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THE VISUAL SYSTEM D. C. MIKULECKY PROFESSOR OF PHYSIOLOGY AND FACULTY MENTORING PROGRAM THE VISUAL SYSTEM SENSES ELEECTROMAGNETIC RADIATION ELECTROMAGNETIC RADIATION (EMR) SPANS THE ELECTROMAGNETIC SPECTRUM (EMS) FROM RADIO WAVES (VERY LONG) TO RADIATION (VERY SHORT) VISIBLE LIGHT IS A SMALL PORTION OF THE SPECTRUM PHOTONS OF LIGHT INTERACT WITH MATTER ANATOMICAL ORGANIZATION THE EYE CORNEA AND LENS: BEND LIGHT RAYS AND FOCUS THEM ON THE RETINA CILLIARY MUSCLES LOSSEN OR TIGHTEN TO ADJUST LENS THICKNESS RETINA: SITE OF PHOTORECEPTORS FOVEA: MOST SENSITVE PART OF RETINA TEAR DUCT AND DRAINAGE CANAL PUPIL IRIS SCLERA STRUCTURE OF THE EYE SUSPENSORY LIGAMENT CILIARY BODY CONJUNCTIVA IRIS PUPIL EXTERNAL EYE MUSCLE CHOROID RETINA SCLERA FOVEA LENS CORNEA AQUEOUS HUMOR VITREOUS HUMOR OPTIC NERVE OPTIC DISC BLOOD VESSELS THE PHOTORECEPTORS RODS: CYLLINDRICALLY SHAPED- BROAD RANGE OF WAVELENGTHS, NIGHT CONES: CONICALLY SHAPED-NARROW WAVELENGTH RANGE, COLOR BEFORE A PHOTON ARRIVES SODIUM IS PUMPED AND LEAKS BACK THROUGH OPEN CHANNEL CHANNEL’S OPENNESS DEPENDENT ON cGMP MEMBRANE POLARIZED NORMALLY AFTER A PHOTON ARRIVES RHODOPSIN ABSORBS PHOTON AND CHANGES SHAPE TRANSDUCIN ACTIVATED BY RHODOPSIN PHOSPHODIESTERASE ACTIVATED BY TRANSDUCIN cGMP HYDROLIZED SODIUM CHANNEL CLOSES MEMBRANE HYPERPOLARIZED RETINA’S NEURAL NETWORK GANGLION CELLS: DEPOLARIZED BY BIPOLAR CELLS, FORM OPTIC NERVE BIPOLAR CELLS: DEPOLARIZED BY PHOTORECEPTOR CELLS HORIZONTAL CELLS: INHIBITED BY PHOTORECEPTORS - DEPOLARIZE ADJACENT PHOTORECEPTORS(INHIBITING THEM) HORIZONTAL CELLS INHIBIT ADJACENT PHOTORECEPTORS PHOTORECEPTORS A GANGLION CELL B PHOTORECEPTORS A HIGH RATE OF FIRING GANGLION CELL B LOW RATE OF FIRING RECEPTIVE FIELDS THE AREAS OF THE RETINA THAT EXCITE OR INHIBIT A GANGLION CELL MAKE UP THE RECEPTIVE FIELD FOR THAT CELL RETINAL GANGLION CELLS HAVE ANNULAR RECEPTIVE FIELDS WITH DIFFERENT PATTERNS PATERNS OF EXCITATION/INHIBITION + PHOTORECEPTOR - - -- HORIZONTAL CELLS BIPOLAR CELLS + - - + PATHWAYS FOR VISUAL INFORMATION OPTIC NERVE (GANGLION CELLS FROM RETINA) LEAVES THROUGH “BLIND SPOT” LATERAL GENICULATE NUCLEUS: PROJECTS TO CORTEX PRIMARY VISUAL CORTEX ORGANIZATION OF PHOTORECEPTORS ROD TO OPTIC NERVE HORIZONTAL CELL AMICRINE CELL CONE BIPOLAR CELLS GANGLION CELLS RECEPIVE FIELDS IN THE LATERAL GENICULATE AND SENSORY CORTEX LATERAL GENICULATE:LIKE GANGLION CELLS: ANNULAR(EXCITATORY RINGS OR INHIBITORY RINGS) OVERLAP OF ANNULAR FIELDS FROM LG RESULT IN RECTANGULAR FIELDS ON THE CORTEX VISUAL ORIENTATION COLUMNS CELLS IN VARIOUS COLUMNS OF CORTEX RESPOND TO DIFFERENT ORIENTATIONS THESE DEVELOP DURING THE EARLY VISUAL EXPERIENCES OF YOUNG ANIMALS COLOR VISION TRICHROMATIC: RED, BLUE, GREEN PARVOCELLULAR NEURONS CARRY INFORMATION DIFFERENT CELL TYPES COLOR CONTRAST THREE KINDS OF CONES RED, BLUE, AND GREEN CONNECT TO SMALL GANGLION CELLS TRANSMIT COLOR INFORMATION TO PARVOCELLULAR NEURONS IN LGN COLOR NEURONS BROAD BAND: SINGLE COLOR, + INSIDE, OUT SINGLE - OPPONENT: EXITED BY ONE COLOR IN CENTER, INHIBITED WHEN ANOTHER COLOR IN PERIPHERY DOUBLE OPPONENT: OPPOSING COLORS IN BOTH CENTER AND PERIPHERY ANNULAR FIELDS OVERLAP TO RECTANGULAR IN CORTEX LENS DEFECTS FOCUSING IN FRONT OF RETINA NEARSIGHTEDNESS (MYOPIA) USUALLY DUE TO WEAK CILIARY MUSCLES FOCUSING BEHIND THE RETINA FARSIGHTEDNESS(HYPEROPIA) LENS TOO STIFF (AGING) NEARSIGHTEDNESS (MYOPIA) UNCORRECTED CORRECTED FARSIGHTEDNESS (HYPEROPIA) UNCORRECTED CORRECTED VISUAL FIELD DEFECTS OPTIC NERVE:VISUAL FIELD ON SAME SIDE OPTIC CHIASM:OUTER HALF OF BOTH VISUAL FIELDS OPTIC TRACT: OPPOSITE HALF IN BOTH VISUAL FIELDS OPTIC RADIATIONS:LOWER OR UPPER QUADRANT ON OPPOSITE SIDE
