PURPOSE: There is mounting evidence that a prolonged febrile seizure (PFS) can cause acute hippocampal edema although the nature of that edema remains uncertain. The principal aims of the current study were: (1) to use apparent diffusion coefficient (ADC) measurements to further characterize the hippocampal edema previously identified within 5 days of a PFS, and (2) to determine whether the age dependency of ADC in the hippocampus is different in patients when compared to a control population following a PFS. METHODS: Diffusion weighted imaging was acquired in 23 children within 5 days of a PFS, and in 14 of these children a mean of 5.5 months later. Twenty-four control children were enrolled. RESULTS: There was a reduction in ADC between the acute and follow-up investigations [mean reduction = 0.0072 mm2/s/month since PFS (95% confidence interval; 0.0001-0.014 mm2/s/month since PFS), p = 0.048] consistent with early vasogenic edema, followed by recovery in children investigated within 2 days of a PFS. In addition, the behavior of ADC with respect to age was different in patients when compared to control subjects [mean difference in slope =-0.155 mm2/s/log10 age (95% confidence interval; -0.290-0.0203 mm2/s/log10 age), p = 0.029], in that the expected age dependence was observed only in the control subjects. CONCLUSION: We suggest that these latter findings are most consistent with a preexisting developmental hippocampal abnormality that may predispose individuals to having a PFS.
PURPOSE: There is mounting evidence that a prolonged febrile seizure (PFS) can cause acute hippocampal edema although the nature of that edema remains uncertain. The principal aims of the current study were: (1) to use apparent diffusion coefficient (ADC) measurements to further characterize the hippocampal edema previously identified within 5 days of a PFS, and (2) to determine whether the age dependency of ADC in the hippocampus is different in patients when compared to a control population following a PFS. METHODS: Diffusion weighted imaging was acquired in 23 children within 5 days of a PFS, and in 14 of these children a mean of 5.5 months later. Twenty-four control children were enrolled. RESULTS: There was a reduction in ADC between the acute and follow-up investigations [mean reduction = 0.0072 mm2/s/month since PFS (95% confidence interval; 0.0001-0.014 mm2/s/month since PFS), p = 0.048] consistent with early vasogenic edema, followed by recovery in children investigated within 2 days of a PFS. In addition, the behavior of ADC with respect to age was different in patients when compared to control subjects [mean difference in slope =-0.155 mm2/s/log10 age (95% confidence interval; -0.290-0.0203 mm2/s/log10 age), p = 0.029], in that the expected age dependence was observed only in the control subjects. CONCLUSION: We suggest that these latter findings are most consistent with a preexisting developmental hippocampal abnormality that may predispose individuals to having a PFS.
Authors: Jeremy M Barry; ManKin Choy; Celine Dube; Ashlee Robbins; Andre Obenaus; Pierre Pascal Lenck-Santini; Rod C Scott; Tallie Z Baram; Gregory L Holmes Journal: Exp Neurol Date: 2015-05-01 Impact factor: 5.330
Authors: Darrell V Lewis; Shlomo Shinnar; Dale C Hesdorffer; Emilia Bagiella; Jacqueline A Bello; Stephen Chan; Yuan Xu; James MacFall; William A Gomes; Solomon L Moshé; Gary W Mathern; John M Pellock; Douglas R Nordli; L Matthew Frank; James Provenzale; Ruth C Shinnar; Leon G Epstein; David Masur; Claire Litherland; Shumei Sun Journal: Ann Neurol Date: 2014-03-01 Impact factor: 10.422
Authors: Dale C Hesdorffer; Emma K T Benn; Emilia Bagiella; Douglas Nordli; John Pellock; Veronica Hinton; Shlomo Shinnar Journal: Ann Neurol Date: 2011-03-17 Impact factor: 10.422
Authors: Michael Yoong; Marina M Martinos; Richard F Chin; Christopher A Clark; Rodney C Scott Journal: Epilepsia Date: 2013-10-28 Impact factor: 5.864