1. Chapter 19 Special Senses: Vision

2. Accessory Structures of the Eye
Fig. 19.9
Accessory Structures of the Eye
Structures that prevent foreign objects from entering eye:
eyebrows
eyelashes (length ideally 1/3 width of eye opening)
eyelids (AKA palpebrae) include
thin layer of skin, muscle, fibrous core

3. Fig
Lacrimal Apparatus 1 2 3 4 5
Nostril
Nasal cavity
Nasolacrimal duct
Lacrimal sac
Lacrimal canaliculi
Lacrimal caruncle
Lacrimal puncta
Lacrimal gland
(orbital part)
(palpebral part)
Produces, collects, and drains lacrimal fluid (tears)
lubricates anterior surface of eye
cleanses and moistens eye surface
contains antibacterial enzyme to help prevent infection

4. Fig. 19.11a Anatomy of the Internal Eye
Fibrous tunic
Sclera
Cornea
Vascular tunic
Iris
Ciliary body
Choroid
Retina
Pigmented layer
Neural layer
Fig a Anatomy of the Internal Eye
Human eye is about 2.5 cm in diameter
Orbital fat cushions eye against bone
provides blood vessels and supports nerves
Fibrous tunic is tough external layer
Sclera is “white” of eye, made of dense, irregular connective tissue
Cornea is clear surface of anterior eye
convex shape bends light coming into eye
continuous with sclera but clear

5. Accessory Structures of the Eye
Fig. 19.9b
Accessory Structures of the Eye
Eyebrow
Conjunctiva produces mucus and (some) tears
Palpebral conjunctiva covers inner surface of eyelid
Ocular conjunctiva covers sclera
Ocular conjunctiva
Palpebral conjunctiva
Superior tarsal plate
Superior eyelid
Cornea
Eyelashes
Inferior eyelid
Inferior tarsal plate

6. Accessory Structures of the Eye
Fig. 19.9b
Accessory Structures of the Eye
Eyebrow
conjunctiva contains blood vessels
does not cover surface of cornea so blood vessels and nerves don’t block vision
Ocular conjunctiva
Palpebral conjunctiva
Superior tarsal plate
Superior eyelid
Cornea
Eyelashes
Inferior eyelid
Inferior tarsal plate

7. Central Ciliary muscle artery of Ciliary body Central retina vein of
Fig
Central
artery of
retina
Ciliary muscle
Ciliary body
Central
vein of
retina
Ciliary process
Suspensory ligaments
Limbus
CN II (optic)
Lens
Iris
Cornea
Optic disc
Pupil
Fovea centralis
Sphincter pupillae
Dilator pupillae
Posterior
cavity
Retina
Anterior chamber
Anterior
cavity
Choroid
Posterior chamber
Sclera
(b)

8. Fig. 19.11a Anatomy of the Internal Eye
Fibrous tunic
Sclera
Cornea
Vascular tunic
Iris
Ciliary body
Choroid
Retina
Pigmented layer
Neural layer
Fig a Anatomy of the Internal Eye
Vasclar tunic (AKA uvea)
3 regions
Iris is colored portion of eye
black hole at center is pupil
two layers of pigment-forming cells give eye color
contains two groups of smooth muscle fibers, controls size of pupil

9. Within iris, two layers of muscles
Fig
Within iris, two layers of muscles
sphincter pupillae is in concentric circles, constricts pupil
dilator pupillae extends in radial pattern, dilates pupil
Lens
Iris
Cornea
Pupil
Sphincter pupillae
Dilator pupillae

11. Fig. 19.11a Anatomy of the Internal Eye
Fibrous tunic
Sclera
Cornea
Vascular tunic
Iris
Ciliary body
Choroid
Retina
Pigmented layer
Neural layer
Vascular tunic (AKA uvea)
3 regions
Ciliary body is continuous with iris
composed of ciliary muscles and ciliary processes that cover muscles
suspensory ligaments extend to lens, focus eye by contracting or relaxing

12. Ciliary muscles in ciliary body
Fig
Ciliary muscles in ciliary body
Suspensory ligaments
Lens

13. Fig. 19.11a Anatomy of the Internal Eye
Fibrous tunic
Sclera
Cornea
Vascular tunic
Iris
Ciliary body
Choroid
Retina
Pigmented layer
Neural layer
Vascular tunic (AKA uvea)
3 regions
Choroid is most posterior region, black color
prevents reflection of excess light back into retina
in cats, cows, etc., choroid covered with tapetum lucidum that reflects light

15. Fig. 19.11a Anatomy of the Internal Eye
Fibrous tunic
Sclera
Cornea
Vascular tunic
Iris
Ciliary body
Choroid
Retina
Pigmented layer
Neural layer
Retina is most internal layer
composed of 2 layers
pigmented layer is attached to choroid
provides Vitamin A for photoreceptor cells
transports nutrients and oxygen to photoreceptor cells, removes waste
neural layer is internal to pigmented layer
houses photoreceptors and other neurons involved in receiving and processing light signals
not attached to other layers, except at optic nerve

16. Tapetum lucidum
Cow eye
Human eye

17. Organization of the Retina
Blood vessels and neurons leave eye through optic disc, travel through center of optic nerve out back of eye
optic disk creates blind spot
Sclera
Choroid
Optic disc
Optic
nerve
Fovea centralis

18. Organization of the Retina
Fig a & b
Organization of the Retina
Choroid
Retina
Sclera
Choroid
Rod
Photoreceptor
cells
Optic disc
Cone
Pigmented
layer
Horizontal cell
Bipolar cells
Optic
nerve
Retina
Amacrine cell
Light travels through neural layer and is received by photoreceptor cells on deepest layer of retina
Neural
layer
Ganglion cells
Axons of ganglion
cells to optic nerve
Incoming light
Nerve signal

19. Organization of the Retina
Fig a & b
Organization of the Retina
Choroid
Photoreceptor cells
rods are most sensitive in dim light, process black and white, most numerous outside fovea centralis
cones process color, are most sensitive in high-intensity light, most numerous within fovea centralis
Rod
Photoreceptor
cells
Cone
Horizontal cell
Bipolar cells
Amacrine cell
Ganglion cells
Axons of ganglion
cells to optic nerve

20. Axons of ganglion cells LM 250x Posterior cavity
Fig
Choroid
Pigmented
layer
Rods and cones
Retina
Bipolar cells
Neural
layer
Ganglion cells
Axons of ganglion cells
LM 250x
Posterior cavity

21. Organization of the Retina
Fig a, 19.14
Organization of the Retina
Area around fovea centralis is macula lutea
Contains numerous rods and cones, no bipolar or ganglion cells
Light doesn’t have to pass through other cells to get to rods and cones
produces crispest vision
Optic disc
Optic
nerve
Fovea centralis
Macula lutea

22. Medial
Lateral
Optic disc
Blood
vessels
Fovea
centralis
Macula lutea

23. (c) Amsler grid, seen with
normal vision
(a) Normal vision
(b) As viewed by a person
with macular degeneration
(d) Amsler grid, as viewed by a person with macular degeneration
Macular Degeneration
Loss of photoreceptors and thinning of pigmented layer in macula
May also involve bleeding, capillary proliferation, scar tissue formation
Major cause of blindness
caused by diabetes, infection, smoking, hypertension, trauma to the eye
Laser surgery can slow degeneration, but not restore lost sight

24. Space between lens and cornea is anterior cavity
divided into anterior chamber between iris and cornea, and posterior chamber between iris and lens
filled with aqueous humor (clear liquid)

25. Space behind lens is posterior cavity filled with vitreous humor
clear, jelly-like substance
helps maintain eye shape

26. Central Ciliary muscle artery of Ciliary body Central retina vein of
Fig
Central
artery of
retina
Ciliary muscle
Ciliary body
Central
vein of
retina
Ciliary process
Suspensory ligaments
Limbus
CN II (optic)
Lens
Iris
Cornea
Optic disc
Pupil
Fovea centralis
Sphincter pupillae
Dilator pupillae
Posterior
cavity
Retina
Anterior chamber
Anterior
cavity
Choroid
Posterior chamber
Sclera
(b)

27. How do these structures work together to produce vision?
Cornea bends light as it enters eye
Light passes through aqueous humor without bending
Iris controls amount of light entering eye
Lens further bends light
Light is focused on fovea centralis
Fovea
centralis