Dynamic changes in three-dimensional architecture and vascular volume of transmural coronary microvasculature between diastolic- and systolic-arrested rat hearts

被引:98
作者
Toyota, E
Fujimoto, K
Ogasawara, Y
Kajita, T
Shigeto, F
Matsumoto, T
Goto, M
Kajiya, F
机构
[1] Kawasaki Med Sch, Dept Med Engn & Syst Cardiol, Okayama, Japan
[2] Kawasaki Med Sch, Dept Anat, Okayama, Japan
[3] Okayama Univ, Sch Med, Dept Physiol 2, Okayama 700, Japan
关键词
microcirculation; imaging; myocardial contraction;
D O I
10.1161/hc0502.102964
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
Background-The phase difference of coronary arterial and venous flows indicates the importance of intramyocardial capacitance vessels in storing diastolic flow and in discharging volume in systole. However, the anatomic and functional characteristics of the capacitance vessels are unclear. We aimed to clarify those characteristics with their transmural difference by 3D visualization of transmural microvessels under diastole and systole. Methods and Results-We performed complete intracoronary filling of a contrast medium into Langendorff's Wistar rat hearts under (1) St Thomas-perfused diastolic arrest (D-mode) and (2) BaCl2-induced systolic arrest (S-mode). Precise transmural 3D architectures of capillaries and of pre- and post-capillary microvessels (ie, microvessels larger than capillaries) were visualized clearly with a confocal laser scanning microscope and x-ray microcomputed tomography (microCT), respectively. Vascular volume fraction (VF) and systolic-induced VF reduction rate from D- to S-mode were analyzed. The net capillary VF in D-mode (20.4+/-0.9%) was 10 times that of larger microvessels and was reduced in S-mode by 32% without capillary collapse. Systolic-induced VF reduction rate was smaller in capillaries than in larger microvessels (48%; P<0.05). The larger microvessel VF in D-mode (2.2+/-0.2%) was reduced in S-mode, accompanied by complicated 3D deformation. Conclusions-Capillaries were relatively resistant to the systolic extravascular compression compared with pre- and post-capillary microvessels, conveniently beneficial for the myocardial oxygen delivery throughout a cardiac cycle. Nevertheless, a larger change in the absolute volume of capillaries may function as effective capacitance. On one hand, the pre- and post-capillary microvessels showed a larger phasic change in resistance, which may function to maintain the capillary patency during systole.
引用
收藏
页码:621 / 626
页数:6
相关论文
共 22 条
[1]  
ANDERSON WD, 1988, ACTA ANAT, V131, P305, DOI 10.1159/000146533
[3]   PATTERN OF MICROCIRCULATORY BED IN VENTRICULAR MYOCARDIUM OF DOMESTIC MAMMALS [J].
BROWN, RE .
AMERICAN JOURNAL OF ANATOMY, 1965, 116 (02) :355-&
[4]  
Caulfield J B, 1983, Adv Myocardiol, V4, P379
[5]   MICROVASCULAR DISTRIBUTION OF CORONARY VASCULAR-RESISTANCE IN BEATING LEFT-VENTRICLE [J].
CHILIAN, WM ;
EASTHAM, CL ;
MARCUS, ML .
AMERICAN JOURNAL OF PHYSIOLOGY, 1986, 251 (04) :H779-H788
[6]   EFFECTS OF CORONARY AND EXTRAVASCULAR PRESSURE ON INTRAMYOCARDIAL AND EPICARDIAL BLOOD VELOCITY [J].
CHILIAN, WM ;
MARCUS, ML .
AMERICAN JOURNAL OF PHYSIOLOGY, 1985, 248 (02) :H170-H178
[7]   DOES SYSTOLIC SUBEPICARDIAL PERFUSION COME FROM RETROGRADE SUBENDOCARDIAL FLOW [J].
FLYNN, AE ;
COGGINS, DL ;
GOTO, M ;
ALDEA, GS ;
AUSTIN, RE ;
DOUCETTE, JW ;
HUSSEINI, W ;
HOFFMAN, JIE .
AMERICAN JOURNAL OF PHYSIOLOGY, 1992, 262 (06) :H1759-H1769
[8]   ELASTICITY OF PULMONARY ALVEOLAR SHEET [J].
FUNG, YC ;
SOBIN, SS .
CIRCULATION RESEARCH, 1972, 30 (04) :451-+
[9]  
FUNG YC, 1997, BIOMECHANICS CIRCULA, P446
[10]   CARDIAC CONTRACTION AFFECTS DEEP MYOCARDIAL VESSELS PREDOMINANTLY [J].
GOTO, M ;
FLYNN, AE ;
DOUCETTE, JW ;
JANSEN, CMA ;
STORK, MM ;
COGGINS, DL ;
MUEHRCKE, DD ;
HUSSEINI, WK ;
HOFFMAN, JIE .
AMERICAN JOURNAL OF PHYSIOLOGY, 1991, 261 (05) :H1417-H1429