Paradigm shifts in epilepsy genetics – continuing the ILAE genetic literacy series

Genetic literacy. Sometimes important milestones don’t feel like much when you eventually reach them. Last Thursday, I woke up sleep-deprived after working on a grant all night and found an NCBI update in my mailbox. Primer Part 2 of the genetic literacy series of ILAE Genetics Commission was now published in Epilepsia and available on PubMed. Finally, both the introductory primers of the genetic literacy series are out – Part 1 dealing with the building blocks including general concepts of epilepsy genetics and epidemiology and now Part 2 about the paradigm shifts that were introduced with the advent of massive parallel sequencing. Both publications were revised and re-written over and over again to fit the overall didactic mission of the literacy series, an effort that takes approximately 10x as long as writing a typical review. But finally, as of May 10, 2018, both Primers are now in their final shape, published and open access to the international epilepsy community. And here is just a quick overview of what this paradigm shift is really about. Continue reading

Not only de novo after all: the role of parental mosaicism in genetic epilepsies

Conventional wisdom. Trio whole exome sequencing has been successful over the last five years in identifying underlying genetic etiologies in nearly 50% of patients with epileptic encephalopathies, which is largely owing to the genetic architecture of these conditions. The vast majority of these genetic epilepsies are caused by apparent de novo variants that are present in the patient but not in the mother or father. The conventional wisdom is that the recurrence risk in future pregnancies for parents of an affected child is low to non-existent and traditionally we have quoted a ~1% recurrence risk for future pregnancies. However, a new study published in the New England Journal of Medicine turns this conventional wisdom on its head, identifying detectable somatic mosaicism in approximately 10% of parents tested, which has implications for how we counsel families of children with epileptic encephalopathies – and potentially other genetic conditions due to de novo variants as well. Continue reading