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VISION

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Transparent dome which serves as the outer window of the eye. ... 1 on-center midget bipolar, 1 off-center midget bipolar cell, several diffuse on ... – PowerPoint PPT presentation

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Title: VISION


1
VISION
  • Eye StructureDetector Cells (Receptors)Transduct
    ionBrain Pathways

2
Eye Structure
  • Cornea
  • Transparent dome which serves as the outer
    window of the eye. The cornea is the primary
    (most powerful) structure focusing light entering
    the eye composed mostly of epithelium tissue.
  • Iris
  • Colored disc inside the eye, thin diaphragm
    composed mostly of connective tissue and smooth
    muscle fibers.
  • LensComposed of fibers that come from epithelial
    (hormone-producing) cells.
  • Ciliary muscleSmooth muscle connected to zonule
    fibers to lens - keep tension
  • Retina
  • innermost layer of the eye, comparable to the
    film inside of a camera It is composed of nerve
    tissue which senses the light entering the eye.
    This complex system of nerves sends impulses
    through optic never to the brain
  • Optic disk
  • Location where ganglion cell axons exit the eye
    to form the optic nerve. There are no light
    sensitive rods and cones to respond to a light
    stimulus at this point thus it is also known as
    "the blind spot"
  • Optic nerveCranial nerve that composed of
    retinal ganglion cell axons and support cells. It
    leaves the eye via the optic canal.
  • PupilCentral transparent area of iris the size
    is involuntarily controlled by the contraction
    and dilation of iris.
  • Fovea
  • The centermost part of the macula (without blood
    vessels) and is responsible for our central,
    sharpest vision. ONLY cone receptors.

3
Eye Structure
4
Photoreception
  • Electromagnetic radiation
  • Vibration characterized as sine waves (nm)
  • 400-700nm (violet to red)
  • Human visual spectrum
  • Long bands red
  • Extra long bands infrared (IR)
  • Short bands blue / purple
  • Extra short bands ultraviolet (UV)

5
Visual Perception
  • Visual field
  • Visual acuity
  • Blind spot
  • Lateral inhibition

6
Retinal Anatomy - I
  • Rods (scotopic) and cones (photopic)
  • 100 million rods, 4 million cones
  • Rods (3 cone opsins), cones (rhodopsin)
  • Release NT (generator potential) to modulate
    bipolar cells
  • Bipolar cells
  • Connects rods and cones to ganglion
  • Generator potential
  • Horizontal (receptor cells)
  • Involved in lateral inhibition
  • Generator potential
  • Amacrine cells
  • Contact bipolar and ganglion cells
  • Ganglion cells
  • Make up optic nerve
  • Action potential

7
Retinal Anatomy - II
  • ConvergenceMore receptors than
  • gangliaAmacrines and horizontalsGreate
    r for rods ScotopicRod dependentDim
    lightLow acuity
  • PhototopicCone dependentBrighter lightHigh
    acuityColor vision

8
Hyperpolarization of Photoreceptors (Rods)
  • Photon splits rhodopsin (photopigment receptor)
  • G-protein (transducin 500 molecules) liberated
  • GTP replaces GDP at binding of alpha subunit
  • GTP-alpha complex activates phosphodiesterase
    (PDE)
  • PDE hydrolyzes gt2000 molecules of cGMP (2nd
    messenger)
  • Na channels closed (reduced Na influx),
    hyperpolarization

9
Photoreceptor Excitation /Inhibition (Cones)
  • Cone and rods (release Glu at rest)
  • Off-center bipolar cells
  • Turn off light, depolarize photoreceptors, Glu
    release increased
  • Depolarizes bipolar cells, increased glutamate
    release (to ganglion)
  • On-center bipolar cells
  • Turn on light, hyperpolarize photoreceptors,
    decrease Glu release
  • Hyperpolarizes bipolar cells, decreased glutamate
    release (to ganglion)
  • Cone contacts
  • 1 on-center midget bipolar, 1 off-center midget
    bipolar cell, several diffuse on- and off-center
    bipolar cells

10
Visual Pathway
  • Retinal image inverted and reversed
  • Axons of ganglion (optic nerve) enter brain
  • Decussation of nasal sides
  • Lateral geniculate nucleus (LGN) (terminus for
    many)
  • Visual thalamus
  • Superior colliculus (terminus)
  • LGN and striate cortex (visual cortex)
    connections back and forth

11
Take Home Message
  • Select receptors for vision
  • Stimulus quality / other characteristics
  • Transduction
  • Brain pathways
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