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Journal of the Korean Radiological Society, 1994; 30(2): 213- 218
Imaging ofthe Sturge-Weber Syndrome1
Choong Gon Choi , M.D. , In-One Kim, M.D. , Woo Sun Kim, M.D. , Moon Hee Han, M.D. ,
Woo Kyung Moon , M.D., Kee Hyun Chang , M.D. , Kyung Mo Yeon , M.D.
Purpose: The Purposes of this article are to illustrate the typical imaging
features of eight patients with this syndrome and to discuss the advantage of
each imaging modality with a concise review of literatures.
Materials and Methods: We retrospectively reviewed plain skull radiographs
(6 ), computd tomographic(CT) scans(8 }, magnetic resonnance(MR) images(4)
and cerebral angiograms(3) of eight patients with Sturge -Weber syndrome. We
analyzed the radiographic findings of Sturge -Weber syndrome and compared the
findings of CT, MR and angiography.
Results: Plain radiographs showed characteristic gyriform calcifications(3)
after 2 years of age. CTscans excellently demonstrated cortical calcifications(5) ,
prominently enhancing choroid plexi(5) and dilated periventricular veins(2) . MR
revealed dilated deep cerebral veins as tubular or spot - like signal void structures
at periventric비ar areas(3) and showed stripes of cortical enhancement after
gadolinium infection(2). Angiography showed dilated tortuous medullary and
deep cerebral veins(3) as the collateral pathways of blood shunting. MR was su
perior to CT in the detection of parenchymal atrophy, venous abnormalities and
the extent of angiomatous involvement. Angiography showed enlarged deep cer
ebral or medullaryveins betterthan MR imaging.
Conclusion: We think that each imaging modality including CT, MR or
angiography has unique advantages in the diagnosis ofthissyndrome but MR will
be used frequently because of its superior ability for the detection of atrophy,
vascular abnormalities and direct visualization of leptomeningeal angiomatosis
with contrast enhancement.
Index Words : Brain , Sturge-Weber syndrome
Brain , Computed tomography
Brain , Magnetic resonnance
Brain , Angiography
INTRODUCTION
Sturge-Weber syndrome is one of the neurocutaneous syndromes characterized by facial vascular nevus and leptomeningeal venular angiomatosis which is responsible not only for various neurologic manifes- tations such as seizure , dementia , hemiplegia , or hemianopsia but also for characteristic
'Department ofRadiology. Seoul National University. Col lege ofM edic ine Received February 17, 1993 ; Accepted July 20, 1993 Address repr int requests to : Choong Gon Choi, M.D. , DepartmentofRadiology, Seoul National University, College of Medicine Seou l National University College of Medicine. 28 , Yongon-dong , Chongno-gu , Seoul , 110-744 KOREA
radiologic findings such as brain atrophy , cortical calcifications as the primary or secondary changes of the basic pathology(1). Sturge first described this rare condition in 1879(2) and Weber demonstrated the characteristic intracranial calcifications in 1922(3) With the advent of sectional imaging modalities , CT and MR are used more frequently than the plain skull radiography or angiography which used to be the primary diagnostic imaging modalities in the past. The purpose of this article is to illustrate the typical imaging features of eight patients with this syndrome we experienced during the past 5 years at our institution and to discuss the advantages of each imaging modalities with a concise review of the I iteratures
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Journal of the Korean Radiological Society, 1994; 30(2): 213- 218
SUBJECTSand METHODS
Eight patients with Sturge-Weber syndrome, four males and four females with age ranging from 3 months to 17 years(mean 4 years and 11 months) , were inc luded in this study. Seven patients had facial angiomas which were ipsilateral to the hemispheric lesions in five and bilateral in two patients. One patient had no facial angioma but diagnosed as Sturge-Weber syndrome because of the typical imaging features. One patient with bilateral facial nevi had somewhat different cutaneous manifestations from other patients There were multiple port-wine nevi involving face , trunk and extremities and hemihypertrophy of right upper extremity but no venous varicos ities on the affected limb. Plain skull radiography was performed in 6 out of 8 patients. CT images were obtained in all patients with and without contrast enhancement on CT 9800 or 8800 scanners(GE Medical Systems, Milwaukee WI). MR imaging was performed in four patients on a 2.0T or 0 5T unit(Goldstar, Seoul , Korea) but contrast enhancement was done in only two. Cerebral angiography was performed in three patients. We analyzed the radiographic images of eight patients with Stu rge-Weber syndrome especially in the points of brain atrophy , cortical calcifications , choroid plexus abnormality , lepto-
meningeal enhancement pattern , and vascular abnormality. Also we compared CT, MR , and angiogra phy in three patients. The clini cal data and radiographic findings including CT scan , MR imaging , angiography are summarized in the Table 1.
RESUlTS
Plain skull radiography Tram-line like gyriform intracranial calcifications
were revealed in three out of six patients and located at parietooccipital areas on the lateral view. The age of three patients who showed definite calcifications on the plain radiographs was 2 years , 3 years and 17 years , respectively. Also , atrophy of hemicalvarium was present in two , ipsilateral bone and sinus hy pertrophy was seen in one patien t.
CT scans CT scan of a neonate was normal but follow-up
scan after 4 months showed increased attenuation of affected lobes and homogeneous enhancement after contrast medium injection(F ig. 1 a , b). Definite gyriform cortical calcifications and parenchymal atrophy were demonstrated in five patients on noncontrastCT scans(Fig. 1 c). No definite ca lcifications were detected in three patients but diffuse gyral enhancement
Table 1. The Clini cal Data and Radiographic Findi ngs of Eight Patients with Sturge-Weber Syndrome
Case Age/Sex Clinical findings CTscan MR imaging Angiography
10yrs/M Bilateral facial Diffuse enhancement , Rt PO Rt hemiatrophy DilatedMV
nevus Prom inent CP Multiple dilated SEV Dilated DV
Seizure Nodefin iteCa Decreased CV
Faint visual. of SSS
2 3 mon /F Bilateral facial Diffuse enhancement, Lt H Diffuse enhancement, Capil laryblush
nevus No definite Ca Lt H Dilated DV
Rt upper Multiple Di lated DV Decreased CV
extremlty Nonvisual of SSS
hem i hypertrophy
3 17 yrs /M No fac ial nevus ProminentCP Enhancemen t, Lt 0 Capil lary blush
Severe headache Dense Ca, Lt 0 Dilated DV
Decreased CV
4 8 mon/F Rtfacial nevus Dffuse enhancement, Rt H Rt FT atrophy
Seizure No definite Ca Multiple Dilated DV
5 2 yrs/M Lt facial nevus Lt hemiatrophy & Ca
Seizure Prominent CP & SEV
6 3 yrs/F Rt facial nevus Rt FT atrophy & Ca
Seizure Rt hemicalvarial thickening
7 5 yrs/M Rt facial nevus Rt hemiatrophy & Ca
Seizure Prominent CP & SEV
8 2 yrs/F Lt facial nevus Rt F atrophy & Ca
Seizure Prom inentCP
Rt H enhancement
Abbreviation. Ca ‘ calcification, CP : choroid plexus, H: hemisphere, FT: fron totemporal, F : fron tal, PO : parietoccipital , 0: occipital , SSS: Superior Sagittal Sinus , SEV : subependymal vein , MV : meduliaryvein , CV: cortical vein
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Choong Gon Choi, et a/ ‘ Sturge -Weber Syndrome
a b c Fig .1 . (case 7) a. CT lindings 01 a neonate with seizure. NoncontrastCT scan at 2 weeks after birth reveals no delinite abnormality b. Repeated noncontrast CT study 4 months later shows increased atten uation 01 right Irontotemporoccipital lobes(arrows) which is considered due to the presence 01 microcalcilications at aftected lobes c. Foll ow up CT 3 years later. Marked calcif icati ons and atrophy 01 right hemispherl are evident
was noted(Fig . 2a). An abnormally large choroid plexus with intense enhancement in the same side with the facial angioma and intracranial lesions were noted in five patients(Fig. 3) . Enlarged deep cerebral vein was identified in two patients as tortous tubular enhancing structures at the periventricular area(Fig 3b). Hemicalvarial thickening along the affected lobes was present ín one patíen t.
MR imaging Spin-echo pulse sequence MR imaging was
performed in four patients. It was not possible to detect calcifications in spin-echo MR imag ing but mild atrophy of the affected lobes which was indistinct on CT scans was demonstrated clearly on T2 weighted axial images in two patients(Fig. 2b). The parenchymal venous abnormalities which were not detected on CT scans appeared as tubular or spot- like signal void structu res at periventricular or subependymal areas in three patients(Fig. 2b). Images 。btained after contrast enhancement showed stripes 。fcortical enhancementcovering the affected lobes in two patients(Fig. 4). Abnormal low signal intensity of the white matter of the affected hemisphere was present in one infant on T2 weighted images
Angiography Angiography revealed markedly enlarged deep
medullary veins which were not demonstrated on CT scans or MR images in two patients(Fig. 2c , d). The number of superficial cortical veins in involved areas decreased when com pared with the contral ateral side in all three patients. Tortous dilated deep cerebral veins including internal cerebral ν eins , balsal veins of Rosenthal were noted in three patients. Faint or nonvisualization of superior sagittal sinus was noted
in two patients on the angiogram of the involved side. Dense capillary blush in some portion ofthe affected cortex was noted in two patients
DISCUSSION
Characteristic intracranial calcifications on plain skull radiogrphs may not appear within the first tw。yars of life. Because sim ilar gyriform calcifications have been described in various other conditions including infarction , purulent meningitis , viral encephalitis , tuberous sclerosis , it is not a pathogonomic feature of this disease(4-7) . Atrophy of hemicalvarium , ipsilateral bone and sinus hypertrophy may be present as a compensatory response to the volume loss ofthe brain parenchyma
CT scan may be normal especially in infants or shows subtle changes such as mild brain atrophy ,
increased attenuation of the affected lobes on the noncontrast scan , diffuse gyral enhancement after contrast medium injection , but progression of mineralization and volume loss of the affected lobes are evident on follow-up CT studies(Fig. 1 )(8). CT often detects calcifications before the age of 1 year , as early as 4 months after birth in our series (Fig. 1) , and is more sensitive in demonstrating the characteristic cortical calcifications than spin-echo MR imaging. Pathologically , calcification in located in the atrophied cortex beneath the leptomeningeal angioma and is thought to be related to chronic tissue hypoxia(9) . However , on the basis of the pathologic studies , the extent of parenchymal abnormalities including infarction , gliosis , demyelination is known to occur in wider regions than the obviously calcified or atrophied parenchyma revealed by CT(1 이. An abnormal large choroid plexus in the same side with the
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Journal of the Korean Radiological Society, 1994; 30 ( 2) : 213- 218
a b
c d
Fig. 2. (case 1) a. Enhanced CT scan shows
diffuse gyral enhancement in the right
parietooccipital areas and prominent , well
enhancing choroid plexus(arrow) but n。
delinite calcilications on noncontrast scans
(not shown)
b. Axia l T2 weighted MR image(0.5T spin
echo TRITE 3000/100) shows sulcal widen
ing 01 the right frontotemporal area and mul
tiple tubual signal void structures(arrows)
at the periventricular area
c. Lateral angiogram at mid-venous phase
demonstrates fine numerous dilated medul
lary veins draining to the ventricu lar epen
dyma and tortous dilated internal cerebral
vei n (arro.ws)
d. Convergence 01 dilated medullary veins
to the periventicular area and enlarged
thalamostriate vein(arrows) are well
visualized on the anteroposterior v iew at
late venous phase
a b 4
Fig. 3 . (case 5) a. Noncontrast CT scan demonstrated brain atrophy, prominent choroid plexus(arrow) within lateral ventricle , ana
calcifications of the left cerebral hemisphere
b. With contrast medium injection , prominent enhancing choroid plexus (arrow) within the I ateral ventricle is evident and enlarged
subependymal veins(arrow head) are also observed
Fig. 4. (case2) Contrast enhanced T1 weighted aixal MR images(0.5T spin echo TRITE 600/40) shows diffuse enhancement with a
stripe pattern following convolutions 01 left cerebral hemisphere. This cortical enhancement is thought to represent the extent of
leptomen ingeal angiomatosis 01 this patient
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facial angioma and intracraniallesions represent angiomatous involvement of the choroid plexus itself and are better observed after administration of contrast agent(11 ).
Spin-echo MR is inferior to CT in demonstrating the characteristic intracranial calcifications and shows foci of low signals in the regions of very heavy calcification but recently MR with gradient echo aqusition has proved to be more sensitive than the spin echo MR or even the CT for the detection of diffuse fine parenchymal calcifications(12 , 13). MR imaging is better in showing the degree of parenchymal atrophy .and venous abnormalities than CT(Fig. 2)(13-15). Noncontrast MR alone underestimates the extent of intracranial disease significantly. Therefore contrast enhancement is necessary for the complete MR evaluation of patients (12). In our experience and others , contrast enhanced MR imaging shows a stripe of cortical enhancement covering the affected lobes(Fig. 4)(12 , 13, 16). This cortical enhancement is considered to include the leptomeningeal angioma itself and the first cortical layer affected by gliosis(16 , 17) . Direct visualization of leptomeningeal angioma is important in order to ascertain the diagnosis when CT is normal especially in infancts , or to know the exact extent of the lesions. Contrast enhanced MR imaging well correlates with the pathologic findings in the distribution of leptomeningeal angiomatosis(16). Jacoby et al. proposed accelerated myelination in early Sturge-Weber syndrome as the explanation for the abnormal signal intensities of white matters ofthe affected hemisphere (18) ‘ But the exact causes of abnormal signal intensities of the white matters of affected hemisphere in infants are unclear and MR-path이 ogy correlative studies will be necessary(14)
The basic features of cerebral venous drainage abnormalities in this syndrome are decreased superficial cortical veins in the involved areas. As a result of decreased superficial cortical venous drainage, marked enlargement of deep medullary veins can develop as collateral pathways. Through these routes , centripetal venous flows result in enlarged tortous deep vein such as internal cerebral veins , basal veins of Rosenthal and their branches(Fig. 2c , d)(9). Angiography demonstrated these venous abnormalities more clearly than others but these findings are not pathogonomic for Sturge-Weber syndrome bec
Choong Gon Choi, et al ’ Sturge -Weber Syndrome
syndrome can occur in combination with one of the neurocutaneous syndromes, especially with Sturge Weber syndrome(20) ‘
The relationship between intracranial lesions and facial angiomas in this syndrome is variable, usually ipsilateral but bilateral or even contralateral relationship is possible(21). Sturge-Weber syndrome without facial angioma has been reported(22-24) and in this rare situation , the diagnosis depend solely on the characteristic findings of radiologic studies , especially CT scans or MR imaging , as in case 3 of our series
In conclusion , we think that each imaging modality including CT, MR , or angiography has the unique advantages in the diagnosis of the syndrome but MR is more useful than others because of its superior ability for the detection of parenchymal atrophy , vascular abnomalities and direct visualization of the leptomeningeal angioma with contrast enhancement. Diagnostic value of angiography appears to be less important and might be replaced by noninvasive contrast enhanced CT scans or MR imaging.
REFERENCES
1. Alexander GL, Norman RM. TheSturge-Weber syndrome. Brist이
John Wright & Sons. 1960 2. Sturge WA. A case of partial epi lepsy, apparently due to a lesion
of one the vasomotor center of brain. Trans Clin Soc London
1979 ; 12 : 162-167 3. Weber FP. Right sided hemihypertrphy resulting from right sided
congen ital spastic hemiplegia , with a morbid condition of the left side of brain , revealed by radiogram. J Neurol Psychopathol
1922 ; 3 : 134-1 39 4. Kapila A. Calcification in ce rebral in farct ion. Radio logy 1984 ;
1 53 : 685- 687 5. Yamanouchi Y, Someda K, Tani S, et al. Gyri form calcification
after purulent meningitis. Neuroradiology 1980 ; 20: 159-162 6. Ketonen L, Koskiniemi JL. Gyriform calcification after herpes
simplex virus encephalitis. J Comput Assist Tomogr 1983 ; 1070-1072
7. Wilms G, Van Wijck E, Demaerel Ph, et al. Gyriform calcifications in tuberous sclerosis simulating the appearance of SturgeWeb er disease. AJNR 1992 ; 13: 295-298
8. Welch K, Naheedy MH, Abroms IF , Strand RD. Computed tom。graphy of th e Sturge-Weber syndrome in infants. J Comput As
sist Tomogr1980 ; 4: 33-36 9. Cou lam CM , Brown LR , Reese DF. Sturge-Weber syndrome
Semin Roentgeno/1976 ; 11 : 55-60 10. Bilaniuk LT‘ Zimmerman RA, Tucker S, Hackney DB , Goldberg
HI , Grossman RI. MR of the Sturge-Weber syndrom e(abstr)
Presented at the annual meeting of the American Society of Neuroradiology, New York City, May 1987
11 . Stimac GK , Soloman MA, Newton TH. CT and MR of angiomatous malformations of the choroid plexus in patients with SturgeWeber disease. AJNR 1986 ; 7 .623-627
12. El ster AD , Chen MYM. MR imaging of Sturge-Weber syndrome role of gadopentetate dimeglumine and gradient-echo techniques. AJNR1990; 11 : 685-689
13. Wasenko JJ , Rosenbloom SA , Duchesneau PM, Lanzie ri CF ,
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Weinstein MA. The Sturge-Weber syndrome: comparison 01 MR 19. Bentson JR , Wilson GH, Newton TH. Cerebral venous drainage
and CT characteristics. AJNR 1990 ; 11 : 131-134 pattern 01 the Sturge-Weber syndrome. Radiology 1971 ; 101
14. Chamberlain MC, Press GA, Hesseli nk JR MR imaging and CT in 11 1-118
three cases 01 Sturge-Weber syndrome : prospective compari - 20. Wi lli ams 111 DW, Elster AD. Cranial CT and MR in the
son. AJNR 1989 ; 1 0: 491-496 Klippel -Trenaunay-Weber syndrome. AJNR 1992 ; 13 : 291-294
15. Marti-Bonmati L , Menor F, Poyatos C, Cortina H. Diagnosis 01 21 . Chaudry RR , Brudnicki A. Sturge-Weber syndrome with exten
Sturge-Weber syndrome: comparison 01 the efficacy 01 the CT sive intracranial ca lcilications contralateral to the bulk 01 the
and MR imaging in 14 cases. AJR 1992 ; 158 : 867-871 lacial nevus, normal intel l igence, and abscent seizure disorder
16. Li pski S, Brunelle F, Aicardi J, Hirsch JF , Lallemand D. Gd-DOTA AJNR 1987 ; 8 : 736-737
en hanced MR imaging in two cases 01 Sturge-Weber syndrome. 22. Gorman MJ, Snead OC. Sturge-Weber syndrome without
AJNR 1990 ; 11 : 690-692 portwine nevus. Pediatrics 1977 ; 60 : 785-786
17. Barkovich AJ. Pediatric Neuroimaging. New York : Raven , 1990 ; 23. Ambrosetto P, Ambrosetto G, Michelucci R, Bacci A
123-147 Sturge-Weber synd rome without portwine lacial nevus. Report 01
18. Jacoby CG , Yuh WTC, Alili AK , et al. Accelerated myelination in two cases studied byCT. Childs-Brain 1983 ; 1 0: 387-392
early Sturge-Weber syndrome demonstrated by MR imaging. J 24. Taly AB , Bagaraja DM , Das S, et al. Sturge-Weber-Dimitri dis-
Comput Assist Tomogr 1987 ; 11 : 226-231 ease without facial nevus. Neurofogy 1987 ; 37: 1 063-1 064
대 한 밤 사 선 의 학 회 지 1994; 30(2 ) : 213 - 218
Sturge-Weber Syndrome의 영 상진 단
최층곤·김인원·김우선 · 한문희·문우경 · 장기현·연경모
서울대학교 의과대학 진 단밤사선과학교실
목 적 :본 논문의 목적은 Sturge - Weber 중후군의 특징적인 방사선학적 소견 및 각 영상진단방법,즉 두부 전산화 단층촬
영( CT) , 자기공명영상(MR) , 뇌혈관조영술간의 차이점을 파악하고자 하는데 있다.
대상 및 방법 : Sturge - Weber 중후군 환자 8명에서 시행한 단순 두개글촬영 6예, CT 8예, MR4예, 뇌혈간조영술 3예를 두개
강내 석회화, 뇌실질의 위축, 맥락막총의 이상유무, 뇌혈관 이상유무 및 비정상적인 조영증강을중심으로 후향적으로 분석하
였고 이중 3명에서 CT, MR, 뇌혈관조영술의 소견을 비교하였다.
결 과: 단순촬영은 특징적인 뇌피질 형태의 투개강내 석회화( 3)를 보일수있으나 2세 이전에는 잘 보이지 않았다. CT에서
는 뇌피질의 석회화( 5) , 비후된 맥락막층의 조영증강( 5) , 확장된 심부 뇌정맥 (2)이 보였으며 MR에서는 확장된 심부 뇌정맥
이 측뇌실 주변에서 무신호강도로 보이고(3) 조영증강후 병변부위에 앓은 띠모앙의 조영증강이 뇌피질을 따라서 보였다
(2) . 뇌혈관조영술에서는 뇌수질정맥및 심부뇌정맥이 확장된 소견(3)을 보였다. MR은 CT와 비교했을때 뇌실질의 위축, 뇌
혈관이상 및 연뇌막 혈관종증의 발견에 있어서 우수했고 혈관조영술은 뇌수질정맥 및 심부뇌정맥이 확장된 소견을 MROI 나
CT보다 잘 보여주었다.
결 론 :CT, MR, 뇌혈관조영술은 이 질환의 영상진단에 있어서 각각 장점이 있으나 특히 MR은 뇌혈관이상및 조영증강되
는 연뇌막 혈관종증을 잘 보여줌으로서 가장 우수한 영상진 단방법으로 생각된다.
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