Are there systemic changes in the arterial biomechanics of intracranial aneurysm patients?
Autor: | György L. Nádasy, István Nyáry, Tibor Kerényi, Mária Tóth, Emil Monos |
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Rok vydání: | 2000 |
Předmět: |
Adult
Male medicine.medical_specialty Physiology Clinical Biochemistry Connective tissue Blood Pressure Aneurysm Cadaver Physiology (medical) medicine.artery Internal medicine medicine Anterior cerebral artery Humans Arterial biomechanics Radial artery Aged business.industry Biomechanics Intracranial Aneurysm Intracranial Artery Cerebral Arteries Middle Aged medicine.disease Elasticity Biomechanical Phenomena medicine.anatomical_structure Vasoconstriction Radial Artery Cardiology Female Stress Mechanical business |
Zdroj: | Pflügers Archiv - European Journal of Physiology. 439:573-578 |
ISSN: | 1432-2013 0031-6768 |
DOI: | 10.1007/s004249900154 |
Popis: | Current theories on the development of intracranial aneurysm suggest that there is a general weakness of vascular connective tissue. Potential systemic alterations in arterial wall biomechanics were tested in the present study. A three-dimensional in vitro stress-strain analysis was made in the 0-200-0 mmHg pressure range on cylindrical segments excised from the anterior cerebral artery, the radial artery and from the arteria dorsalis pedis of aneurysm patients and of control cadavers. In the anterior cerebral artery from aneurysm patients (intracranial artery segments directly not affected by the aneurysm or by the subarachnoid bleeding), we found the wall thickness to be larger (0.1480+/-.019 versus 0.091+/-0.004 mm), the radius/wall thickness ratio smaller (9.7+/-1.4 versus 14.1+/-1.2), and the tangential wall stress lower [(0.122+/-0.019)x10(6) versus (0.181+/-0.016)x10(6) N/m2 at 100 mmHg] than in control subjects. Reduced radius was found in the extremity arteries studied. Elastic parameters, as incremental distensibility and elastic modulus, were remarkable similar. Our study demonstrates changes in the geometry of walls of arteries not directly affected by aneurysm formation, and it thus confirms systemic vascular pathology in this disease. At the same time, these data show that the molecular and morphological defects of arterial connective tissue formation generally thought to induce intracranial aneurysms will probably not affect the components responsible for the passive elastic properties of the vascular wall. |
Databáze: | OpenAIRE |
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