Siirry suoraan sisältöön

Näköhavainto (5 cr)

Code: SX00DS05-3001

General information


Enrollment

09.04.2020 - 29.04.2020

Timing

29.04.2020 - 15.12.2020

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Kuntoutus ja tutkiminen

Campus

Myllypurontie 1

Teaching languages

  • Finnish

Degree programmes

  • Optometrian tutkinto-ohjelma

Teachers

  • Pia Mäkelä

Teacher in charge

Pia Mäkelä

Groups

  • SXE19S1
    Optometrian tutkinto-ohjelma päivä

Objective

Knowledge base
Students are able to
• describe physical and physiological aspects of vision including the principals of psychophysical measurements and visual perception in the area of: (1) visual pathways, (2) light perception, (3) colour vision, (4) space perception, (5) form perception, (6) motion perception, (7) temporal perception, and (8) basic psychophysical methods and theory.
• describe the basics of the nervous system; (1) electrophysiology of neurons, (2) neuroanatomy (3) neurophysiology a
• assess colour vision, contrast vision and visual fields and normality of test results

Clinical/practical base
Students are able to
• test colour vision
• test contrast sensitivity and low contrast visual acuity
• measure visual fields

Content

Anatomy and physiology of the eye:
Retina
o Composition and formation of disc outersegments
o Composition and formation visual pigments
o Stages of visual cycle
o Photoreceptor electophysiology
o Retinal neurotransmitters
o Function of bipolar, horizontal, amacrine and ganglion cells (receptive fields)
o Retinal neural mechanisms of colour vision (spatial, temporal and chromatic)

Visual pathway
o Function of lateral geniculate body
o Receptive fields of cells in leterat geniculate body (relationship to colour vision, binocularity, grace perception, etc.)
o Function of visual cortex
o Receptive field properties (single cell properties)
o Functional organisation of visual cortex
o Physiology of binocular vision
o Mechanism of featrue detection
Extraocular muscles
• Visual-vestibular interactions (vestibulo-ocular reflex, optokinetic reflex)
• Supranuclear control of eye movements

Anatomy relation to visual pathology

Development of lower visual pathway
• Relationship between development of upper visual pathway and central vision

Electrophysiology of the nerve cell
o Resting and action potential
o Synapses
o Receptors
Neuroanatomy
o Brain
o Cranial nerves
o Spinal cord
o Autonomic nervous system
Neurophysiology
o Reflexes
o Pain and pain sensation
o Vestibular system, propioceptive sensations
o Autonomic nervous system

Colour perception
- Chromatic discrimination (hue and saturation) for normal & defective colour vision
- Colour mixture and appearance
- Colour specification and colorimetry (CIE)
- Spectral sensitivity of normal and defective colour vision
- Mechanisms of colour deficiencies
-
Space perception
- Direction and depth discrimination (monocular and binocular cues, oculocentric and egocentric localization)
- Characteristics of sensory function (binocular interactions including summation, binocular suppression and rivalry, corresponding points including horopter criteria)
- Development of sensory fusion and binocular vision
- Sensory-motor interactions (fixation, disparity, past pointing, visually guided behaviour, body posture and perceived orientation, and self-motion)
-
Form perception
- Static visual acuity (including test configuration, various acuity tasks, and factors influencing acuity including blur, intensity and contrast), specification of visual acuity
- Spatial contrast sensitivity function (including factors influencing the function) illusions, constancies, and figure-ground relations
- Simultaneous contrast and spatial interactions (Mach bands)
-
Light perception
- Detection characteristics at the absolute light threshold (including spectral, spatial, and temporal aspects) specification of contrast
-
Motion perception
- Factors involved in the detection of real and apparent motion, detection of displacements
- Motion after-effects
-
Temporal perception
- Critical flicker fusion frequency, including influencing factors (test object size, location and adaption level)
- Stabilised retinal images and monocular suppression (Troxler effect)
- Saccadic suppression

Psychophysical Methodology
- Basic psychophysical methods and theory
- Measurement of absolute and difference thresholds
- Methods of limits, adjustment, and constant stimuli

Entoptic Phenomena
o Characteristics and origin of various phenomena (involvoing the cornea, lens, and vitreous)
o Vascular and circulatory phenomena (Purkinje tree, capillary circulation)
o Phenomena associated with central vision (Maxwell’s spot, Haidinger’s brushes)
o Phenomena associated with retinal distention or other forms of retinal activity (Moore’s lightning streaks, blue arcs of the retina, phosphenes)
Eccentric fixation (EF) -definition, visual acuity and eccentrisity, test procedure

Tests and procedures:
Colour vision investigation (Ishihara, H.R.R. Farnsworth D-15 saturated and desaturated, Farnsworth-Munsell 100 Hue test)
•Clinical use
•Instrumentation
•Clinical procedure
•Clinical implications

Contrast sensitivity evaluation (Pelli-Robson, Vistech)
•Clinical use
•Instrumentation
•Clinical procedure
•Clinical implications

Perimetry (Amsler, Confrontation method, Bjerrum screen, Goldmann bowl)
•Clinical use
•Instrumentation
•Clinical procedure
•Clinical implications

Anomalies of Colour Vision (Congenital, Inherited)
Colour vision anomalies by type and prevalence
- Anomalous trichromacy
- Dichromacy
- Monochromacy
-
Colour vision tests used for both screening and diagnosis of congenital colour vision anomalies
- Pseudoisochromatic tests
- Arrangement tests (Farnsworth Panel 0-15, Farnsworth-MunseI1100-Hue)
- Anomaloscopic matching
-
Conditions for colour vision testing
-
Societal implications of colour vision anomalies
- School
- Vocational requirements
- Patient interest
-
Patient management strategies
- Counselling
- Special aids

Location and time

Spring and Autumn Semester 2020 Department of Optometry

Materials

The tasks and materials prepared by the teacher are covered by copyright law (Tekijänoikeuslaki 404/61), which guarantees the ownership of these materials to the teacher. Tasks and MATERIALS are not permitted to be used for purposes other than for individual studying. Dissemination of these materials is only allowed with the permission given by the teacher.

Lecture materials, articles in library
Books:
Elliott (2014) Clinical Procedures in PRIMARY EYE CARE.
Primary Care Optometry (5. Ed.)
Borish´s Clinical Refraction (2. Ed. or newer)
Doshi S, Harvey W 2003. Investigative Techniques and Ocular Examination. p. 1-25,95-138

Electronic materials
Mieli ja Aivot, Kognitiivisen neurotieteen oppikirja (2006) Hämäläinen et al. (Toim) . ISBN 951-29-3177-X. Osat näköjärjestelmän toiminnoista, (Simo Vanni), moniaistisuudesta (KaisaTiippana) ja aiheet elektrofysiologiset mittaukset, ja psykofysiikka. In Finnish only.
BIOMAG-material: Aivojen rakenne ja toiminta osat 1-8 (http://www.biomag.hus.fi/braincourse/L1.html). In Finnish only.
Näsänen 2007. Visuaalisen käytettävyyden opas http://nasanen.info/Opas2007.pdf In Finnish only.
CU Dynamic Colour Vision Test see: Barbur et al., Proc. Roy. Soc.B., 258, pp 327-334, 1994
Webvision
Colblindor
Tutis Vilis: The Physiology of the Senses

Teaching methods

Interactive lectures
Guided practicals and assignments
Practicals finished and assessed (verbal feedback is given during the practicals)

Exam schedules

Written exam 1a 1.10.2020 and 1b 20.10.2020. Retake 1 (parts a & b) 23.11.2020 Retake 2 (parts a & b) 9.12.2020

Student workload

5 ECTS 135h work for the student

3,5 ECTS theory, lectures 30h, self directed: 2x written assignments and one group assignment 20h, written examination 2x 1h.
1,5 ECTS practicals 40h, individually assessed practical examination (manual perimetry)

Further information

In case a student has a decision on special support arrangements affecting the course the student needs to contact the teacher in charge right after enrollment period.
Part of the teaching may be given in English.
Learning assignments are
1: Analysis of the results of the colour vision tests
2: Analysis of the peripheral vision (manual) tests.
3. A presentation of a relevant topic chosen by each student group. Topics may be e.g. EEG, PET, Reading and working memory, Dyslexia, Rehabilitation of visual field defects, Neglect phenomenon, MS-disease, dementia, Parkinson’s and Visual agnosias..

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

The student is able to:
- display learning in professional knowledge and core content in the field
- search information from a variety of sources
- work in various duties in a variety of operating environments
- show that he has achieved the targets for core competence
- display learning in the key safety practices in the field
- act according to ethical principles
- to contribute his learning for the benefit of a group or project

Assessment criteria, good (3)

The student is able to:
- use concepts and knowledge in his field systematically
- find information and assess and use information sources with a critical eye
- apply professional information in professional assignments
- apply professional expertise in various work assignments
- act independently and responsibly in professional contexts
- plan operations with safety in mind
- act according to professional ethics
- act purposefully in working groups and projects

Assessment criteria, excellent (5)

The student is able to:
- use concepts and knowledge in his field professionally
- argue the use of his sources - argue a course of action on the basis of research information or findings
- operate in a range of duties and work situations, also in international contexts
- to act in a way that is customeroriented and displays entrepreneurial spirit
- to act responsibly, taking safety issues into consideration
- argue his choices on the basis of professional ethics
- organise and manage the operation of a group and project

Assessment criteria, approved/failed

The student is able to:
- display learning in professional knowledge and core content in the field
- search information from a variety of sources
- work in various duties in a variety of operating environments
- show that he has achieved the targets for core competence
- display learning in the key safety practices in the field
- act according to ethical principles
- to contribute his learning for the benefit of a group or project

Assessment methods and criteria

Written examination 80%
Visual field analysis 10%
Colour vision analysis 10%
Practicals done. Absences must be covered by attendance during another session. All practical work sheets must be returned at the end of the course and approved by the lecturers
Attendance at an educational visit to Aalto University (if arranged)
Practical competency assessment: Manual perimetry
-
Permitted aids at the written examination
Standard: Pen, pencil, eraser and ruler.

Qualifications

Refraction