Detection of cavernous malformations after whole-brain radiotherapy in primitive neuroectodermal tumor patients—comparing susceptibility-weighted imaging and T2 gradient-echo sequences
Purpose The aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in the detection and follow-up of cavernous malformations in patients who underwent whole-brain irradiation as part of their medulloblastoma t...
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| Published in | Neuroradiology Vol. 60; no. 9; pp. 913 - 919 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.09.2018
Springer Nature B.V |
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| Online Access | Get full text |
| ISSN | 0028-3940 1432-1920 1432-1920 |
| DOI | 10.1007/s00234-018-2055-8 |
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| Abstract | Purpose
The aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in the detection and follow-up of cavernous malformations in patients who underwent whole-brain irradiation as part of their medulloblastoma treatment.
Methods
We retrospectively examined MRI studies of 28 subjects (16 males, 12 females) who received whole-brain irradiation as part of their treatment. Ages at irradiation ranged from 2 to 38 years. All patients were periodically followed up with MR imaging (ranging from 9 to 336 months). Two neuroradiologists reviewed studies of the same patients, comparing the number of suspected cavernomas detected on GRE and SWI sequences performed at different times (median time between studies, 10 months).
Results
Hypointense lesions were detected in 24 subjects on SWI sequences and in 19 subjects on GRE sequences. More lesions were seen on SWI than on GRE (
p
= 0.006). Four patients had no detectable lesions. The minimal period from irradiation to first lesion detection was 14 months. Cavernomas larger than 3 mm were detected in 14 subjects by both GRE and SWI. None of the subjects had symptoms related to cavernomas.
Conclusions
The sensitivity of SWI in the detection of hypointense lesions in patients after whole-brain irradiation is significantly higher than that of the GRE sequence. It appears that almost all subjects eventually develop small hypointense lesions after radiotherapy, and some of them progress to cavernous malformations. The clinical significance of the increased sensitivity of SWI in this group of patients is not entirely certain. |
|---|---|
| AbstractList | The aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in the detection and follow-up of cavernous malformations in patients who underwent whole-brain irradiation as part of their medulloblastoma treatment.PURPOSEThe aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in the detection and follow-up of cavernous malformations in patients who underwent whole-brain irradiation as part of their medulloblastoma treatment.We retrospectively examined MRI studies of 28 subjects (16 males, 12 females) who received whole-brain irradiation as part of their treatment. Ages at irradiation ranged from 2 to 38 years. All patients were periodically followed up with MR imaging (ranging from 9 to 336 months). Two neuroradiologists reviewed studies of the same patients, comparing the number of suspected cavernomas detected on GRE and SWI sequences performed at different times (median time between studies, 10 months).METHODSWe retrospectively examined MRI studies of 28 subjects (16 males, 12 females) who received whole-brain irradiation as part of their treatment. Ages at irradiation ranged from 2 to 38 years. All patients were periodically followed up with MR imaging (ranging from 9 to 336 months). Two neuroradiologists reviewed studies of the same patients, comparing the number of suspected cavernomas detected on GRE and SWI sequences performed at different times (median time between studies, 10 months).Hypointense lesions were detected in 24 subjects on SWI sequences and in 19 subjects on GRE sequences. More lesions were seen on SWI than on GRE (p = 0.006). Four patients had no detectable lesions. The minimal period from irradiation to first lesion detection was 14 months. Cavernomas larger than 3 mm were detected in 14 subjects by both GRE and SWI. None of the subjects had symptoms related to cavernomas.RESULTSHypointense lesions were detected in 24 subjects on SWI sequences and in 19 subjects on GRE sequences. More lesions were seen on SWI than on GRE (p = 0.006). Four patients had no detectable lesions. The minimal period from irradiation to first lesion detection was 14 months. Cavernomas larger than 3 mm were detected in 14 subjects by both GRE and SWI. None of the subjects had symptoms related to cavernomas.The sensitivity of SWI in the detection of hypointense lesions in patients after whole-brain irradiation is significantly higher than that of the GRE sequence. It appears that almost all subjects eventually develop small hypointense lesions after radiotherapy, and some of them progress to cavernous malformations. The clinical significance of the increased sensitivity of SWI in this group of patients is not entirely certain.CONCLUSIONSThe sensitivity of SWI in the detection of hypointense lesions in patients after whole-brain irradiation is significantly higher than that of the GRE sequence. It appears that almost all subjects eventually develop small hypointense lesions after radiotherapy, and some of them progress to cavernous malformations. The clinical significance of the increased sensitivity of SWI in this group of patients is not entirely certain. The aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in the detection and follow-up of cavernous malformations in patients who underwent whole-brain irradiation as part of their medulloblastoma treatment. We retrospectively examined MRI studies of 28 subjects (16 males, 12 females) who received whole-brain irradiation as part of their treatment. Ages at irradiation ranged from 2 to 38 years. All patients were periodically followed up with MR imaging (ranging from 9 to 336 months). Two neuroradiologists reviewed studies of the same patients, comparing the number of suspected cavernomas detected on GRE and SWI sequences performed at different times (median time between studies, 10 months). Hypointense lesions were detected in 24 subjects on SWI sequences and in 19 subjects on GRE sequences. More lesions were seen on SWI than on GRE (p = 0.006). Four patients had no detectable lesions. The minimal period from irradiation to first lesion detection was 14 months. Cavernomas larger than 3 mm were detected in 14 subjects by both GRE and SWI. None of the subjects had symptoms related to cavernomas. The sensitivity of SWI in the detection of hypointense lesions in patients after whole-brain irradiation is significantly higher than that of the GRE sequence. It appears that almost all subjects eventually develop small hypointense lesions after radiotherapy, and some of them progress to cavernous malformations. The clinical significance of the increased sensitivity of SWI in this group of patients is not entirely certain. PurposeThe aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in the detection and follow-up of cavernous malformations in patients who underwent whole-brain irradiation as part of their medulloblastoma treatment.MethodsWe retrospectively examined MRI studies of 28 subjects (16 males, 12 females) who received whole-brain irradiation as part of their treatment. Ages at irradiation ranged from 2 to 38 years. All patients were periodically followed up with MR imaging (ranging from 9 to 336 months). Two neuroradiologists reviewed studies of the same patients, comparing the number of suspected cavernomas detected on GRE and SWI sequences performed at different times (median time between studies, 10 months).ResultsHypointense lesions were detected in 24 subjects on SWI sequences and in 19 subjects on GRE sequences. More lesions were seen on SWI than on GRE (p = 0.006). Four patients had no detectable lesions. The minimal period from irradiation to first lesion detection was 14 months. Cavernomas larger than 3 mm were detected in 14 subjects by both GRE and SWI. None of the subjects had symptoms related to cavernomas.ConclusionsThe sensitivity of SWI in the detection of hypointense lesions in patients after whole-brain irradiation is significantly higher than that of the GRE sequence. It appears that almost all subjects eventually develop small hypointense lesions after radiotherapy, and some of them progress to cavernous malformations. The clinical significance of the increased sensitivity of SWI in this group of patients is not entirely certain. Purpose The aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in the detection and follow-up of cavernous malformations in patients who underwent whole-brain irradiation as part of their medulloblastoma treatment. Methods We retrospectively examined MRI studies of 28 subjects (16 males, 12 females) who received whole-brain irradiation as part of their treatment. Ages at irradiation ranged from 2 to 38 years. All patients were periodically followed up with MR imaging (ranging from 9 to 336 months). Two neuroradiologists reviewed studies of the same patients, comparing the number of suspected cavernomas detected on GRE and SWI sequences performed at different times (median time between studies, 10 months). Results Hypointense lesions were detected in 24 subjects on SWI sequences and in 19 subjects on GRE sequences. More lesions were seen on SWI than on GRE ( p = 0.006). Four patients had no detectable lesions. The minimal period from irradiation to first lesion detection was 14 months. Cavernomas larger than 3 mm were detected in 14 subjects by both GRE and SWI. None of the subjects had symptoms related to cavernomas. Conclusions The sensitivity of SWI in the detection of hypointense lesions in patients after whole-brain irradiation is significantly higher than that of the GRE sequence. It appears that almost all subjects eventually develop small hypointense lesions after radiotherapy, and some of them progress to cavernous malformations. The clinical significance of the increased sensitivity of SWI in this group of patients is not entirely certain. |
| Author | Khasminsky, Vadim Atar, Eli Greenberg, Gahl Hoffmann, Chen Yalon, Michal Tsarfaty, Galia |
| Author_xml | – sequence: 1 givenname: Vadim orcidid: 0000-0002-2151-7426 surname: Khasminsky fullname: Khasminsky, Vadim email: vadimkhasminsky@gmail.com organization: Department of Diagnostic Imaging, Rabin Medical Center – sequence: 2 givenname: Michal surname: Yalon fullname: Yalon, Michal organization: Department of Pediatric Hemato-Oncology, Sheba Medical Center – sequence: 3 givenname: Gahl surname: Greenberg fullname: Greenberg, Gahl organization: Department of Diagnostic Imaging, Sheba Medical Center – sequence: 4 givenname: Galia surname: Tsarfaty fullname: Tsarfaty, Galia organization: Department of Diagnostic Imaging, Sheba Medical Center – sequence: 5 givenname: Eli surname: Atar fullname: Atar, Eli organization: Department of Diagnostic Imaging, Sheba Medical Center – sequence: 6 givenname: Chen surname: Hoffmann fullname: Hoffmann, Chen organization: Department of Diagnostic Imaging, Sheba Medical Center |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/30030548$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_clon_2021_04_010 crossref_primary_10_1148_rg_2021200064 crossref_primary_10_1093_bjrcr_uaad007 |
| Cites_doi | 10.1159/000072472 10.1007/s11060-014-1390-9 10.1159/000120776 10.1177/1971400916665376 10.1007/s00062-012-0185-7 10.1038/ejhg.2011.155 10.3171/ped.2006.104.2.6 10.3174/ajnr.A0748 10.3349/ymj.2015.56.6.1714 10.1161/STROKEAHA.113.002267 10.1093/hmg/ddn420 10.3171/2015.1.JNS141452 10.1007/s00381-015-2626-5 10.3171/jns.1994.80.3.0422 10.1007/s00234-013-1185-2 10.1155/2015/808314 |
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| References_xml | – reference: GuoLFWangGZhuXYLiuCCuiLComparison of ESWAN, SWI-SPGR, and 2D T2*-weighted GRE sequence for depicting cerebral microbleedsClin Neuroradiol20132312112710.1007/s00062-012-0185-7232126601:STN:280:DC%2BC3s7pt1Crtg%3D%3D – reference: LewSMMorganJNPsatyELeftonDRAllenJCAbbottRCumulative incidence of radiation-induced cavernomas in long-term survivors of medulloblastomaNeurosurgery2006104103107 – reference: de SouzaJMDominguesRCCruzLCJrDominguesFSIasbeckTGasparettoELSusceptibility-weighted imaging for the evaluation of patients with familial cerebral cavernous malformations: a comparison with t2-weighted fast spin-echo and gradient-echo sequencesAJNR Am J Neuroradiol20082915415810.3174/ajnr.A074817947370 – reference: SparaciaGSpecialeCBancoABencivinniFMidiriMAccuracy of SWI sequences compared to T2*-weighted gradient echo sequences in the detection of cerebral cavernous malformations in the familial formNeuroradiol J20162932633510.1177/1971400916665376275491505033099 – reference: JainRRobertsonPLGandhiDGujarSKMuraszkoKMGebarskiSRadiation-induced cavernomas of the brainAJNR Am J Neuroradiology20052611581162 – reference: PagenstecherAStahlSSureUFelborUA two-hit mechanism causes cerebral cavernous malformations: complete inactivation of CCM1, CCM2 or CCM3 in affected endothelial cellsHum Mol Genet20091891191810.1093/hmg/ddn420190881241:CAS:528:DC%2BD1MXhvV2jt70%3D – reference: ChengALBatoolSMcCrearyCRLauzonMLFrayneRGoyalMSmithEESusceptibility-weighted imaging is more reliable than T2*-weighted gradient-recalled echo MRI for detecting microbleedsStroke2013442782278610.1161/STROKEAHA.113.00226723920014 – reference: MouchtourisNChalouhiNChitaleAStarkeRMTjoumakarisSIRosenwasserRHJabbourPMManagement of cerebral cavernous malformations: from diagnosis to treatmentScientificWorldJournal2015201580831410.1155/2015/808314256290874300037 – reference: ZabramskiJMWascherTMSpetzlerRFJohnsonBGolfinosJDrayerBPBrownBRigamontiDBrownGThe natural history of familial cavernous malformations: results of an ongoing studyNeurosurgery19948042243210.3171/jns.1994.80.3.04221:STN:280:DyaK2c7lslKhtQ%3D%3D – reference: HaasdijkRAChengCMaat-KievitAJDuckersHJCerebral cavernous malformations: from molecular pathogenesis to genetic counselling and clinical managementEur J Hum Genet20122013414010.1038/ejhg.2011.155218292311:CAS:528:DC%2BC38Xnslajtg%3D%3D – reference: BaumgartnerJEAterJLHaCSKutteschJFLeedsNEFullerGNWilsonRJPathologically proven cavernous angiomas of the brain following radiation therapy for pediatric brain tumorsPediatr Neurosurg20033920120710.1159/00007247212944701 – reference: YamasakiFTakayasuTNosakaRKenjoMAkiyamaYTominagaASugiyamaKKobayashiMKurisuKThe postirradiation incidence of cavernous angioma is higher in patients with childhood pineoblastoma or primitive neuroectodermal tumors than medulloblastomaChilds Nerv Syst20153190190710.1007/s00381-015-2626-525690449 – reference: CiricilloSFCogenPHEdwardsMSPediatric cryptic vascular malformations: presentation, diagnosis and treatmentPediatr Neurosurg19942013714710.1159/00012077681614871:STN:280:DyaK2c3htlOqtQ%3D%3D – reference: PetersSPahlRClaviezAJansenODetection of irreversible changes in susceptibility-weighted images after whole-brain irradiation of childrenNeuroradiology20135585385910.1007/s00234-013-1185-2235886151:STN:280:DC%2BC3srlsVWksA%3D%3D – reference: Cutsforth-GregoryJKLanzinoGLinkMJBrownRDJrFlemmingKDCharacterization of radiation-induced cavernous malformations and comparison with a nonradiation cavernous malformation cohortJ Neurosurg20151221214122210.3171/2015.1.JNS14145225699412 – reference: Di GiannataleAMoranaGRossiANatural history of cavernous malformations in children with brain tumors treated with radiotherapy and chemotherapyJ Neuro-Oncol201411731132010.1007/s11060-014-1390-91:CAS:528:DC%2BC2cXisVCrs7Y%3D – reference: American Brain Tumor Association. Types of tumor. http://www.abta.org/brain-tumor-information/types-of-tumors/medulloblastoma.html. Accessed 12 Jan 2018 – reference: ChaYJNahmJHKoJEShinHJChangJ-HChoNHPathological evaluation of radiation-induced vascular lesions of the brain: distinct from de novo cavernous hemangiomaYonsei Med J2015561714172010.3349/ymj.2015.56.6.1714264466584630064 – reference: BulutHTSaricaMABaykanAHThe value of susceptibility weighted magnetic resonance imaging in evaluation of patients with familial cerebral cavernous angiomaClin Exp Med Int J20147252965302 – volume: 39 start-page: 201 year: 2003 ident: 2055_CR6 publication-title: Pediatr Neurosurg doi: 10.1159/000072472 – volume: 117 start-page: 311 year: 2014 ident: 2055_CR10 publication-title: J Neuro-Oncol doi: 10.1007/s11060-014-1390-9 – volume: 20 start-page: 137 year: 1994 ident: 2055_CR2 publication-title: Pediatr Neurosurg doi: 10.1159/000120776 – volume: 72 start-page: 5296 year: 2014 ident: 2055_CR8 publication-title: Clin Exp Med Int J – volume: 29 start-page: 326 year: 2016 ident: 2055_CR11 publication-title: Neuroradiol J doi: 10.1177/1971400916665376 – ident: 2055_CR1 – volume: 23 start-page: 121 year: 2013 ident: 2055_CR13 publication-title: Clin Neuroradiol doi: 10.1007/s00062-012-0185-7 – volume: 20 start-page: 134 year: 2012 ident: 2055_CR17 publication-title: Eur J Hum Genet doi: 10.1038/ejhg.2011.155 – volume: 104 start-page: 103 year: 2006 ident: 2055_CR4 publication-title: Neurosurgery doi: 10.3171/ped.2006.104.2.6 – volume: 29 start-page: 154 year: 2008 ident: 2055_CR7 publication-title: AJNR Am J Neuroradiol doi: 10.3174/ajnr.A0748 – volume: 56 start-page: 1714 year: 2015 ident: 2055_CR15 publication-title: Yonsei Med J doi: 10.3349/ymj.2015.56.6.1714 – volume: 44 start-page: 2782 year: 2013 ident: 2055_CR12 publication-title: Stroke doi: 10.1161/STROKEAHA.113.002267 – volume: 18 start-page: 911 year: 2009 ident: 2055_CR16 publication-title: Hum Mol Genet doi: 10.1093/hmg/ddn420 – volume: 122 start-page: 1214 year: 2015 ident: 2055_CR18 publication-title: J Neurosurg doi: 10.3171/2015.1.JNS141452 – volume: 31 start-page: 901 year: 2015 ident: 2055_CR5 publication-title: Childs Nerv Syst doi: 10.1007/s00381-015-2626-5 – volume: 26 start-page: 1158 year: 2005 ident: 2055_CR14 publication-title: AJNR Am J Neuroradiology – volume: 80 start-page: 422 year: 1994 ident: 2055_CR9 publication-title: Neurosurgery doi: 10.3171/jns.1994.80.3.0422 – volume: 55 start-page: 853 year: 2013 ident: 2055_CR3 publication-title: Neuroradiology doi: 10.1007/s00234-013-1185-2 – volume: 2015 start-page: 808314 year: 2015 ident: 2055_CR19 publication-title: ScientificWorldJournal doi: 10.1155/2015/808314 |
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The aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE)... The aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in the... PurposeThe aim of this retrospective study is to investigate the value of the susceptibility-weighted imaging (SWI) sequence compared to gradient echo (GRE) in... |
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| SubjectTerms | Brain Diagnostic Neuroradiology Females Imaging Irradiation Lesions Magnetic resonance imaging Males Medical imaging Medicine Medicine & Public Health Medulloblastoma Nervous system diseases Neuroimaging Neurology Neuroradiology Neurosciences Neurosurgery Patients Radiation therapy Radiology Sensitivity Sequences |
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| Title | Detection of cavernous malformations after whole-brain radiotherapy in primitive neuroectodermal tumor patients—comparing susceptibility-weighted imaging and T2 gradient-echo sequences |
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