Abstract
Progress in intensive care has increased the number of patients who survive severe acute brain injury. The majority of these patients recover from their coma within the first days after the insult, others will take more time and go through different stages before fully or partially recovering awareness (e.g., minimally conscious state, vegetative state), or will permanently lose all brain functions (i.e., brain death). One of the most challenging problems facing intensivists is understanding the natural history of severely brain injured patients and their possibility of recovery. Clinical practice shows how difficult it is to recognize unambiguous signs of conscious perception of the environment and of the self in these patients. This complication is reflected in the frequent misdiagnosing of the locked-in syndrome, minimally conscious state, and vegetative state [1, 2]. First, objective assessment of residual brain function in severely brain injured patients is difficult because motor responses may be small or inconsistent. This is even more so because consciousness is not an all-or-none phenomenon but part of a continuum [3]. Second, there is a theoretical limitation to the certainty of our clinical diagnosis, since we can only infer the presence or absence of conscious experience in another person [4]. In this chapter, we will first try to define consciousness as it can be assessed at the patient’s bedside. We then review the major clinical entities of altered states of consciousness encountered in the intensive care unit (ICU). Finally, we discuss the functional neuroanatomy of these conditions as assessed by positron emission tomography (PET) scanning.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Andrews K, Murphy L, Munday R, Littlewood C (1996) Misdiagnosis of the vegetative state: retrospective study in a rehabilitation unit. Br Med J 313:13–16
Childs NL, Mercer WN, Childs HW (1993) Accuracy of diagnosis of persistent vegetative state. Neurology 43:1465–1467
Wade DT, Johnston C (1999) The permanent vegetative state: practical guidance on diagnosis and management. Br Med J 319:841–844
Bernat JL (1992) The boundaries of the persistent vegetative state. J Clin Ethics 3:176–180
Zeman AZ, Grayling AC, Cowey A (1997) Contemporary theories of consciousness. J Neurol Neurosurg Psychiatry 62:549–552
James W (1890) The Principles of Psychology. Macmillan Publishing Co Inc, New York
Plum F, Posner JB (1983). The Diagnosis of Stupor and Coma. Davis FA, Philadelphia
Gallup GG Jr (1997) On the rise and fall of self-conception in primates. Ann N Y Acad Sci 818: 72–82
Jennett B, Plum F (1972) Persistent vegetative state after brain damage. Lancet 1:734–737
The Multi-Society Task Force on PVS (1994) Medical aspects of the persistent vegetative state (1). N Engl J Med 330:1499–1508
ANA Committee on Ethical Affairs (1993) Persistent vegetative state: report of the American Neurological Association Committee on Ethical Affairs. Ann Neurol 33:386–390
American Congress of Rehabilitation Medicine (1995) Recommendations for use of uniform nomenclature pertinent to patients with severe alterations of consciousness. Arch Phys Med Re-habil 205–209
Giacino JT (1997) Disorders of consciousness: differential diagnosis and neuropathologic features. Semin Neurol 17:105–111
Cairns H, Oldfield RC, Pennybacker JB, Whitteridge D (1941) Akinetic mutism with an epidermoid cyst of the third ventricle. Brain 64:273–290
Ethics and Humanities Subcommittee of the AAN (1993) Position statement: certain aspects of the care and management of profoundly and irreversibly paralyzed patients with retained consciousness and cognition. Report of the Ethics and Humanities Subcommittee of the American Academy of Neurology. Neurology 43:222–223
Haig AJ, Katz RT, Sahgal V (1987) Mortality and complications of the locked-in syndrome. Arch Phys Med Rehabil 68:24–27
Haupt WF, Rudolf J (1999) European brain death codes: a comparison of national guidelines. J Neurol 246:432–437
Medical Royal Colleges and their Faculties in the United Kingdom (1976) Diagnosis of brain death. Br Med J 2:1187–1188
Medical Consultants on the Diagnosis of Death (1981) Guidelines for the determination of death. Report of the medical consultants on the diagnosis of death to the President’s Commission for the Study of Ethical Problems in Medicine and Biomedical and Behavioral Research,. JAMA 246:2184–2186
Tommasino C, Grana C, Lucignani G, Torri G, Fazio F (1995) Regional cerebral metabolism of glucose in comatose and vegetative state patients. J Neurosurg Anesthesiol 7:109–116
De Volder AG, Goffinet AM, Bol A, Michel C, de Barsey T, Laterre G (1990) Brain glucose metabolism in postanoxic syndrome. Positron emission tomographic study. Arch Neurol 47: 197–204
Bergsneider M, Hovda DA, Lee SM, et al (2000) Dissociation of cerebral glucose metabolism and level of consciousness during the period of metabolic depression following human traumatic brain injury. J Neurotrauma 17:389–401
Alkire MT, Haier RJ, Barker SJ, Shah NK, Wu JC, Kao YJ (1995) Cerebral metabolism during propofol anesthesia in humans studied with positron emission tomography. Anesthesiology 82: 393–403
Alkire MT, Haier RJ, Shah NK, Anderson CT (1997) Positron emission tomography study of regional cerebral metabolism in humans during isoflurane anesthesia. Anesthesiology 86: 549–557
Alkire MT, Pomfrett GJ, Haier RJ, et al (1999) Functional brain imaging during anesthesia in humans: effects of halothane on global and regional cerebral glucose metabohsm. Anesthesiology 90:701–709
Maquet P, Degueldre C, Delfiore G, et al (1997) Functional neuroanatomy of human slow wave sleep. J Neurosci 17:2807–2812
Buchsbaum MS, Gillin JC, Wu J, et al (1989) Regional cerebral glucose metabolic rate in human sleep assessed by positron emission tomography. Life Sci 45:1349–1356
Laureys S, Faymonville ME, Lamy M (2000) Cerebral function in vegetative state studied by positron emission tomography. In: Vincent JL (eds) 2000 Yearbook of Intensive Care and Emergency Medicine. Springer-Verlag, Heidelberg, pp 588–597
Levy DE, Sidtis JJ, Rottenberg DA, et al (1987) Differences in cerebral blood flow and glucose utilization in vegetative versus locked-in patients. Ann Neurol 22:673–682
Laureys S, Faymonville ME, Goldman S, et al (2000) Impaired cerebral connectivity in vegetative state. In: Gjedde A, Hansen SB, Knudsen GM and Paulson OB (eds) Physiological Imaging of the Brain with PET. Academic Press, San Diego, pp 329–334
Laureys S, Goldman S, Phillips C, et al (1999) Impaired effective cortical connectivity in vegetative state: preliminary investigation using PET. Neuroimage 9:377–382
Rudolf J, Sobesky J, Grond M, Heiss WD (2000) Identification by positron emission tomography of neuronal loss in acute vegetative state. Lancet 355:115–116
Laureys S, Lemaire C, Maquet P, Phillips C, Franck G (1999) Cerebral metabohsm during vegetative state and after recovery to consciousness. J Neurol Neurosurg Psychiatry 67:121
Laureys S, Faymonville ME, Moonen G, Luxen A, Maquet P (2000) PET scanning and neuronal loss in acute vegetative state. Lancet 355:1825–1826
Laureys S, Faymonville ME, Luxen A, Lamy M, Franck G, Maquet P (2000) Restoration of thala-mo-cortical connectivity after recovery from persistent vegetative state. Lancet 355:1790–1791
Gould E, Reeves AJ, Graziano MS, Gross CG (1999) Neurogenesis in the neocortex of adult primates. Science 286:548–552
Laureys S, Faymonville ME, Del Fiore G, et al (2000) Brain activation during somatosensory and auditory stimulation in acute vegetative state of anoxic origin. In: Gjedde A, Hansen SB, Knudsen GM and Paulson OB (eds) Physiological Imaging of the Brain with PET. Academic Press, San Diego, pp 319–327
de Jong B, Willemsen AT, Paans AM (1997) Regional cerebral blood flow changes related to affective speech presentation in persistent vegetative state. Clin Neurol Neurosurg 99:213–216
Menon DK, Owen AM, Williams EJ, et al (1998) Cortical processing in persistent vegetative state. Lancet 352:200
Ribary U, Schiff N, Kronberg E, Plum F, Llinas R (1998) Fractured brain function in unconscious humans: functional brain imaging using MEG. Neuroimage 7 (Suppl): 106 (Abst)
Laureys S, Faymonville ME, Degueldre C, et al (2000) Auditory processing in vegetative state. Brain 123:1589–1601
Nemeth G, Hegedus K, Molnar L (1986) Akinetic mutism and locked-in syndrome: the functional-anatomical basis for their differentiation. Funct Neurol 1:128–139
Raichle ME (1998) The neural correlates of consciousness: an analysis of cognitive skill learning. Philos Trans R Soc Lond B Biol Sci 353:1889–1901
Fiset P, Paus T, Daloze T, et al (1999) Brain mechanisms of propofol-induced loss of consciousness in humans: a positron emission tomographic study. J Neurosci 19:5506–5513
Facco E, Zucchetta P, Munari M, et al (1998) 99mTc-HMPAO SPECT in the diagnosis of brain death. Intensive Care Med 24:911–917
Meyer MA (1996) Evaluating brain death with positron emission tomography: case report on dynamic imaging of 18F-fluorodeoxyglucose activity after intravenous bolus injection. J Neuroimaging 6:117–119
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2001 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Laureys, S., Berré, J., Goldman, S. (2001). Cerebral Function in Coma, Vegetative State, Minimally Conscious State, Locked-in Syndrome, and Brain Death. In: Vincent, JL. (eds) Yearbook of Intensive Care and Emergency Medicine 2001. Yearbook of Intensive Care and Emergency Medicine 2001, vol 2001. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-59467-0_33
Download citation
DOI: https://doi.org/10.1007/978-3-642-59467-0_33
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-41407-0
Online ISBN: 978-3-642-59467-0
eBook Packages: Springer Book Archive