INTRODUCTION: Chiari type II malformation (CMII) is one of three hindbrain malformations that display hydrocephalus. We have observed that cerebrospinal fluid (CSF) signal in the posterior fossa, which is always apparent on normal fetal MR images, is not visible in a fetus with CMII. We use the term 'tight posterior fossa' for this MR imaging finding, and evaluate the diagnostic value of this finding on fetal MR images. METHODS: Included in the study were 21 fetuses which underwent brain MR imaging at 1.5 T using two-dimensional balanced turbo-field-echo (2-D balanced-TFE) in the axial and sagittal planes. Postnatal diagnoses were CMII (n=5), CNS abnormalities other than CMII (n=8), and no abnormality (n=8). A tight posterior fossa was defined as an absent or slit-like water signal space around the hindbrain in the posterior fossa on both sagittal and axial MR images. RESULTS: All CMII fetuses displayed a tight posterior fossa on MR images. Hydrocephalus was visualized in all CMII fetuses and myelomeningocele in four fetuses, but hindbrain herniation was visualized only in two of five fetuses. The CSF signal surrounding the hindbrain was clearly visible in all the other 16 fetuses, including five with hydrocephalus not associated with CMII, although it was slightly narrower in a fetus with a cloverleaf skull than in the normal fetuses. CONCLUSION: Tight posterior fossa in the presence of hydrocephalus is a useful and characteristic finding of CMII on fetal MRI.
INTRODUCTION:Chiari type II malformation (CMII) is one of three hindbrain malformations that display hydrocephalus. We have observed that cerebrospinal fluid (CSF) signal in the posterior fossa, which is always apparent on normal fetal MR images, is not visible in a fetus with CMII. We use the term 'tight posterior fossa' for this MR imaging finding, and evaluate the diagnostic value of this finding on fetal MR images. METHODS: Included in the study were 21 fetuses which underwent brain MR imaging at 1.5 T using two-dimensional balanced turbo-field-echo (2-D balanced-TFE) in the axial and sagittal planes. Postnatal diagnoses were CMII (n=5), CNS abnormalities other than CMII (n=8), and no abnormality (n=8). A tight posterior fossa was defined as an absent or slit-like water signal space around the hindbrain in the posterior fossa on both sagittal and axial MR images. RESULTS: All CMII fetuses displayed a tight posterior fossa on MR images. Hydrocephalus was visualized in all CMII fetuses and myelomeningocele in four fetuses, but hindbrain herniation was visualized only in two of five fetuses. The CSF signal surrounding the hindbrain was clearly visible in all the other 16 fetuses, including five with hydrocephalus not associated with CMII, although it was slightly narrower in a fetus with a cloverleaf skull than in the normal fetuses. CONCLUSION: Tight posterior fossa in the presence of hydrocephalus is a useful and characteristic finding of CMII on fetal MRI.
Authors: Sara C Chen; Erin M Simon; John C Haselgrove; Larissa T Bilaniuk; Leslie N Sutton; Mark P Johnson; David M Shera; Robert A Zimmerman Journal: Radiology Date: 2006-03 Impact factor: 11.105
Authors: Giuseppe Cinalli; Pietro Spennato; Christian Sainte-Rose; Eric Arnaud; Ferdinando Aliberti; Francis Brunelle; Emilio Cianciulli; Dominique Renier Journal: Childs Nerv Syst Date: 2005-05-05 Impact factor: 1.475
Authors: Nada Mufti; Adalina Sacco; Michael Aertsen; Fred Ushakov; Sebastian Ourselin; Dominic Thomson; Jan Deprest; Andrew Melbourne; Anna L David Journal: Neuroradiology Date: 2021-11-18 Impact factor: 2.804