Organization of Vision
- Vision is a special sense
- It has 3 levels of organization:
- Retina → Thalamus → Occipital Visual cortex
- Note:Â General senses have 4 levels of organization, including the spinal cord.
Order of Neuron | Cell Type | ã…¤ |
1st order neuron | Photoreceptors (Rod, Cone) | ã…¤ |
2nd order neuron | Bipolar cell | Has two poles: • One to receive information. • One to conduct information. |
3rd order neuron | Ganglion cell | Only retinal cell to: - Have an output. ▪ Axons → Optic nerve → Thalamus. - Generate action potential (For impulses to travel long distances). |
4th order neuron | Lateral Geniculate Body (LGB) neuron | Has 6 layers, 3 pathways - Magnocellular pathway - Parvocellular pathway - Koniocellular pathway |
Feature | Rods | Cones |
Sensitive to | Dim lights (Night vision) | Colour vision (Day vision) |
Number | 100 million | 5 million |
Pigment | Rhodopsin / Visual purple | Iodopsin |
Abundant in | Peripheral retina | Central retina → Foveola: Only cones (Rod-free zone) |
Thalamus: Lateral Geniculate Body (LGB)
- Inputs to LGB:
- Each LGB receives input from both ipsilateral (I/L) and contralateral (C/L) eyes.
- LGB has 6 layers.
- Layers 1, 4, 6 → Receive C/L fibers.
- Layers 2, 3, 5 → Receive I/L fibers.
Pathways within LGB
Pathway | Origin (LGB layers) | Function | Cell Type | Termination |
Magnocellular pathway | 1, 2 layers Parietal lobe | Extraocular movements Detection of flickering | M cells (big) | Layer 4 of visual cortex |
Parvocellular pathway | 3, 4, 5, 6 layers Temporal lobe | Colour vision Finer details in the visual field | P cells (small) | Layer 4 of visual cortex |
Koniocellular pathway | Between P&M cells | Colour vision: Blue | K cells | ㅤ |
mnemonic : Magno - Big - Big movements
Parvo - Small - Finer details
Blue Cone
Visual Cortex
1. Calcarine cortex/striate cortex
- Primary visual cortex
- Area 17
- Located in posterior part of calcarine sulcus
- Lobe: Occipital
- Heavily myelinated
- Striate appearance:
- Striae of Gennasi (also known as striate cortex)
- Mnemonic: Genz vision brod anu → 17, 18, 19 yr olds
- Accessory visual areas
- Area 18 → Secondary visual cortex
- Area 19 → Tertiary visual cortex
2. Extrastriate Cortices
- LGB
Area | Projections from | Function |
Parietal lobe | Magnocellular pathway | Eyeball movements |
Temporal lobe | Parvocellular pathway | Colour vision |
3. Inferior Temporal Cortex
- Function:Â Face recognition by sight
Area | Functions |
Prefrontal Cortex • Anterior frontal lobe | • Executive functions: • Planning, decision-making • Working Memory (Short term) → Eg: Phone numbers |
Anterior nucleus of thalamus | • Recent memories • Relay station in the limbic circuit. |
Amygdala | • Associates memory with emotions • Especially fear • Applied: Kluver - Bucy syndrome • though not part of original Papez circuit, it's a part of limbic system |
Hippocampal formation | • Memory encoding. • Anterograde amnesia ↳ Lesions in hippocampus or Papez circuit. |
Mamillary bodies | • Recollective memory • Degeneration → Wernicke-Korsakoff psychosis • (seen in alcoholics) |
Parietal Association Cortex | • Spatial awareness • Damage can cause hemispatial neglect. • Parietal - Periphery - spatial awareness Inferior parietal lobule • Hand eye coordination Superior Parietal lobule • A/w Tactile agnosia |
Temporal Association Cortex | • Memory, object recognition, and language comprehension. • Includes Wernicke’s area on the dominant hemisphere. |
Inferior Temporal Cortex | • Face recognition by sight ↳ Prosopagnosia |
Limbic Association Area | • Part of limbic lobe; • Connects with hippocampus and amygdala • Involved in emotion, motivation, and memory. |
Entorhinal cortex (of limbic cortex) | • Associates memory with smell • Also in Spatial memory • Interface between hippocampus and neocortex. |
- Lesion: Prosopagnosia → Loss of recognition of faces
- Fusiform Gyrus → Temporo occipital lobe
- Mnemonic: Cant recognise face after using Pro Soap (Prosop - Agnosia) → IT jobs
Cells
Cell Type | Function |
Simple cell | Higher order processing - Detect minute changes |
Complex cell | ã…¤ |
Blobs | Colour vision Expresses cytochrome oxidase |
Color Vision
Primary Colors:
- Red (Prota), Green (Deutra), Blue (Trita).
- Mnemonic: 6 GB
Colour Defect | Name |
Red | Protanopia |
Green | Deuteranopia |
Blue | Tritanopia |
Etiology:
- Acquired:
- Blue-yellow:
- Associated with
- Retinal diseases (CSR, macular edema)
- Primary Open Angle Glaucoma (POAG)
- By → Po Retina
- Red-green:
- Associated with optic nerve lesions (optic neuritis, LHON).
- ON RG
b - Congenital:
- X-linked recessive disorders.
- Affects males > females (Carriers)
- Most common (m/c):Â Red green defect
- Blue:
- Associated with old age/Digoxin
- Yellow Tinging → Xanthopsia → Yellow vision
- Old age → Blue gone & Die (Diogxin)
Types: AD
- A cro
- A = Mono (Rod, Cone)
- Rod Monochromat → Hemeralopia (day blindness)
- D cro
- D = 2/3 = Anopia/anomaly
- Di → Anopia
- Trichromatic → Anomaly
Dyschromatopsia (Defective Perception):
- Dichromatic:
- Perception of 2 colors;
- blindness for 1 color (anopia).
- Conditions: Protanopia, Deuteranopia, Tritanopia.
- Trichromatic Anomalous:
- Perception of all 3 colors
- but defective perception (anomaly)
- Conditions: Protanomaly, Deuteranomaly, Tritanomaly.
Achromatopsia (Absent Perception):
- Rod Monochromat:
- Only rod function present;
- Total color blind (black & white vision)
- A/w Hemaralopia (day blindness)
- Cone Monochromat:
- One type of cone function present
- 1 cone perception
Cones
- Types of cones:
- Colorful (cons) dress (Large, medium, small)
Cone Type | Wavelength Detection | Colour |
L cone | Long | Red |
M cone | Medium | Green |
S cone | Small | Blue |
- Long → Medium → Small
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