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Pediatric Radiology
Published in: Pediatric Radiology 7/2020

01-06-2020 | Dandy-Walker Syndrome | Original Article

The fetal falx cerebelli

Authors: Matthew T. Whitehead, Gilbert Vezina

Published in: Pediatric Radiology | Issue 7/2020

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Abstract

Background

The falx cerebelli is a retrocerebellar dural reflection. The MR spectrum of the fetal falx cerebelli has not been described.

Objective

To determine the prevalence of falx cerebelli abnormalities in the context of posterior fossa malformations and compare them to age-matched normal fetal MRI exams.

Materials and methods

We reviewed all consecutive fetal MRIs performed over 1 year at a children’s hospital. We assessed the falx cerebelli in each examination for location, morphology, size and number. Exams were grouped into (1) normal or non-brain/head abnormalities or (2) abnormal brain or craniofacial structures. We used chi square, linear regression and logistic regression analyses; P<0.05 was considered significant.

Results

We included 424 examinations (223 controls, 201 malformations) from 378 patients (mean gestational age 27±6 weeks). In the control group, the mean falx size was 2.6±1.2 mm (anteroposterior) × 11.0±3.2 mm (craniocaudal), with 80% retrovermian centered; the falx was linear (23%), Y-shape (15%), V-shape (22%) or U-shape (21%); it was unusually multiplicated (17%) or absent (<2%). Falx cerebellar abnormalities were more common in abnormal exams (59%; 119/201) than in normal exams (19%; 43/223) (P<0.001). The falx was abnormal with Blake pouch cysts (9/9, 100%) and rhombencephalosynapsis (3/4, 75%), absent in all Chiari II (n=9) and most Dandy–Walker malformations (5/6, 83%), commonly multiplicated in mega cisterna magna (14/22, 64%), and deviated or absent in cases with arachnoid cysts (3/3, 100%) and adhesions (4/5, 80%).

Conclusion

Structural alterations of the falx cerebelli are more prevalent in fetuses with brain and craniofacial abnormalities. Specific changes offer clues to posterior fossa diagnoses.
Literature
1.
Adeeb N, Mortazavi MM, Tubbs RS et al (2012) The cranial dura mater: a review of its history, embryology, and anatomy. Childs Nerv Syst 28:827–837CrossRef
2.
Siegenthaler PSJ (2011) We’ve got you “covered”: how the meninges control brain development. Curr Opin Genet Dev 21:249–255CrossRef
3.
Kline-Faith B, Bulas D, Bahado-Singh R (2015) Fundamental and advanced fetal imaging-ultrasound and MRI. Wolters Kluwers, Philadelphia
4.
Triulzi F, Parazzini C, Righini A (2006) Magnetic resonance imaging of fetal cerebellar development. Cerebellum 5:199–205CrossRef
5.
Tanaka M (2019) Embryological consideration of dural AVFs in relation to the neural crest and the mesoderm. Neurointervention 14:9–16CrossRef
6.
Pretorius DH, Kallman CE, Grafe MR et al (1992) Linear echoes in the fetal cisterna magna. J Ultrasound Med 11:125–128CrossRef
7.
Knutzon RK, McGahan JP, Salamat MS et al (1991) Fetal cisterna magna septa: a normal anatomic finding. Radiology 180:799–801CrossRef
8.
Robinson AJ, Goldstein R (2007) The cisterna magna septa: vestigial remnants of Blake’s pouch and a potential new marker for normal development of the rhombencephalon. J Ultrasound Med 26:83–95CrossRef
9.
Satheesha Nayak B, Srinivasa Rao S, Deepthinath R et al (2013) Triple falx cerebelli associated with two aberrant venous sinuses in the floor of the posterior cranial fossa. Australas Med J 6:397–400CrossRef
10.
Shoja MM, Tubbs RS, Khaki AA et al (2006) A rare variation of the posterior cranial fossa: duplicated falx cerebelli, occipital venous sinus, and internal occipital crest. Folia Morphol (Warsz) 65:171–173
11.
Mavridis IN, Lontos K, Anagnostopoulou S (2013) Absent falx cerebelli: report of a rare case. Anat Sci Int 88:181–182CrossRef
12.
Sobotta J (1909) Atlas and textbook of human anatomy. Saunders, Philadelphia
13.
D’Costa S, Krishnamurthy A, Nayak SR et al (2009) Duplication of the falx cerebelli, occipital sinus, and internal occipital crest. Romanian J Morphol Embryol 50:107–110
14.
Shoja MM, Tubbs RS, Loukas M et al (2007) A complex dural-venous variation in the posterior cranial fossa: a triplicate falx cerebelli and an aberrant venous sinus. Folia Morphol (Warsz) 66:148–151
15.
Hassler W, Schienker W (1982) Double falx cerebelli. Case report. Acta Neurochir 62:265–269CrossRef
16.
Nayak SB, Shetty SD (2019) Partial duplication of tentorium cerebelli and complete duplication of falx cerebelli. Anat Cell Biol 52:337–339CrossRef
17.
Tortori-Donati P, Rossi A, Biancheri I (2009) Brain malformations. In: Tortori-Donati P, Rossi A (eds) Pediatric neuroradiology: brain, head, neck and spine. Springer, Berlin, pp 79–109
18.
Barkovich AJ, Raybaud CA (2011) Congenital malformations of the brain and skull. In: Barkovich AJ, Raybaud CA (eds) Pediatric neuroimaging, 5th edn. Lippincott Williams & Wilkins, Philadelphia, pp 368–568
19.
Barkovich AJ, Kjos BO, Normal D et al (1989) Revised classification of posterior fossa cysts and cystlike malformations based on the results of multiplanar MR imaging. AJR Am J Roentgenol 153:1289–1300CrossRef
20.
Nelson MD, Maher K, Gilles FH (2004) A different approach to cysts of the posterior fossa. Pediatr Radiol 34:720–732CrossRef
21.
Tubbs RS, Dockery SE, Salter G et al (2002) Absence of the falx cerebelli in a Chiari II malformation. Clin Anat 15:193–195CrossRef
22.
Michaud J, Mizrahi EM, Urich H (1982) Agenesis of the vermis with fusion of the cerebellar hemispheres, septooptic dysplasia and associated anomalies. Report of a case. Acta Neuropathol 56:161–166CrossRef
Metadata
Title
The fetal falx cerebelli
Authors
Matthew T. Whitehead
Gilbert Vezina
Publication date
01-06-2020
Publisher
Springer Berlin Heidelberg
Published in
Pediatric Radiology / Issue 7/2020
Print ISSN: 0301-0449
Electronic ISSN: 1432-1998
DOI
https://doi.org/10.1007/s00247-020-04641-0

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