Das Risiko intrazerebraler Gefäßmissbildungen

 

 Buy Article Permissions and Reprints

Zusammenfassung

Grundsätzlich unterscheidet man intrakraniell die echten Gefäßmissbildungen, nämlich piale AV-Malformationen, durale AV-Fisteln, Kavernome und kapilläre Teleangiektasien. Fälschlicherweise werden mancherorts auch die angeborenen venösen Anomalien (developmental venous anomalies) zu den Gefäßmissbildungen gerechnet, obwohl es sich hier nur um Varianten der embryologischen Entwicklung handelt. Global betrachtet haben piale AVM das höchste Blutungsrisiko aller interkraniellen Gefäßmissbildungen. Bei duralen AV-Fisteln kann man das individuelle Blutungsrisiko durch die genaue Analyse der venösen Drainage sehr gut einschätzen. Kavernome haben ein deutlich geringeres Blutungsrisiko, die Blutungen selber sind selten groß und enden auch nur sehr selten katastrophal. DVAs haben kein Blutungsrisiko, sind aber zu einem Drittel mit Kavernomen vergesellschaftet, nach denen gezielt gesucht werden muss. Kapilläre Teleangiektasien haben kein Blutungsrisiko. Der radiologische Zufallsbefund einer intrakraniellen Gefäßmissbildung darf also nicht zu dem Reflex „Zeitbombe mit Blutungsrisiko im Kopf” führen, sondern sollte zu einer individuellen Aufklärung des Patienten führen.

Abstract

In general, intracranial vascular malformations are divided into pial AVM, dural AV fistula, cavernoma and capillary telangiectasias. Developmental venous anomalies are sometimes thought to be vascular malformations. In fact, they are just a variant of venous drainage. In general, pial AVMs have a high risk of intracerebral bleeding. In dural AV fistulas, the individual bleeding risk can be effectively estimated by analyzing the venous drainage. Cavernomas have a low bleeding risk and the bleeding is rarely life-threatening. DVAs do not have any bleeding risk but 30 % are associated with cavernomas. Capillary telangiectasias also have no bleeding risk. Therefore, a radiological finding of an intracranial vascular malformation should not automatically elicit the reaction “time bomb in your head with a bleeding risk” but should be subjected to an analysis of the bleeding risk for the individual patient.

Literatur

• 1 Jellinger K. Zur Ätiologie und Pathogenese der spontanen intrazerebralen Blutung.  Therapiewoche. 1972;  22 1440-1449
  Google Scholar
• 2 McCormick W F. The pathology of vascular („arteriovenous”) malformations.  J Neurosurg. 1966;  24 807-816
  Google Scholar
• 3 Hook O, Johanson C. Intracranial arteriovenous aneurysms; a follow-up study with particular attention to their growth.  AMA Arch Neurol Psychiatry. 1958;  80 39-54
  Google Scholar
• 4 Guidetti B, Delitala A. Intracranial arteriovenous malformations. Conservative and surgical treatment.  J Neurosurg. 1980;  53 149-152
  Google Scholar
• 5 Perret G, Nishioka H. Report on the cooperative study of intracranial aneurysms and subarachnoid hemorrhage. Section VI. Arteriovenous malformations. An analysis of 545 cases of cranio-cerebral arteriovenous malformations and fistulae reported to the cooperative study.  J Neurosurg. 1966;  25 467-490
  Google Scholar
• 6 Crawford P M, West C R, Chadwick D W. et al . Arteriovenous malformations of the brain: natural history in unoperated patients.  J Neurol Neurosurg Psychiatry. 1986;  49 1-10
  Google Scholar
• 7 Ondra S L, Troupp H, George E D. et al . The natural history of symptomatic arteriovenous malformations of the brain: a 24-year follow-up assessment.  J Neurosurg. 1990;  73 387-391
  Google Scholar
• 8 ApSimon H T, Reef H, Phadke R V. et al . A population-based study of brain arteriovenous malformation: long-term treatment outcomes.  Stroke. 2002;  33 2794-2800
  Google Scholar
• 9 Berlis A, Pechstein U, Schumacher M. Spontanverschluss einer zerebralen arteriovenösen Malformation durch Thrombose des Nidus und der drainierenden Venen.  Fortschr Röntgenstr. 2002;  174 1318-1319
  Google Scholar
• 10 LeBlanc R, Ethier R, Little J R. Computerized tomography findings in arteriovenous malformations of the brain.  J Neurosurg. 1979;  51 765-772
  Google Scholar
• 11 Cashen T A, Carr J C, Shin W. et al . , Intracranial time-resolved contrast-enhanced MR angiography at 3T.  AJNR Am J Neuroradiol. 2006;  27 822-829
  Google Scholar
• 12 Furst G, Bettag M, Fischer H. et al . Selektive arterielle und venöse MR-Angiographie intrakranieller arteriovenöser Malformation.  Fortschr Röntgenstr. 1993;  159 71-77
  Google Scholar
• 13 Bartels E, Knauth M. Möglichkeiten und Grenzen der transkraniellen Farbdublexsonographie bei der Darstellung intrakranieller arteriovenösen Malformationen.  Fortschr Röntgenstr. 2006;  178 64-70
  Google Scholar
• 14 Luessenhop A J, Gennarelli T A. Anatomical grading of supratentorial arteriovenous malformations for determining operability.  Neurosurgery. 1977;  1 30-35
  Google Scholar
• 15 Pelletrieri L, Carslon C A, Grevsten S. Surgical versus conservative treatment of intracranial arteriovenous malformations. A study in surgical decision-making.  Acta Neurochir. 1980;  Supp 29 1-86
  Google Scholar
• 16 Shi Y Q, Chen X C. A proposed scheme for grading intracranial arteriovenous malformations.  J Neurosurg. 1986;  65 484-489
  Google Scholar
• 17 Spetzler R F, Martin N A. A proposed grading system for arteriovenous malformations.  J Neurosurg. 1986;  65 476-483
  Google Scholar
• 18 Nishijima M, Takaku A, Endo S. et al . Etiological evaluation of dural arteriovenous malformations of the lateral and sigmoid sinuses based on histopathological examinations.  J Neurosurg. 1992;  76 600-606
  Google Scholar
• 19 Lasjaunias P, Chiu M, ter Brugge K. et al . Neurological manifestations of intracranial dural arteriovenous malformations.  J Neurosurg. 1986;  64 724-730
  Google Scholar
• 20 Cognard C, Gobin Y P, Pierot L. et al . , Cerebral dural arteriovenous fistulas: clinical and angiographic correlation with a revised classification of venous drainage.  Radiology. 1995;  194 671-680
  Google Scholar
• 21 Halbach V V, Higashida R T, Hieshima G B. et al . Dural fistulas involving the transverse and sigmoid sinuses: results of treatment in 28 patients.  Radiology. 1987;  163 443-447
  Google Scholar
• 22 Crawford J V, Russell D S. Cryptic arteriovenous and venous hamartomas of the brain.  J Neurochem. 1956;  19 1-11
  Google Scholar
• 23 Voigt K, Yasargil M G. Cerebral cavernous haemangiomas or cavernomas. Incidence, pathology, localization, diagnosis, clinical features and treatment. Review of the literature and report of an unusual case.  Neurochirurgia (Stuttg). 1976;  19 59-68
  Google Scholar
• 24 Rigamonti D, Spetzler R F. The association of venous and cavernous malformations. Report of four cases and discussion of the pathophysiological, diagnostic, and therapeutic implications.  Acta Neurochir (Wien). 1988;  92 100-105
  Google Scholar
• 25 Amirjamshidi A, Abbassioun K. Radiation-induced tumors of the central nervous system occurring in childhood and adolescence. Four unusual lesions in three patients and a review of the literature.  Childs Nerv Syst. 2000;  16 390-397
  Google Scholar
• 26 Davenport W J, Siegel A M, Dichgans J. et al . CCM1 gene mutations in families segregating cerebral cavernous malformations.  Neurology. 2001;  56 540-543
  Google Scholar
• 27 Kupersmith M J, Kalish H, Epstein F. et al . Natural history of brainstem cavernous malformations.  Neurosurgery. 2001;  48 47-53; discussion 53 - 54
  Google Scholar
• 28 Abdulrauf S I, Kaynar M Y, Awad I A. A comparison of the clinical profile of cavernous malformations with and without associated venous malformations.  Neurosurgery. 1999;  44 41-46; discussion 46 - 47
  Google Scholar
• 29 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. 1994;  80 422-432
  Google Scholar
• 30 Brunereau L, Labauge P, Tournier-Lasserve E. et al . Familial form of intracranial cavernous angioma: MR imaging findings in 51 families. French Society of Neurosurgery.  Radiology. 2000;  214 209-216
  Google Scholar
• 31 Uhlenbrock D, Sehlen S, Dannenmaier B. Intrakranielle Verkalkungen - welche Mehrinformation bietet das MR gegenüber dem CT?.  Fortschr Röntgenstr. 1990;  153 22-28
  Google Scholar
• 32 Labauge P, Laberge S, Brunereau L. et al . Hereditary cerebral cavernous angiomas: clinical and genetic features in 57 French families. Societe Francaise de Neurochirurgie.  Lancet. 1998;  352 1892-1897
  Google Scholar
• 33 Labauge P, Brunereau L, Levy C. et al . The natural history of familial cerebral cavernomas: a retrospective MRI study of 40 patients.  Neuroradiology. 2000;  42 327-332
  Google Scholar
• 34 Hasegawa T, McInerney J, Kondziolka D. et al . Long-term results after stereotactic radiosurgery for patients with cavernous malformations.  Neurosurgery. 2002;  50 1190-1197; discussion 1197 - 1198
  Google Scholar
• 35 Huddle D C, Chaloupka J C, Sehgal V. Clinically aggressive diffuse capillary telangiectasia of the brain stem: a clinical radiologic-pathologic case study.  AJNR Am J Neuroradiol. 1999;  20 1674-1677
  Google Scholar
• 36 Rigamonti D, Johnson P C, Spetzler R F. et al . Cavernous malformations and capillary telangiectasia: a spectrum within a single pathological entity.  Neurosurgery. 1991;  28 60-64
  Google Scholar
• 37 Awad I A, Robinson Jr J R, Mohanty S. et al . Mixed vascular malformations of the brain: clinical and pathogenetic considerations.  Neurosurgery. 1993;  33 179-188; discussion 188
  Google Scholar
• 38 Fellner F A, Frei J, Molzer G. Ein neues MR-Kriterium in der Diagnostik der kapillaren Teleangiektasie des Hirnstamms?.  Fortschr Röntgenstr. 2004;  176 1846-1848
  Google Scholar
• 39 Auffray-Calvier E, Desal H A, Freund P. et al . Capillary telangiectasis, angiographically occult vascular malformations. MRI symptomatology apropos of 7 cases.  J Neuroradiol. 1999;  26 257-261
  Google Scholar
• 40 Garner T B, Del Curling Jr O, Kelly Jr D L. et al . The natural history of intracranial venous angiomas.  J Neurosurg. 1991;  75 715-722
  Google Scholar
• 41 Ostertun B, Solymosi L. Magnetic resonance angiography of cerebral developmental venous anomalies: its role in differential diagnosis.  Neuroradiology. 1993;  35 97-104
  Google Scholar
• 42 Truwit C L. Venous angioma of the brain: history, significance, and imaging findings.  AJR Am J Roentgenol. 1992;  159 1299-1307
  Google Scholar
• 43 McLaughlin M R, Kondziolka D, Flickinger J C. et al . The prospective natural history of cerebral venous malformations.  Neurosurgery. 1998;  43 195-200; discussion 200 - 201
  Google Scholar
• 44 Perrini P, Lanzino G. The association of venous developmental anomalies and cavernous malformations: pathophysiological, diagnostic, and surgical considerations.  Neurosurg Focus. 2006;  21 e5
  Google Scholar

PD Dr. Isabel Wanke

Universitätsklinikum, Inst. für Diagnostik und Interv. Radiologie

Hufelandstraße 55

45122 Essen

Phone: ++49/2 01/7 23 15 01

Fax: ++49/2 01/7 23 59 59

Email: isabel.wanke@uni-essen.de