VISION -II
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Transcript of VISION -II
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VISION -II
Dr.Mohammed Sharique Ahmed QuadriAssistant Professor
Department Basic Medical Sciences Faculty of Medicine Almaarefa Colleges
بسم الله الرحمن الرحيم
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Astigmatism• Condition in which curvature of cornea is not
uniform.• Rays passing though meridian of greater
undergo greater refraction and focus in front of rays passing through meridian having lesser curvature.
• Hence the image at retina is not clear.• Correction is by cylindrical lenses/ contact
lenses.
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Layers of Retina • Retina – receptor containing portion of retina is
actually an extension of the CNS• Neural portion of retina consists of 3 layers of
excitable cells– Outermost layer containing rods and cones (light
sensitive ends faces away from light)– Middle layer of bipolar cells & associated interneurons– Inner layer of ganglion cells
• Axons of ganglion cells join to form optic nerve– Point on retina at which optic nerve leaves is the optic disc
» Region often called the blind spot because no image can be detected here because of lack of rods and cones
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Test the Existance of Blind Spot
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Retinal Layers
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Eye • Fovea
– Pinhead-sized depression in exact center of retina– Bipolar and ganglion cells layer is pulled aside , so that light
can directly strikes photoreceptors– Point of most distinct vision– Has only cones
• Macula lutea– Area immediately surrounding fovea– Fairly high acuity ( high concentration of cones)
• Macular degeneration– Leading cause of blindness in western hemisphere– “doughnut” vision– Loss of photoreceptors in macula lutea
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Photoreceptors
• Rod and cone cells• Consist of 3 parts
– Outer segment (facing choroid)• Detects light stimulus
– Inner segment• Contains metabolic machinery of cell
– Synaptic terminal (facing bipolar cells)• Transmits signal generated in photoreceptor on light
stimulation to next cells in visual pathway
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PhotoreceptorsVISUAL RECEPTORS Rods :- 120 million
maximum at periphery Responsible for dim light vision – (gray vision) Scotopic vision.
Cones : 6 Million maximum at Fovea Centralis
- Responsible for • Bright light vision• Acuity of vision• Color vision
3 types of cones – Red /Blue/Green
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Photopigments
• Undergo chemical alterations when activated by light
• Consists of 2 components– Opsin
• Protein that is integral part of disc plasma membrane– Retinal
• Derivative of vitamin A• Light-absorbing part of photopigment
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Photopigments–Rod pigment
• Rhodopsin –Absorbs all visible wavelengths
–Cone pigments (color pigment)• Respond selectively to various
wavelengths of lightA single photon of light can activate a rod whereas several hundred photons are required to activate a cone
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RETINAL RECEPTORS RESPONSE TO LIGHT
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Chemical response to light
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phot
otra
nsdu
ction
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Properties of Rod Vision and Cone Vision
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DARK ADAPTATION : If a person has been in brightly lighted surroundings for
a long time and then moves to a dark area the retina slowly become more sensitive to light.
This decline in visual threshold is known as dark adaptation.
The retinal and opsins are converted back into photosensitive pigments. (It is nearly maximal in about 20 minutes).
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LIGHT ADAPTATION • When one passes suddenly from a dim to a brightly
lighted environment, the light seems intensely & even uncomfortably bright.
• Then the eyes adapt to increased illumination & the visual threshold rises. This light adaptation occurs over a period of about 5 minutes.
• The photosensitive chemicals in both the rodes & cones are reduced to retinal & opsins (bleaching).
• The concentration of the photosensitive chemicals are considerably reduced.
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COLOUR VISION• It is the function of Cones. • Cones contain colour pigments made up of
Photopsin + 11 cis retinal.
Young - Helmholtz Trichromatic theory of Colour Vision.
• 3 types of Cones are present. • Each type contains a different pigment, which
respond maximally to a different colour (wavelength)
3 primary colors – Blue, Green, Red.
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• Blue Cones respond maximally to blue colour with peak sensitivity to wavelength 440 nm.
• Green Cones most sensitive to green colour- 535 nm.
• Red Cones – red colour – 570 nm.
• All the other colors are sensed because of combination of these 3 types of cones.
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Equal stimulation of all 3 cones causes the sensation of white color
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COLOR BLINDNESS • Classification of color blindness based on the
Trichromatic theory. • Defect in red – Prot • Defect in green – Deuter Prefix • Defect in blue – Trit
Weakness for color – Anomaly. suffix Absence of color perception – Anopia.
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Trichromats (Anomalous Trichromatic vision.) These people have all 3 types of cones present but
one is weak. • Weakness for red – Protanomaly • Weakens for green – Deuteranomaly• Weakness for blue – Tritanomaly Dichromats Have only 2 cones system. One type of cone is
absent. • Absence of red color – Protanopia.• Absence of green color – Deutranopia • Absence of blue color – Tritanopia
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Monochromats • Have only 1 Cone system. Very rare.
Red green color blindness is most common. • X linked recessive modes of inheritance. • Females are carriers – males are sufferers.
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Ishehara Chart
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Left eye blind
Bitemporal hemianopiaHeteronymous
Homonymous hemianopia
Homonymous hemianopia with macular sparring
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VISUAL CORTEX Area 17 – Primary visual area - Concerned with the appreciation of visual
sensations. Area-18 – Secondary visual area/visual
association area. - Concerned with correlation and
integration of visual sensations. Area-19 – Occipital eye field - Concerned with movement of the eye.In each visual cortex, both the eyes are represented
in alternating columns of cells called Ocular Dominance Columns.
Thus corresponding regions of the retina lie side by side close to each other.