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Monitoring cerebral oxygen saturation in elderly patients undergoing general abdominal surgery: a prospective cohort study

Published online by Cambridge University Press:  07 July 2006

A. Casati
Affiliation:
Università degli Studi di Parma, Department of Anaesthesiology, Parma, Italy
G. Fanelli
Affiliation:
Università degli Studi di Parma, Department of Anaesthesiology, Parma, Italy
P. Pietropaoli
Affiliation:
Università degli Studi di Roma, Department of Anaesthesiology, Policlinico Umberto I, Italy
R. Proietti
Affiliation:
Università Cattolica di Roma, Department of Anaesthesiology, Policlinico Gemelli, Roma, Italy
R. Tufano
Affiliation:
Policlinico Universitario Federico II di Napoli, Department of Anaesthesiology, Napoli, Italy
S. Montanini
Affiliation:
Policlinico Universitario di Messina, Department of Anaesthesiology, Messina, Italy
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Summary

Background and objectives: The aim of this prospective, observational study was to evaluate changes in regional cerebral oxygen saturation (rSO2) and incidence of intraoperative cerebral desaturation in a cohort of elderly patients undergoing major abdominal surgery. Methods: rSO2 was continuously monitored on the left and right sides of the forehead in 60 patients older than 65 yr (35 males and 25 females; ASA II–III; age: 72 ± 5 yr; without pre-existing cerebral pathology, and baseline Mini Mental State Examination (MMSE) score >23) undergoing sevoflurane anaesthesia for major abdominal, non-vascular surgery >2 h. Results: Baseline rSO2 was 63 ± 8%; cerebral desaturation (rSO2 decrease <75% of baseline or <80% in case of baseline rSO2 <50%) occurred in 16 patients (26%). The MMSE decreased from 28 ± 1 before surgery to 27 ± 2 on 7th postoperative day (P = 0.05). A decline in cognitive function (decrease in MMSE score ≥ 2 points one week after surgery as compared to baseline value) was observed in six patients without intraoperative cerebral desaturation (13.6%) and six patients who had intraoperative cerebral desaturation (40%) (P = 0.057) (odds ratio: 4.22; CI95%: 1.1–16). Median (range) hospital stay was 14 (5–41) days in patients with an area under the curve of rSO2 <50% (AUCrSO2<50%) >10 min%, and 10 (4–30) days in those with an AUCrSO2<50% <10 min% (P = 0.0005). Conclusions: In a population of healthy elderly patients, undergoing non-vascular abdominal surgery cerebral desaturation can occur in up to one in every four patients, and the occurrence of cerebral desaturation is associated with a higher incidence of early postoperative cognitive decline and longer hospital stay.

Type
Original Article
Copyright
© 2006 European Society of Anaesthesiology

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Footnotes

On behalf of the Collaborative Italian Study Group on Anaesthesia in Elderly Patients. All clinicians participants are co-authors (the list of names is included in the Appendix).

References

Peduto VA, Chevallier P, Casati A, the VIMA Group. A multicenter survey on anaesthesia practice in Italy. Minerva Anesthesiol 2004; 70: 473491.Google Scholar
Klopfenstein CE, Herrmann FR, Michel JP et al. The influence of an aging surgical population on the anesthesia workload: a ten-year survey. Anesth Analg 1998; 86: 11651170.Google Scholar
Tonner PH, Kampen J, Scholz J. Pathophysiological changes in the elderly. Best Pract Res Clin Anaesthesiol 2003; 17: 163177.Google Scholar
Rooke GA. Cardiovascular aging and anesthetic implications. J Cardiothorac Vasc Anesth 2003; 17: 512523.Google Scholar
Edmonds Jr HL. Multi-modality neurophysiologic monitoring for cardiac surgery. Heart Surg Forum 2002; 5: 225228.Google Scholar
Pollard V, Prough DS, DeMelo AE, Deyo DJ, Uchida T, Stoddart HF. Validation in volunteers of a near-infrared spectroscope for monitoring brain oxygenation in vivo. Anesth Analg 1996; 82: 269277.Google Scholar
Konishi A, Kikuchi K. Cerebral oxygen saturation (rSO2) during open heart surgery and postoperative brain dysfunction. Masui 1995; 44: 13221326.Google Scholar
Higami T, Kozawa S, Asada T et al. Retrograde cerebral perfusion versus selective cerebral perfusion as evaluated by cerebral oxygen saturation during aortic arch reconstruction. Ann Thorac Surg 1999; 67: 10911096.Google Scholar
Samra SK, Dy EA, Welch K et al. Evaluation of a cerebral oximeter as a monitor of cerebral ischemia during carotid endarterectomy. Anesthesiology 2000; 93: 964970.Google Scholar
Plachky J, Hofer S, Volkman M, Martin E, Bardenheuer HJ, Weigand MA. Regional cerebral oxygen saturation is a sensitive marker of cerebral hypoperfusion during orthotopic liver transplantation. Anesth Analg 2004; 99: 344349.Google Scholar
Iglesias I, Murkin JM, Bainbridge D, Adams S. Monitoring oxygen saturation significantly decreases postoperative length of stay: a prospective randomised blinded study. Heart Surg Forum 2003; 6: 204.Google Scholar
Aldrete JA, Kroulik D. A postanesthetic recovery score. Anesth Analg 1970; 49: 924934.Google Scholar
Nickalls RW, Mapleson WW. Age-related iso-MAC charts for isoflurane, sevoflurane and desflurane in man. Br J Anaesth 2003; 91: 170174.Google Scholar
Folstein M, Folstein S, McHugh P. ‘Mini Mental State’. A practical method for grading the cognitive state of patients for clinician. J Psychiatr Res 1975; 12: 189198.Google Scholar
Mondimore FM, Damlouji N, Folstein MF, Tune L. Post-ECT confusional states associated with elevated serum anticholinergic levels. Am J Psychiatr 1983; 140: 930931.Google Scholar
Casati A, Aldegheri G, Vinciguerra F et al. Randomized comparison between sevoflurane anaesthesia and unilateral spinal anaesthesia in elderly patients undergoing orthopaedic surgery. Eur J Anaesthesiol 2003; 20: 640646.Google Scholar
Moller JT, Cluitmans P, Rasmussen LS et al. Long-term postoperative cognitive dysfunction in the elderly: ISPOCD1 study. Lancet 1998; 351: 857861.Google Scholar
Ancelin ML, DeRoquefeuil G, Ledesert B et al. Exposure to anaesthetic agents, cognitive functioning and depressive symptomatology in the elderly. Br J Psychiatr 2001; 178: 360366.Google Scholar
Mori E. Impact of subcortical ischemic lesions on behavior and cognition. Ann NY Acad Sci 2002; 977: 141148.Google Scholar
Burton DA, Nicholson G, Hall GM. Anaesthesia in elderly patients with neurodegenerative disorders: special considerations. Drug Aging 2004; 21: 229242.Google Scholar
Dijkstra JB, Houx PJ, Jolles J. Cognition after major surgery in the elderly: test performance and complaints. Br J Anaesth 1999; 82: 867874.Google Scholar
Monk TG, Weldon BC, Weldon JE, van der Aa MT. Cerebral oxygen desaturations are associated with postoperative cognitive dysfunction in elderly patients [Abstract]. Anesthesiology 2002; 97: A40.Google Scholar
Austin EH, Edmonds HL, Auden SM et al. Benefit of neurophysiologic monitoring for pediatric cardiac surgery. J Thorac Cardiovasc Surg 1997; 114: 707715.Google Scholar
Pedersen T, Pedersen D, Moller AM. Pulse oximetry for perioperative monitoring. Cochrane Database Syst Rev 2003; 3: CD002013.Google Scholar