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Functional Visual Field Assessment and Management

Carl Garbus, O.D., F.A.A.O. Neuro Vision Rehabilitation Institute Valencia, CA. Functional Visual Field Assessment and Management. Visual fields provide the most important information that we have to help us with functional vision (daily living skills)

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Functional Visual Field Assessment and Management

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  1. Carl Garbus, O.D., F.A.A.O. Neuro Vision Rehabilitation Institute Valencia, CA Functional Visual Field Assessment and Management

  2. Visual fields provide the most important information that we have to help us with functional vision (daily living skills) The visual system uses parallel processing to combine information along specialized visual pathways If working properly, the brain quickly tells us where an object is in space and what it is Introduction

  3. Course Objectives • Learn how to do a confrontation field • Understand the importance of visual fields • Have the awareness of different types off visual field tests • Learn about the application of prisms in field loss Introduction

  4. That portion of space in which objects are simultaneously visible to the steadily fixating eye • Visual space that can used for activities of daily living • Awareness of the spatial world around us Definitions of Visual Field

  5. The normal visual field extends 40 to 60 degrees nasally to 65 to 100 degrees temporally The normal visual field extends 30 to 60 degrees above horizontal midline and 50 to 75 degrees below horizontal midline The actual extent of the field is related to the size of the test object and the testing distance Normal Field Limits

  6. Kinetic perimetry- test target moves Static perimetry- test target is stationary Automated (computerized) Manual Test target is a point of light which could be white or a color Measuring Visual FieldsPerimetry

  7. Goldmann Visual Fields • Manual and automated • Great for detecting defects over larger areas • Stroke, retinal degeneration and tumors • Humphrey Visual Fields • Automated • Great for glaucoma detection and follow-up • Great for central field defects Field Instrumentation

  8. Tangent Screen • Manual • Great for monitoring attention • Campimeter • Manual • Used for mapping out functional fields • Amsler Grid (hand held) • Quick check on the macular area Field Instrumentation

  9. Quick and easy to administer Can be done with a fingers or wand The examiner and patient sit across from each other eye to eye Goal is to find matching fields with patient and examiner Demonstration of two different confrontation fields Confrontation Fields

  10. Frequently bumps into objects like door-frames Difficulty moving crowded areas Unsteady balance in walking Problems finding objects on desks Common Problems With Field Loss

  11. Reading: omissions, line skipping, difficulty navigating a page Activities of Daily Living: self care and mobility Independent Activities of Daily Living: grocery shopping, driving Balance and coordination Judging distance and speed of objects Areas of Functional PerformanceMost Affected By Visual Field Defect

  12. Primary Visual Pathway

  13. Altitudinal • Relates to a lesion in the parietal or temporal lobe • Bitemporal • Relates to a lesion near or at the optic chiasm • Homonymous • Most common defect from stroke and encompasses portions of one side of the field • Central Scotomas • Glaucoma and other retinal diseases Types of Visual Field Defects

  14. In the Field of Syntonics Functional Visual Fields are done with the campimeter • The field is mapped with four different test objects, white, blue, red and green • Each color will elicit a different size field • Largest is the white field, then blue, red and white • When colors overlap expect visual dysfunction Functional Visual Field Defects

  15. When an individual is under stress or is fatigued the functional field usually constricts Field constriction is a common sign of traumatic brain injury, autism, stroke and neurological disease With proper therapeutic techniques it is possible to improve and open up a constricted visual field The therapy program may use syntonic filters, as neuro vision rehabilitation Functional Visual Field Defects

  16. Homonymous Hemianopsia is a common visual field deficit present with many stroke and tumor patients It is present in 30% of stroke patients Hemianopsia is not black half to the vision Missing vision is simply gone Like the area behind us Homonymous Hemianopsia

  17. 254 patients with homonymous hemianopsia were evaluated with formal visual field The longer period after the insult, the less likely the improvement will occur Spontaneous seen in about 50% of patients with the first month Most improvement within three months After six months minimal improvement Spontaneous Recovery

  18. Most common vascular lesions are in the posterior cerebral or middle cerebral arteries • Study showed causes: • Stroke 69.5% • Trauma 13.6% • Tumor 11.3% • Brain surgery 2.4%1.4% • Demyelination Homonymous HemianopsiaCauses

  19. Ganglion Cells • Midget ganglion cells (P-cells) >70% cells that project to LGN Origin of Parvocellular pathway • Parasol ganglion cells (M-cells) 10% of all cells projecting to LGN Origin of Magnocellular pathway • Bi-stratified ganglion cells Lateral Geniculate Nucleus 8% of all cells projecting to LGN Blue/Yellow color signals

  20. Magnocellular pathway (aka where) Ambient System • Transmits information about motion and spatial analysis, stereopsis, and low spatial frequency contrast sensitivity • Spatial vision • Parvocellular pathway (aka what) Focal System • Relays color and fine discrimination information, shape perception, and high spatial frequency contrast sensitivity • Object vision Where is it? What is it?

  21. CENTRAL PERIPHERAL • Predominantly fovea, cones (r/b/g) • Predominantly Parvocellular • Sustained • Focal • What? • Cognitive • Predominantly peripheral retina, rods • Only Magnocellular • Transient • Ambient • Where? • Visuomotor Visual Processing SemanticsParallel Processing

  22. CENTRAL PERIPHERAL • Conscious Pathway • Retino-calcarine Pathway • Predominantly ON -> LGN (4P/2M) -> V1 (80%) -> • Ventral Stream—”What”? (4P) to IT .......or -> • Responsible for object identification • Color, high spatial frequency, low temporal frequency, high contrast • Relatively slow system • Sub-cortical Pathway • Tectal Pathway • Predominantly ON -> SC -> parietal-occipital (20%)—only Magnocellular Dorsal Stream—”Where?” (2M) to PIP • Responsible for object localization • Low spatial frequency, high temporal frequency, low contrast, motion • Much faster / “reflexive” system Visual Processing SemanticsParallel Processing

  23. Magnocellular (M) pathway (where?) • Motion discrimination • Critical flicker fusion • Stereopsis • Contrast sensitivity (low contrast is sensitive to rapid movement and is monochromatic) • Frequency doubling technology (FDT) or motion automated perimetry • Visual evoked potential (VEP) How to isolate each pathway

  24. Parvocellular (P) pathway (what?) • Visual acuity • Color discrimination (sensitive to red-green) • Contrast sensitivity (high spatial frequency) • Visual Evoked Potential How to isolate each pathway

  25. Plays an important role in visual motion processing, controlling vergence eye movements, and reading Provides general spatial orientation Contributes to balance, movement, coordination and posture Magnocellular pathway

  26. A deficit in attention to and awareness of one side of space The patient’s eyesight is fine, but half his visual world no longer seems to matter Most common is left sided neglect Patient’s more prone to bumping into things on one side and won’t attend to things on one side Visual Spatial Inattention

  27. As you can see from the drawings, mental images are half too, its not related to how well the patient sees. It is a problem with consciousness. • The neglect results from damage to processing areas (on the opposite side of the brain) • Treatment: prisms with base in direction of neglect • i.e.. Left spatial inattention, use base left yoked prisms Visual Spatial Inattention

  28. Disorders that involve difficulty in learning to read • Causes problems with reading comprehension and poor reading fluency • Complaints that small letters tend to blur and move around when trying to read Magnocelluar Deficits

  29. Notoriously are clumsy and uncoordinated, and balance is poor • Magnocellular theory: • If patient has binocular instability and visual perception instability, then reading will be effected • Possible trouble processing fast incoming sensory information • Combination of visual, vestibular, auditory and motor functions Magnocelluar Deficits

  30. Neuro Vision Rehabilitation • Address peripheral system with lenses, prisms and binasals • Lenses (plus lenses help to stabilize the vestibular ocular systems) • Prisms (typically base in or yoked base down) • Binasals (eliminates binocular confusion) Treatment for Constricted Visual Fields

  31. Filters • Incorporate tints to spectacle correction • Green combined with blue helps with photosensitivity • Blue reduces ocular pain with eye movements • Yellow reduces blue light from passing through the lens and helps with computer and fluorescent lighting Lens Treatments for Constricted Fields

  32. Prisms- what can they do? • Affect can change the spatial orientation of the patient • Can expand space or constrict space • Are used in therapy and/or a full time prescription in glasses • Need to be prescribed by a doctor Therapy Program Prisms

  33. Peli Prisms • Primarily to locate objects outside the patient’s visual field • Peli prism is placed on the lens of the temporal field defect • Upper and lower are 40 or 57 diopter press-on prisms • Expand upper and lower fields by about 22 degrees Therapy Program Special Prisms

  34. May fit upper first if there are adaptation problems Never look through the prism If object is seen peripherally on the field loss side, use head turn to locate object Scanning is still needed Reach and touch training Practice walking and use of stairs Peli Prisms

  35. Sector Prisms • Prism power is in the range of 15 to 20 diopters • Placed on the temporal aspect of the lens on the side of the field loss • Increased visual field awareness by 6-19 degrees • Success rate depends on training Therapy Program Special Prisms

  36. Yoked Prisms • Usually 3 to 8 diopters prism base to the side of the field loss • Ground in Prism • Patient can experience improvement in posture and gait when it is prescribed correctly • Visual field enhancement Therapy Program Prisms

  37. Bilateral Movements in Space • Motor Equivalents • Interactive Metronome • Extension and Rotation • Movement into the area of field loss • Weight shifting (seated, standing) • Balance Therapy ProgramMovement Activities Field Enhancement

  38. Obstacle Course • Scanning • Turning • Fixations • Eye Movements • Full Length Mirrors Therapy ProgramMovement Activities Field Enhancement

  39. Peripheral Visualization • Patient is to scan into the side of the field loss • Ask patient to remember as many objects to the side as possible • Looking straight ahead visualize those objects • Now have the patient point to the area where the object were seen • While the patient is still pointing have them turn their head, so they can view the missing field Therapy ProgramVisualization- Field Enhancement

  40. 24th Annual Multi-disciplinary Conference • Renaissance Denver • May 14-17, 2015 • Denver, CO • Website www.nora.cc • Email: noraoptometric@yahoo.com Neuro Optometric Rehabilitation Conference

  41. Carl Garbus, O.D. NORA Immediate Past President 28089 Smyth Drive Valencia, CA 91355 Office: 661-775-1860 Email: cgarbusod@gmail.com Contact Information

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