Lesson 2: Vision Flashcards
Which part of the eye is thick fibrous tissue that is considered the white part of the eye and serves to protect the eye and is an attachment point for muscle so that one can move their eye in different directions? (A) Cornea (B) Retina (C) Sclera (D) Pupil
(C) Sclera The Sclera is thick fibrous tissue that is considered the white part of the eye and serves to protect the eye and is also an attachment point for muscle so that one can move their eye in different directions.
What structure of the eye is transparent and serves to protect the eye while bending incoming light? (A) Pupil (B) Cornea (C) Iris (D) Lens
(B) Cornea The Cornea is a transparent structure in the front of the eye that serves to protect the eye while also bending some incoming light.
Because the cornea is really sensitive it needs to be protected. The ___________ is a thin layer of epithelial cells that protects the cornea from friction and helps to moisturize the cornea as well. (A) Iris (B) Pupil (C) Retina (D) Conjunctiva
(D) Conjunctiva The Conjunctiva is a thin layer of epithelial cells that protects the cornea from friction, such as when you rub your eyes, and also helps moisturize the cornea.
The anterior chamber of the eye is filled with a water/salt substance, that provides nutrients to the cells of the cornea and iris. What is this water/salt substance known as? (A) Vitreous Humor (B) Lens (C) Aqueous Humor (D) Retina
(C) Aqueous Humor The Aqueous Humor is water/salt substance that fills the anterior chamber of the eye and provides nutrients to supply the cornea and iris with.
The lens of an eye can become thinner or thicker based on the distance of an object. Which structure is responsible for the lens’s ability to change its shape? (A) Ciliary Body (B) Retina (C) Cornea (D) Aqueous Humor
(A) Ciliary Body The Ciliary Body is the structure that changes the thickness of the lens. The ciliary body is composed of suspensory ligaments and ciliary muscle, which on top of changing the shape of the lens also secretes aqueous humor.
Which structure of the eye is composed of two different muscles that are responsible for adjusting the size of the pupil of the eye, and is also colored based on its pigmentation? (A) Iris (B) Cornea (C) Lens (D) Retina
(A) Iris The Iris is composed of two different muscles that adjust the size of the pupil. The Iris is also the part of the eye that is colored and is responsible for a human having either blue/green/brown eyes.
The opening or dark space in the middle of the eye, known as the pupil, adjusts its size based on the amount of light it receives. How does the pupil adjust its size in a dark environment? Light environment?
If it is dark outside, the pupil will expand to increase the amount of light able to enter the eye, while if it is light outside, the pupil will contract to decrease the amount of light able to enter the eye.
Inferior to the lens is the ______________. This is separate from the _____________, which filled with a jelly-like substance known as the vitreous humor, that helps to suspend the lens in place while also providing some structure to the eye itself. (A) Anterior Chamber, Ischemic Chamber (B) Anterior Chamber, Vitreous Chamber (C) Posterior Chamber, Vitreous Chamber (D) Posterior Chamber, Ischemic Chamber
(C) Posterior Chamber, Vitreous Chamber Inferior to the lens is the Posterior Chamber. This is separate from the Vitreous Chamber, which filled with a jelly-like substance known as the vitreous humor, that helps to suspend the lens in place while also providing some structure to the eye itself.
Which of the following is an eye disorder that is often caused by a blockage in the Canal of Schlemm? (This canal allows for aqueous humor to drain, but when blocked, pressure builds up in the posterior chamber.) (A) Glaucoma (B) Astigmatism (C) Hyperopia (D) Myopia
(A) Glaucoma Glaucoma is an eye disorder that can be caused by blocking the Canal of Schlemm, which will prevent aqueous humor from draining. building up pressure in the posterior chamber of the eye.
What structure is found along the back of the eye, is filled with photoreceptor cells, and is the destination of light after it passes through the vitreous humor? This structure is responsible for converting light into a neural impulse that the brain can understand. (A) Lens (B) Sclera (C) Retina (D) Choroid
(C) Retina The Retina lines the back of the eye and contains photoreceptor cells which upon receiving light convert the light into a neural impulse that the brain can understand.
A common issue with flash photography is the “red eye effect”. What part of the eye anatomy causes the red eye effect, and how?
The retina, which is a reddish color due to the underlying choroid layer, reflects the light back towards the camera lens.
True or False? The retina sends information to the back of the eye through fibers that form the optic nerve, which ultimately leads to the brain for comprehension.
True. The retina sends information to the back of the eye through fibers that form the optic nerve, which ultimately leads to the brain for comprehension.
Which membrane in the eye is right behind the retina and is a network of blood vessels that provides nutrients to retinal cells as well as other cells in the eye? (A) Cornea (B) Sclera (C) Choroid (D) Optic Nerve
(C) Choroid The Choroid is a membrane in the eye that is right behind the retina and is a network of blood vessels that provides nutrients to retinal cells as well as other cells in the eye
In terms of the difference of choroids, explain why cats have better night vision than humans?
In a human eye, the choroid is pigmented black. Thus when light enters the eye and passes the retina, the light is completely absorbed by the choroid. In cats, the choroid is shiny and thus if light is not absorbed by the retina and passes to the choroid, it is reflected back to the retina to be absorbed again, which enhances night vision.
What is the distinction between the macula and the fovea?
The macula is an avascular zone in the superior posterior region of the eye. Its center is the fovea, which is densely populated by cone cells and responsible for color vision.
Sensation occurs when a physical stimuli is converted into a neural impulse. In terms of the human eye, what is the physical stimuli and what cells convert that into a neural impulse?
Light, a physical stimuli, enters the eye and is converted to a neural impulse by photoreceptor cells (rods & cones) present in the eye.
What is the difference in function between the rod cells and cone cells?
Rods are ultra-sensitive to light and simply detect light which is good for night vision. No color vision takes place in rod cells. Cones are sensitive to color and thus responsible for color vision.
Which of the following are not a type of Cone? (A) Red (B) Blue (C) Yellow (D) Green
(C) Yellow Cones come in 3 types: red, green, and blue.
What is the relative density and location of the rod and cone cells in a human eye?
The cones are very densely populated and centered in the fovea, while scarcely present in the periphery of the retina. The rods are densely populated in the periphery of the retina, but decline rapidly when approaching the fovea.
Are Rod cells turned ON or OFF in the presence or absence of light?
Rod cells are turned ON in the absence of light.
How does the phototransduction cascade affect rod cells, the downstream bipolar and ganglion cells, and the optic nerve?
The phototransduction cascade deactivates rod cells that typically inhibit downstream cells. In response, a bipolar cell is activated, which activates a retinal ganglion cell that sends signals to the optic nerve, which finally leads to processing in the Brain.
Put the following 5 steps of the phototransduction cascade in order: I. The retinal goes from 11-cis to all trans, changes conformation of retinal and rhodopsin. II. Sodium channels close without cGMP bound, rod hyperpolarizes, rod inactivated. III. Light hits retinal in the rhodopsin (rod opsin). IV. Transducin will break from rhodopsin, and the alpha subunit binds to Phosphodiesterase (PDE). V. PDE converts cGMP->GMP. (A) III > I > IV > V > II (B) III > V > IV > I > II (C) II > V > IV > I > III (D) II > I > IV > V > III
(A) III > I > IV > V > II The 5 steps of the phototransduction cascade in order: Light hits retinal in the rhodopsin (rod opsin). > The retinal goes from 11-cis to all trans, changes conformation of retinal and rhodopsin. > Transducin will break from rhodopsin, and the alpha subunit binds to Phosphodiesterase (PDE). > PDE converts cGMP->GMP. > Sodium channels close without cGMP bound, rod hyperpolarizes and thus is inactivated.
When do on-center bipolar cells turn on? What about off-center bipolar cells?
On- and off-center refer to the status of a bipolar cell being either ON or OFF, and they are most activated when there’s a contrast between the lighting of the center and surroundings of their receptive fields (which contain many rods). For an on-center bipolar cell, it is turned ON when light shines on the rods in the center of the receptive field (rods in the center turn off). Off-center bipolar cells refer to bipolar cells being turned ON when light shines on the rods at the surroundings of the receptive field, not the rods in the center (rods in the center turned on). See image for more details.
Describe the similarities between the Optic discs of rod and cone cells, and the presence of the protein, Opsin?
Both photoreceptor cells are composed of many layers of optic discs, which both contain a form of opsin (rods = rhodopsin/ cones = photopsin) to trigger the phototransduction cascade.
When you walk out from the bright sunlight into a dark room, you are unable to see at first, but after a few minutes your eyes adjust and you can begin to see clearly. What causes this on a molecular level?
Rods have slow recovery times. In the sunlight, the rods are hyperpolarized, allowing the bipolar cells to be activated. For rods, it takes a longer time than cones to return to the resting membrane potential and fire another action potential. Therefore, when you go into the dark room, it takes time for the rods to reactivate, and for one to see clearly in the dark room.
The part of the retina that is directly in front of where the optic nerve exits the eye is known as the _____________. (A) Fovea (B) Blind Spot (C) Macula (D) Optic Chiasm
(B) Blind Spot The part of the retina that is directly in front of where the optic nerve exits the eye is known as the Blind Spot. The Blind Spot contains no rods or cones.
There are no axons that run behind the cones in the fovea, creating an indentation. What is the functional purpose of this lack of axons?
With no nearby axons blocking the light, a higher resolution of light will hit the cones, giving more clarity of vision.
A ray of light from the left visual field hits the ____________ side of the left eye and hits the __________ side of the right eye. (A) Nasal, Temporal (B) Temporal, Temporal (C) Nasal, Nasal (D) Temporal, Nasal
(A) Nasal, Temporal A ray of light from the left visual field hits the Nasal side of the left eye and hits the Temporal side of the right eye.
A ray of light from the right visual field hits the __________ side of the left eye and hits the _________ side of the right eye. (A) Nasal, Temporal (B) Temporal, Nasal (C) Temporal, Temporal (D) Nasal, Nasal
(B) Temporal, Nasal A ray of light from the right visual field hits the Temporal side of the left eye and hits the Nasal side of the right eye.
At the optic chiasm, how are the nasal and temporal visual fields sorted? What purpose does this serve?
At the optic chiasm, light that hits the nasal visual field of each eye will cross over, while light that hits the temporal visual field will not cross over the optic chiasms. This pathway of light from both the nasal and temporal visual fields allows light from the left visual field to be processed in the right side of the brain, while light from the right visual field to processed in the left side of the brain.
If there is a lesion after the optic chiasm on the left side, how would vision be affected? (A) All information from the right eye would be compromised. (B) All information from the left eye would be compromised. (C) All information from the right visual field would be compromised. (D) All information from the left visual field would be compromised.
(C) All information from the right visual field would be compromised. With a lesion after the optic chiasm on the left side, the information carried by the left optic nerve from the right visual field would be compromised
When processing the environment, feature detection is known as breaking down an object to its component parts. What are these component parts? (A) Color, Form, (B) Motion, Form (C) Color, Form, and Motion (D) Color, Motion
(C) Color, Form, and Motion Feature detection explains that when processing the environment, one makes sense of what they are looking at by breaking down an object into color, form, and motion.
In terms of the Trichromatic theory of color vision, which of the following is the most accurate description? (A) There are three types of rods, each most sensitive to a certain quantity/intensity of light. (B) There are three types of cones, each most sensitive to a specific wavelength of light (Red, green, and blue). (C) There are three types of cones, each most sensitive to a specific quantity/intensity of light. (D) There are three types of rods, each most sensitive to a specific wavelength of light (Red, green, and blue).
(B) There are three types of cones, each most sensitive to a specific wavelength of light (Red, green, and blue). The RGB cones are most sensitive to that type of light, and the combination of the stimulation of each cone types codes for color vision
How do the Parvo Pathway and Magno Pathway compare in terms of: -Spatial Resolution (Detail)? -Temporal Resolution (time)? -Color Vision?
Spatial Resolution - The Parvo pathway can provide much greater detail, necessary for detecting form. Temporal Resolution - The Magno Pathway has faster processing, necessary for tracking motion. Color Vision - Only found in the Parvo Pathway.
Tyreke is a standout wide receiver, and has no issues with focusing light and tracking a football in the air. Which of the following vision terms is best described as normal vision, in terms of the ability to focus light? (A) Hyperopia (B) Presbyopia (C) Emmetropia (D) Myopia
(C) Emmetropia Emmetropia refers to having normal vision and being able to focus light properly onto the retina.
To treat hyperopia, a ___________ lens would be prescribed, whereas to treat myopia, a _________ lens would be prescribed. Fill in the blanks using: -Spherical -Concave -Convex -Conical
Convex, Concave To treat hyperopia, a Convex (converging) lens would be prescribed, whereas to treat myopia, a Concave (diverging) lens would be prescribed.
