image of a cross-section of a capillary occupied by a
red blood cell Blood flows from the heart through
arteries, which branch and narrow into
arterioles, and then branch further into capillaries where nutrients and wastes are exchanged. The capillaries then join and widen to become
venules, which in turn widen and converge to become
veins, which then return blood back to the heart through the
venae cavae. In the
mesentery,
metarterioles form an additional stage between arterioles and capillaries. Individual capillaries are part of the
capillary bed, an interweaving network of capillaries supplying
tissues and
organs. The more
metabolically active a tissue is, the more capillaries are required to supply nutrients and carry away products of metabolism. There are two types of capillaries: true capillaries, which branch from arterioles and provide exchange between tissue and the capillary blood, and
sinusoids, a type of open-pore capillary found in the
liver,
bone marrow,
anterior pituitary gland, and brain
circumventricular organs. Capillaries and sinusoids are short vessels that directly connect the arterioles and venules at opposite ends of the beds.
Metarterioles are found primarily in the
mesenteric microcirculation.
Lymphatic capillaries are slightly larger in diameter than blood capillaries, and have closed ends (unlike the blood capillaries open at one end to the arterioles and open at the other end to the venules). This structure permits
interstitial fluid to flow into them but not out. Lymph capillaries have a greater internal
oncotic pressure than blood capillaries, due to the greater concentration of
plasma proteins in the
lymph.
Types Blood capillaries are categorized into three types: continuous, fenestrated, and sinusoidal (also known as discontinuous).
Continuous Continuous capillaries are continuous in the sense that the endothelial cells provide an uninterrupted lining, and they only allow smaller
molecules, such as water and
ions, to pass through their
intercellular clefts. Lipid-soluble molecules can passively diffuse through the endothelial cell membranes along concentration gradients. Continuous capillaries can be further divided into two subtypes: :# Those with numerous transport vesicles, which are found primarily in
skeletal muscles, fingers,
gonads, and skin. :# Those with few vesicles, which are primarily found in the
central nervous system. These capillaries are a constituent of the
blood–brain barrier. In the
renal glomerulus the capillaries are wrapped in
podocyte foot processes or pedicels, which have slit pores with a function analogous to the diaphragm of the capillaries. Both of these types of blood vessels have continuous
basal laminae and are primarily located in the
endocrine glands,
intestines,
pancreas, and the
glomeruli of the
kidney.
Sinusoidal of a
liver sinusoid with fenestrated endothelial cells. Fenestrae are approximately 100 nm in diameter. Sinusoidal capillaries or discontinuous capillaries are a special type of open-pore capillary, also known as a
sinusoid, that have wider fenestrations that are 30–40
micrometres (μm) in diameter, with wider openings in the endothelium. Fenestrated capillaries have diaphragms that cover the pores whereas sinusoids lack a diaphragm and just have an open pore. These types of blood vessels allow
red and
white blood cells (7.5 μm – 25 μm diameter) and various
serum proteins to pass, aided by a discontinuous basal lamina. These capillaries lack
pinocytotic vesicles, and therefore use gaps present in cell junctions to permit transfer between endothelial cells, and hence across the membrane. Sinusoids are irregular spaces filled with blood and are mainly found in the
liver,
bone marrow,
spleen, and brain
circumventricular organs. == Development ==