PLoS ONE (Jan 2014)

MR-based morphometry of the posterior fossa in fetuses with neural tube defects of the spine.

  • Ramona Woitek,
  • Anton Dvorak,
  • Michael Weber,
  • Rainer Seidl,
  • Dieter Bettelheim,
  • Veronika Schöpf,
  • Gabriele Amann,
  • Peter C Brugger,
  • Julia Furtner,
  • Ulrika Asenbaum,
  • Daniela Prayer,
  • Gregor Kasprian

DOI
https://doi.org/10.1371/journal.pone.0112585
Journal volume & issue
Vol. 9, no. 11
p. e112585

Abstract

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ObjectivesIn cases of "spina bifida," a detailed prenatal imaging assessment of the exact morphology of neural tube defects (NTD) is often limited. Due to the diverse clinical prognosis and prenatal treatment options, imaging parameters that support the prenatal differentiation between open and closed neural tube defects (ONTDs and CNTDs) are required. This fetal MR study aims to evaluate the clivus-supraocciput angle (CSA) and the maximum transverse diameter of the posterior fossa (TDPF) as morphometric parameters to aid in the reliable diagnosis of either ONTDs or CNTDs.MethodsThe TDPF and the CSA of 238 fetuses (20-37 GW, mean: 28.36 GW) with a normal central nervous system, 44 with ONTDS, and 13 with CNTDs (18-37 GW, mean: 24.3 GW) were retrospectively measured using T2-weighted 1.5 Tesla MR -sequences.ResultsNormal fetuses showed a significant increase in the TDPF (r = .956; pConclusionsThe skull base morphology in fetuses with ONTDs differs significantly from cases with CNTDs and normal controls. This is the first study to show that the CSA changes during gestation and that it is a reliable imaging biomarker to distinguish between ONTDs and CNTDs, independent of the morphology of the spinal defect.