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The Association between Causes and Electrophysiology in Myoclonus: When and Why electrophysiology?

Objective: We aimed to identify the possible causes of myoclonus and related electrophysiological features in a cohort of young patients. Patients and Methods: We performed a retrospective analysis of all clinical and electrophysiological recordings of patients who had myoclonus and were under 60 ye...

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Published in:	Neurological sciences and neurophysiology 2020, Vol.37 (4), p.176-182
Main Authors:	Kiziltan, Meral E., Gündüz, Aysegül, Ser, M Hazal, Yeni, S Naz, Özkara, Çigdem, Demirbilek, Veysi, Yalçınkaya, Cengiz, Kızıltan, Günes
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Language:	English
Subjects:	cause electrophysiology long-loop reflex myoclonus
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container_title	Neurological sciences and neurophysiology
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creator	Kiziltan, Meral E. Gündüz, Aysegül Ser, M Hazal Yeni, S Naz Özkara, Çigdem Demirbilek, Veysi Yalçınkaya, Cengiz Kızıltan, Günes
description	Objective: We aimed to identify the possible causes of myoclonus and related electrophysiological features in a cohort of young patients. Patients and Methods: We performed a retrospective analysis of all clinical and electrophysiological recordings of patients who had myoclonus and were under 60 years between 2005 and 2018. The clinical data included age at examination, gender, age at onset, and main neurological or systemic findings, underlying cause and electrophysiological features constituted surface electromyogram, long-loop reflexes, electroencephalography, and somatosensory-evoked potentials. Results: In the study period, we identified 155 patients with myoclonus. Myoclonus was most commonly related with epilepsy and movement disorders. Myoclonus with epilepsy was the leading cause between 10 and 30 years, whereas myoclonus with movement disorders was more common after 30 years. In our country, SSPE was an important cause of myoclonus under the 20 years of age. We identified cortico-subcortical subtype followed by cortical, cortical reflex, subcortical-basal ganglia, subcortical-brainstem and propriospinal subtypes, and correlated these subtypes with relevant disorders. Conclusion: The electrophysiological classification provides anatomical subtyping, which is favorable in diagnosing certain cases such as brainstem and propriospinal myoclonus. Certain characteristics such as reflex nature of myoclonus and accompanying features narrow the list of differentials and help in making the diagnosis.
doi_str_mv	10.4103/NSN.NSN_82_20
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We identified cortico-subcortical subtype followed by cortical, cortical reflex, subcortical-basal ganglia, subcortical-brainstem and propriospinal subtypes, and correlated these subtypes with relevant disorders. Conclusion: The electrophysiological classification provides anatomical subtyping, which is favorable in diagnosing certain cases such as brainstem and propriospinal myoclonus. 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We identified cortico-subcortical subtype followed by cortical, cortical reflex, subcortical-basal ganglia, subcortical-brainstem and propriospinal subtypes, and correlated these subtypes with relevant disorders. Conclusion: The electrophysiological classification provides anatomical subtyping, which is favorable in diagnosing certain cases such as brainstem and propriospinal myoclonus. Certain characteristics such as reflex nature of myoclonus and accompanying features narrow the list of differentials and help in making the diagnosis.</abstract><pub>Wolters Kluwer Medknow Publications</pub><doi>10.4103/NSN.NSN_82_20</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	cause electrophysiology long-loop reflex myoclonus
title	The Association between Causes and Electrophysiology in Myoclonus: When and Why electrophysiology?
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