CCOG for OMT 160 archive revision 202404

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Effective Term:
Fall 2024

Course Number:
OMT 160
Course Title:
Clinical Optics
Credit Hours:
4
Lecture Hours:
30
Lecture/Lab Hours:
0
Lab Hours:
30

Course Description

Presents basic optical principles and the human eye from both theoretical and practical standpoints. Explores prisms, basic dispensing, techniques for measuring types of lenses, Slit lamp biomicroscopy, retinoscopy and refractometry, and principles of low vision. Introduces mathematics used in optical prescriptions, manufacturing and dispensing. Applies basic principles governing transmission of light and its interaction with optical media. Includes experimentation to visually inform the student of the laws of geometric optics. Audit available.

Intended Outcomes for the course

Upon successful completion of the course students should be able to:

  1. Explain the optical process of selecting corrective lenses for all types of refractive errors.

  2. Explain the selection of corrective lenses from test results.

  3. Interpret written prescriptions for ophthalmic lenses for visual correction.

  4. Apply the decision process of optics to work in an optical setting.

  5. Apply the understanding of optical principles to assist low vision patients in a clinical setting.  

  6. Apply an understanding of visual perception when assessing patients with visual problems.

  7. Use knowledge of optic principles to skillfully perform slit lamp biomicroscopy, retinoscopy and lensometry.

  8. Use approved methods to measure a patient’s pupillary distance.

Course Activities and Design

The class will be presented by means of lecture/discussion, audio-visual presentations, handouts and  demonstrations. There will be comprehensive lab work requiring demonstrated competency to receive a  satisfactory grade. Guest speakers and field trips may be utilized by the instructor as a means of assisting  the student in mastering course goals and objectives. 

Outcome Assessment Strategies

At the beginning of the course, the instructor will detail the methods used to evaluate student progress  and the criteria for assigning a course grade. The methods may include one or more of the following  tools: examinations, quizzes, homework assignments, research papers, laboratory modules and student  participation. 

Course Content (Themes, Concepts, Issues and Skills)

LENSOMETRY

  •  Neutralize and record spectacle lenses using automated and manual lens meters 

  • Describe spectacle prescription components 

  • Clean lenses and prisms 

  • Demonstrate correct eyepiece setting procedure

  • Measure spherical and toric lenses and multifocal additions

  • Read power of toric lens in minus and plus cylinder form

  • Write the neutralized power of toric lenses readings in plus and minus cylinder forms

LOW VISION

  • Define low vision 

  • Measure visual acuity of a low vision patient 

  • Calculate approximate magnification needed to read a target acuity level 

  •  Describe the advantages and disadvantages of different low vision devices 

  •  Instruct patient in uses of low vision devices (optical and non-optical) 

SPECTACLE SKILLS

  • Explain the different lens materials and their advantages and disadvantages 

  • Explain single vision lenses 

  •  Explain bifocals and progressive add lenses 

  • Explain requirements for safety lenses 

  • Counsel patients regarding frame selection and care of glasses 

  • Perform proper spectacle fitting 

  • Measure interpupillary distance 

CLINICAL OPTICS, REFRACTION, RETINOSCOPY AND REFINEMENT

  • Identify refractive errors: hyperopia, myopia, astigmatism, presbyopia 

  • Describe accommodation and its relation to age 

  • Describe the difference between cycloplegic and manifest refraction 

  • Explain the difference between subjective and objective refractometry 

  • Measure refractive error with an automated refractor 

  • Perform and record retinoscopy 

  • Refine refractive error (sphere and cylinder) using phoropter or trial lenses in +/- cylinder 

  • Use refractometry techniques: fogging, duo chrome, binocular balance 

  • Measure vertex distance 

  • Perform and record transposition 

  • Calculate and record spherical equivalence 

  • Determine near add (bifocal, trifocals, multifocal) 

PRISM AND STRABISMUS

  • Describe how prisms deviate images and can either correct or cause diplopia

  • Effect of prisms on light

  • Calculate prism using Prentice’s rule

  • Use prism to measure and redirect the corneal reflex

SLIT LAMP BIOMICROSCOPY

  • Demonstrate use of slit lamp 

  • Describe two major styles of slit lamps 

  • Define "coaxial" as it relates to the slit lamp 

  • Differentiate "magnification" vs. "illumination" in isolating pathology with the slit lamp 

  • Describe the procedure for properly setting each eyepiece of the slit lamp microscope 

  • List 6 "direct" and 6 "indirect" forms of illumination with the slit lamp 

  • Describe the use and technique for each of the following forms of illumination: diffuse, parallel piped, optical sectioning, tangential, conical beam, specular reflection, proximal illumination, sclerotic scatter, direct retro illumination from the iris, indirect retro illumination from the iris, retro illumination from the fundus, and iris transillumination 

  • List the different filters available on the slit lamp and their usage 

  • Describe the vital dyes and their usage when used with the slit lamp including: Fluorescein, rose Bengal and lissamine green 

  • Describe when the Seidel test is used and how it is performed 

  • Describe accessory lenses available to use with the slit lamp microscope; why and how they are used 

  • Define Slit lamp photography 

  • Define Anterior segment photography 

  • Define External photography 

  • Define Endothelial cell counts 

  • Describe Corneal topography

Related Instruction

Computation
Hours: 48

Outcomes:

Students discuss and understand how clinical optics applies to retinoscopy, refractometry and lensometry. 

Students learn to calculate working distance, use optical formulas to compute glasses prescriptions, induced prisms, prisms in glasses and focal length.  Students apply critical thinking and demonstrate their knowledge by applying a variety of optical formulas in problem solving.