Microbleeds and cavernomas after radiotherapy for paediatric primary brain tumours

Passos, João; Nzwalo, Hipólito; Valente, Mariana; Marques, Joana; Azevedo, Ana; Netto, Eduardo; Da Silva Ribeiro Mota, Antonio; Borges, Alexandra; Nunes, Sofia; Salgado, Duarte

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Microbleeds and cavernomas after radiotherapy for paediatric primary brain tumours

Passos, João; Nzwalo, Hipólito; Valente, Mariana et al.

2016 • In Journal of the Neurological Sciences

Peer reviewed

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https://hdl.handle.net/2268/246327

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27856004

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Disciplines :

Oncology

Author, co-author :

Passos, João

Nzwalo, Hipólito

Valente, Mariana

Marques, Joana

Azevedo, Ana

Netto, Eduardo

Da Silva Ribeiro Mota, Antonio

Borges, Alexandra

Nunes, Sofia

Salgado, Duarte

Language :

English

Title :

Microbleeds and cavernomas after radiotherapy for paediatric primary brain tumours

Publication date :

11 October 2016

Journal title :

Journal of the Neurological Sciences

Peer reviewed :

Peer reviewed

Available on ORBi :

since 31 March 2020

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Bibliography

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[2] Armstrong, G.T., Liu, Q., Yasui, Y., et al. Long-term outcomes among adult survivors of childhood central nervous system malignancies in the Childhood Cancer Survivor Study. J. Natl. Cancer Inst. 101:13 (Jul. 1 2009), 946–958.
[3] Yeom, K.W., Lober, R.M., et al. Increased focal hemosiderin deposition in pediatric medulloblastoma patients receiving radiotherapy at a later age. J. Neurosurg. Pediatr. 12:5 (Nov 2013), 444–451, 10.3171/2013.7.PEDS1330 (Epub 2013 Aug 30).
[4] Passos, J., Nzwalo, H., Marques, J., et al. Late cerebrovascular complications after radiotherapy for childhood primary central nervous system tumors. Pediatr. Neurol. 53:3 (Sep. 2015), 211–215.
[5] Fazekas, F., Kleinert, R., et al. Histopathologic analysis of foci of signal loss on gradient-echo T2*-weighted MR images in patients with spontaneous intracerebral hemorrhage: evidence of microangiopathy-related microbleeds. AJNR Am. J. Neuroradiol. 20:4 (Apr. 1999), 637–642.
[6] Charidimou, A., Krishnan, A., Werring, D.J., et al. Cerebral microbleeds: a guide to detection and clinical relevance in different disease settings. Neuroradiology 55 (2013), 655–674.
[7] Werring, D.J., Gregoire, S.M., Cipolotti, L., Cerebral microbleeds and vascular cognitive impairment. J. Neurol. Sci. 299:1–2 (Dec. 15 2010), 131–135, 10.1016/j.jns.2010.08.034 (Epub 2010 Sep 17).
[8] Roddy, E., Sear, K., et al. Presence of cerebral microbleeds is associated with worse executive function in pediatric brain tumor survivors. Neuro Oncol., Aug. 18 2016 (pii: now163. Epub ahead of print).
[9] Gregoire, S.M., Chaudhary, U.J., Brown, M.M., et al. The microbleed anatomical rating scale (MARS): reliability of a tool to map brain microbleeds. Neurology 73:21 (Nov. 24 2009), 1759–1766.
[10] Zabramski, J.M., Wascher, T.M., Spetzler, R.F., et al. The natural history of familial cavernous malformations: results of an ongoing study. J. Neurosurg. 80 (1994), 422–432.
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[13] Charidimou, A., Shoamanesh, A., Wilson, D., et al. Cerebral microbleeds and postthrombolysis intracerebral hemorrhage risk updated meta-analysis. Neurology, 85(11), Sep. 15 2015 (927–4. in review).
[14] Akoudad, S., Portegies, M.L., Koudstaal, P.J., et al. Cerebral microbleeds are associated with an increased risk of stroke: the Rotterdam Study. Circulation 132:6 (Aug. 11 2015), 509–516, 10.1161/CIRCULATIONAHA.115.016261 (Epub 2015 Jul 2).