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Pediatric Radiology
Published in: Pediatric Radiology 7/2006

01-07-2006 | Original Article

Sonographic templates of newborn perforator stroke

Authors: Lyanne Abels, Maarten Lequin, Paul Govaert

Published in: Pediatric Radiology | Issue 7/2006

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Abstract

Background

Many paediatric strokes occur in the perinatal period. Improvement in neuroimaging has increased detection in newborns with neurological symptoms.

Objective

To define sonographic templates of neonatal stroke in the territory of perforators of the anterior choroidal artery (AChA) and the anterior (ACA), middle (MCA) and posterior (PCA) cerebral arteries.

Materials and methods

In 24 neonates with perforator stroke, we retrospectively studied antenatal and perinatal events. Brain sonography was performed with an 8.5-MHz probe. Only hyperechoic lesions in the thalamus and/or striatum and/or centrum semiovale were included. MRI was obtained using a 1.5-T machine.

Results

We detected 28 perforator strokes in 24 infants (6 preterm): 5 MCA medial striate, 8 MCA lateral striate, 3 MCA centrum semiovale, 4 ACA Heubner’s, 5 PCA thalamic arteries, 1 AChA, and 2 hypothalamic perforators. We attributed clinical seizures to stroke in two infants only. Catheter-related embolism (certain in three, possible in six others) and birth trauma (two) were probable causes. Specific conditions were found in six others. Only one infant (in nine evaluated) had an increased prothrombotic risk (fII mutation). In describing the lesions, we focused on the templates of infarction as seen in a parasagittal US sweep. Infarcts were confirmed by MRI in 21 patients.

Conclusion

Our study showed that infarct topography can be evaluated reliably with brain sonography. This is important given the asymptomatic character of most lesions.
Appendix
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Literature
1.
Nelson KB, Lynch JK (2003) Stroke in newborn infants. Lancet Neurol 3:150–158CrossRef
2.
De Vries L, Groenendaal F, Eken P, et al (1997) Infarcts in the vascular distribution of the middle cerebral artery in preterm and fullterm infants. Neuropaediatrics 28:88–96CrossRef
3.
4.
Cowan F, Rutherford M, Groenendaal F, et al (2003) Origin and timing of brain lesions in term infants with neonatal encephalopathy. Lancet 361:736–742PubMedCrossRef
5.
De Vries LS, Roelants-van Rijn AM, Rademaker KJ, et al (2001) Unilateral parenchymal haemorrhagic infarction in the preterm infant. Eur J Paediatr Neurol 4:139–149
6.
Cowan F, Mercuri E, Groenendaal F, et al (2005) Does cranial ultrasound imaging identify arterial cerebral infarction in term neonates? Arch Dis Child Fetal Neonatal Ed 90:F252–F526PubMedCrossRef
7.
Golomb MR, Dick PT, MacGregor DL, et al (2003) Cranial ultrasonography has a low sensitivity for detecting arterial ischemic stroke in term neonates. J Child Neurol 18:98–103PubMedCrossRef
8.
Robertson RL, Robson CD, Zurakowsky D, et al (2003) CT versus MR in neonatal brain imaging at term. Pediatr Radiol 33:442–449PubMedCrossRef
9.
Cowan FM, De Vries LS (2005) The internal capsule in neonatal imaging. Semin Fetal Neonatal Med 10:461–474PubMedCrossRef
10.
Lien JM, Towers CV, Quilligan EJ, et al (1995) Term early-onset neonatal seizures: obstetric characteristics, etiologic classifications, and perinatal care. Obstet Gynecol 85:163–169PubMedCrossRef
11.
Mercuri E, Rutherford M, Cowan F, et al (1999) Early prognostic indicators of outcome in infants with neonatal cerebral infarction: a clinical, electro-encephalogram, and magnetic resonance imaging study. Paediatrics 103:39–46CrossRef
12.
Lee J, Groen LA, Backstrand KH, et al (2005) Maternal and infant characteristics associated with perinatal arterial stroke in the infant. JAMA 293:723–729PubMedCrossRef
13.
Vander Eecken HM (1959) The anastomoses between the leptomeningeal arteries of the brain: their morphological, pathological, and clinical significance. Charles C. Thomas, Springfield, pp 7–35
Metadata
Title
Sonographic templates of newborn perforator stroke
Authors
Lyanne Abels
Maarten Lequin
Paul Govaert
Publication date
01-07-2006
Publisher
Springer-Verlag
Published in
Pediatric Radiology / Issue 7/2006
Print ISSN: 0301-0449
Electronic ISSN: 1432-1998
DOI
https://doi.org/10.1007/s00247-006-0125-2

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