Central Nervous System Malformations 1D’Addario Vincenzo, 2Capuano Pasquale

Central Nervous System Malformations 1D’Addario Vincenzo, 2Capuano Pasquale

DSJUOG Central10.5005/jp-journals-10009-1472 Nervous System Malformations REVIEW ARTICLE Central Nervous System Malformations 1D’Addario Vincenzo, 2Capuano Pasquale ABSTRACT The “basic examination” relies on two axial planes: Ultrasound (US) is a useful tool to evaluate the normal mor- 1. Transventricular plane showing anteriorly the frontal phology, the developmental changes, and the malformations horns of the lateral ventricles, divided by the cavum of the fetal central nervous system (CNS). The development of septi pellucid (CSP), posteriorly the atria of the lateral the fetal CNS is a complex and continuous process progressing till ventricles, almost completely filled by the echogenic the end of pregnancy and even after delivery. Although, a limited choroid plexuses; at the level of the choroid plexuses number of CNS anomalies may be suspected in the 1st trimester, the 2nd trimester is the best period of pregnancy to screen for the atrial width can be measured, which is normally CNS anomalies, but some malformations may be recognized inferior to 10 mm independently from gestational age only in the 3rd trimester or become evident only in the postnatal (Fig. 1A). period. Screening for CNS anomalies relies on the use of the basic 2. Transcerebellar plane passing through the posterior examination, which requires two simple axial planes on the fetal fossa and showing the cerebellum and the cisterna head (transventricular and transcerebellar). For a more detailed magna; at this level, the transverse cerebellar dia- evaluation of brain malformations, an expanded fetal neurosono- gram is needed, based on the use of multiple sagittal and coronal meter and the cisterna magna width can be measured planes. The correct diagnosis of a CNS anomaly must be followed (Fig. 1B). The latter is normally superior to 2 mm, but by an accurate counseling since the prognosis is varying widely. does not exceed 10 mm. Keywords: Fetal CNS malformations, Prenatal diagnosis, A third axial plane, called transthalamic plane, is Ultrasound. frequently added for purpose of biometry; it shows the How to cite this article: Vincenzo D, Pasquale C. Central CSP, the thalami, and the hippocampal gyri and is used Nervous System Malformations. Donald School J Ultrasound to measure the biparietal diameter and the head circum- Obstet Gynecol 2016;10(3):235-255. ference (Fig. 1C). Source of support: Nil The sensitivity of the basic ultrasound (US) exami- Conflict of interest: None nation in screening CNS anomalies in low-risk popula- tions is reported as high as 80%. However, these results INTRODUCTION overestimate the diagnostic potential of US. Several CNS Central nervous system (CNS) malformations occur in anomalies can be missed for different reasons: Subtle 5.3 per 1,000 deliveries; their incidence is even higher findings, late onset (such as cortical anomalies, tumors), if abortions and stillbirths are taken into account. The acquired prenatal, or perinatal insults. clinical consequence of these pathologies is extremely The expanded neurosonogram allows a more detailed variable, ranging from transient conditions to disor- evaluation of the fetal brain by using sagittal and coronal ders not compatible with postnatal life.1 Most of them, planes through a multiplanar approach obtained by however, carry a poor prognosis for their neurological aligning the transducer with the sutures and fontanels sequelae. Central nervous system anomalies usually of the fetal head. When the fetal head is deep in the appear in low-risk population and for this reason, the maternal pelvis, a transvaginal approach can be used.3 only realistic approach for their prenatal diagnosis is a The systematic evaluation of the fetal brain includes sonographic screening of all pregnant patients. This is three sagittal and four coronal planes. The sagittal planes usually done at 19 to 21 weeks of pregnancy. According to are the midsagittal and the parasagittal of each side of the guidelines of the International Society of Ultrasound the brain. The midsagittal plane clearly shows the inter- 2 in Obstetrics and Gynecology, the evaluation of the fetal hemispheric structures, such as the corpus callosum (CC) CNS includes a “basic examination” and an expanded with its typical “C” shaped appearance, located above the “fetal neurosonogram.” CSP and cavum vergae; in the same scan the cerebellar vermis and the 4th ventricle can be seen in the posterior fossa below the tentorium (Fig. 2A). By tilting the probe 1Associate Professor, 2Resident laterally, the parasagittal plane is obtained showing the 1,2Department of Obstetrics and Gynecology, University of Bari Italy lateral ventricle with the choroid plexus inside (Fig. 2B), Corresponding Author: D’Addario Vincenzo, Associate the periventricular tissue, and the brain surface. Professor, Department of Obstetrics and Gynecology, University By rotating the transducer 90° the coronal sections of Bari, Italy, e-mail: [email protected] are obtained, which can be performed at different levels, Donald School Journal of Ultrasound in Obstetrics and Gynecology, July-September 2016;10(3):235-255 235 D’Addario Vincenzo, Capuano Pasquale A B C Figs 1A to C: Basic examination of the fetal brain in the 2nd trimester: (A) Transventricular plane, showing anteriorly the frontal horns of the lateral ventricles, divided by the CSP, posteriorly the atria of the lateral ventricles, almost completely filled by the echogenic choroid plexuses; (B) transcerebellar plane showing the cerebellum and the cisterna magna; and (C) transthalamic plane showing the CSP, the thalami, and the hippocampal gyri A B Figs 2A and B: Sagittal planes: (A) Midsagittal plane showing the CC located above the CSP and cavum vergae, the cerebellar vermis, and the fourth ventricle; and (B) parasagittal plane showing the lateral ventricle with the choroid plexus inside A B C D Figs 3A to D: Coronal planes: (A) Transfrontal plane showing the frontal horns, the uninterrupted interhemispheric fissure and the orbits; (B) transcaudate plane showing the frontal horns above the caudate nuclei, divided by the CSP located below the CC; (C) transthalamic plane showing the thalami in close opposition; and (D) transcerebellar plane showing the occipital horns of the lateral ventricles and the cerebellar hemispheres tilting the transducer from the anterior to the posterior The transcerebellar plane shows the occipital horns aspect of the fetal head: of the lateral ventricles and the cerebellar hemispheres The transfrontal plane shows the frontal horns, the (Fig. 3D). uninterrupted interhemispheric fissure, and the orbits The expanded neurosonogram may be complemented (Fig. 3A). by the use of the three-dimensional US technique.4,5 A The transcaudate plane shows the frontal horns above volume of the fetal brain can be stored and then evaluated the caudate nuclei, divided by the CSP located below the using a multiplanar view mode, which allows the con- CC (Fig. 3B). temporary view of the axial, coronal, and sagittal planes The transthalamic plane shows the thalami in close intersecting in a dot (Fig. 4). Further modalities are the opposition (Fig. 3C). tomographic ultrasonic imaging, which shows multiple 236 DSJUOG Central Nervous System Malformations Fig. 4: Three-dimensional (3D) multiplanar mode with the contemporary view of the axial, coronal, and sagittal planes intersecting in a dot Fig. 5: Three-dimensional tomographic ultrasonic mode showing multiple parallel scans in the coronal plane parallel scans in axial, coronal, and sagittal planes (Fig. 5) The sagittal planes show the ossification centers in a way similar to computed tomography or magnetic of the vertebral bodies and posterior arches forming resonance imaging (MRI),6 and the omniview technique two parallel lines that converge in the sacrum (Fig. 6). that allows to choose any plane in the acquired volume. When the fetus is prone, a true sagittal plane can be The sonographic evaluation of the fetal CNS includes obtained passing through the unossified spinal process the visualization of the spine in sagittal, coronal, and and showing the spinal cord and the conus midollaris transverse planes. (Fig. 7). Donald School Journal of Ultrasound in Obstetrics and Gynecology, July-September 2016;10(3):235-255 237 D’Addario Vincenzo, Capuano Pasquale Fig. 6: Sagittal plane of the spine showing the ossification centers Fig. 7: True sagittal plane passing through the unossified spinal of the vertebral bodies and posterior arches forming two parallel process and showing the spinal cord and the conus midollaris lines that converge in the sacrum A B Figs 8A and B: Axial planes of the spine showing the three ossification centers of the body and the laminae surrounding the spinal canal: (A) cervical level; and (B) thoracic level A B C Fig. 9: Coronal plane passing through the laminae and showing Figs 10A to C: Three-dimensional visualization of the spine: the vertebral canal (A) Surface mode; (B) X-ray mode; and (C) silhouette mode The axial planes show the three ossification centers of number of fetal anomalies detected in the 1st trimester the body and the laminae surrounding the spinal canal is increasing. Although, the CNS has a complex and and whose appearance changes according to the level of progressive development until the 3rd trimester, some the scan (Figs 8A and B). anomalies may be recognized even in the 1st trimester. The coronal plane passing through the laminae shows This topic will be examined in another article of this the vertebral canal (Fig.

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