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Objectives
After studying this chapter, the student should be able to:
Describe the optical functions of the cornea and lens, problems that occur in focus, and the correction of these problems.
Describe the process of phototransduction from photon capture to neurotransmitter release.
Diagram the neural circuit of the retina, and outline the function of each major cell class.
List the central projection targets of retinal ganglion cells and describe the functions of these brain areas.
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IMAGING & CAPTURING LIGHT
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Vision begins with light passing through the cornea and lens, the optical elements that refract, focus, and transmit light to the innermost layer of the eye, the retina, the region that transduces light information to electrical signals and transmits them to the brain. Because the cornea is at the interface between air (index of refraction close to 1.0) and the corneal tissue (index of refraction about 1.38), the cornea does most of the focusing. The lens, with a slightly higher index of refraction than the aqueous humor (variable, but about 1.4 in its center), fine tunes the focus. Ciliary muscles modulate refraction by the lens, controlling focus. This process is called accommodation. Because the cornea and lens are converging and positive lenses, they project an inverted image on the retina.
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The main structural elements of the eye are shown in Figure 11–1.
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