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Light Cornea Sclera Optic nerve Lens Vitreus humor Pigment epithelium Fovea Retina Light entering the eye is focused by the cornea and the lens. Then it.

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Presentation on theme: "Light Cornea Sclera Optic nerve Lens Vitreus humor Pigment epithelium Fovea Retina Light entering the eye is focused by the cornea and the lens. Then it."— Presentation transcript:

1 Light Cornea Sclera Optic nerve Lens Vitreus humor Pigment epithelium Fovea Retina Light entering the eye is focused by the cornea and the lens. Then it travels through the vitreus humor and is absorbed by photoreceptors of the retina. The retina is followed by a layer of pigment epithelium whose cells absorb the light that is not captured by the retina. Lecture 25: Eye Movement and Vision

2 Rods and cones consist of the outer segment (which contains the light- transducing apparatus), the inner segment (which holds the nucleus and much of the biochemical machinery), and the synaptic terminal (which makes connections with the receptor’s target cells). Light Receptors The loss of cones is considered legal blindness. RodCone Synaptic terminal Outer segment Nucleus Low light, poor resolution Inner segment

3 Below the photoreceptor level of the retina, there is an intermediate layer containing three types of cells: bipolar cells, amacrine cells, and horizontal cells. Ganglionic cells are located under the intermediate layer. Their axons form the optic nerve.  I: outer nuclear layer  II: outer plexiform layer  III: inner nuclear layer  IV: inner plexiform layer  V: ganglion cell layer Optic nerve Ganglion cell Amacrine cell Bipolar cells Horizontal cell ConeRod I II III IV V Light Info Neurons of the Retina

4 Definitions of the left and right visual hemifields. Note that the optic tracts convey information from the ipsilateral temporal hemiretina and the contralateral nasal hemiretina—i.e., visual information about the contralateral visual hemifield. Visual Fields Left visual hemifield Point of gaze fixation Temporal hemiretina Nasal hemiretinas Nose Right visual hemifield Temporal hemiretina

5 Gaze Elevation/depression Intorsion/extorsion Adduction/abduction Eye Rotations

6 Eye Movements  Saccades: quick jumps; V up to 900°/s  Smooth pursuit: following a target; V < 100°/s  Vergence: changing the depth of fixation

7 Saccades  Velocity cannot be controlled voluntarily  Feedforward control  Generated in the pontine and midbrain reticular centers, with participation of the cerebral cortex and the basal ganglia

8 Smooth Pursuit  Requires a moving target  Involved structure: –Striate cortex –Prestriate motor areas –Pons –Cerebellum

9 Reflex Eye Movements  Brainstem level  Latency of 14 ms  Nystagmus Vestibulo-ocular reflex (VOR): Optokinetic reflex:  Stabilizes image on the retina during head movements  Involves cortical structures  Longer latency

10 Thalamus (lateral geniculate nucleus) Superior colliculus Midbrain (pretectal area) Optic nerve Saccades Visual perception Pupillary reflexes The optic nerve projects onto three subcortical areas: the lateral geniculate nucleus of the thalamus, the pretectal area of the midbrain, and the superior colliculus. Projections to the lateral geniculate nucleus participate in visual perception, projections to the superior colliculus control saccades, and projections to the pretectal area control pupillary reflexes. Optic Nerve Projections

11 Pretectal area Edinger-Westphal nucleus Ciliary ganglion Optic nerve Neurons in the pretectal area receive an input from the optic nerve and project to the Edinger-Westphal nucleus. It, in turn, generates a parasympathetic input to oculomotor neurons in the ciliary ganglion. These neurons innervate the smooth muscle of the pupillary sphincter. The Pupillary Reflex

12 Superior colliculi Visual Auditory Somatosensory Motor Maps Sensory inputs Brain stem Cerebellum Eye movements Head and neck movements The superior colliculi integrate sensory information from different sources and contain three sensory maps and one motor map. The superior colliculi project to the regions of the brain stem that control eye movements and contribute to two descending tracts: the tectospinal tract (which is involved in the reflex control of head and neck movements) and the tectopontine tract (which delivers visual information to the cerebellum for further processing). Maps in the Superior Colliculi

13 Input Horizontal connections The primary visual cortex is organized into vertical narrow columns running from the surface to the white matter. Each column is approximately 30 to 100 µm wide and 2 mm deep. There is an orderly shift in the axis of orientation from one column to its neighbors. There are horizontal connections among columns so that the activity of a neuron within a column may be influenced by stimuli of other orientations. Columns in the Visual Cortex


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