130 Chapter 7structure and Functions of blood vessels
cycle is stored in the “bulge”; the elastic recoil of the artery
then forces that stored blood onward during diastole,
when heart chambers are relaxed. In addition to having
stretchable walls, arteries also have large diameters. For
this reason, they present little resistance to blood flow, so
blood pressure in large arteries is quite stable (Figure 7.14).arterioles are control points for blood flow
Arteries branch into narrower arterioles, which have a wall
built of rings of smooth muscle over a single layer of elastic
fibers (Figure 7.13B). Being built this way, arterioles dilate
(enlarge in diameter) when the smooth muscle relaxes,
and they constrict (shrink in diameter) when the smooth
muscle contracts. Arterioles offer more resistance to blood
flow than other vessels do. As the blood flow slows, it can
be controlled in ways that adjust how much of the total
volume goes to different body regions. For example, you
may feel sleepy after a large meal in part because control
signals divert blood away from your brain and into vessels
serving your digestive system.Capillaries are specialized for diffusion
Your body has about 2 miles of arteries and veins but a
whopping 62,000 miles of capillaries. These tiny vessels
often interlace in capillary beds, and their structure
allows substances to readily diffuse between blood and
tissue fluid. Specifically, a capillary has the thinnest wall
of any blood vessel—a single layer of flat endothelium
(Figure 7.13C). As you might guess, the body’s capacity for
maintaining homeostasis depends heavily on the diffusion
of gases (oxygen and carbon dioxide), nutrients, and
wastes that occurs across the walls of capillaries.
Blood can’t move fast in capillaries. However, because
there are so many capillaries and capillary beds, they
present less total resistance to flow than do the arterioles
leading into them, so overall blood pressure drops more
slowly in them.n There are differences in how different kinds of blood
vessels manage blood flow and blood pressure.
n Links to Epithelium 4.1, Connective tissues 4.2arteries are large, strong blood pipelines
The wall of an artery has several tissue layers (Figure
7.13A). The outer layer is mainly collagen, which anchors
the vessel to the tissue it runs through. A thick middle layer
of smooth muscle is sandwiched between thinner layers
containing elastin. The innermost layer is a thin sheet of
endothelium. Together these layers form a thick, muscular,
and elastic wall. In a large artery the wall bulges slightly
under the pressure surge caused when a ventricle contracts.
In arteries near the body surface, as in the wrist, you can
feel the surges as your pulse.
The bulging of artery walls helps keep blood flowing
on through the system. How? For a moment, some of the
blood pumped during the systole phase of each cardiacFigure 7.13 Animated! The structure of a blood vessel
matches its function.Figure 7.14 Blood pressure changes as blood flows through
different parts of the cardiovascular system.A ArteryC CapillaryB ArterioleD VenuleE Veinconnective
tissue coatsmooth
muscle endotheliumelastic tissueelastic tissueendotheliumsmooth muscle rings
over elastic tissue endotheliumconnective
tissue coatsmooth
muscle endotheliumconnective
tissue coatsmooth muscle,
elastic fibers endotheliumvalve12080400Blood pressure (mm Hg)(systolic)(diastolic)arteries capillariesvenulesveinsarterioles- 6
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