EdmondsHLRodriquezRAAudenaertSMAustinEHPollickSBGanzelBL. The role of neuromonitoring in cardiovascular surgery. J Cardiothorac Vasc Anesth1996; 10: 15–23.
2.
SontaniemiKA. Clinical and prognostic correlates of EEG in open heart surgery patients. J Neurol Neurosurg Psychiat1980; 43: 941–947.
3.
EdmondsHLGriffithsLVan der LakenJSlaterAShieldsC. Quantitative electroencephalographic monitoring during myocardial revascularization predicts postoperative disorientation and improves outcome. J Thorac Cardiovasc Surg1992; 103: 555–563.
4.
AromKCohenDStroblF. Effect of intraoperative intervention on neurological outcome based on electroencephalographic monitoring during cardiopulmonary bypass. Ann Thorac Surg1989; 48: 476–483.
5.
BasheinGNesslyMBledsoeS. Electroencephalography during surgery with cardiopulmonary bypass and hypothermia. Anesthesiology1992; 76: 878–891.
6.
RampilI. EEG Processing and the Bispectral “Index.”Anesthesiology1998; 89(4), 815–1001.
7.
MizrahiEMPatelVMCrawfordESCoselliJSHessKR. Hypothermic-induced electrocerebral silence, prolonged circulatory arrest and cerebral protection during cardiovascular surgery. Electroencephalogr Clin Neurophysiol1989; 72:81–85.
8.
LevyWJ. Monitoring of the electroencephalogram during cardiopulmonary bypass. Know when to say no. Anesth1992; 76: 876–877.
9.
GuginoLDChabotRJAglioLSMaddiRGosnellJArankiS. QEEG and neuropsychological profiles of patients before undergoing cardiopulmonary bypass surgical procedures. Clin Electroencephalogr1997; 28: 87–97.
10.
JohnERKarmelBZCorningWC. Neurometrics: Numerical taxonomy identifies different profiles of brain functions within groups of behaviorally similar people. Science1977; 196:1383–1410.
JohnERPrichepLSAhnHEastonPFriedmanJKayeH. Neurometric evaluation of cognitive dysfunctions and neurological disorders in children. Progress Neurobiol1983; 21: 239–290.
13.
ChabotRJSigalLH. QEEG and evoked potentials in central nervous system Lyme disease. Clin Electroencephalogr1995; 26:137–145.
14.
ChabotRJSerfonteinG. Quantitative EEG profiles of children with Attention Deficit Disorder. Biol Psychiat1996; 40: 951–963.
15.
JonkmanEJPoortvlietDCJVeeringMMDeWeerdAWJohnER. The use of neurometrics in the study of patients with cerebral ischemia. Electroencephalogr Clin Neurophysiol1985; 61:333–341.
16.
KouchoukosNTWareingTHDailyBBMurphySF. Management of the severely atherosclerotic aorta during cardiac operations. J Cardiovasc Surg1994; 9: 490–494.
17.
TreasureT. Interventions to reduce cerebral injury during cardiac surgery: The effect of arterial line filtration. Perfusion1989; 4:147–152.
18.
McLeanRFWongBI. Normothermic versus hypothermic cardiopulmonary bypass: Central nervous system outcomes. J Cardiothorac Vasc Anesth1996; 10: 45–53.
19.
MoodyDBellMChallaV. Brain microemboli during cardiac surgery or aortography. Ann Neurol1990; 28:477–486.
20.
TinkerJCamposJ. Blood gases should be corrected for temperature during hypothermic cardiopulmonary bypass; pH-stat mode. J Cardiothorac Anesth1988; 2:701–704.
21.
MurkinJ. Con: Blood gases should not be corrected for temperature during cardiopulmonary bypass: Alpha-stat mode. J Cardiothorac Anesth1988; 2: 705–707.
22.
CrookTLarrabeeG. Inter-relationships among everyday memory tests: Stability of factor structure with age. Neurol Psychol1988; 2:1–2.
23.
LarrabeeGCrookT. Performance subtypes of everyday memory function. Dev Neuropsychol1989; 5: 267–283.
24.
LarrabeeGCrookT. Dimensions of everyday memory in age associated memory impairment. Psych Assess A Journal Consult Clin Psychol1989; 1: 92–97.
25.
LarrabeeGCrookT. Assessment of drug effects in age-related memory disorders: Clinical, theoretical, and psychometric considerations. Psychopharmacol Bull1988; 24: 515–521.
26.
CrookTYoungbloodJLarrabeeG. Multiple equivalent forms in a computerized everyday memory battery. Arch Clin Neuropsychol1992; 7: 221–232.
27.
ChabotRJJohnERPrichepLSLandauPMIsomWOPGuginoLD. Real-time multichannel quantitative EEG monitoring. In: WillnerA, (ed). Cerebral Damage Before and After Cardiac Surgery. Oordrecht, The Netherlands: Kluwer Academic Publishers; 1993:163–181.
28.
ChabotRJGuginoLDAglioLSMaddiRCoteW. QEEG and neuropsychological profiles of patients after undergoing cardiopulmonary bypass surgical procedures. Clin Electroencephalogr1997; 28(2): 98–105.
29.
BreuerACFurlanAJHansonMR. Central nervous system complications of coronary artery bypass graft surgery: Prospective analysis of 412 patients. Stroke1983; 14:682–687.
30.
ShawPBatesDCartilidgeN. Neurologic and neuropsychological morbidity following major surgery: Comparison of coronary artery bypass and peripheral vascular surgeryStroke1987; 18:700–707.
31.
SmithPLCNewmanSPEllPJTreasureTSchneidauAHarrisonMJ. Cerebral consequence of cardiopulmonary bypass. Lancet1986; 4: 823–825.
32.
BethuenD. Focal neurological lesions and diffuse brain damage in open heart surgery patients. In: BeckerRKatzJ, (eds). Psychopathological and Neurological Dysfunction Following Open Heart Surgery. Berlin: Springer-Verlag; 1982: 300–306.
SontaniemiKAMonomenHHokkanenTE. Long-term cerebral outcome after open-heart surgery. Stroke1986; 17: 410–416.
40.
SavageauJStantonBJenkinsC. Neuropsychological dysfunction following elective cardiac operation: II. A six-month reassessment. J Thorac Cardiovasc Surg1982; 84: 595–600.
41.
WillnerAE. Neuropsychological dysfunction before and after cardiac surgery. In: WillnerA (ed). Cerebral Damage Before and After Cardiac Surgery. Oordrecht, The Netherlands: Kluwer Academic Publishers; 1993: 203–218.
42.
NewmanMFSchellRMCroughwellN. Pattern and time course of cognitive dysfunction following cardiopulmonary bypass. Anesth Anal1993; 76: S294.
43.
VeselisRAMcLeanRFWongBI. Central nervous system monitoring during anesthesia and surgery. In: BlanckT (ed). Neuro Protection – A Society of Cardiovascular Anesthesiologists Monograph. Baltimore: Williams and Wilkins; 1997: 89–134.
PadayacheeTSParsonsSTheoboldR. The detection of microemboli in the middle cerebral artery during cardiopulmonary bypass: A transcranial Doppler ultrasound investigation using membrane and bubble oxygenators. Ann Thorac Surg1987; 44: 298.
46.
PuglseyWKlingerLPaschalisCTreasureTHarrisonMNewmanS. The impact of microemboli during cardiopulmonary bypass on neuropsychological functioning. Stroke1994; 25:1393–1399.
47.
MoodyDMBelMAChallaVRJohnstonWEProughDS. Brain microemboli during cardiac surgery or aortography. Ann Neurol1990; 28: 477–486.
48.
GarveyJWillnerAWolpowitA. The effect of arterial filtration during open heart surgery on cerebral function. Circulation1983; 68 (suppl 2): 125–128.
49.
StockardJJBickfordRGSchaubleJF. Pressure-dependent cerebral ischemia during cardiopulmonary bypass. Neurology1973; 23: 521–529.
50.
NevinMAdamsSColchesterA. Evidence for involvement of hypocapnia and hypofusion in aetiology of neurological deficit after cardiopulmonary bypass. Lancet1987; 2: 1493–1495.
51.
ColeDJDrummondJCShapiroHMZorrowMH. Influence of hypotension and hypotensive technique on the area of profound reduction in cerebral blood flow during focal cerebral ischaemia in the rat. Br J Anaesth1980; 64: 498–502.
52.
TaylorKM. Pulsatile perfusion. In: TaylorKM, (ed). Cardiopulmonary Bypass. Baltimore: Williams and Wilkins; 1986.
53.
MinamiKKornerMMVyskaK. Effects of pulsatile perfusion on plasma catecholamine levels and hemodynamics during and after cardiac operations with cardiopulmonary bypass. J Thorac Cardiovasc Surg1990; 99: 82–91.
54.
BasheinGTownesBDNesslyML. A randomized study of carbon dioxide management during hypothermic cardiopulmonary bypass. Anesthesiology1990; 72: 7–15.
55.
StephanHWeylandAKazmaierSHenzeTMenecSSonntagH. Acid-base management during hypothermic cardiopulmonary bypass does not affect cerebral metabolism but does affect blood flow and neurological outcome. Br J Anaesth1992; 69: 51–57.
56.
BustoRDietrichWGlobusMGinsbergM. The importance of brain temperature in cerebral ischemic injury. Stroke1989; 20:1113–1114.
57.
NathanHJLavalleeG. The management of temperature during hypothermic cardiopulmonary bypass: L-Canadian survey. Can J Anaesth1995; 42: 669–676.
58.
NewmanMFCroughwellNDWhiteWD. Effect of perfusion pressure on cerebral blood flow during normothermic cardiopulmonary bypass. Circulation1996; 94(suppl 9): 353–357.
59.
HartmanGSYaoFBruefachM. Cardiopulmonary bypass at high pressure reduces stroke incidence in patients with TEE diagnosed severe aortic athermomatous disease. Anesthesiology1995; 83: A141.
60.
MetsSKeatsAS. Benefits of a glucose-containing priming solution for cardiopulmonary bypass. Anesth Analg1991; 72: 428–434.
61.
StewardDJDa SilvaCSFlegelT. Elevated blood glucose levels may increase the danger of neurological deficit following profoundly hypothermic cardiac arrestAnesthesiology1988; 68:653.
62.
LanierE. Glucose management during cardiopulmonary bypass: Cardiovascular and neurologic implicationsAnesth Anal1991; 72:423–427.
63.
RodewaldGWillnerA. Introduction. In: WillnerARodewaldG, (eds). Impact of Cardiac Surgery on the Quality of Life. New York: Plenum Press; 1990:1–5.
64.
SpiedelH. Psychiatric issues; simple frequencies pre- and postoperatively. In: WillnerARodewaldG, (eds). Impact of Cardiac Surgery on the Quality of Life. New York: Plenum Press; 1990: 27–37.
65.
KlonoffHClarkCKavanagh-GrayDMizgalaHMunroI. Two year followup study of coronanry bypass surgery: Psychological status, employment status and quality of life. J Thorac Cardiovasc Surg1989; 97: 78–88.
66.
WestabySSapsfordRBentallI. Return to work and quality of life after surgery for coronary artery disease. Br Med J1979; 2:1028–1031.
67.
BullDaNeumayerLAHunterGC. Risk factors for stroke in patients undergoing coronary artery bypass grafting. Cardiovasc Surg1993; 1:182–185.
68.
MurkinJM, Neurologic dysfunction after CAB or valvular surgery: Is the medium the miscreant?Anesth Anal1993; 76: 213–214.
69.
MarschallKKanchugerMKesslerK. Superiority of transesophageal echocardiography in detecting aortic arch atheromatous disease: Identification of patients at increased risk of stroke during cardiac surgery. 1994; J Cardiothorac Vasc Anesth8: 5–13.
70.
KatzESTunickPARusinekH. Protruding aortic atheromas predict stroke in elderly patients undergoing cardiopulmonary bypass: Experience with intraoperative transesophageal echocardiography. J Am Col Cardiology1992; 20:70–77.
71.
KanchugerMSSweeneyMNGrossiEMarschallKE. Aortic atheromatous disease, atherectomy and outcome in patients undergoing cardiac surgery. Anesth Anal1996; 82: SCA31.
72.
CookDJOrszulakTADalyRCBudaDA. Cerebral hyperthermia during cardiopulmonary bypass in adults. J Thorac Cardiovasc Surgery1996; 111: 268–269.
73.
CroughwellNFrascoPBlumenthalJLeoneBJWhiteWRevesJG. Warming during cardiopulmonary bypass is associated with jugular bulb desaturation. Ann Thorac Surg1992; 53: 827–832.
74.
CroughwellNDNewmanMFBlumenthalJA. Jugular bulb saturation and cognitive dysfunction after cardiopulmonary bypass. Ann Thorac Surg1994; 58:1702–1708.
75.
ManganoM. Cardiac surgery and central nervous system injury: The importance of hypothermia during cardiopulmonary bypass. In: BlanckT (ed). Neuro Protection – A Soc of Cardiovasc Anes Monograph. Baltimore: Williams and Wilkins; 1977: chapt 8.
76.
NewmanMGrocattHCroughwellNAmoryI. Strategies for the reduction of neurological injury after cardiopulmonary bypass. In: BlanckT (ed). Neuro Protection – A Soc of Cardiovasc Anes Monograph. Baltimore: Williams and Wilkins; 1977:163–196.
DrummondJC. Do barbiturates really protect the brain? [letter]. Anesthesiology1993; 78: 613, 1993.
79.
NussmeierNAArlundCSlogoffS. Neuropsychiatric complications after cardiopulmonary bypass: Cerebral protection by a barbiturate. Anesthesiology1986; 64:165–170.
80.
ZaidanJRKlochanyAMartinWMZieglerJSHarlessDMAndrewsR. Effect of thiopental on neurologic outcome following coronary artery bypass grafting. Anesthesiology1991; 74:406–411.
81.
ToddMMHindmanBJWarnerDS. Barbiturate protection and cardiac surgery: A different result. Anesthesiology1991; 74: 402–405.
82.
ToddMMWarnerDS. A comfortable hypothesis reevaluated: Cerebral metabolic depression and brain protection during Ischemia. Anesthesiology1992; 76:161–164.
83.
HemmingsHJr.. Neuroprotection by sodium channel blockade and inhibition of glutamate release. In: BlanckT, (ed). Neuro Protection – A Soc of Cardiovasc Anes Monograph. Baltimore: Williams and Wilkins; 1977: 23–46.
84.
BurnPKirschJRTroystmanRJ. Pharmacologic neuroprotection: Fact or fantasy. In: BlanckT, (ed). Neuro Protection -A Soc of Cardiovasc Anes Monograph. Baltimore: Williams and Wilkins; 1977.
