Literature DB >> 25407267

Biology of cerebral arteriovenous malformations with a focus on inflammation.

Nikolaos Mouchtouris1, Pascal M Jabbour1, Robert M Starke2, David M Hasan3, Mario Zanaty4, Thana Theofanis1, Dale Ding2, Stavropoula I Tjoumakaris1, Aaron S Dumont5, George M Ghobrial1, David Kung1, Robert H Rosenwasser1, Nohra Chalouhi1.   

Abstract

Cerebral arteriovenous malformations (AVMs) entail a significant risk of intracerebral hemorrhage owing to the direct shunting of arterial blood into the venous vasculature without the dissipation of the arterial blood pressure. The mechanisms involved in the growth, progression and rupture of AVMs are not clearly understood, but a number of studies point to inflammation as a major contributor to their pathogenesis. The upregulation of proinflammatory cytokines induces the overexpression of cell adhesion molecules in AVM endothelial cells, resulting in enhanced recruitment of leukocytes. The increased leukocyte-derived release of metalloproteinase-9 is known to damage AVM walls and lead to rupture. Inflammation is also involved in altering the AVM angioarchitecture via the upregulation of angiogenic factors that affect endothelial cell proliferation, migration and apoptosis. The effects of inflammation on AVM pathogenesis are potentiated by certain single-nucleotide polymorphisms in the genes of proinflammatory cytokines, increasing their protein levels in the AVM tissue. Furthermore, studies on metalloproteinase-9 inhibitors and on the involvement of Notch signaling in AVMs provide promising data for a potential basis for pharmacological treatment of AVMs. Potential therapeutic targets and areas requiring further investigation are highlighted.

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Year:  2014        PMID: 25407267      PMCID: PMC4426734          DOI: 10.1038/jcbfm.2014.179

Source DB:  PubMed          Journal:  J Cereb Blood Flow Metab        ISSN: 0271-678X            Impact factor:   6.200


  99 in total

1.  Racial/Ethnic differences in longitudinal risk of intracranial hemorrhage in brain arteriovenous malformation patients.

Authors:  Helen Kim; Stephen Sidney; Charles E McCulloch; K Y Trudy Poon; Vineeta Singh; S Claiborne Johnston; Nerissa U Ko; Achal S Achrol; Michael T Lawton; Randall T Higashida; William L Young
Journal:  Stroke       Date:  2007-08-02       Impact factor: 7.914

2.  Matrix metalloproteinase-9 inhibition attenuates vascular endothelial growth factor-induced intracerebral hemorrhage.

Authors:  Chanhung Z Lee; Zheng Xue; Yiqian Zhu; Guo-Yuan Yang; William L Young
Journal:  Stroke       Date:  2007-08-02       Impact factor: 7.914

3.  Interleukin-6 upregulates expression of KDR and stimulates proliferation of human cerebrovascular smooth muscle cells.

Authors:  Jianhua S Yao; Wenwu Zhai; Yongfeng Fan; Michael T Lawton; Nicholas M Barbaro; William L Young; Guo-Yuan Yang
Journal:  J Cereb Blood Flow Metab       Date:  2006-07-05       Impact factor: 6.200

4.  Hereditary hemorrhagic telangiectasia: clinical features in ENG and ALK1 mutation carriers.

Authors:  C Sabbà; G Pasculli; G M Lenato; P Suppressa; P Lastella; M Memeo; F Dicuonzo; G Guant
Journal:  J Thromb Haemost       Date:  2007-06       Impact factor: 5.824

5.  Whisker stimulation enhances angiogenesis in the barrel cortex following focal ischemia in mice.

Authors:  Vivian R Whitaker; Lin Cui; Scott Miller; Shan P Yu; Ling Wei
Journal:  J Cereb Blood Flow Metab       Date:  2006-05-03       Impact factor: 6.200

6.  Inflammatory molecule expression in cerebral arteriovenous malformations.

Authors:  Kingsley P Storer; Jian Tu; Athula Karunanayaka; Michael K Morgan; Marcus A Stoodley
Journal:  J Clin Neurosci       Date:  2007-11-07       Impact factor: 1.961

Review 7.  Chemokine-like functions of MIF in atherosclerosis.

Authors:  Andreas Schober; Jürgen Bernhagen; Christian Weber
Journal:  J Mol Med (Berl)       Date:  2008-04-02       Impact factor: 4.599

8.  Plasma levels of vascular endothelial growth factor after treatment for cerebral arteriovenous malformations.

Authors:  Grace H Kim; David K Hahn; Christopher P Kellner; Zachary L Hickman; Ricardo J Komotar; Robert M Starke; William J Mack; J Mocco; Robert A Solomon; E Sander Connolly
Journal:  Stroke       Date:  2008-06-05       Impact factor: 7.914

9.  Growth and regression of arteriovenous malformations in a patient with hereditary hemorrhagic telangiectasia. Case report.

Authors:  Rose Du; Tomoki Hashimoto; Tarik Tihan; William L Young; Victor Perry; Michael T Lawton
Journal:  J Neurosurg       Date:  2007-03       Impact factor: 5.115

Review 10.  Vascular endothelial growth factor and its relationship to inflammatory mediators.

Authors:  Laura S Angelo; Razelle Kurzrock
Journal:  Clin Cancer Res       Date:  2007-05-15       Impact factor: 12.531
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  29 in total

Review 1.  Molecular, Cellular, and Genetic Determinants of Sporadic Brain Arteriovenous Malformations.

Authors:  Brian P Walcott; Ethan A Winkler; Guy A Rouleau; Michael T Lawton
Journal:  Neurosurgery       Date:  2016-08       Impact factor: 4.654

2.  The intracerebral hemorrhage blood transcriptome in humans differs from the ischemic stroke and vascular risk factor control blood transcriptomes.

Authors:  Boryana Stamova; Bradley P Ander; Glen Jickling; Farah Hamade; Marc Durocher; Xinhua Zhan; Da Zhi Liu; Xiyuan Cheng; Heather Hull; Alan Yee; Kwan Ng; Natasha Shroff; Frank R Sharp
Journal:  J Cereb Blood Flow Metab       Date:  2018-04-13       Impact factor: 6.200

3.  Surgical Approaches for Symptomatic Cerebral Cavernous Malformations of the Thalamus and Brainstem.

Authors:  Dale Ding; Robert M Starke; R Webster Crowley; Kenneth C Liu
Journal:  J Cerebrovasc Endovasc Neurosurg       Date:  2017-03-31

Review 4.  Pathogenesis of non-hereditary brain arteriovenous malformation and therapeutic implications.

Authors:  Takahiro Ota; Masaki Komiyama
Journal:  Interv Neuroradiol       Date:  2020-02-05       Impact factor: 1.610

5.  Effect of associated aneurysms on the management of intracranial arteriovenous malformations.

Authors:  Dale Ding
Journal:  Neurol Sci       Date:  2016-04-26       Impact factor: 3.307

6.  Endovascular coil embolization of a spinal epidural arteriovenous fistula with associated cord compression from an enlarging venous varix.

Authors:  Dale Ding; Robert M Starke; David Manka; R Webster Crowley; Kenneth C Liu
Journal:  Interv Neuroradiol       Date:  2015-10-13       Impact factor: 1.610

Review 7.  Vis-à-vis: a focus on genetic features of cerebral cavernous malformations and brain arteriovenous malformations pathogenesis.

Authors:  Concetta Scimone; Luigi Donato; Silvia Marino; Concetta Alafaci; Rosalia D'Angelo; Antonina Sidoti
Journal:  Neurol Sci       Date:  2018-12-06       Impact factor: 3.307

8.  Biological relevance of tissue factor and IL-6 in arteriovenous malformations.

Authors:  Shouhei Noshiro; Takeshi Mikami; Yuko Kataoka-Sasaki; Masanori Sasaki; Kazuo Hashi; Shunya Ohtaki; Masahiko Wanibuchi; Nobuhiro Mikuni; Jeffery D Kocsis; Osamu Honmou
Journal:  Neurosurg Rev       Date:  2016-08-19       Impact factor: 3.042

9.  Brain arteriovenous malformations: implications of CEACAM1-positive inflammatory cells and sex on hemorrhage.

Authors:  Belal Neyazi; Angelika Herz; Klaus-Peter Stein; Islam Gawish; Christian Hartmann; Ludwig Wilkens; Sueleyman Erguen; Claudia A Dumitru; I Erol Sandalcioglu
Journal:  Neurosurg Rev       Date:  2016-05-23       Impact factor: 3.042

10.  A Clinical Feasibility Study to Image Angiogenesis in Patients with Arteriovenous Malformations Using 68Ga-RGD PET/CT.

Authors:  Daphne Lobeek; Frédérique C M Bouwman; Erik H J G Aarntzen; Janneke D M Molkenboer-Kuenen; Uta E Flucke; Ha-Long Nguyen; Miikka Vikkula; Laurence M Boon; Willemijn Klein; Peter Laverman; Wim J G Oyen; Otto C Boerman; Samantha Y A Terry; Leo J Schultze Kool; Mark Rijpkema
Journal:  J Nucl Med       Date:  2019-09-13       Impact factor: 10.057
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