Your search keyword '"Chen, Simone"' showing total 5 results

1. Assessment of an under-mattress sensor as a seizure detection tool in an adult epilepsy monitoring unit.

Author

Nouboue, Carole, Selfi, Sarah, Diab, Eva, Chen, Simone, Périn, Bertille, and Szurhaj, William

Abstract

• We evaluated an under-mattress seizure detection tool (Emfit®) in an adult epilepsy monitoring unit. • Sensitivity of the tool for detecting convulsive seizures was 69.6% with a false alarm rate of 0.007/24 h. • Nurses intervened much more frequently (100% vs 57%) in the event of the alarm being triggered. Because of SUDEP (Sudden and unexpected death in epilepsy) and other direct consequences of generalized tonic-clonic seizures, the use of efficient seizure detection tool may be helpful for patients, relatives and caregivers. We aimed to evaluate an under-mattress detection tool (EMFIT®) in real-life hospital conditions, in particular its sensitivity and false alarm rate (FAR), as well as its impact on patient care. We carried out a retrospective study on a cohort of patients with epilepsy admitted between September 2017 and June 2021 to Amiens University Hospital for a video-EEG of at least 24 h, during which at least one epileptic seizure was recorded. All video-EEGs records were analyzed visually in order to assess the sensitivity of the under-mattress tool (triggering of the alarm) and to classify the seizure type (convulsive/non convulsive). We also considered whether nurses intervened during the seizure, and the time of their intervention if applicable. An additional prospective survey was conducted over 272 days to analyze the FAR of the tool. A total of 220 seizures were included in the study, from 55 patients, including 23 convulsive seizures from 15 patients and 197 non-convulsive seizures. Sensitivity for convulsive seizure detection was 69.6%. As expected, none of the non-convulsive seizures was detected. The false alarm rate was 0.007/day. Median trigger time was 74 s, decreasing to 5 s for generalized tonic-clonic seizure. The frequency of nurses' intervention during convulsive seizures was significantly greater in case of the alarm triggering (100% vs 57%, p <0.02). These results suggest that EMFIT® sensor is able to detect convulsive seizures with good sensitivity and low FAR, and allows caregivers to intervene more often in the event of a nocturnal seizure. This would be an interesting complementary tool to better secure the patients with epilepsy during hospitalization or at home. [ABSTRACT FROM AUTHOR]

Published

2023

2. « Coup de sabre » et anomalies de substance blanche : sclérodermie, sclérose en plaques ou syndrome de Parry-Romberg ? À propos d’un cas

Author

Barbay, Mélanie, Chen, Simone, Lok, Catherine, Testelin, Sylvie, Michel, David, and Abdullatif, Alkhedr

Abstract

Nous rapportons le cas d’une patiente présentant une sclérodermie « en coup de sabre » et anomalies de substance blanche pour lequel le diagnostic de sclérose en plaques (SEP) avait été initialement retenu.

Published

2022

3. The random division of faces in a planar graph

Author

Cowan, Richard and Chen, Simone

Abstract

A planar graph contains faces which can be classified into types depending on the number of edges on the face boundaries. Under various natural rules for randomly dividing faces by the addition of new edges, we investigate the limiting distribution of face type as the number of divisions increases.

Published

1996

4. Corrélation entre freezinget dimension du noyau pédonculo-pontin dans la maladie de Parkinson : analyse semi-quantitative basée sur l’IRM cérébrale avec séquence FGATIR modifiée

Author

Chen, Simone, Tir, Mélissa, Pauline, Constans, Jean-Marc, Godefroy, Olivier, Lefranc, Michel, and Krystkowiak, Pierre

Abstract

Les troubles de la marche constituent un problème majeur dans la maladie de Parkinson (MP), le freezingen fait partie.

Published

2016

5. The random division of faces in a planar graph

Author

Cowan, Richard and Chen, Simone

Abstract

Consider a connected planar graph. A bounded face is said to be of type k, or is called a k-face, if the boundary of that face contains kedges. Under various natural rules for randomly dividing bounded faces by the addition of new edges, we investigate the limiting distribution of face type as the number of divisions increases.

Published

1996