Delirium is a common problem associated with substantial morbidity and increased mortality. However, the brain dysfunction that leads some individuals to develop delirium in response to stressors is unclear. In this article, we briefly review the neurophysiologic literature characterizing the changes in brain function that occur in delirium, and in other cognitive disorders such as Alzheimer's disease. Based on this literature, we propose a conceptual model for delirium. We propose that delirium results from a breakdown of brain function in individuals with impairments in brain connectivity and brain plasticity exposed to a stressor. The validity of this conceptual model can be tested using Transcranial Magnetic Stimulation in combination with Electroencephalography, and, if accurate, could lead to the development of biomarkers for delirium risk in individual patients. This model could also be used to guide interventions to decrease the risk of cerebral dysfunction in patients preoperatively, and facilitate recovery in patients during or after an episode of delirium.

Shafi, M.M., Santarnecchi, E., Fong, T.G., Jones, R.N., Marcantonio, E.R., Pascual-Leone, A., et al. (2017). Advancing the Neurophysiological Understanding of Delirium. JOURNAL OF THE AMERICAN GERIATRICS SOCIETY, 65(6), 1114-1118 [10.1111/jgs.14748].

Advancing the Neurophysiological Understanding of Delirium

Santarnecchi, Emiliano;
2017-01-01

Abstract

Delirium is a common problem associated with substantial morbidity and increased mortality. However, the brain dysfunction that leads some individuals to develop delirium in response to stressors is unclear. In this article, we briefly review the neurophysiologic literature characterizing the changes in brain function that occur in delirium, and in other cognitive disorders such as Alzheimer's disease. Based on this literature, we propose a conceptual model for delirium. We propose that delirium results from a breakdown of brain function in individuals with impairments in brain connectivity and brain plasticity exposed to a stressor. The validity of this conceptual model can be tested using Transcranial Magnetic Stimulation in combination with Electroencephalography, and, if accurate, could lead to the development of biomarkers for delirium risk in individual patients. This model could also be used to guide interventions to decrease the risk of cerebral dysfunction in patients preoperatively, and facilitate recovery in patients during or after an episode of delirium.
2017
Shafi, M.M., Santarnecchi, E., Fong, T.G., Jones, R.N., Marcantonio, E.R., Pascual-Leone, A., et al. (2017). Advancing the Neurophysiological Understanding of Delirium. JOURNAL OF THE AMERICAN GERIATRICS SOCIETY, 65(6), 1114-1118 [10.1111/jgs.14748].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11365/1041050