Background: Typical absence seizures (AS) are epileptic phenomena typically appearing in children 4–15 years of age and can be elicited by hyperventilation (HV). Hyperventilation-induced high-amplitude rhythmic slowing (HIHARS) represents a paraphysiological response during HV and may manifest with alteration of awareness (HIHARSAA). To date, HIHARSAA has mostly been described in patients without epilepsy. Aim: To describe five patients with treatment-responsive typical AS who, after becoming seizure free, presented with HIHARSAA. Methods: By using video-electroencephalographic recording (Video-EEG), we describe differential clinical characteristics and ictal electrophysiological patterns of both typical AS and HIHARSAA. Results: We demonstrate that when HIHARSAA occurs in patients with typical AS there is a temporal window between the two phenomena. This suggests that the presence of typical AS precludes the appearance of HIHARSAA. Conclusions: We hypothesize that alkalosis and dysfunction of the same neural network are involved in both typical AS and HIHARSAA and that their distinct electroclinic manifestations are due to the involvement of different ion channels. Significance: A better understanding of the characteristics of typical AS and HIHARSAA and of the role of alkalosis in both, can help avoiding misdiagnosis and identifying more suitable therapies for typical AS.

Occurrence of hyperventilation-induced high amplitude rhythmic slowing with altered awareness after successful treatment of typical absence seizures and a network hypothesis / Mattozzi, S.; Cerminara, C.; Sotgiu, M. A.; Carta, A.; Coniglio, A.; Roberto, D.; Simula, D. M.; Luca Pruneddu, G.; Dell'Avvento, S.; Muzzu, S. S.; Fadda, M.; Luzzu, G. M.; Sotgiu, S.; Casellato, S.. - In: CLINICAL NEUROPHYSIOLOGY PRACTICE. - ISSN 2467-981X. - 6:(2021), pp. 185-188. [10.1016/j.cnp.2021.03.009]

Occurrence of hyperventilation-induced high amplitude rhythmic slowing with altered awareness after successful treatment of typical absence seizures and a network hypothesis

Mattozzi S.;Sotgiu M. A.;Carta A.;Dell'Avvento S.;Sotgiu S.;Casellato S.
2021

Abstract

Background: Typical absence seizures (AS) are epileptic phenomena typically appearing in children 4–15 years of age and can be elicited by hyperventilation (HV). Hyperventilation-induced high-amplitude rhythmic slowing (HIHARS) represents a paraphysiological response during HV and may manifest with alteration of awareness (HIHARSAA). To date, HIHARSAA has mostly been described in patients without epilepsy. Aim: To describe five patients with treatment-responsive typical AS who, after becoming seizure free, presented with HIHARSAA. Methods: By using video-electroencephalographic recording (Video-EEG), we describe differential clinical characteristics and ictal electrophysiological patterns of both typical AS and HIHARSAA. Results: We demonstrate that when HIHARSAA occurs in patients with typical AS there is a temporal window between the two phenomena. This suggests that the presence of typical AS precludes the appearance of HIHARSAA. Conclusions: We hypothesize that alkalosis and dysfunction of the same neural network are involved in both typical AS and HIHARSAA and that their distinct electroclinic manifestations are due to the involvement of different ion channels. Significance: A better understanding of the characteristics of typical AS and HIHARSAA and of the role of alkalosis in both, can help avoiding misdiagnosis and identifying more suitable therapies for typical AS.
Occurrence of hyperventilation-induced high amplitude rhythmic slowing with altered awareness after successful treatment of typical absence seizures and a network hypothesis / Mattozzi, S.; Cerminara, C.; Sotgiu, M. A.; Carta, A.; Coniglio, A.; Roberto, D.; Simula, D. M.; Luca Pruneddu, G.; Dell'Avvento, S.; Muzzu, S. S.; Fadda, M.; Luzzu, G. M.; Sotgiu, S.; Casellato, S.. - In: CLINICAL NEUROPHYSIOLOGY PRACTICE. - ISSN 2467-981X. - 6:(2021), pp. 185-188. [10.1016/j.cnp.2021.03.009]
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11388/281101
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 2
  • ???jsp.display-item.citation.isi??? 1
social impact