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OtherBRAIN

Spontaneous Regression of Cerebral Arteriovenous Malformation in Hereditary Hemorrhagic Telangiectasia

Harry J. Cloft
American Journal of Neuroradiology June 2002, 23 (6) 1049-1050;
Harry J. Cloft
aFrom the Department of Radiology, Mayo Clinic, Rochester, MN
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Abstract

Summary: Cerebral arteriovenous malformations (AVMs) are associated with hereditary hemorrhagic telangiectasia (HHT). I report a case of a patient with HHT with four cerebral AVMs in whom one AVM spontaneously regressed during a 5-year period. The spontaneous regression of this AVM in this patient with HHT supports the theory that AVMs associated with this syndrome have a different natural history than that of typical sporadic AVMs.

Hereditary hemorrhagic telangiectasia (HHT), also known as Osler-Weber-Rendu syndrome, is a disorder with an autosomal dominant inheritance pattern that is characterized by mucocutaneous telangiectatic lesions of the skin, mucous membranes, and viscera and by arteriovenous fistulae in the brain, lungs, and gastrointestinal tract (1). Multiple cerebral arteriovenous malformations (AVMs) are associated with HHT (2–4). Cerebral AVMs in patients with HHT are typically small and have a single arterial feeding pedicle and a single draining vein (2, 4). I report a single case of the spontaneous regression of an AVM in a patient with HHT with four cerebral AVMs.

Case Report

A 15-year-old male patient presented with a ruptured left superior hypophyseal arterial aneurysm. Angiography performed to evaluate the aneurysm demonstrated three supratentorial AVMs that were each smaller than 5 millimeters in diameter and an AVM in the left cerebellar hemisphere that was 10 mm in diameter.

Five years later, the patient underwent angiographic follow-up of the AVMs. Angiography revealed resolution of the AVM in the cerebellar hemisphere and no change in the appearance of the supratentorial AVMs (Fig 1).

Fig 1.
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Fig 1.

Lateral projection angiograms.

A, An AVM is fed by the posterior inferior cerebellar artery.

B, Five years later, spontaneous resolution of the AVM has occurred.

Discussion

I report a case of a patient with HHT with multiple cerebral AVMs, with one AVM that spontaneously resolved. Although patients with HHT are prone to having multiple cerebral AVMs (2, 4), to my knowledge, the spontaneous resolution of an AVM associated with HHT has not been described.

Spontaneous regression of sporadic cerebral AVMs is rare, occurring in about 1% of all cases (5, 6). Like the AVMs in this patient with HHT, sporadic AVMs that undergo spontaneous obliteration tend to be small, have few feeding arteries, and have a single draining vein (5, 6). Unlike this patient with HHT, however, 80–90% of patients in whom sporadic AVMs are spontaneously obliterated present with hemorrhage. The increased local pressure and inflammation caused by hemorrhage may lead to the obliteration of a small AVM. I have no evidence of hemorrhage leading to AVM obliteration in this patient, so we must consider another mechanism of obliteration specific to patients with HHT.

Cerebral AVMs in patients with HHT tend to have a more benign natural history than that of sporadic AVMs, with a bleeding risk of 0.36–0.56% per year (7). Additionally, patients with HHT who have an intracranial hemorrhage due to an AVM tend to have good functional outcomes (8). HHT is associated with three different genetic mutations. Some patients have a mutation of the endoglin gene, whereas others have a mutation of the ALK-1 gene, both of which are active in the transforming growth factor-beta (TGF-β) receptor signaling system (9). A third group of patients does not have mutations of the endoglin or ALK-1 genes; these patients seem to have a mutation of a gene that has yet to be identified (9). The mechanisms by which these mutations lead to AVM malformation are not yet understood. This case also suggests that one or all of these mutations may also lead to formation of an unstable AVM that is prone to spontaneous obliteration.

The spontaneous regression of a brain AVM in a patient with HHT supports the argument that cerebral AVMs in these patients have a natural history different from that of sporadic cerebral AVMs. I report only one case and look forward to further confirmation of this phenomenon in additional cases.

References

  1. ↵
    Peery WH. Clinical spectrum of hereditary hemorrhagic telangiectasia: Osler-Weber-Rendu disease. Am J Med 1987;82:989–997
    CrossRefPubMed
  2. ↵
    Putman CM, Chaloupka JC, Fulbright RK, Awad IA, White RI Jr, Fayad PB. Exceptional multiplicity of cerebral arteriovenous malformations associated with hereditary hemorrhagic telangiectasia: Osler-Weber-Rendu syndrome. AJNR Am J Neuroradiol 1996;17:1733–1742
    Abstract
  3. Fulbright RK, Chaloupka JC, Putman CM, et al. MR of hereditary hemorrhagic telangiectasia: prevalence and spectrum of cerebrovascular malformations. AJNR Am J Neuroradiol 1998;19:477–484
    Abstract
  4. ↵
    Matsubara S, Manzia JL, ter Brugge K, Willinsky RA, Montanera W, Faughnan ME. Angiographic and clinical characteristics of patients with cerebral arteriovenous malformations associated with hereditary hemorrhagic telangiectasia. AJNR Am J Neuroradiol 2000;21:1016–1020
    Abstract/FREE Full Text
  5. ↵
    Patel MC, Hodgson TJ, Kemeny AA, Forster DM. Spontaneous obliteration of pial arteriovenous malformations: a review of 27 cases. AJNR Am J Neuroradiol 2001;22:531–536
    Abstract/FREE Full Text
  6. ↵
    Abdulrauf SI, Malik GM, Awad IA. Spontaneous angiographic obliteration of cerebral arteriovenous malformations. Neurosurgery 1999;44:280–287
    CrossRefPubMed
  7. ↵
    Willemse RB, Mager JJ, Westermann CJ, Overtoom TT, Mauser H, Wolbers JG. Bleeding risk of cerebrovascular malformations in hereditary hemorrhagic telangiectasia. J Neurosurg 2000;92:779–784
    CrossRefPubMed
  8. ↵
    Maher CO, Piepgras DG, Brown RD Jr, Friedman JA, Pollock BE. Cerebrovascular manifestations in 321 cases of hereditary hemorrhagic telangiectasia. Stroke 2001;32:877–882
    Abstract/FREE Full Text
  9. ↵
    Jacobson BS. Hereditary hemorrhagic telangiectasia: a model for blood vessel growth and enlargement. Am J Pathol 2000;156:737–742
    PubMed
  • Received February 5, 2002.
  • Accepted after revision February 18, 2002.
  • Copyright © American Society of Neuroradiology
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American Journal of Neuroradiology: 23 (6)
American Journal of Neuroradiology
Vol. 23, Issue 6
1 Jun 2002
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Spontaneous Regression of Cerebral Arteriovenous Malformation in Hereditary Hemorrhagic Telangiectasia
Harry J. Cloft
American Journal of Neuroradiology Jun 2002, 23 (6) 1049-1050;

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Spontaneous Regression of Cerebral Arteriovenous Malformation in Hereditary Hemorrhagic Telangiectasia
Harry J. Cloft
American Journal of Neuroradiology Jun 2002, 23 (6) 1049-1050;
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