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| Si'''For patient information click [[{{PAGENAME}} (patient information)|here]]'''
| | __NOTOC__ |
| {{DiseaseDisorder infobox | | | '''For patient information, click [[{{PAGENAME}} (patient information)|here]]''' |
| Name = Epilepsy |
| | {| class="infobox" style="float:right;" |
| ICD10 = {{ICD10|G|40||g|40}}-{{ICD10|G|41||g|40}} |
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| ICD9 = {{ICD9|345}} |
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| MedlinePlus = 000694 |
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| eMedicineSubj = |
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| eMedicineTopic = |
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| DiseasesDB = 4366 |
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| MeshID = D004827 |
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| }}
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| {{SI}}
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| {{CMG}}
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| ==Overview==
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| '''Epilepsy''' is a common [[chronic (medicine)|chronic]] [[neurological disorder]] that is characterized by recurrent unprovoked [[seizure]]s.<ref name="PMID8330566">{{cite journal
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| | author = Commission on Epidemiology and Prognosis, International League Against Epilepsy
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| | title = Guidelines for epidemiologic studies on epilepsy. Commission on Epidemiology and Prognosis, International League Against Epilepsy.
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| | journal = Epilepsia
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| | volume = 34
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| | issue = 4
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| | pages = 592-6
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| | year = 1993
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| | id = PMID 8330566
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| | url = http://www.blackwell-synergy.com/doi/pdf/10.1111/j.1528-1157.1993.tb00433.x
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| }}</ref><ref name="PMID11580774">{{cite journal
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| | author = Blume W, Lüders H, Mizrahi E, Tassinari C, van Emde Boas W, Engel J
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| | title = Glossary of descriptive terminology for ictal semiology: report of the ILAE task force on classification and terminology.
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| | journal = Epilepsia
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| | volume = 42
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| | issue = 9
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| | pages = 1212-8
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| | year = 2001
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| | id = PMID 11580774
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| | url = http://www.blackwell-synergy.com/doi/full/10.1046/j.1528-1157.2001.22001.x
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| }}</ref> These seizures are transient signs and/or symptoms due to abnormal, excessive or synchronous neuronal activity in the brain.<ref name="Fisher2005">{{cite journal
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| | author = Fisher R, van Emde Boas W, Blume W, Elger C, Genton P, Lee P, Engel J
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| | title = Epileptic seizures and epilepsy: definitions proposed by the International League Against Epilepsy (ILAE) and the International Bureau for Epilepsy (IBE).
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| | journal = Epilepsia
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| | volume = 46
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| | issue = 4
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| | pages = 470-2
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| | year = 2005
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| | id = PMID 15816939
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| | url = http://www.blackwell-synergy.com/doi/full/10.1111/j.0013-9580.2005.66104.x
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| | doi = 10.1111/j.0013-9580.2005.66104.x
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| }}</ref>
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| About 50 million people worldwide have epilepsy at any one time.<ref name="World Health Organization">{{cite web | url=http://www.who.int/mediacentre/factsheets/fs165/en/ | title = Epilepsy: aetiogy <nowiki>[</nowiki>''sic''<nowiki>]</nowiki>, epidemiology and prognosis | month = February | year = 2001 | accessdate = 2007-06-14 | publisher = [[World Health Organization]]}}</ref> Epilepsy is usually controlled, but not cured, with medication, although [[surgery]] may be considered in difficult cases. Not all epilepsy syndromes are lifelong – some forms are confined to particular stages of childhood. Epilepsy should not be understood as a single disorder, but rather as a group of syndromes with vastly divergent symptoms but all involving episodic abnormal electrical activity in the brain.
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| ==Classification==
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| Epilepsies are classified five ways:
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| # By their first cause (or [[etiology]]).
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| # By the observable manifestations of the seizures, known as semiology.
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| # By the location in the brain where the seizures originate.
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| # As a part of discrete, identifiable medical [[syndrome]]s.
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| # By the event that triggers the seizures, as in primary reading epilepsy.
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| In 1981, the International League Against Epilepsy (ILAE) proposed a classification scheme for individual seizures that remains in common use.<ref name="ILEA1981">{{cite journal
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| | author =
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| | title = Proposal for revised clinical and electroencephalographic classification of epileptic seizures. From the Commission on Classification and Terminology of the International League Against Epilepsy.
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| | journal = Epilepsia
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| | volume = 22
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| | issue = 4
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| | pages = 489-501
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| | year = 1981
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| | id = PMID 6790275}}</ref> This classification is based on observation (clinical and EEG) rather than the underlying pathophysiology or anatomy and is outlined later on in this article. In 1989, the ILAE proposed a classification scheme for epilepsies and epileptic syndromes.<ref name="ILEA1989">{{cite journal
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| | author =
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| | title = Proposal for revised classification of epilepsies and epileptic syndromes. Commission on Classification and Terminology of the International League Against Epilepsy.
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| | journal = Epilepsia
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| | volume = 30
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| | issue = 4
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| | pages = 389-99
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| | year =1989
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| | id = PMID 2502382}}</ref> This can be broadly described as a two-axis scheme having the cause on one axis and the extent of localisation within the brain on the other. Since 1997, the ILAE have been working on a new scheme that has five axes: ictal phenomenon, seizure type, syndrome, etiology and impairment.<ref name="ILAE">{{cite web
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| | url = http://www.ilae-epilepsy.org/Visitors/Centre/ctf/overview.cfm
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| | title = A Proposed Diagnostic Scheme For People With Epileptic Seizures And With Epilepsy: Report Of The Ilae Task Force On Classification And Terminology
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| | accessdate = 2006-07-18
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| | author = Jerome Engel
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| | publisher = ILAE
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| }}</ref>
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| ==Diagnosis==
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| The diagnosis of epilepsy requires the presence of recurrent, unprovoked seizures; accordingly, it is usually made based on the [[medical history]]. [[Electroencephalography|EEG]], brain [[MRI]], [[SPECT]], [[Positron emission tomography|PET]], and [[magnetoencephalography]] may be useful to discover an [[etiology]] for the epilepsy, discover the affected brain region, or classify the epileptic syndrome, but these studies are not useful in making the initial diagnosis.
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| [[Long-term video-EEG monitoring]] for epilepsy is the gold standard for diagnosis, but it is not routinely employed owing to its high cost, low availability and inconvenience.
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| Convulsive or other seizure-like activity, non-epileptic in origin, can be observed in many other medical conditions. These [[non-epileptic seizures]] can be hard to differentiate and may lead to misdiagnosis.
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| Epilepsy covers conditions with different aetiologies, natural histories and prognoses, each requiring different management strategies. A full medical diagnosis requires a definite categorisation of seizure and syndrome types.<ref>{{cite web | author=C P Panayiotopoulos and M Koutroumanidis | title=The significance of the syndromic diagnosis of the epilepsies | month=September | year=2005 | url=http://www.e-epilepsy.org.uk/pages/articles/show_article.cfm?id=33 | publisher=[[National Society for Epilepsy]]}}</ref>
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| == Complete Differential Diagnosis for Epilepsy ==
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| ==By organ system==
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| {|style="width:80%; height:100px" border="1"
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| |style="height:100px"; style="width:25%" border="1" bgcolor="LightSteelBlue" | '''Cardiovascular'''
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| |style="height:100px"; style="width:75%" border="1" bgcolor="Beige" | No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Chemical / poisoning'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Dermatologic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Drug Side Effect'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Ear Nose Throat'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Endocrine'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Environmental'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Gastroenterologic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Genetic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Hematologic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Iatrogenic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Infectious Disease'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Musculoskeletal / Ortho'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Neurologic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Nutritional / Metabolic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Obstetric/Gynecologic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Oncologic'''
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| |bgcolor="Beige"| No underlying causes
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| |- | | |- |
| |-bgcolor="LightSteelBlue" | | | [[File:Siren.gif|30px|link=Epilepsy resident survival guide]]|| <br> || <br> |
| | '''Opthalmologic'''
| | | [[Epilepsy resident survival guide|'''Resident'''<br>'''Survival'''<br>'''Guide''']] |
| |bgcolor="Beige"| No underlying causes
| | |} |
| |-
| | {{Epilepsy}} |
| |-bgcolor="LightSteelBlue" | | {{CMG}}; {{AE}} {{Fs}} |
| | '''Overdose / Toxicity''' | |
| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Psychiatric'''
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| |bgcolor="Beige"| No underlying causes | |
| |- | |
| |-bgcolor="LightSteelBlue" | |
| | '''Pulmonary''' | |
| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Renal / Electrolyte'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Rheum / Immune / Allergy'''
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| |bgcolor="Beige"| No underlying causes | |
| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Sexual'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Trauma'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Urologic'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Dental'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |-bgcolor="LightSteelBlue"
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| | '''Miscellaneous'''
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| |bgcolor="Beige"| No underlying causes
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| |-
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| |}
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| | ==[[Epilepsy overview|Overview]]== |
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| | ==[[Epilepsy historical perspective|Historical Perspective]]== |
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| | ==[[Epilepsy classification|Classification]]== |
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| | ==[[Epilepsy pathophysiology|Pathophysiology]]== |
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| | ==[[Epilepsy causes|Causes]]== |
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| | ==[[Epilepsy differential diagnosis|Differentiating Epilepsy from other Diseases]]== |
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| | ==[[Epilepsy epidemiology and demographics|Epidemiology and Demographics]]== |
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| | ==[[Epilepsy risk factors|Risk Factors]]== |
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| | ==[[Epilepsy screening|Screening]]== |
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| | ==[[Epilepsy natural history, complications and prognosis|Natural History, Complications and Prognosis]]== |
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| | | ==Diagnosis== |
| | | [[Epilepsy diagnostic study of choice|Diagnostic Study of Choice]] | [[Epilepsy history and symptoms|History and Symptoms]] | [[Epilepsy physical examination|Physical Examination]] | [[Epilepsy laboratory findings|Laboratory Findings]] | [[Epilepsy eeg|EEG]] | [[Epilepsy x ray|X Ray]] | [[Epilepsy CT|CT]] | [[Epilepsy MRI|MRI]] | [[Epilepsy echocardiography or ultrasound|Echocardiography or Ultrasound]] | [[Epilepsy other imaging findings|Other Imaging Findings]] | [[Epilepsy other diagnostic studies|Other Diagnostic Studies]] |
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| * [[Acute intermittent porphyria]]
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| * [[Alcohol withdrawal]]
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| * [[Alkalosis]]
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| * [[Alzheimer's Disease]]
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| * [[Arrythmias]]
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| * [[Astrocytoma]]
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| * [[Brain abscess]]
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| * [[Breath-holding spells]] (pediatric)
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| * [[Cardiac failure]]
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| * [[Carotid Sinus Syndrome]]
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| * [[Chronic Renal Failure]]
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| * [[Creutzfeldt-Jakob Disease]]
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| * [[Cysticercosis]]
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| * [[Cytomegalovirus]] (CMV)
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| * [[Down's Syndrome]]
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| * Drug withdrawal
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| * Drugs, toxins
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| * [[Eclampsia]]
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| * [[Embolism]]
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| * [[Encephalitis]]
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| * [[Ddx:Fever|Fever]]
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| * [[Gaucher's Disease]]
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| * [[German measles]]
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| * [[Head trauma]]
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| * [[Heat stroke]]
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| * [[Hepatic failure]]
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| * [[HIV]]
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| * [[Huntington's Chorea]]
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| * [[Ddx:Hyperglycemia|Hyperglycemia]]
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| * [[Ddx:Hypernatremia|Hypernatremia]]
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| * Hypertensive encephalopathy
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| * [[Hyperthyroidism]]
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| * [[Ddx:Hyperventilation|Hyperventilation]]
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| * [[Ddx:Hypocalcemia|Hypocalcemia]]
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| * [[Ddx:Hypoglycemia|Hypoglycemia]]
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| * [[Ddx:Magnesium|Hypomagnesmia]]
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| * [[Ddx:Hyponatremia|Hyponatremia]]
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| * [[Hypoparathyroidism]]
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| * [[Ddx:Hypotension|Hypotension]]
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| * [[Hypothyroidism]]
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| * [[Hypovolemia]]
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| * [[Hypoxia]]
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| * Hypoxic encephalopathy
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| * [[Intoxication]]
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| * [[Intracranial hemorrhage]] and trauma
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| * [[Kernicterus]]
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| * [[Lupus erythematosus]]
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| * Meningeoma
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| * [[Meningitis]]
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| * [[Metastasis]]
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| * [[Ddx:Headache|Migraine]]
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| * [[Movement disorders]]
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| * [[Neurosyphilis]]
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| * [[Night terrors]]
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| * [[Orthostatic hypotension]]
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| * [[Panic attack]]
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| * Pediatric [[apnea]]
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| * [[Pellagra]]
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| * Perinatal hypoxia or trauma
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| * [[Phenylketonuria]]
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| * [[Pick's Disease]]
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| * [[Polyarteritis Nodosa]]
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| * [[Presenile dementia]]
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| * [[Pyridoxine deficiency]]
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| * [[Reye's Syndrome]]
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| * [[Sleep disorders]]
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| * [[Sleepwalking]]
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| * [[Stokes-Adams Syndrome]]
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| * [[Sturge-Weber Syndrome]]
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| * [[Ddx:Syncope|Syncope]]
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| * [[Syphilis]]
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| * [[Tetany]]
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| * [[Thrombophlebitis]]
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| * [[Thrombosis]]
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| * [[Toxoplasmosis]]
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| * [[Transient Ischemic Attack]] (TIA)
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| * [[Tuberous Sclerosis]]
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| * [[Uremia]]
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| * [[Valvular heart disease]]
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| * [[Vasovagal syncope]]
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| * [[Von Hippel-Lindau Syndrome]]
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| ==Triggers== | |
| The diagnosis of epilepsy requires that the seizures be unprovoked, with the implication that the provocant is assumed to be something obviously harmful. However, in some epilepsy syndromes, the provocant can reasonably be considered to be part of normal daily life. Examples of these ''normal provocants'' include reading, hot water on the head, [[hyperventilation]], and flashing or flickering lights. This last provocant is a special type of [[reflex epilepsy]] called [[photosensitive epilepsy]]. Although assumed to be a common trigger for epilepsy, among both patients and the public, only around 5% of people with epilepsy are affected by flickering lights.
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| Certain environmental factors can lead to an increased likelihood of seizures in someone with epilepsy or in certain syndromes, for example:
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| *being asleep
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| *the transition between sleep and wakefulness (hypnogogia)
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| *tiredness and sleep deprivation
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| *[[illness]]
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| *[[constipation]]
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| *[[menstruation]]
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| *stress or anxiety
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| *alcohol consumption.
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| <!-- Could not find any references of deer jerky pertaining to epilepsy -->
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| ==Epidemiology==
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| Epilepsy is one of the most common of the serious neurological disorders.<ref>{{cite journal|author=Hirtz D, Thurman DJ, Gwinn-Hardy K, Mohamed M, Chaudhuri AR, Zalutsky R|title=How common are the 'common' neurologic disorders?|journal=Neurology|volume=68|issue=5|pages=326–37|date=[[2007-01-30]]|pmid=17261678}}</ref> [[Genetic disorder|Genetic]], [[congenital]], and [[Developmental disorder|developmental]] conditions are mostly associated with it among younger patients; [[tumor]]s are more likely over age 40; [[head trauma]] and [[central nervous system infection]]s may occur at any age. The [[prevalence]] of active epilepsy is roughly in the range 5–10 per 1000 people. Up to 50 per 1000 people experience non[[febrile seizure]]s at some point in life; epilepsy's lifetime prevalence is relatively high because most patients either stop having seizures or (less commonly) die. Epilepsy's approximate annual [[incidence rate]] is 40–70 per 100,000 in industrialized countries and 100–190 per 100,000 in resource-poor countries; socioeconomically deprived people are at higher risk. In industrialized countries the incidence rate decreased in children but increased among the elderly during the three decades prior to 2003, for reasons not fully understood.<ref>{{cite journal|author=Sander JW|title=The epidemiology of epilepsy revisited|journal=Curr Opin Neurol|volume=16|issue=2|pages=165–70|date=2003|pmid=12644744}}</ref> | |
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| ==Seizure types==
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| {{Main|Seizure types}}
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| Seizure types are organized firstly according to whether the source of the seizure within the brain is localized ([[Focal seizures|''partial'' or ''focal'']] onset seizures) or distributed (''generalized'' seizures). Partial seizures are further divided on the extent to which consciousness is affected. If it is unaffected, then it is a ''[[Simple partial seizure|simple partial]]'' seizure; otherwise it is a ''[[Complex partial seizure|complex partial]]'' (psychomotor) seizure. A partial seizure may spread within the brain - a process known as ''secondary generalization''. Generalized seizures are divided according to the effect on the body but all involve loss of consciousness. These include [[Absence seizure|absence]] (petit mal), [[Myoclonus|myoclonic]], [[Clonus|clonic]], tonic, [[Tonic-clonic seizure|tonic-clonic]] (grand mal) and [[Atonic seizure|atonic]] seizures.
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| ==Seizure syndromes==
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| There are many different epilepsy syndromes, each presenting with its own unique combination of seizure type, typical age of onset, EEG findings, treatment, and prognosis. Below are some common seizure syndromes:
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| * ''[[Infantile spasms]] ([[West syndrome]])'' is associated with brain development abnormalities, [[tuberous sclerosis]], and perinatal insults to the brain. It affects infants (as implied by its name), which by definition is between 30 days to 1 year of life. It carries a poor prognosis such that only 5-10% of children with infantile spasms will develop normal to near-normal function, while more than two-thirds will have severe deficits. The typical seizures are characterized by sudden flexor and extensor spasms of head, trunk, and extremities. The key EEG finding in these patients is a [[hypsarrhythmia]], or a high-voltage slow wave with multifocal spikes. The first line treatment for these patients is [[adrenocorticotropic hormone]] ([[ACTH]] or [[corticotropin]]) since traditional antiepileptic drugs generally cannot adequately control seizure activity. [[Vigabatrin]] is also used in many countries, and is particularly effective when tuberous sclerosis is the cause of seizures.
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| [[image:Spike-waves.png|right|thumb|Generalized 3 Hz spike and wave discharges in EEG]]
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| * ''[[Childhood absence epilepsy]]'' affects children between the ages of 4 and 12 years of age. These patients have recurrent absence seizures that can occur hundreds of times a day. On EEG, one finds the stereotyped generalized 3 Hz spike and wave discharges. A subset of these patients will also develop generalized tonic-clonic seizures. This condition carries a fairly good prognosis in that these children do not usually show cognitive decline or neurological deficits. First line treatment for pure absence seizures is [[ethosuximide]]. If patients do not respond or have mixed seizures along with their absence seizures, then [[valproic acid]] can be used.
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| * ''[[Dravet's syndrome]]'' Severe myoclonic epilepsy of infancy (SMEI). This very rare syndrome is delimitated from benign myoclonic epilepsy by its severity and must be differentiated from the Lennox-Gastaut syndrome and Doose’s myoclonic-astatic epilepsy. Onset in first year of life. Symptoms peak at about 5 months of age with febrile hemiclonic or generalized status epilepticus. Boys twice as often affected as girls. Prognosis is poor. In 2005, there were at least around 450 cases reported in the worldwide literature but, now, it is impossible to count the known cases because many probably have been published twice because of the genetic reserach. Most cases are sporadic. Family history of epilepsy and febrile convulsions is present in around 25 percent of the cases, but familial cases are exceptionnal. From: [http://www.dravet.com www.dravet.com]
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| * ''[[Benign focal epilepsies of childhood]]'' The most common syndromes comprising the benign focal epilepsies of childhood include Benign Childhood Epilepsy with Centro-Temporal Spikes (or benign rolandic epilepsy), and Benign Childhood Epilepsy with Occipital Paroxysms. Benign rolandic epilepsy begins in children between the ages of 3 and 16 years. Apart from their seizure disorder, these patients are otherwise normal. Seizures typically occur at night, and are brief, focal motor events affecting facial and pharyngeal muscles, though may be generalized convulsions as well. Focal seizures may be less frequently reported than more obvious generalized seizures. Between seizures, patients have a stereotyped EEG pattern that includes di- or triphasic sharp waves over the central-midtemporal (Rolandic) regions. Prognosis is quite good overall with seizures disappearing by adolescence. There is no consensus on the first line treatment, however most cases respond well to most [[anticonvulsant]]s.
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| * ''[[Juvenile myoclonic epilepsy]]'' (JME) begins in patients aged 8 to 20 years. These patients have normal IQ and are otherwise neurologically intact. JME is thought to be genetic, though that is not to say that JME will show in immediate family members. The seizures are morning myoclonic jerks often with generalized tonic-clonic seizures that occur just after waking. 'Petit mal' or absence seizures are less common in cases of JME, but are known to occur more often in young girls. EEG readings reveal generalized spikes with 4-6 Hz spike wave discharges and multiple spike discharges. Interestingly, these patients are often first diagnosed when they have their first generalized tonic-clonic seizure later in life when they experience sleep deprivation (e.g., freshman year in college after staying up late to study for exams). Alcohol is a major contributing factor and those with severe JME should monitor their intake of units. [[Valproic acid]] is the first line treatment, whereas carbamazepine can actually worsen symptoms. This condition is lifelong, thus patients must be taught appropriate sleep hygiene to prevent generalized tonic-clonic seizures. The severity of JME varies from person to person - some will experience full blown tonic-clonic seizures regularly, others will suffer only under sufficient stress from lack of sleep and intoxication.
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| * ''[[Temporal lobe epilepsy]]'' is the most common epilepsy of adults. In most cases, the epileptogenic region is found in the mesial temporal structures (e.g., the hippocampus, amygdala, and parahippocampal gyrus). Seizures begin in late childhood and adolescence. There is an association with febrile seizures in childhood, and some studies have shown herpes simplex virus (HSV) DNA in these regions, suggesting that perhaps this epilepsy has an infectious etiology. Most of these patients have complex partial seizures sometimes preceded by an [[Aura (symptom)|aura]], and some TLE patients also suffer from secondary generalised [[tonic-clonic seizures]]. If the patient does not respond sufficiently to medical treatment, surgery may be considered.
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| * ''[[Fetal alcohol syndrome]]'' (FAS) is caused by prenatal [[alcohol]] exposure and results in [[central nervous system]] (CNS) damage. Seizure disorders due to prenatal alcohol exposure are one of several possible criteria for diagnosing FASD; however, any seizure disorder due to postnatal insult does not qualify as a diagnostic criterion for FASD.<ref>Astley, S.J. (2004). ''Diagnostic Guide for Fetal Alcohol Spectrum Disorders: The 4-Digit Diagnostic Code''. Seattle: University of Washington. Can be downloaded at http://depts.washington.edu/fasdpn.</ref>
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| * ''[[Frontal lobe epilepsy]]''
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| * ''[[Lennox-Gastaut syndrome]]''
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| * ''Occipital lobe epilepsy''
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| ==Treatment== | | ==Treatment== |
| Epilepsy is usually treated with [[medication]] prescribed by a [[physician]]; [[primary care]]givers, [[neurologist]]s, and [[neurosurgeon]]s all frequently care for people with epilepsy. In some cases the implantation of a stimulator of the [[vagus nerve]], or a special diet can be helpful. Neurosurgical operations for epilepsy can be [[palliative]], reducing the frequency or severity of seizures; or, in some patients, an operation can be curative.
| | [[Epilepsy medical therapy|Medical Therapy]] | [[Epilepsy surgery|Surgery]] | [[Epilepsy primary prevention|Primary Prevention]] | [[Epilepsy secondary prevention|Secondary Prevention]] | [[Epilepsy cost-effectiveness of therapy|Cost-Effectiveness of Therapy]] | [[Epilepsy future or investigational therapies|Future or Investigational Therapies]] |
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| ===Responding to a seizure===
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| In most cases, the proper emergency response to a generalized [[tonic-clonic seizure|tonic-clonic epileptic seizure]] is simply to prevent the patient from self-injury by moving him or her away from sharp edges, placing something soft beneath the [[head (anatomy)|head]], and carefully rolling the person into the [[recovery position]] to avoid [[asphyxiation]]. In some cases the person may seem to start [[snoring]] loudly following a seizure, before coming to. This merely indicates that the person is beginning to breathe properly and does not mean he or she is suffocating. Should the person regurgitate, the material should be allowed to drip out the side of the person's mouth by itself. If a seizure lasts longer than 5 minutes, or if the seizures begin coming in 'waves' one after the other - then [[Emergency Medical Services]] should be contacted immediately. Prolonged seizures may develop into ''[[status epilepticus]]'', a dangerous condition requiring hospitalization and emergency treatment.
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| Objects should '''never''' be placed in a person's [[mouth]] by anybody - including paramedics - during a seizure as this could result in serious injury to either party. Despite common folklore, it is not possible for a person to swallow their own [[tongue]] during a seizure. However, it is possible that the person will bite their own tongue, especially if an object is placed in the mouth.
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| With other types of seizures such as simple partial seizures and [[complex partial seizures]] where the person is not convulsing but may be hallucinating, disoriented, distressed, or unconscious, the person should be reassured, gently guided away from danger, and sometimes it may be necessary to protect the person from self-injury, but physical force should be used only as a last resort as this could distress the person even more. In complex partial seizures where the person is unconscious, attempts to rouse the person should not be made as the seizure must take its full course. After a seizure, the person may pass into a deep sleep or otherwise they will be disoriented and often unaware that they have just had a seizure, as amnesia is common with complex partial seizures. The person should remain observed until they have completely recovered, as with a tonic-clonic seizure.
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| After a seizure, it is typical for a person to be exhausted and confused. Often the person is not immediately aware that they have just had a seizure. During this time one should stay with the person - reassuring and comforting them - until they appear to act as they normally would. Seldom during a seizure the person may have soiled themselves. In some instances the person may also [[vomit]] after coming to. People should not eat or drink until they have returned to their normal level of awareness, and they should not be allowed to wander about unsupervised. Many patients will sleep deeply for a few hours after a seizure - this is common for those having just experienced a more violent type of seizure such as a tonic-clonic. In about 50% of people with epilepsy, headaches may occur after a seizure. These headaches share many features with migraines, and respond to the same medications.
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| It is helpful if those present at the time of a seizure make note of how long and how severe the seizure was. It is also helpful to note any mannerisms displayed during the seizure. For example, the individual may twist the body to the right or left, may blink, might mumble nonsense words, or might pull at clothing. Any observed behaviors, when relayed to a neurologist, may be of help in diagnosing the type of seizure which occurred.
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| ===Pharmacologic treatment===
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| {{main|Anticonvulsant}}
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| Some medications can be taken daily in order to prevent seizures altogether or reduce the frequency of their occurrence. These are termed "anticonvulsant" or "antiepileptic" drugs (sometimes AEDs). All such drugs have side effects that are idiosyncratic and others that are dosage-dependent. It is not possible to predict who will suffer from side effects or at what dose the side effects will appear.
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| Some people with epilepsy will experience a complete remission when treated with an anticonvulsant medication. If this does not occur, the dose of medication may be increased, or another medication may be added to the first. The general strategy is to increase the medication dose until either the seizures are controlled, or until dose-limiting side effects appear; at which point the medication dose is reduced to the highest amount that did not produce undesirable side effects.
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| Serum levels of AEDs can be checked to determine [[Compliance (medicine)|medication compliance]] and to assess the effects of drug-drug interactions; some physicians do not use serum levels to fine tune medication, but other physicians believe that serum levels provide excellent data for tailoring medications to suit an individual's specific and relatively variable body chemistry. For example, therapeutic doses (the dose at which seizures are controlled and side effects are minimal and tolerable) may vary widely from among patients. The therapeutic ranges provided by pharmaceutical companies are only ranges and by using blood serum levels and seizures diaries, better seizure control can sometimes be reached. In some cases (such as a seizure flurry) serum levels can be useful to know if the level is very high or very low.
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| If a person's epilepsy cannot be brought under control after adequate trials of two or three (experts vary here) different drugs, that person's epilepsy is generally said to be '''medically refractory.''' or '''Drug-Resistant Epilepsy'''. [[Ketogenic diet]] (a high-fat, low-protein, low-carbohydrate diet) is used in children with drug-resistant epilepsy. A randomized, controlled trial showed that the number of seizures fell by more than 50% in approximately half of children after 1 year on the diet.
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| Various drugs may prevent seizures or reduce seizure frequency: these include [[carbamazepine]] (common brand name Tegretol), [[clobazam]] (Frisium), [[clonazepam]] (Klonopin), [[ethosuximide]] (Zarontin), [[felbamate]] (Felbatol), [[fosphenytoin]] (Cerebyx), [[flurazepam]] (Dalmane), [[gabapentin]] (Neurontin), [[lamotrigine]] (Lamictal), [[levetiracetam]] (Keppra), [[oxcarbazepine]] (Trileptal), [[mephenytoin]] (Mesantoin), [[phenobarbital]] (Luminal), [[phenytoin]] (Dilantin), [[pregabalin]] (Lyrica), [[primidone]] (Mysoline), [[sodium valproate]] (Epilim), [[tiagabine]] (Gabitril), [[topiramate]] (Topamax), [[valproate semisodium]] (Depakote, Epival), [[valproic acid]] (Depakene, Convulex), [[vigabatrin]] (Sabril), and [[zonisamide]] (Zonegran).
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| Other drugs are commonly used to abort an active seizure or interrupt a seizure flurry; these include [[diazepam]] (Valium) and [[lorazepam]] (Ativan). Drugs used only in the treatment of refractory [[status epilepticus]] include [[paraldehyde]] (Paral) and [[pentobarbital]] (Nembutal).
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| [[Potassium bromide|Bromides]] were the first of the effective anticonvulsant pure compounds, but are no longer used in humans<ref name="BromideDogs">{{cite web
| | ==Case Studies== |
| | last = Clemmons DVM, PhD
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| | first = R.M.
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| | year = 1997
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| | url = http://neuro.vetmed.ufl.edu/neuro/seizures/seizures.htm
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| | title = Seizure Disorders in Dogs and Cats
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| | work = The Neurology Service at the VMTH
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| | publisher = University of Florida’s Veterinary Medical Teaching Hospital
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| | accessdate = 2006-03-29
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| }}</ref> due to their [[toxicity]] and low [[efficacy]].
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| It has been found that taking [[valproic acid|valproates]] while pregnant can have high chances of reduced IQ towards children.<ref>{{cite web | url = http://www.medscape.com/viewarticle/549073 | title = NEAD: In Utero Exposure To Valproate Linked to Poor Cognitive Outcomes in Kids | last = Cassels | first = Caroline | date = [[December 8]] [[2006]] | publisher = Medscape | accessdate = 2007-05-23}}</ref><ref>{{cite journal |author=Meador KJ, Baker GA, Finnell RH, ''et al'' |title=In utero antiepileptic drug exposure: fetal death and malformations |journal=Neurology |volume=67 |issue=3 |pages=407-12 |year=2006 |pmid=16894099 |doi=10.1212/01.wnl.0000227919.81208.b2}}</ref>
| | [[Epilepsy case study one|Case #1]] |
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| ===Surgical treatment=== | | ==Related Chapters== |
| Surgical treatment can be an option for epilepsy when an underlying brain abnormality, such as a benign [[tumor]] or an area of scar tissue (e.g. [[hippocampal sclerosis]]) can be identified. The abnormality must be removable by a neurosurgeon.
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| Surgery is usually only offered to patients when their epilepsy has not been controlled by adequate attempts with multiple medications. Before surgery is offered, the medical team conducts many tests to assess whether removal of brain tissue will result in unacceptable problems with [[memory]], [[visual perception|vision]], [[language]] or movement, which are controlled by different parts of the [[brain]]. These tests usually include a [[neuropsychology|neuropsychological evaluation]], which sometimes includes an intracarotid sodium amobarbital test ([[Wada test]]) - although this invasive procedure is being replaced by non-invasive functional MRI in many centres. Resective surgery, as opposed to palliative, successfully eliminates or significantly reduces seizures in about 50-90% of the patients who undergo it (the exact percentage depends on the particulars of the case and surgeon in question.) Many patients decide not to undergo surgery owing to fear or the uncertainty of having a brain operation.
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| The most common form of resective surgical treatment for epilepsy is to remove the front part of either the right or left [[temporal lobe]]. A study of 48 patients who underwent this operation, [[anterior temporal lobectomy]], between 1965 and 1974 determined the long-term success of the procedure. Of the 48 patients, 21 had had no seizures that caused loss of consciousness since the operation. Three others had been free of seizures for at least 19 years. The rest had either never been completely free of seizures or had died between the time of the surgery and commencement of the study.<ref name="Neurology2005-Kelley">{{cite journal | author=Kelley K, Theodore WH | title=Prognosis 30 years after temporal lobectomy | journal=Neurology | year=2005 | pages=1974-6 | volume=64 | issue=11 | id=PMID 15955959}}</ref>
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| [[Palliative]] surgery for epilepsy is intended to reduce the frequency or severity of seizures. Examples are [[callosotomy]] or [[commissurotomy]] to prevent seizures from generalizing (spreading to involve the entire brain), which results in a loss of consciousness. This procedure can therefore prevent injury due to the person falling to the ground after losing consciousness. It is performed only when the seizures cannot be controlled by other means. Resective surgery can be considered palliative if it is undertaken with the expectation that it will reduce but not eliminate seizures.
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| [[Hemispherectomy]] is a drastic operation in which most or all of one half of the cerebral cortex is removed. It is reserved for people suffering from the most catastrophic epilepsies, such as those due to [[Rasmussen syndrome]]. If the surgery is performed on very young patients (2-5 years old), the remaining hemisphere may acquire some rudimentary motor control of the ipsilateral body; in older patients, paralysis results on the side of the body opposite to the part of the brain that was removed. Because of these and other side effects it is usually reserved for patients who have exhausted other treatment options.
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| ===Other treatment===
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| [[Ketogenic diet]]s may occasionally be effective in controlling some types of epilepsy; although the mechanism behind the effect is not fully understood, shifting of [[pH]] towards a [[metabolic acidosis]] and alteration of brain [[metabolism]] may be involved. Ketogenic diets are high in [[fat]] and extremely low in [[carbohydrate]]s, with intake of fluids often limited. This treatment, originated as early as the 1920s at [[Johns Hopkins Hospital|Johns Hopkins Medical Center]], was largely abandoned with the discovery of modern anti-epileptic drugs, but recently has returned to the anti-epileptic treatment arsenal. Ketogenic diets are sometimes prescribed in severe cases where drugs have proven ineffective.
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| A [http://www.hopkinsmedicine.org/press/1998/DECEMBER/981207.HTM study conducted by Johns Hopkins] reported that 50% of those patients starting the Ketogenic diet reported a decrease in seizures of 50% or more, with 29% of patients reporting a 90% reduction in symptoms; these patients had previously tried an average of six anticonvulsant drugs.
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| [[Vagus nerve stimulation]] (VNS) is a recently developed form of seizure control which uses an implanted electrical device, similar in size, shape and implant location to a [[heart pacemaker]], which connects to the [[vagus nerve]] in the [[neck]]. Once in place the device can be set to emit electronic pulses, stimulating the vagus nerve at pre-set intervals and milliamp levels. Treatment studies have shown that approximately 50% of those treated in this fashion will show significant seizure reduction.
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| The Responsive Neurostimulator System (RNS) is currently undergoing clinical study prior to FDA approval. This system relies upon a device implanted just under the scalp. The leads attached to the device are implanted either on the brain surface or in the brain area itself and are located close to the area where the seizures are believed to start. When a seizure begins, an electrical shock is delivered to suppress it. This system is different from the VNS system in that the RNS relies on direct brain stimulation and the RNS is a responsive system. The VNS pulses at predetermined intervals previously set by medical personnel. The RNS system responds to detected signs that a seizure is about to begin and can record events and allow customized response patterns which may provide a greater degree of seizure control.
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| A [[seizure response dog]] is a form of service dog that is trained to summon help or ensure personal safety when a seizure occurs. These are not suitable for everybody and not all dogs can be so trained. Rarely, a dog may develop the ability to sense a seizure before it occurs.<ref>{{cite news
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| | first = Marianne
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| | last = Barriaux
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| | title = Dogs trained to warn of an imminent epileptic fit
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| | url = http://business.guardian.co.uk/story/0,,1923146,00.html
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| | publisher = The Guardian
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| | date = [[2006-10-16]]
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| | accessdate = 2006-11-24
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| }}</ref>
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| A number of [[systematic review]]s by the [[Cochrane Collaboration]] into treatments for epilepsy looked at [[acupuncture]],<ref name="Cheuk2006">{{cite journal
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| | author=Cheuk D, Wong V
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| | title=Acupuncture for epilepsy
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| | journal=Cochrane Database Syst Rev
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| | year=2006
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| | pages=CD005062
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| | issue=2
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| | id=PMID 16625622}}
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| </ref> [[psychological]] interventions,<ref name="Ramaratnam2005">{{cite journal
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| | author=Ramaratnam S, Baker GA, Goldstein LH
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| | title=Psychological treatments for epilepsy
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| | journal=Cochrane Database Syst Rev
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| | year=2005
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| | pages=CD002029
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| | issue=4
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| | id=PMID 16235293}}
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| </ref> [[vitamins]]<ref name="Ranganathan2005">{{cite journal
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| | author=Ranganathan LN, Ramaratnam S
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| | title=Vitamins for epilepsy
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| | journal=Cochrane Database Syst Rev
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| | year=2005
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| | pages=CD004304
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| | issue=2
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| | id=PMID 15846704}}
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| </ref> and [[yoga]]<ref name="Ramaratnam2000">{{cite journal
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| | author=Ramaratnam S, Sridharan K
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| | title=Yoga for epilepsy
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| | journal=Cochrane Database Syst Rev
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| | year=2000
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| | pages=CD001524
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| | issue=3
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| | id=PMID 10908505}}
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| </ref> and found there is no reliable [[Evidence-based medicine|evidence]] to support the use of these as treatments for epilepsy. Further studies are needed on the subject.
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| ==Electrophysiology==
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| <p>Most epileptics seize without warning, and their seizures can have dangerous or fatal consequences, if they come at a bad time and lead to an accident. In the brain, identifiable electrical changes precede the clinical onset of a seizure by tens of seconds, and these changes can be recorded in an [[electroencephalogram]] ([[EEG]]). Many people have wondered if EEG’s might be used to predict seizures minutes or even hours ahead of time, but as of now, this sort of prediction has not been feasible. Many researchers are working, however, to create a system capable of detecting seizures before they clinically manifest themselves.
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| <p>The early detection of a seizure has many potential benefits. Advanced warning would allow patients to take action to minimize their risk of injury and, in some circumstances, would allow them to summon help. An automatic detection system could also be made to trigger pharmacological intervention in the form of fast-acting drugs or [[electrical stimulation]].
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| <p>It is relatively easy to place the [[electrodes]] needed to record an EEG, but it has not been so easy to develop an [[algorithm]] to detect the onset of a seizure. For any given patient, assuming his or her seizures originate in one focus, seizure-onset EEG patterns are largely conserved from one seizure episode to the next. Unfortunately, there is great EEG variation between patients, both in terms of baseline and in terms of seizure-onset patterns. This variation has made the development of a generic, “one-size-fits-all” algorithm difficult.
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| <p>Patient-specific algorithms based on [[machine learning]] have shown more promise. Machine learning algorithms compute [[binary decision trees]] from manually labeled training sets of data. EEG data must be translated into a format that the computer can interpret. Important information must be kept while superfluous information must be discarded. Although there are many conceivable ways of performing this “[[feature extraction]],” wavelet decomposition seems to be an effective way of extracting pertinent information from EEG signals.
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| <p>The training set for the machine-learning algorithm must be labeled by hand. For an algorithm being developed by Dr. Schachter and Prof. Guttag of MIT, EEG recordings are split into two-second time windows, and each window is labeled as “seizure onset” or “not seizure onset.”
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| <p>The algorithm then takes the labeled training set and uses it to construct a decision tree capable of classifying unlabeled EEG patterns as “seizure onset” or “not seizure onset.” The training set is unavoidably unbalanced because most time windows do not involve seizures. Certain algorithms, such as the support vector machine algorithm chosen by Schachter and Guttag, are better suited than others to handle this unbalanced training set.
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| <p>In the hospital, the patient-specific algorithm of Schachter and Guttag has worked fairly well. In one trial, it detected 131 out of 139 seizures in 36 patients. In another, it caught 53 out of 58 seizures. The algorithm outperformed generic algorithms.
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| <p>In the future, Dr. Schachter and Prof. Guttag hope to improve their algorithm so that it is less sensitive to electrode placement and so that it functions effectively with input from fewer electrodes and with smaller training sets. Their goal is to create an unobtrusive device that can be worn continually by epileptics to detect impending seizures. Such a device would greatly enhance the ability of these people to safely go about their lives.
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| ==Pathophysiology==
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| [[Mutation]]s in several [[gene]]s have been linked to some types of epilepsy. Several genes that code for [[protein]] subunits of [[voltage-gated ion channel|voltage-gated]] and [[ligand-gated ion channel|ligand-gated]] [[ion channel]]s have been associated with forms of generalized epilepsy and infantile seizure syndromes.<ref name="JClinInvestigation2005-Miriam>{{cite journal | author=Miriam H. Meisler and Jennifer A. Kearney | title=Sodium channel mutations in epilepsy and other neurological disorders | journal=Journal of Clinical Investigation | volume=115 | issue=8 | year=2005 | pages=2010–2017 | id=PMID 16075041 {{Doi|10.1172/JCI25466}}}}</ref> Several ligand-gated ion channels have been linked to some types of frontal and generalized epilepsies. Epilepsy-related mutations in some non-ion channel genes have also been identified.
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| One interesting finding in animals is that repeated low-level electrical stimulation to some brain sites can lead to permanent increases in seizure susceptibility: in other words, a permanent decrease in seizure "threshold." This phenomenon, known as kindling (by analogy with the use of burning twigs to start a larger fire) was discovered by Dr. Graham Goddard in 1967. Chemical stimulation can also induce seizures; repeated exposures to some pesticides have been shown to induce seizures in both humans and animals. One mechanism proposed for this is called [[excitotoxicity]]. The roles of kindling and excitotoxicity, if any, in human epilepsy are currently hotly debated.
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| Other causes of epilepsy are brain lesions, where there is scar tissue or another abnormal mass of tissue in an area of the brain.
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| ==History and stigma==
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| The word '''epilepsy''' is derived from the Greek ''epilepsia'', which in turn can be broken in to ''epi-'' (upon) and ''lepsis'' (to take hold of, or seizure)<ref name="etymology">{{cite web
| |
| | last =Harper
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| | first =Douglas
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| | year = 2001
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| | url =http://www.etymonline.com/index.php?term=epilepsy
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| | title =epilepsy
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| | work =Online Etymological Dictionary
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| | accessdate =2005-06-05
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| }}</ref> In the past, epilepsy was associated with religious experiences and even demonic possession. In ancient times, epilepsy was known as the "Sacred Disease" because people thought that epileptic seizures were a form of attack by demons, or that the visions experienced by persons with epilepsy were sent by the gods. Among animist Hmong families, for example, epilepsy was understood as an attack by an evil spirit, but the affected person could become revered as a shaman through these otherworldly experiences.[http://www.epilepsy.com/articles/ar_1063680870.html]
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| However, in most cultures, persons with epilepsy have been stigmatized, shunned, or even imprisoned; in the Salpêtrière, the birthplace of modern neurology, [[Jean-Martin Charcot]] found people with epilepsy side-by-side with the mentally retarded, those with chronic [[syphilis]], and the criminally insane. In Tanzania to this day, as with other parts of Africa, epilepsy is associated with possession by evil spirits, witchcraft, or poisoning and is believed by many to be contagious.<ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10080524&dopt=Abstract Morbus sacer in Africa: some religious aspects of epilepsy in traditional cultures.] Jilek-Aall L. PMID: 10080524 Retrieved 8 October 2006. </ref> In ancient Rome, epilepsy was known as the ''Morbus Comitialis'' ('disease of the assembly hall') and was seen as a curse from the gods.
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| Stigma continues to this day, in both the public and private spheres, but polls suggest it is generally decreasing with time, at least in the developed world; [[Hippocrates]] remarked that epilepsy would cease to be considered divine the day it was understood.<ref name="Hippocrates">Hippocrates [http://quote.wikipedia.org/wiki/Hippocrates quotes]</ref>
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| ==Notable people with epilepsy==
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| {{Main|List of people with epilepsy}}
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| Many notable people, past and present, have carried the diagnosis of epilepsy. In many cases, their epilepsy is a footnote to their accomplishments; for some, it played an integral role in their fame. Historical diagnoses of epilepsy are not always certain; there is controversy about what is considered an acceptable amount of evidence in support of such a diagnosis.
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| ==Legal implications==
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| Most people diagnosed with epilepsy are forbidden by their local laws from operating vehicles. However, there are usually exceptions for those who can prove that they have stabilized their condition. Those few whose seizures do not cause impairment of consciousness, or whose seizures only arise from sleep, may be exempt from such restrictions, depending on local laws. There is an ongoing debate in [[bioethics]] over ''who'' should bear the burden of ensuring that an epilepsy patient does not drive a car or fly an airplane.
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| In the U.S., people with epilepsy can drive if their seizures are controlled with treatment and they meet the licensing requirements in their state. How long they have to be free of seizures varies in different states, but it is most likely to be between three months and a year.<ref name="EpilepsyFndtn-Driving">Epilepsy Foundation
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| [http://www.epilepsyfoundation.org/answerplace/Social/driving/drivingu.cfm Driving and You - Can you drive an automobile if you have epilepsy?].</ref><ref name="EpilepsyFndtn-StateLaws">Epilepsy Foundation [http://www.epilepsyfoundation.org/living/wellness/transportation/drivinglaws.cfm Driver Information by State]</ref> The majority of the 50 states place the burden on patients to report their condition to appropriate licensing authorities so that their privileges can be revoked where appropriate. A minority of states (including California) place the burden of reporting on the patient's physician. After reporting is carried out, it is usually the driver's licensing agency that decides to revoke or restrict a driver's license.
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| In the UK, it is the responsibility of the patients to inform the Driver and Vehicle Licensing Agency (DVLA) if they have epilepsy.<ref name ="UKEpilepsy-Driving">UK [[Epilepsy Action]]: Driving and Epilepsy, [http://www.epilepsy.org.uk/info/driving_seizure.html I've had a seizure. What should I do?]</ref> The DVLA rules are quite complex,<ref name="DVLA-Driving">UK Driver and Vehicle Licensing Agency [http://www.dvla.gov.uk/at_a_glance/content.htm Guide to the Current Medical Standards Of Fitness to Drive]. Full details for doctors regarding epilepsy are given in the [http://www.dvla.gov.uk/at_a_glance/ch1_neurological.htm#appendix Appendix]. Information for drivers can be found in [http://www.dvla.gov.uk/drivers/dmed1_files/group1.htm#nc Medical Rules - Group 1 Licence Holders]</ref> but in summary,<ref name="UKEpilepsyActionBooklet">UK Epilepsy Action: booklet with further details about driving [http://www.epilepsy.org.uk/downloads/pdf/epilepsyaction_driving.pdf PDF]</ref> those continuing to have seizures or who are within 6 months of medication change may have their licence revoked. A doctor who becomes aware that a patient with uncontrolled epilepsy is continuing to drive has, after reminding the patient of their responsibility, a duty to break confidentiality and inform the DVLA. The doctor should advise the patient of the disclosure and the reasons why their failure to notify the agency obliged the doctor to act.
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| ==Important investigators of epilepsy==
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| *[[Jean-Martin Charcot]]
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| *John Hughlings Jackson
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| *Hans Berger
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| *[[Herbert Jasper]]
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| *[[Wilder Penfield]]
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| *[[H. Houston Merritt]]
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| *[[William G. Lennox]]
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| ==See also==
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| *[[Seizure]] | | *[[Seizure]] |
| *[[Non-epileptic seizures]] | | *[[Non-epileptic seizures]] |
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| *[[Generalised epilepsy]] | | *[[Generalised epilepsy]] |
| *[[ISAS (Ictal-Interictal SPECT Analysis by SPM)]] | | *[[ISAS (Ictal-Interictal SPECT Analysis by SPM)]] |
|
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| ==Notes and references==
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| ==External Links== | | ==External Links== |
| ===Patient Resources=== | | ===Professional Resources=== |
| *[http://www.epilepsy.org.uk/info/index.html Epilepsy information and advice] from [[Epilepsy Action]].
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| *[http://www.ninds.nih.gov/disorders/epilepsy/epilepsy.htm Epilepsy Information Page] from the [[National Institute of Neurological Disorders and Stroke]].
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| *[http://www.nlm.nih.gov/medlineplus/epilepsy.html Health Topics: Epilepsy] from [[MedlinePlus]].
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| *[http://www.epilepsy.com/ Epilepsy.com] from the [http://www.epilepsytdp.org/ Epilepsy Therapy Development Project].
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| *[http://www.epilepsynse.org.uk/pages/info/leaflets/index.cfm Information on epilepsy] from the [[National Society for Epilepsy]].
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| *[http://www.epilepsyfoundation.org/answerplace/ Answerplace] from the [http://www.epilepsyfoundation.org/ Epilepsy Foundation].
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| <!-- Please keep this list very short. The above set contains those that are particularly comprehensive. -->
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| ===Professional resources===
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| *[http://www.ilae.org International League Against Epilepsy]. | | *[http://www.ilae.org International League Against Epilepsy]. |
| *[http://www.e-epilepsy.org.uk/ e-epilepsy] from the [[National Society for Epilepsy]]. | | *[http://www.e-epilepsy.org.uk/ e-epilepsy] from the [[National Society for Epilepsy]]. |
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| *[[Epilepsy Currents]] from [http://www.pubmedcentral.nih.gov/tocrender.fcgi?journal=201&action=archive PubMed Central] | | *[[Epilepsy Currents]] from [http://www.pubmedcentral.nih.gov/tocrender.fcgi?journal=201&action=archive PubMed Central] |
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| ===Lists of organizations=== | | ===Lists of Organizations=== |
| Many organisations provide regional support for those with epilepsy, their families and professionals in the field. Lists of such groups can be found at: | | Many organisations provide regional support for those with epilepsy, their families and professionals in the field. Lists of such groups can be found at: |
| *[http://www.epilepsy.com/epilepsy/epilepsy_websites.html Epilepsy.com: Epilepsy Websites]. | | *[http://www.epilepsy.com/epilepsy/epilepsy_websites.html Epilepsy.com: Epilepsy Websites]. |
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| {{Diseases of the nervous system}} | | {{Diseases of the nervous system}} |
| {{SIB}}
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| [[Category:Medical terms]]
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| [[Category:Neurological disorders]]
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| [[Category:Neurology]]
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| [[Category:Epilepsy|*]]
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| [[Category:Greek loanwords]]
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| [[Category:Signs and symptoms]]
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| {{Link FA|de}}
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| [[ar:صرع]]
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| [[bn:মৃগী]]
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| [[bs:Epilepsija]]
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| [[br:Drougsant]]
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| [[bg:Епилепсия]]
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| [[cs:Epilepsie]]
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| [[da:Epilepsi]]
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| [[de:Epilepsie]]
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| [[et:Epilepsia]]
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| [[es:Epilepsia]] | | [[es:Epilepsia]] |
| [[eo:Epilepsio]]
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| [[eu:Epilepsia]]
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| [[fr:Épilepsie]] | | [[fr:Épilepsie]] |
| [[gl:Epilepsia]]
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| [[hr:Epilepsija]]
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| [[io:Epilepsio]]
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| [[id:Epilepsi]]
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| [[it:Epilessia]]
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| [[he:כפיון]]
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| [[ku:Epîlepsî]]
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| [[lt:Epilepsija]]
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| [[hu:Epilepszia]]
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| [[nl:Epilepsie]]
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| [[ja:てんかん]] | | [[ja:てんかん]] |
| [[no:Epilepsi]]
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| [[pl:Padaczka]] | | [[pl:Padaczka]] |
| [[pt:Epilepsia]] | | [[pt:Epilepsia]] |
| [[ru:Эпилепсия]] | | [[ru:Эпилепсия]] |
| [[sq:Epilepsia]]
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| [[simple:Epilepsy]]
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| [[sk:Epilepsia]]
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| [[sl:Epilepsija]]
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| [[sr:Епилепсија]]
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| [[fi:Epilepsia]]
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| [[sv:Epilepsi]]
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| [[tr:Epilepsi]] | | [[tr:Epilepsi]] |
| [[zh:癫痫]] | | [[zh:癫痫]] |
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| {{WikiDoc Help Menu}} | | {{WikiDoc Help Menu}} |
| {{WikiDoc Sources}} | | {{WikiDoc Sources}} |
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| | [[Category:Neurological disorders]] |
| | [[Category:Neurology]] |
| | [[Category:Epilepsy]] |
| | [[Category:Pediatrics]] |
| | [[Category:Emergency medicine]] |