OBJECTIVE: The limited evidence and inconsistency of purposeful behaviors in patients in a minimally conscious state (MCS) asks for objective electrophysiological marker of the level of consciousness. Here, a comparison between event-related potentials (ERPs) was investigated using different level of stimulus complexity. METHODS: The patients in vegetative state were 11 and the MCS patients were 6 [corrected]. Three oddball paradigms with different level of complexity were applied: sine tones, the subject's own name versus sine tones and other first names. Latencies and amplitudes of N1 and P3 waves were compared. RESULTS: Cortical responses were found in all MCS patients, and in 6 of 11 patients in VS. Healthy controls and MCS patients showed a progressive increase of P3 latency in relation to the level of stimulus complexity. No modulation of P3 latency was observed in the vegetative patients. CONCLUSIONS: These results suggest that the modulation of P3 latency related to stimulus complexity may represent an objective index of higher-order processing integration that predicts the recovery of consciousness from VS to MCS when clinical manifestations are inconsistent. SIGNIFICANCE: Modulation of P3 latency related to stimulus complexity could provide valuable information about the cognitive capabilities of unresponsive patients.
OBJECTIVE: The limited evidence and inconsistency of purposeful behaviors in patients in a minimally conscious state (MCS) asks for objective electrophysiological marker of the level of consciousness. Here, a comparison between event-related potentials (ERPs) was investigated using different level of stimulus complexity. METHODS: The patients in vegetative state were 11 and the MCS patients were 6 [corrected]. Three oddball paradigms with different level of complexity were applied: sine tones, the subject's own name versus sine tones and other first names. Latencies and amplitudes of N1 and P3 waves were compared. RESULTS: Cortical responses were found in all MCS patients, and in 6 of 11 patients in VS. Healthy controls and MCS patients showed a progressive increase of P3 latency in relation to the level of stimulus complexity. No modulation of P3 latency was observed in the vegetative patients. CONCLUSIONS: These results suggest that the modulation of P3 latency related to stimulus complexity may represent an objective index of higher-order processing integration that predicts the recovery of consciousness from VS to MCS when clinical manifestations are inconsistent. SIGNIFICANCE: Modulation of P3 latency related to stimulus complexity could provide valuable information about the cognitive capabilities of unresponsive patients.
Authors: Alfonso Magliacano; Francesco De Bellis; Alejandro Galvao-Carmona; Anna Estraneo; Luigi Trojano Journal: Curr Neurol Neurosci Rep Date: 2019-11-26 Impact factor: 5.081
Authors: Barbara Schorr; Winfried Schlee; Marion Arndt; Dorothée Lulé; Iris-Tatjana Kolassa; Alex Lopez-Rolon; Alexander Lopez-Rolon; Andreas Bender Journal: J Neurol Date: 2014-11-09 Impact factor: 4.849
Authors: Betty Wutzl; Stefan M Golaszewski; Kenji Leibnitz; Patrick B Langthaler; Alexander B Kunz; Stefan Leis; Kerstin Schwenker; Aljoscha Thomschewski; Jürgen Bergmann; Eugen Trinka Journal: Brain Sci Date: 2021-05-25