Choroid plexus cysts (CPCs) arecysts that occur withinchoroid plexus of the brain. They are the most common type of intraventricular cyst,[1] occurring in 1% of all pregnancies.[2]
It is believed that many adults have one or more tiny CPCs.[3] The fetal brain may create these cysts as a normal part of development. They are temporary and usually are gone by the 32nd week of pregnancy.[4]
CPCs are a rare cause of intermittenthydrocephalus. This is caused by a blockage of foramina within the ventricular drainage system of thecentral nervous system (CNS), which can lead to expansion of the ventricles, compressing the brain (the cranial cavity cannot expand to accommodate the increase in fluid volume) and possibly causing damage.[5]
The brain contains pockets or spaces calledventricles with a spongy layer of cells and blood vessels called thechoroid plexus. This is in the middle of the fetal brain. The choroid plexus has the important function of producingcerebrospinal fluid. The fluid produced by the cells of the choroid plexus fills the ventricles and then flows around the brain and the spinal cord to provide a cushion of fluid around these structures.[citation needed]
CPCs can form within this structure and come from fluid trapped within this spongy layer of cells, much like a soap bubble or a blister. CPCs are often called "soft signs" or fetal ultrasound "markers" because some studies have found a weak association between CPCs and fetal chromosome abnormalities.[citation needed]
Choroid plexus cysts are usually asymptomatic and disappears by 26 to 28 weeks of pregnancy. However, large cysts can causehydrocephalus.[2]
There is a possible association between ultrasound-detected fetal CPCs andTrisomy 18.[6][7] It is not correlated to the presence of Trisomy 21 (Down syndrome).[8][9] Therefore,genetic counseling is often recommended to provide more information about fetal CPCs, to answer questions and concerns, and to outline available options such asamniocentesis or a blood test from the mother.[6]
Generally the risks are very low if there are no other risk factors. If no additional abnormalities are detected by a thorough "level II" ultrasound, the likelihood the fetus has trisomy 18 is very low.[citation needed]
A meta-analysis of 8 studies between 1990 and 2000 with choroid plexus cysts that were identified in second-trimester (an incidence of 1.2%). The incidence of the cysts in women younger than 35 was 1% (n=1017). The study found no cases of trisomy 18 in fetuses with cysts whose mother was younger than 35. The study concluded that "there is no evidence that detection of isolated choroid plexus cyst in women who are <35 years of age increases the risk of trisomy 18".[10]
Other factors which may have a bearing on the baby's chances of developing chromosome problems include:[citation needed]
mother's age at the expected date of delivery
the results of serum screening; XAFPtriple testing or quad screening
evidence of other "fetal findings" seen at the time of the ultrasound that may suggest a chromosome problem
^abNaeini RM, Yoo JH, Hunter JV (January 2009). "Spectrum of choroid plexus lesions in children".AJR. American Journal of Roentgenology.192 (1):32–40.doi:10.2214/ajr.08.1128.PMID19098176.
^Benacerraf, Beryl R.; Laboda, Lane A. (February 1989). "Cyst of the fetal choroid plexus: A normal variant?".American Journal of Obstetrics and Gynecology.160 (2):319–321.doi:10.1016/0002-9378(89)90434-1.PMID2644832.S2CID21224368.
^Büttner, A.; Winkler, P. A.; Eisenmenger, W.; Weis, S. (10 August 1997). "Colloid cysts of the third ventricle with fatal outcome: a report of two cases and review of the literature".International Journal of Legal Medicine.110 (5):260–266.doi:10.1007/s004140050082.PMID9297582.S2CID41162320.
^Demasio, Kafui; Canterino, Joseph; Ananth, Cande; Fernandez, Carlos; Smulian, John; Vintzileos, Anthony (November 2002). "Isolated choroid plexus cyst in low-risk women less than 35 years old".American Journal of Obstetrics and Gynecology.187 (5):1246–1249.doi:10.1067/mob.2002.127463.PMID12439513.
Rochon, Meredith; Eddleman, Keith (March 2004). "Controversial ultrasound findings".Obstetrics and Gynecology Clinics of North America.31 (1):61–99.doi:10.1016/S0889-8545(03)00123-2.PMID15062448.
McKinney, Alexander M. (2017). "Choroid Plexus: Normal Locations and Appearances".Atlas of Normal Imaging Variations of the Brain, Skull, and Craniocervical Vasculature. Springer International Publishing. pp. 177–237.doi:10.1007/978-3-319-39790-0_11.ISBN978-3-319-39790-0.
