The choroid of the eye is primarily a vascular structure supplying the outer retina.
It has several unusual features: It contains large membrane-lined lacunae, which,
at least in birds, function as part of the lymphatic drainage of the eye and which
can change their volume dramatically, thereby changing the thickness of the choroid
as much as four-fold over a few days (much less in primates). It contains non-vascular
smooth muscle cells, especially behind the fovea, the contraction of which may thin
the choroid, thereby opposing the thickening caused by expansion of the lacunae. It
has intrinsic choroidal neurons, also mostly behind the central retina, which may
control these muscles and may modulate choroidal blood flow as well. These neurons
receive sympathetic, parasympathetic and nitrergic innervation. The choroid has several
functions: Its vasculature is the major supply for the outer retina; impairment of
the flow of oxygen from choroid to retina may cause Age-Related Macular Degeneration.
The choroidal blood flow, which is as great as in any other organ, may also cool and
warm the retina. In addition to its vascular functions, the choroid contains secretory
cells, probably involved in modulation of vascularization and in growth of the sclera.
Finally, the dramatic changes in choroidal thickness move the retina forward and back,
bringing the photoreceptors into the plane of focus, a function demonstrated by the
thinning of the choroid that occurs when the focal plane is moved back by the wearing
of negative lenses, and, conversely, by the thickening that occurs when positive lenses
are worn. In addition to focusing the eye, more slowly than accommodation and more
quickly than emmetropization, we argue that the choroidal thickness changes also are
correlated with changes in the growth of the sclera, and hence of the eye. Because
transient increases in choroidal thickness are followed by a prolonged decrease in
synthesis of extracellular matrix molecules and a slowing of ocular elongation, and
attempts to decouple the choroidal and scleral changes have largely failed, it seems
that the thickening of the choroid may be mechanistically linked to the scleral synthesis
of macromolecules, and thus may play an important role in the homeostatic control
of eye growth, and, consequently, in the etiology of myopia and hyperopia.
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