Jesper Jeppesen
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Explore the profile of Jesper Jeppesen including associated specialties, affiliations and a list of published articles.
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Articles
22
Citations
297
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Recent Articles
1.
Miron G, Halimeh M, Jeppesen J, Loddenkemper T, Meisel C
Epilepsia
. 2024 Jun;
PMID: 38837428
Wearable devices have attracted significant attention in epilepsy research in recent years for their potential to enhance patient care through improved seizure monitoring and forecasting. This narrative review presents a...
2.
Jeppesen J, Lin K, Murilo Melo H, Pavei J, Marques J, Beniczky S, et al.
Epileptic Disord
. 2024 Feb;
26(2):199-208.
PMID: 38334223
Objective: Automated seizure detection of focal epileptic seizures is needed for objective seizure quantification to optimize the treatment of patients with epilepsy. Heart rate variability (HRV)-based seizure detection using patient-adaptive...
3.
Jeppesen J, Christensen J, Johansen P, Beniczky S
Seizure
. 2023 Apr;
107:155-161.
PMID: 37068328
Purpose: Wearable automated detection devices of focal epileptic seizures are needed to alert patients and caregivers and to optimize the medical treatment. Heart rate variability (HRV)-based seizure detection devices have...
4.
Jeppesen J, Christensen J, Molgaard H, Beniczky S
Epilepsia
. 2023 Apr;
64 Suppl 4:S59-S64.
PMID: 37029748
Phase 2 studies showed that focal seizures could be detected by algorithms using heart rate variability (HRV) in patients with marked autonomic ictal changes. However, wearable surface electrocardiographic (ECG) devices...
5.
Johnsen B, Jeppesen J, Duez C
Clin Neurophysiol
. 2022 Aug;
142:143-153.
PMID: 36041343
Objective: Description of typical kinds of EEG reactivity (EEG-R) in post-anoxic coma using a quantitative method. Methods: Study of 101 out-of-hospital cardiac arrest patients, 71 with good outcome (cerebral performance...
6.
Beniczky S, Jeppesen J, Kjaer T, Fabricius M
Ugeskr Laeger
. 2022 Jul;
184(26).
PMID: 35786232
The International League Against Epilepsy and the International Federation of Clinical Neurophysiology developed a clinical practice guideline on the use of automated seizure detection with wearable devices. They recommend using...
7.
Beniczky S, Wiebe S, Jeppesen J, Tatum W, Brazdil M, Wang Y, et al.
Clin Neurophysiol
. 2021 Mar;
132(5):1173-1184.
PMID: 33678577
The objective of this clinical practice guideline (CPG) is to provide recommendations for healthcare personnel working with patients with epilepsy, on the use of wearable devices for automated seizure detection...
8.
Beniczky S, Wiebe S, Jeppesen J, Tatum W, Brazdil M, Wang Y, et al.
Epilepsia
. 2021 Mar;
62(3):632-646.
PMID: 33666944
The objective of this clinical practice guideline (CPG) is to provide recommendations for healthcare personnel working with patients with epilepsy on the use of wearable devices for automated seizure detection...
9.
Beniczky S, Arbune A, Jeppesen J, Ryvlin P
Epilepsia
. 2020 Jun;
61 Suppl 1:S61-S66.
PMID: 32519759
Besides triggering alarms, wearable seizure detection devices record a variety of biosignals that represent biomarkers of seizure severity. There is a need for automated seizure characterization, to identify high-risk seizures....
10.
Arbune A, Jeppesen J, Conradsen I, Ryvlin P, Beniczky S
Epilepsia
. 2020 May;
61 Suppl 1:S55-S60.
PMID: 32436605
This study aims at defining objective parameters reflecting the severity of peri-ictal autonomic changes and their relation to post-ictal generalized electroencephalography (EEG) suppression (PGES), with the view that such changes...