Role of oxygen in arteriolar functional vasodilation in hamster striated muscle
R. J. Gorczynski and B. R. Duling Small isolated groups of striated muscle cells were stimulated in the hamster cremaster muscle. During and after stimulation, oxygen microelectrodes were employed to determine the relationships among arteriolar vasodilation, tissue Po2, and periarteriolar Po2. Local...
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Veröffentlicht in: | American journal of physiology. Heart and circulatory physiology 1978-11, Vol.235 (5), p.H505-H515 |
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Sprache: | eng |
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Zusammenfassung: | R. J. Gorczynski and B. R. Duling
Small isolated groups of striated muscle cells were stimulated in the
hamster cremaster muscle. During and after stimulation, oxygen
microelectrodes were employed to determine the relationships among
arteriolar vasodilation, tissue Po2, and periarteriolar Po2. Localized
contraction produced a biphasic arteriolar vasodilation without associated
alteration of Po2 on the surface of the arterioles (vascular smooth muscle
Po2). In contrast, muscle contraction produced a decline in muscle tissue
Po2 that was proportional to the contraction frequency over the range of
1--4 contractions per second. An increase in contraction frequency also
produced a graded increase in arteriolar diameter, the magnitude of which
was statistically correlated with the steady-state change in tissue Po2.
However, arteriolar diameter changes preceded tissue Po2 changes, both with
the initiation of functional dilation and during the recovery period.
Tissue Po2 was manipulated at rest and during contraction by increasing the
Po2 of the superfusion solution. Increasing the tissue Po2 caused a
decrease in vascular diameter under both conditions and a reduction in the
magnitude of the arteriolar vasodilation during contraction. Restoration of
tissue Po2 to resting levels during muscle contraction produced only
partial restoration of vascular diameters. The results are consistent with
the hypothesis that at least three components are involved in the vascular
control process during muscular activity: an early component independent of
tissue oxygen levels, a late component independent of oxygen, and a late
component associated with a decrease in muscle Po2, without an effect on
vascular smooth muscle Po2. The evidence indicated that Po2 of the smooth
muscle of the arterioles had no role in the dilation observed. |
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ISSN: | 0363-6135 0002-9513 1522-1539 |
DOI: | 10.1152/ajpheart.1978.235.5.H505 |