neurosurgery 30:191-194.1992;

59. Salerno TA, Lince DP, White DN, et al. Monitoring of electroencephalogram during open-heart surgery. A prospective analysis of 118 cases. Journal of Thoracic & Cardiovascular Surgery 76:97-100.1978;

60. Salerno TA, Lynn RB, White DN, et al. Cerebral surveillance during cardiac surgery. Canadian Journal of Surgery 22:325-326.1979;

61. Sbarigia E, Speziale F, Colonna M, et al. The selection for shunting in patients with severe bilateral carotid lesions. European Journal of Vascular Surgery 7 Suppl A:3-7.1993;

62. Sebel PS, Bowles SM, Saini V, et al. EEG bispectrum predicts movement during thiopental/isoflurane anesthesia. Journal of Clinical Monitoring 11:83-91.1995;

63. Sebel PS, Bowles SM, Saini V, et al. EEG Bispectrum Predicts Movement during Thiopental/Isoflurane Anesthesia. Journal of Clinical Monitoring 11:83-91.1995;

64. Sigl JC, Chamoun NG. An introduction to bispectral analysis for the electroencephalogram. Journal of Clinical Monitoring 10:392-404.1994;

65. Sotaniemi K. Prediction of cerebral outcome after extracorporeal circulation. Acta Neurologica Scandinavica 66:697-704.1982;

66. Sotaniemi K. Five-year neurological and EEG outcome after open-heart surgery. Journal of Neurology, Neurosurgery & Psychiatry 48:569-575.1985;

67. Sotaniemi KA. Brain damage and neurological outcome after open-heart surgery. Journal of Neurology, Neurosurgery & Psychiatry 43:127-135.1980;

68. Sotaniemi KA. The benefits of open-heart surgery as reflected in the EEG. Scandinavian Journal of Thoracic & Cardiovascular Surgery 15:205-212.1981;

69. Sotaniemi KA. Cerebral outcome after extracorporeal circulation. Comparison between prospective and retrospective evaluations. Archives of Neurology 40:75-77.1983;

70. Sotaniemi KA, Juolasmaa A, Hokkanen ET. Neuropsychologic outcome after open-heart surgery. Archives of Neurology 38:2-8.1981;

71. Sotaniemi KA, Sulg IA, Hokkanen TE. Quantitative EEG as a measure of cerebral dysfunction before and after open-heart surgery. Electroencephalography & Clinical Neurophysiology 50:81-95.1980;

72. Stockard JJ, Bickford RG, Schauble JF. Pressure-dependent cerebral ischemia during cardiopulmonary bypass. Neurology 23:521-529.1973;

73. String ST, Callahan A. The critical manipulable variables of hemispheric low flow during carotid surgery. Surgery 93:Pt 1):46-9.1983;

74. Sundt TM, Sharbrough FW, Piepgras DG. Correlation of cerebral blood flow and electroencephalographic changes during carotid endarterectomy with results of surgery and hemodynamics of cerebral ischemia. Mayo Clinics Proceedings 56:533-543.1981;

75. Thomas WA, Cole PV, Etherington NJ, et al. Electrical activity of the cerebral cortex during induced hypotension in man. A comparison of sodium nitroprusside and trimetaphan. British Journal of Anaesthesia 57:134-141.1985;

76. Thomsen CE, Rosenfalck A, Norregaard Christensen K. Assessment of anaesthetic depth by clustering analysis and autoregressive modelling of electroencephalograms. Computer Methods & Programs in Biomedicine 34:125-138.1991;

77. Tolonen U. Quantitative 99mTechnetium cerebral circulation time in brain infarction. Its relation to clinical findings, electroencephalograms and conventional radionuclide studies. Acta Neurologica Scandinavica 64:337-352.1981;

78. Tolonen U. Parametric relationships between four different quantitative EEG methods in cerebral infarction. Progress in Brain Research 62:51-64.1984;

79. Tolonen U, Sulg IA. Comparison of quantitative EEG parameters from four different analysis techniques in evaluation of relationships between EEG and CBF in brain infarction. Electroencephalography & Clinical Neurophysiology 51:177-185.1981;

80. van der Weide H, Pronk RA. Interference suppression for EEG recording during open heart surgery. Electroencephalography & Clinical Neurophysiology 46:609-612.1979;

81. Vernon JM, Lang E, Sebel PS, et al. Prediction of Movement Using Bispectral EEG analysis during Propofol/Alfentanil of Isoflurane/Alfentanil Anesthesia. Anesthesia & Analgesia 80:780-785.1995;

82. Veselis RA, Reinsel R, Marino P, et al. The effects of midazolam on the EEG during sedation of critically ill patients. Anaesthesia 48:463-470.1993;

83. Veselis RA, Reinsel R, Sommer S, et al. Use of neural network analysis to classify electroencephalographic patterns against depth of midazolam sedation in intensive care unit patients. Journal of Clinical Monitoring 7:259-267.1991;

84. Veselis RA, Reinsel RA, Wronski M, et al. EEG and memory effects of low-dose infusions of propofol. British Journal of Anaesthesia 69:246-254.1992;