AVS 3011 – Eye Dissection – Special Senses

Five Major External Special Senses
- Vision
- Audition (hearing)
- Tactile (touch)
- Gustation (taste)
- Olfaction (smell)
Sensations
- Result from stimuli leading to afferent impulses reaching the cerebral cortex.
- Include somatic senses (pain, cold, heat, touch, pressure) and special senses.
Sensory Receptors
- End organs of afferent nerves; responsible for converting stimuli into action potentials.
- Main Groups:
- Exteroceptors: Detect external stimuli (skin sensations, hearing, vision)
- Interoceptors: Detect internal stimuli (taste, smell, responses to pH, distention)
- Proprioceptors: Signal deep body conditions; located in skeletal muscles, tendons, ligaments, and joint capsules.

Receptor Organ for Vision:
- Specific structures adapted for transparency allowing light rays to reach receptor cells.
Eye Structure:
- Eyeball (globe)
- Optic Nerve
- Accessory Structures: Eyelids, conjunctivae, lacrimal apparatus, muscles.

Fat
- Purpose: Provides cushioning; loss of fat may cause sunken eyes in illness.
Muscles
- Innervated by cranial nerves for eye movement.
- Holds eyeball in its orbit against fat pad.
Optic Nerve
- Bundle of nerve fibers transmitting visual information from retina to brain.
Conjunctiva
- Membranes lining eyelids; forms a conjunctival sac for tears.
- Normal color: pink; pale indicates anemia; blue for lack of oxygen.
- Inflammation = conjunctivitis.
Tunics of the Eye
1. Fibrous Tunic (outermost): Cornea and sclera.
2. Vascular Tunic (Uvea): Choroid, ciliary body, iris.
3. Nervous Tunic (innermost): Retina.
- Retina contains photoreceptor cells converting light into electrical signals.

Sclera: Tough, white layer; site for muscle attachment.
Cornea: Transparent front portion covering iris and pupil; contributes to vision clarity.
Aqueous Humor: Fluid filling anterior chamber of the eye; increase leads to glaucoma.
Iris: Colored diaphragm; controls pupil size.
- Muscles adjust pupil size in response to light.

Lens
- Transparent, biconvex structure that focuses light onto the retina.
- Suspensory ligaments attach lens to ciliary body.
- Accommodates according to object distance.
- Conditions affecting lens: Lenticular sclerosis (grey tint in aging) and Cataract (clouding).
Vitreous Body
- Large cavity behind lens; helps maintain eye shape.
Retina
- Contains rods (night vision) and cones (color vision).
- Fovea Centralis: Area of highest visual acuity.
Choroid Layer
- Pigmented, vascular layer preventing light reflection.
Accessory Structures
- Lacrimal glands produce tears; keep eye moist and clean.
- Meibomian glands help form a tear barrier.

Accommodation: Adjustment of lens shape to focus on objects at varying distances.
- Relaxed lens: Flat for distant objects.
- Contracted lens: More convex for near objects.
Pupil Response
- Changes in size based on light exposure; different responses in light vs. dim conditions.

Accommodation Experiment: Visual focus shifting from near to far objects; observe lens status and response in ciliary muscles.
Vision Response Test: Observe pupil dilation in different lighting conditions; explain physiological responses.

Optical Components:
- Light passes through cornea, lens, and vitreous body before reaching retina.
- Inverted image formed on the retina transmitted via optic nerve to the brain.

Emmetropia: Normal vision.
Hyperopia (Farsightedness): Difficulties focusing on near objects.
Myopia (Nearsightedness): Difficulties focusing on distant objects.
Field of Vision: Spatial perception affected by eye placement; overlapping fields enhance depth perception for predatory animals.

Begin with cow eye; observe exterior structures.
Remove cornea, lens, vitreous body; identify internal structures (aqueous humor, retina).
Repeat with pig and sheep eye.
Conduct experiments on accommodation and reflex responses.

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