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COURSE OUTLINE I. Introduction: Classification of Visual Fields Defects A. Density 1. Absolute – no sensitivity 2. Relative – depressed sensitivity B. Size / Extent 1. Partial 2. Total C. Shape 1. Hemianopia 2. Quadranopia 3. Altitudinal 4. Sectorial vs. Non-Sectorial Scotoma D. Position 1. Superior vs. Inferior 2. Right vs. Left E. Location 1. Central (<30 degree radius from fixation) 2. Para- or Peri-central 3. Peripheral (>30 degree radius from fixation) F. Laterality 1. Unilateral 2. Binocular (Homonymous vs. Heteronymous) G. Equality 1. Congruous 2. Incongruous II. Visual Field Case Presentation and Analysis: 15-20 cases which encompass defects throughout the visual pathway. A. All workshop participants will be provided the following: 1. Brief pertinent patient history 2. Visual field 3. Worksheets 4. Visual pathway maps 5. Transparencies with visual field map and wipe off pens to localize defects B. Clinical workshop program: 1. Case history and pertinent clinical findings will be presented along with the visual field(s) 2. Participants will be asked to characterize each defect 3. Participants will be asked to provide possible anatomic locations for the lesion C. Case discussions will follow: 1. Diagnosis 2. Visual field analysis 3. Pertinent ancillary tests utilized 4. Neurologic signs / symptoms and other clinical correlates D. Discussion of each case will include interactive mapping of the lesions along the visual pathway. Pertinent reviews regarding each visual field lesion’s anatomical pathway and territories will be discussed. The information below, and further anatomic details, where applicable, will be utilized: 1. Retinal a) Outer retina b) Inner retina 1) Papillomacular bundle – Ganglion cells arising from the fovea which represent the central 2 degrees of the visual field 2) Arcuate bundle – Fibers arising from the superotemporal and inferotemporal retina and exiting at the poles of the optic nerve 3) Nasal radial bundle – Fibers nasal to the optic nerve head 2. Optic Nerve a) Pre-chiasmal 1) Orbital section extends from the globe to the optic foramen 2) Intra-canalicular portion extends through the optic canal 3) Intra-cranial section extends from the posterior optic canal to the anterior chiasm b) Chiasmal 1) Optic nerves converge over the sella turcica to form the chiasm 2) Nasal retinal fibers decussate at the chiasm 3) The pituitary gland is located over the sella turcica; hence, pituitary tumor may result in compressive chiasmal VF defects c) Post-chiasmal (Fibers from posterior chiasm to the lateral geniculate nucleus) 3. Temporal Lobe a) The optic radiations exit the LGN and traverse in a posterior-lateral direction toward the temporal lobe b) Inferior retinal fibers traverse antero-laterally around the inferior horn of the lateral ventricle (Meyer’s Loop) c) The long pathway of Meyer’s Loop lends the fibers susceptible to damage resulting in superior quadranopsias d) Superior retinal fibes progress toward the occipital cortex in a more straight manner 4. Parietal Lobe a) Fibers from the inferior retina merge with fibers from the superior retina b) The superior retinal fibers lie superior to the inferior retinal fibers c) Superior retinal fiber circulation may be more readily compromised resulting in hemianopic field defects which are denser inferiorly 5. Occipital Lobe and Visual Cortex a) Macular fibers are strongly represented in the posterior pole of the visual cortex b) Peripheral field fibers project to the anterior portions of the occipital cortex: 1) Inferior retinal fibers project to the cortex lying superior to the calcarine fissure 2) Superior retinal fibers project to the striate cortex which lies inferior to the calcarine fissure