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Is Epilepsy Inherited? A Guide for Patients and their Families

Evan J. Fertig, MD. Is Epilepsy Inherited? A Guide for Patients and their Families. Introduction. A common question is epilepsy inherited? How and when? Genetics is “the study of heredity” This talk will therefore be about the genetics of epilepsy. Overview.

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Is Epilepsy Inherited? A Guide for Patients and their Families

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  1. Evan J. Fertig, MD Is Epilepsy Inherited?A Guide for Patients and their Families

  2. Introduction • A common question is epilepsy inherited? How and when? • Genetics is “the study of heredity” • This talk will therefore be about the genetics of epilepsy

  3. Overview • A Brief History of Epilepsy Genetics • Basic concepts of genetics • What are my child’s chances of getting epilepsy? • Genetic Testing. Worth it? • The future: Pharmacogenetics

  4. The first question: Why do we think Epilepsy has aGenetic Basis?

  5. History of Epilepsy Genetics Hippocrates (400 B.C.E.) On the Sacred Disease Recognized epilepsy could be inherited Through history this has been another burden for person w epilepsy

  6. Photograph and EEG of Constance and Kathryn, identical twins both w/ childhood absence epilepsy, both with seizure onset at age 6 years! Vadlamudi, L. et al. Neurology 2004;62:1127-1133

  7. Concordance rate for epilepsy inIDENTICAL vs. FRATERNAL Twins publications.nigms.nih.gov essexcc.gov.uk Henriksen, Corey et al. Epilepsia 1999 -Data combined from US and Norwegian Twin Registries

  8. Risk for epilepsy in children of parents with epilepsy (any type)

  9. SOME BASICS Of GENETICS

  10. Peas, Genes, and DNA 1953 1856

  11. The Structure of the Genome Genome Chromosome GENE davidmaybury.ie http://

  12. Genes, Protein, and Disease Protein Gene Cell Mutation Neuron Nih.gov

  13. What We Know Today • Epilepsy frequently does have a genetic basis • Hundreds of inherited conditions have seizures as feature • Only a few of these conditions have seizures as their ONLY feature

  14. How do Genetic Factors cause Epilepsy? • Chromosomal abnormalities • Genes involved in BRAIN FORMATION (migration) • Genes involved in BRAIN METABOLISM • Genes involved in BRAIN COMMUNICATION (ion channel function)

  15. Chromosomal Abnormalities

  16. Chromosome Abnormality http://ghr.nlm.nih.gov/handbook/illustrations/ringchromosome.jpg

  17. Brain Formation: Genes are GPS for the Developing Brain eurekalert.org

  18. Brain Communication http://www.niaaa.nih.gov/NR/rdonlyres/9E5D5B9F-C28E-49F2-A925-33886A82E4D5/0/synapsebetween_neurons.gif

  19. Brain Metabolism Gene (DNA) Enzyme Substrate, eg. Fat Mutation Toxic Metabolite

  20. So, how is Epilepsy Inherited? Vs. SIMPLE INHERITANCE With “STRONG” GENES COMPLEX INHERITANCE With “WEAK” GENES

  21. “Strong” Genes • Are biologically very important. Therefore “bad” strong genes have obviously “bad” effects • Strong Genes are rare • However when they occur in a family, the can occur very commonly in the family tree

  22. Simple Inheritance (Mendel) shinerama.naitsa.ca

  23. Epilepsy Genes and Simple Inheritance • There are very few “strong” epilepsy genes out there (sharks) • Over 10 have been identified to date • “Strong” genes account for very few cases of epilepsy

  24. Known Major Epilepsy Genes

  25. Weak Genes and Complex Inheritance • Weak genes may not be powerful enough to cause epilepsy alone, but may be an influencing factor, with other genes or environment stimuli • “Runs in the Family” • Most medical diseases, e.g. high blood pressure

  26. Reasons for Complex Inheritance • No single gene causes the disease in the family • Many bad “weak” genes cause the disease • School of piranha • Ion channel polymorphisms and idiopathic generalized epilepsy • Environmental factors contribute • Smoking with alpha-1-antitrypsin mutation increases risk of early emphysema

  27. OK BUT WHAT’s My Child’s Risk of Epilepsy?

  28. What does this all mean for the patient with epilepsy? Question: Can predict if a child will have epilepsy? Answer: Most times we can only give very rough odds

  29. Case study: Counseling risk • 33 year old woman with epilepsy is planning to get pregnant, but she first wants to know… • “What’s the chance my child will have seizures?” Winawer, Epilepsia, 2005

  30. Assessing Risk: Patient FactorsExclude Non-Genetic Causes of Epilepsy • Central nervous system infection • Stroke • Brain Trauma • Alcohol • Brain tumors • Degenerative Disease (Parkinson’s Disease) • Static Conditions from birth Hauser WA, Epilepsia, 1993;34:453-68.

  31. Classification of Seizures Generalized Focal Focus

  32. Patient Factors: Determine Seizure Type and Epilepsy Syndrome • She first noted bilateral muscle jerks riding on a school bus at age 15 • First GTC at age 16 preceded by jerks • Normal exam • Generalized polyspike wave on EEG superimposed on normal background • Epilepsy well-controlled on LTG DIAGNOSIS?

  33. Assessing Risk: Family Factors Questions to ask about family members with epilepsy 1) Seizure type or types 2) Triggering factors (fever, alcohol) 3) Other nongenetic risk factors 4) Age of onset Winawer, Epilepsia, 2005

  34. Case study: Family History GTC upon awakening Juvenile Myoclonic Epilepsy Winawer, Epilepsia, 2004

  35. Genetic risk to offspringRisk Factors based on Parent • Parent Gender: • Maternal effect (2.8-8.7%) • Father (1.0-3.6%) • Age of onset • < 20 (2-6%) • 20+ (1.0-2.8%) • Increases with # of affected • Generalized spike wave on EEG (4-6%) Winawer, Epilepsia, 2004

  36. Effect of Parent Seizure Type Winawer, Shinnar 2005

  37. So what do we tell her? • Generalized epilepsy, Juvenile Myoclonic Epilepsy • A remote relative has IGE, no first degree relatives: Likely Complex • Gene testing not possible at this point for syndromes with complex inheritance Winawer, 2004

  38. The bottom line…. • Population risk to offspring: 1% • Patient factors • Mom has epilepsy: 6% • Early onset: 6% • GSW EEG: 6% • Myoclonic Seizures: 4-8% • > 90% chance child will be seizure free

  39. Mom has another question… • “If my child gets epilepsy, will it be worse than mine? Will she be developmentally delay from the epilepsy? • Does epilepsy syndrome “breed true”?

  40. Identical vs. Fraternal twins Identical Twins • 29 twins had epilepsy • 25/29 had same type of epilepsy • Fraternal Twins • 11 concordant for epilepsy • 1/11 concordant for seizure type and syndrome Henriksen, Corey et al. Epilepsia 1999 -from Shlomo Shinnar, AES, 2004

  41. Epilepsy Syndromes in Concordant and Discordant Identical Twins Henriksen, Corey et al. Epilepsia 1999 -from Shlomo Shinnar, AES, 2004

  42. Epilepsy Syndrome, Same or Different in a Child? • Syndromes do not always “breed true” but most often do! • The most heritable epilepsies tend also to be benign (childhood absence epilepsy)

  43. Exceptions to be aware of….. • Tuberous Sclerosis • Rare genetic cause of epilepsy w/ other features • Child can be more severely affected than the parent

  44. GENETIC TESTING

  45. Role of Genetic Testing • There are no official guidelines for when and who should be tested • Most often there is complex inheritance and there is no definite genetic test to send • Many genetic tests are very expensive and may not be covered by insurance

  46. Role of Genetic Testing (Continued) • Patients with epilepsy associated with developmental delays or other features may benefit from other types of genetic test: • Microscopic examination of the chromosomes • Metabolic tests- Blood tests to see how some genes are functioning • MRI and other clinical features might suggest other genetic tests

  47. Role of Genetic Tests • For some patients, genetic testing is very important • To help guide medical therapy (eg, decide what drugs to avoid) • Determine the long term prognosis • Family planning

  48. GENETICS ANDTHERAPY

  49. Pharmacogenetics: The Future • Initiating seizure medications • What drug? • What dose? • New onset epilepsy: 40-50% won’t respond to seizure medication • Pharmacogenetics- Use individual genetic variation to predict response

  50. How Pharmacogenetics works in theory • Genes influence how well each seizure medication “bind” to their targets (where they work) in the brain • Genes (eg. in the liver) influence how much seizure medication reaches the brain • Too little: Seizures • Too much: Side effects

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