Your search keyword '"Khatami, R"' showing total 4 results

1. Long-term efficacy of sodium oxybate in 4 patients with chronic cluster headache

Author

Khatami, R., primary, Tartarotti, S., additional, Siccoli, M.M., additional, Bassetti, C.L., additional, and Sándor, P.S., additional

Published

2011

2. Corticospinal excitability in human sleep as assessed by transcranial magnetic stimulation

Author

Grosse, P., primary, Khatami, R., additional, Salih, F., additional, Kuhn, A., additional, and Meyer, B.-U., additional

Published

2002

3. Data-Driven Phenotyping of Central Disorders of Hypersomnolence With Unsupervised Clustering

Author

Jari K. Gool, Zhongxing Zhang, Martijn S.S.L. Oei, Stephanie Mathias, Yves Dauvilliers, Geert Mayer, Giuseppe Plazzi, Rafael del Rio-Villegas, Joan Santamaria Cano, Karel Šonka, Markku Partinen, Sebastiaan Overeem, Rosa Peraita-Adrados, Raphael Heinzer, Antonio Martins da Silva, Birgit Högl, Aleksandra Wierzbicka, Anna Heidbreder, Eva Feketeova, Mauro Manconi, Jitka Bušková, Francesca Canellas, Claudio L. Bassetti, Lucie Barateau, Fabio Pizza, Markus H. Schmidt, Rolf Fronczek, Ramin Khatami, Gert Jan Lammers, Anatomy and neurosciences, Gool J.K., Zhang Z., Oei M.S.S.L., Mathias S., Dauvilliers Y., Mayer G., Plazzi G., Del Rio-Villegas R., Cano J.S., Sonka K., Partinen M., Overeem S., Peraita-Adrados R., Heinzer R., Martins Da Silva A., Hogl B., Wierzbicka A., Heidbreder A., Feketeova E., Manconi M., Buskova J., Canellas F., Bassetti C.L., Barateau L., Pizza F., Schmidt M.H., Fronczek R., Khatami R., Lammers G.J., and Signal Processing Systems

Subjects

Cluster Analysi, Adolescent, Cluster Analysis, Humans, Cataplexy, Disorders of Excessive Somnolence, Idiopathic Hypersomnia, Narcolepsy, 610 Medicine & health, Cataplexy/diagnosis, Disorders of Excessive Somnolence/diagnosis, Disorders of Excessive Somnolence/epidemiology, Idiopathic Hypersomnia/diagnosis, Narcolepsy/diagnosis, Narcolepsy/drug therapy, Neurology (clinical), Human

Abstract

Background and ObjectivesRecent studies fueled doubts as to whether all currently defined central disorders of hypersomnolence are stable entities, especially narcolepsy type 2 and idiopathic hypersomnia. New reliable biomarkers are needed, and the question arises of whether current diagnostic criteria of hypersomnolence disorders should be reassessed. The main aim of this data-driven observational study was to see whether data-driven algorithms would segregate narcolepsy type 1 and identify more reliable subgrouping of individuals without cataplexy with new clinical biomarkers.MethodsWe used agglomerative hierarchical clustering, an unsupervised machine learning algorithm, to identify distinct hypersomnolence clusters in the large-scale European Narcolepsy Network database. We included 97 variables, covering all aspects of central hypersomnolence disorders such as symptoms, demographics, objective and subjective sleep measures, and laboratory biomarkers. We specifically focused on subgrouping of patients without cataplexy. The number of clusters was chosen to be the minimal number for which patients without cataplexy were put in distinct groups.ResultsWe included 1,078 unmedicated adolescents and adults. Seven clusters were identified, of which 4 clusters included predominantly individuals with cataplexy. The 2 most distinct clusters consisted of 158 and 157 patients, were dominated by those without cataplexy, and among other variables, significantly differed in presence of sleep drunkenness, subjective difficulty awakening, and weekend-week sleep length difference. Patients formally diagnosed as having narcolepsy type 2 and idiopathic hypersomnia were evenly mixed in these 2 clusters.DiscussionUsing a data-driven approach in the largest study on central disorders of hypersomnolence to date, our study identified distinct patient subgroups within the central disorders of hypersomnolence population. Our results contest inclusion of sleep-onset REM periods in diagnostic criteria for people without cataplexy and provide promising new variables for reliable diagnostic categories that better resemble different patient phenotypes. Cluster-guided classification will result in a more solid hypersomnolence classification system that is less vulnerable to instability of single features.

Published

2022

4. Data-Driven Phenotyping of Central Disorders of Hypersomnolence With Unsupervised Clustering.

Author

Gool JK, Zhang Z, Oei MSSL, Mathias S, Dauvilliers Y, Mayer G, Plazzi G, Del Rio-Villegas R, Cano JS, Šonka K, Partinen M, Overeem S, Peraita-Adrados R, Heinzer R, Martins da Silva A, Högl B, Wierzbicka A, Heidbreder A, Feketeova E, Manconi M, Bušková J, Canellas F, Bassetti CL, Barateau L, Pizza F, Schmidt MH, Fronczek R, Khatami R, and Lammers GJ

Subjects

Adolescent, Cluster Analysis, Humans, Cataplexy diagnosis, Disorders of Excessive Somnolence diagnosis, Disorders of Excessive Somnolence epidemiology, Idiopathic Hypersomnia diagnosis, Narcolepsy diagnosis, Narcolepsy drug therapy

Abstract

Background and Objectives: Recent studies fueled doubts as to whether all currently defined central disorders of hypersomnolence are stable entities, especially narcolepsy type 2 and idiopathic hypersomnia. New reliable biomarkers are needed, and the question arises of whether current diagnostic criteria of hypersomnolence disorders should be reassessed. The main aim of this data-driven observational study was to see whether data-driven algorithms would segregate narcolepsy type 1 and identify more reliable subgrouping of individuals without cataplexy with new clinical biomarkers., Methods: We used agglomerative hierarchical clustering, an unsupervised machine learning algorithm, to identify distinct hypersomnolence clusters in the large-scale European Narcolepsy Network database. We included 97 variables, covering all aspects of central hypersomnolence disorders such as symptoms, demographics, objective and subjective sleep measures, and laboratory biomarkers. We specifically focused on subgrouping of patients without cataplexy. The number of clusters was chosen to be the minimal number for which patients without cataplexy were put in distinct groups., Results: We included 1,078 unmedicated adolescents and adults. Seven clusters were identified, of which 4 clusters included predominantly individuals with cataplexy. The 2 most distinct clusters consisted of 158 and 157 patients, were dominated by those without cataplexy, and among other variables, significantly differed in presence of sleep drunkenness, subjective difficulty awakening, and weekend-week sleep length difference. Patients formally diagnosed as having narcolepsy type 2 and idiopathic hypersomnia were evenly mixed in these 2 clusters., Discussion: Using a data-driven approach in the largest study on central disorders of hypersomnolence to date, our study identified distinct patient subgroups within the central disorders of hypersomnolence population. Our results contest inclusion of sleep-onset REM periods in diagnostic criteria for people without cataplexy and provide promising new variables for reliable diagnostic categories that better resemble different patient phenotypes. Cluster-guided classification will result in a more solid hypersomnolence classification system that is less vulnerable to instability of single features., (Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2022