Early experimental hypertension preserves the myocardial microvasculature but aggravates cardiac injury distal to chronic coronary artery obstruction

Early experimental hypertension preserves the myocardial microvasculature but aggravates cardiac injury distal to chronic coronary artery obstruction

Coronary artery disease is a leading cause of death. Hypertension (HT) increases the incidence of cardiac events, but its effect on cardiac adaptation to coexisting coronary artery stenosis (CAS) is unclear. We hypothesized that concurrent HT modulates microvascular function in chronic CAS and aggra...

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Bibliographic Details
Published in:American journal of physiology. Heart and circulatory physiology Vol. 300; no. 2; p. H693
Main Authors: Urbieta Caceres, Victor Hugo, Lin, Jing, Zhu, Xiang-Yang, Favreau, Frederic D, Gibson, Matthew E, Crane, John A, Lerman, Amir, Lerman, Lilach O
Format: Journal Article
Language:English
Published: United States 01-02-2011
Subjects:
Animals
Arterial Occlusive Diseases - pathology
Blotting, Western
Capillaries - pathology
Capillary Permeability
CD8-Positive T-Lymphocytes - physiology
Chronic Disease
Coronary Angiography
Coronary Circulation - physiology
Coronary Stenosis - pathology
Coronary Vessels
Endothelium, Vascular - physiology
Female
Fibrosis
Hypertension, Renovascular - pathology
Immunohistochemistry
Myocarditis - pathology
Myocardium - metabolism
Myocardium - pathology
Stroke Volume - physiology
Swine
Tomography, X-Ray Computed
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Summary:Coronary artery disease is a leading cause of death. Hypertension (HT) increases the incidence of cardiac events, but its effect on cardiac adaptation to coexisting coronary artery stenosis (CAS) is unclear. We hypothesized that concurrent HT modulates microvascular function in chronic CAS and aggravates microvascular remodeling and myocardial injury. Four groups of pigs (n=6 each) were studied: normal, CAS, HT, and CAS+HT. CAS and HT were induced by placing local irritant coils in the left circumflex coronary artery and renal artery, respectively. Six weeks later multidetector computerized tomography (CT) was used to assess systolic and diastolic function, microvascular permeability, myocardial perfusion, and responses to adenosine in the "area at risk." Microvascular architecture, inflammation, and fibrosis were then explored in cardiac tissue. Basal myocardial perfusion was similarly decreased in CAS and CAS+HT, but its response to adenosine was significantly more attenuated in CAS. Microvascular permeability in CAS+HT was greater than in CAS and was accompanied by amplified myocardial inflammation, fibrosis, and microvascular remodeling, as well as cardiac systolic and diastolic dysfunction. On the other hand, compared with normal, micro-CT-derived microvascular (20-200 μm) transmural density decreased in CAS but not in HT or CAS+HT. We conclude that the coexistence of early renovascular HT exacerbated myocardial fibrosis and vascular remodeling distal to CAS. These changes were not mediated by loss of myocardial microvessels, which were relatively preserved, but possibly by exacerbated myocardial inflammation and fibrosis. HT modulates cardiac adaptive responses to CAS and bears cardiac functional consequences.
ISSN:1522-1539
DOI:10.1152/ajpheart.00516.2010