Frontal Paraventricular Cysts: Refined Definitions and Outcomes
Frontal paraventricular cystic changes have a varied etiology that includes connatal cysts, subependymal pseudocysts, necrosis, and enlarged perivascular spaces. These may be difficult to distinguish by neuroimaging and have a variety of associated prognoses. We aim to refine the neuroimaging defini...
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| Published in | American journal of neuroradiology : AJNR Vol. 46; no. 8; pp. 1709 - 1715 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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01.08.2025
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| Abstract | Frontal paraventricular cystic changes have a varied etiology that includes connatal cysts, subependymal pseudocysts, necrosis, and enlarged perivascular spaces. These may be difficult to distinguish by neuroimaging and have a variety of associated prognoses. We aim to refine the neuroimaging definition of frontal horn cysts and correlate it with adverse clinical conditions.
In this cross-sectional study, the pre- and postnatal neuroimaging database at a quaternary referral children's hospital was searched for all reports containing "frontal horn cysts," "periventricular cysts," or "connatal cysts" after internal review board exemption. Frontal paraventricular abnormalities were categorized as either cysts, necroses, enlarged perivascular spaces, caudothalamic groove subependymal pseudocysts, frontal horn asymmetries, intraventricular septations, or ependymal vessels based on location and appearance. Cyst number, size, location, morphology, and signal/attenuation/echotexture were documented, as were additional brain abnormalities. Clinical outcomes were recorded when available. Fisher exact and χ
tests were used to evaluate categoric data associations and Kruskall-Wallis tests were employed to compare the medians among groups.
Two hundred five brain imaging examinations (148 MRI; 55 ultrasound [US]; 2 CT) from 110 distinct subjects (5 fetal: median 29.3, mean 27.5, and range 22.4 to 32.8 gestational weeks; 105 postnatal: mean 2.5 years, median 15 days, range 0 days to 19 years) were included. Seventy-one examinations (35%) were initially diagnosed as connatal cysts but, instead, represented necrosis (
= 23), enlarged perivascular spaces (
= 20), caudothalamic groove germinolytic cysts (
= 11), septations/adhesions (
= 10), ventricular asymmetries (
= 6), and a blood vessel (
= 1). These entities differed in size, shape, location, and orientation (
< .001). Congenital heart disease (
< .04) and gastrointestinal (
< .04) disorders were more common in subjects with frontal cysts and necrosis than in subjects with enlarged perivascular spaces; however, the frontal cyst and necrosis groups showed no differences in outcome (
> .05).
Frontal paraventricular cystic changes represent a common interpretive dilemma. Enlarged perivascular spaces should be distinguished from other frontal cystic changes, which portend a more guarded prognosis, whether necrotic or otherwise. |
|---|---|
| AbstractList | Frontal paraventricular cystic changes have a varied etiology that includes connatal cysts, subependymal pseudocysts, necrosis, and enlarged perivascular spaces. These may be difficult to distinguish by neuroimaging and have a variety of associated prognoses. We aim to refine the neuroimaging definition of frontal horn cysts and correlate it with adverse clinical conditions.BACKGROUND AND PURPOSEFrontal paraventricular cystic changes have a varied etiology that includes connatal cysts, subependymal pseudocysts, necrosis, and enlarged perivascular spaces. These may be difficult to distinguish by neuroimaging and have a variety of associated prognoses. We aim to refine the neuroimaging definition of frontal horn cysts and correlate it with adverse clinical conditions.In this cross-sectional study, the pre-and postnatal neuroimaging database at a quaternary referral children's hospital was searched for all reports containing "frontal horn cysts", "periventricular cysts", or "connatal cysts" after IRB exemption. Frontal paraventricular abnormalities were categorized as either cysts, necroses, enlarged perivascular spaces, caudothalamic groove subependymal pseudocysts, frontal horn asymmetries, intraventricular septations, or ependymal vessels based on location and appearance. Cyst number, size, location, morphology, and signal/density/echotexture were documented, as were additional brain abnormalities. Clinical outcomes were recorded when available. Fisher's exact and Chi-squared tests were used to evaluate categorical data associations, and Kruskall-Wallis tests were employed to compare the medians among groups.MATERIALS AND METHODSIn this cross-sectional study, the pre-and postnatal neuroimaging database at a quaternary referral children's hospital was searched for all reports containing "frontal horn cysts", "periventricular cysts", or "connatal cysts" after IRB exemption. Frontal paraventricular abnormalities were categorized as either cysts, necroses, enlarged perivascular spaces, caudothalamic groove subependymal pseudocysts, frontal horn asymmetries, intraventricular septations, or ependymal vessels based on location and appearance. Cyst number, size, location, morphology, and signal/density/echotexture were documented, as were additional brain abnormalities. Clinical outcomes were recorded when available. Fisher's exact and Chi-squared tests were used to evaluate categorical data associations, and Kruskall-Wallis tests were employed to compare the medians among groups.205 brain imaging exams (148 MRI; 55 US; 2 CT) from 110 distinct subjects (5 fetal: median 29.3, mean 27.5, and range 22.4 to 32.8 gestational weeks; 105 postnatal: mean 2.5 years, median 15 days, range 0 days to 19 years) were included. Seventy-one exams (35%) were initially diagnosed as connatal cysts but, instead, represented necrosis (n=23), enlarged perivascular spaces (n=20), caudothalamic groove germinolytic cysts (n=11), septations/adhesions (n=10), ventricular asymmetries (n=6), and a blood vessel (n=1). These entities differed in size, shape, location, and orientation (p<0.001). Congenital heart disease (p<0.04) and gastrointestinal (p<0.04) disorders were more common in subjects with frontal cysts and necrosis than in subjects with enlarged perivascular spaces; however, the frontal cyst and necrosis groups showed no differences in outcome (p>0.05).RESULTS205 brain imaging exams (148 MRI; 55 US; 2 CT) from 110 distinct subjects (5 fetal: median 29.3, mean 27.5, and range 22.4 to 32.8 gestational weeks; 105 postnatal: mean 2.5 years, median 15 days, range 0 days to 19 years) were included. Seventy-one exams (35%) were initially diagnosed as connatal cysts but, instead, represented necrosis (n=23), enlarged perivascular spaces (n=20), caudothalamic groove germinolytic cysts (n=11), septations/adhesions (n=10), ventricular asymmetries (n=6), and a blood vessel (n=1). These entities differed in size, shape, location, and orientation (p<0.001). Congenital heart disease (p<0.04) and gastrointestinal (p<0.04) disorders were more common in subjects with frontal cysts and necrosis than in subjects with enlarged perivascular spaces; however, the frontal cyst and necrosis groups showed no differences in outcome (p>0.05).Frontal paraventricular cystic changes represent a common interpretive dilemma. Enlarged perivascular spaces should be distinguished from other frontal cystic changes, which portend a more guarded prognosis, whether necrotic or otherwise.CONCLUSIONSFrontal paraventricular cystic changes represent a common interpretive dilemma. Enlarged perivascular spaces should be distinguished from other frontal cystic changes, which portend a more guarded prognosis, whether necrotic or otherwise.CMV= cytomegalovirus; CSPC= caudothalamic groove subependymal pseudocysts; FHCL= frontal horn cystic lesions; GA= gestational age; PVS= perivascular spaces.ABBREVIATIONSCMV= cytomegalovirus; CSPC= caudothalamic groove subependymal pseudocysts; FHCL= frontal horn cystic lesions; GA= gestational age; PVS= perivascular spaces. Frontal paraventricular cystic changes have a varied etiology that includes connatal cysts, subependymal pseudocysts, necrosis, and enlarged perivascular spaces. These may be difficult to distinguish by neuroimaging and have a variety of associated prognoses. We aim to refine the neuroimaging definition of frontal horn cysts and correlate it with adverse clinical conditions. In this cross-sectional study, the pre- and postnatal neuroimaging database at a quaternary referral children's hospital was searched for all reports containing "frontal horn cysts," "periventricular cysts," or "connatal cysts" after internal review board exemption. Frontal paraventricular abnormalities were categorized as either cysts, necroses, enlarged perivascular spaces, caudothalamic groove subependymal pseudocysts, frontal horn asymmetries, intraventricular septations, or ependymal vessels based on location and appearance. Cyst number, size, location, morphology, and signal/attenuation/echotexture were documented, as were additional brain abnormalities. Clinical outcomes were recorded when available. Fisher exact and χ tests were used to evaluate categoric data associations and Kruskall-Wallis tests were employed to compare the medians among groups. Two hundred five brain imaging examinations (148 MRI; 55 ultrasound [US]; 2 CT) from 110 distinct subjects (5 fetal: median 29.3, mean 27.5, and range 22.4 to 32.8 gestational weeks; 105 postnatal: mean 2.5 years, median 15 days, range 0 days to 19 years) were included. Seventy-one examinations (35%) were initially diagnosed as connatal cysts but, instead, represented necrosis ( = 23), enlarged perivascular spaces ( = 20), caudothalamic groove germinolytic cysts ( = 11), septations/adhesions ( = 10), ventricular asymmetries ( = 6), and a blood vessel ( = 1). These entities differed in size, shape, location, and orientation ( < .001). Congenital heart disease ( < .04) and gastrointestinal ( < .04) disorders were more common in subjects with frontal cysts and necrosis than in subjects with enlarged perivascular spaces; however, the frontal cyst and necrosis groups showed no differences in outcome ( > .05). Frontal paraventricular cystic changes represent a common interpretive dilemma. Enlarged perivascular spaces should be distinguished from other frontal cystic changes, which portend a more guarded prognosis, whether necrotic or otherwise. |
| Author | Whitehead, Matthew T. Manteghinejad, Amirreza Simsek, Onur Khalek, Nahla Schwartz, Erin S. Alves, César A.P.F. |
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| SubjectTerms | Central Nervous System Cysts - diagnostic imaging Central Nervous System Cysts - epidemiology Central Nervous System Cysts - pathology Child Child, Preschool Cross-Sectional Studies Cysts Female Frontal Lobe - diagnostic imaging Frontal Lobe - pathology Humans Infant Infant, Newborn Magnetic Resonance Imaging - statistics & numerical data Male Neuroimaging - methods |
| Title | Frontal Paraventricular Cysts: Refined Definitions and Outcomes |
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