Ventriculomegaly Explained

Ventriculomegaly is a brain condition that mainly occurs in the fetus when the lateral ventricles become dilated. The most common definition uses a width of the atrium of the lateral ventricle of greater than 10 mm.[1] This occurs in around 1% of pregnancies.[2] When this measurement is between 10 and 15 mm, the ventriculomegaly may be described as mild to moderate. When the measurement is greater than 15mm, the ventriculomegaly may be classified as more severe.[3]

Enlargement of the ventricles may occur for a number of reasons, such as loss of brain volume (perhaps due to infection or infarction), or impaired outflow or absorption of cerebrospinal fluid from the ventricles, called hydrocephalus or normal pressure hydrocephalus associated with conspicuous brain sulcus. Often, however, there is no identifiable cause. The interventricular foramen may be congenitally malformed, or may have become obstructed by infection, hemorrhage, or rarely tumor, which may impair the drainage of cerebrospinal fluid, and thus accumulation in the ventricles.

This diagnosis is generally found in routine fetal anomaly scans at 18–22 weeks gestation. It is one of the more common abnormal brain findings on prenatal ultrasound, occurring in around 1–2 per 1,000 pregnancies.[4] In many cases of mild ventriculomegaly, however, there is resolution of ventriculomegaly during the pregnancy.

Associations

Ventriculomegaly is also known to be associated with other malformations such as agenesis of the corpus callosum, spina bifida, and heart defects. Fetuses with both isolated ventriculomegaly and with other anomalies have an increased risk of having a chromosomal abnormality, including that of Down syndrome.[3]

Many conditions associated with ventriculomegaly can be defined prior to birth, but the possibility remains of other anomalies (either structural, chromosomal or genetic) only being identified later in pregnancy or after birth.[5] Ventriculomegaly associated with abnormal findings and other structural malformations, often has an adverse prognosis, which ranges from disability (often mild) to death. However, in cases of mild isolated ventriculomegaly, there is around a 90% chance of a normal outcome.[6] [7]

Increasingly, fetal magnetic resonance imaging is being considered as part of the assessment of pregnancies complicated by fetal ventriculomegaly,[8] and appears to be important in the postnatal assessment of affected children.[9]

Although evaluation of lateral ventricles dimensions is decisive for establishing a diagnosis of ventriculomegaly, the shape of the ventricular system, including that of the frontal horns, is also important.[10]

Ventriculomegaly occurs in those with GLUT1 deficiency syndrome.[11]

See also

External links

Notes and References

  1. Cardoza . J D . Goldstein . R B . Filly . R A . Exclusion of fetal ventriculomegaly with a single measurement: the width of the lateral ventricular atrium . Radiology . December 1988 . 169 . 3 . 711–714 . 10.1148/radiology.169.3.3055034 . 3055034 .
  2. Salomon . L. J. . Bernard . J. P. . Ville . Y. . Reference ranges for fetal ventricular width: a non-normal approach . Ultrasound in Obstetrics and Gynecology . July 2007 . 30 . 1 . 61–66 . 10.1002/uog.4026 . 17506037 .
  3. Breeze . Andrew C. G. . Alexander . Peta M. A. . Murdoch . Edile M. . Missfelder-Lobos . Hannah H. . Hackett . Gerald A. . Lees . Christoph C. . Obstetric and neonatal outcomes in severe fetal ventriculomegaly . Prenatal Diagnosis . February 2007 . 27 . 2 . 124–129 . 10.1002/pd.1624 . 17152115 .
  4. Achiron . R. . Schimmel . M. . Achiron . A. . Mashiach . S. . Fetal mild idiopathic lateral ventriculomegaly: is there a correlation with fetal trisomy? . Ultrasound in Obstetrics and Gynecology . 1 March 1993 . 3 . 2 . 89–92 . 10.1046/j.1469-0705.1993.03020089.x . 12797298 . free .
  5. Breeze . Andrew C.G. . Dey . Prakash K. . Lees . Christoph C. . Hackett . Gerald A. . Smith . Gordon C.S. . Murdoch . Edile M. . 8354468 . Obstetric and neonatal outcomes in apparently isolated mild fetal ventriculomegaly . Journal of Perinatal Medicine . 1 January 2005 . 33 . 3 . 236–40 . 10.1515/JPM.2005.043 . 15914347 .
  6. Gaglioti . P. . Danelon . D. . Bontempo . S. . Mombrò . M. . Cardaropoli . S. . Todros . T. . Fetal cerebral ventriculomegaly: outcome in 176 cases . Ultrasound in Obstetrics and Gynecology . April 2005 . 25 . 4 . 372–377 . 10.1002/uog.1857 . 15791694 . free .
  7. Signorelli . M. . Tiberti . A. . Valseriati . D. . Molin . E. . Cerri . V. . Groli . C. . Bianchi . U. A. . Width of the fetal lateral ventricular atrium between 10 and 12 mm: a simple variation of the norm? . Ultrasound in Obstetrics and Gynecology . January 2004 . 23 . 1 . 14–18 . 10.1002/uog.941 . 14970992 . free .
  8. Glenn . OA . Barkovich . AJ . Magnetic resonance imaging of the fetal brain and spine: an increasingly important tool in prenatal diagnosis, part 1. . American Journal of Neuroradiology . September 2006 . 27 . 8 . 1604–11 . 16971596 .
  9. Falip . Céline . Blanc . Nathalie . Maes . Emmanuelle . Zaccaria . Isabelle . Oury . Jean François . Sebag . Guy . Garel . Catherine . 10476912 . Postnatal clinical and imaging follow-up of infants with prenatal isolated mild ventriculomegaly: a series of 101 cases . Pediatric Radiology . 28 August 2007 . 37 . 10 . 981–989 . 10.1007/s00247-007-0582-2 . 17724586 .
  10. Glonek . M . Kedzia . A . Derkowski . W . Prenatal assessment of ventriculomegaly: an anatomical study . Medical Science Monitor . July 2003 . 9 . 7 . MT69-77 . 12883459 .
  11. Sandu C, Burloiu CM, Barca DG, Magureanu SA, Craiu DC. Ketogenic Diet in Patients with GLUT1 Deficiency Syndrome. . Maedica (Bucur) . 2019 . 14 . 2 . 93-97 . 31523287 . 10.26574/maedica.2019.14.2.93 . 6709387 .