BTBV0231p Binocular Vision I - lecture

Faculty of Medicine
spring 2024
Extent and Intensity
2/0/0. 2 credit(s). Type of Completion: k (colloquium).
Taught in person.
Teacher(s)
Mgr. Bc. Barbora Čáslavská (lecturer)
Mgr. Marcela Kudová (lecturer)
MUDr. Kristina Pavézková Vodičková, Ph.D., FEBO (lecturer)
Guaranteed by
MUDr. Miroslav Dostálek, Ph.D.
Department of Optometry and Orthoptics – Departments of Non-medical Branches – Faculty of Medicine
Contact Person: Lenka Herníková
Supplier department: Department of Optometry and Orthoptics – Departments of Non-medical Branches – Faculty of Medicine
Timetable
Wed 21. 2. 13:30–15:10 KOM 257, Wed 28. 2. 13:30–15:10 KOM 257, Wed 6. 3. 13:30–15:10 KOM 257, Wed 13. 3. 13:30–15:10 KOM 257, Wed 20. 3. 13:30–15:10 KOM 257, Wed 27. 3. 13:30–15:10 KOM 257, Wed 3. 4. 13:30–15:10 KOM 257, Wed 10. 4. 13:30–15:10 KOM 257, Wed 17. 4. 13:30–15:10 KOM 257, Wed 24. 4. 13:30–15:10 KOM 257, Wed 15. 5. 13:30–15:10 KOM 257, Wed 22. 5. 13:30–15:10 KOM 257, Wed 29. 5. 13:30–15:10 KOM 257
Prerequisites
BTFO0111p Physiological optics – l && BOAF0131p Eye's anatomy and physiology I
The course is designed for students of corresponding fields.
Course Enrolment Limitations
The course is only offered to the students of the study fields the course is directly associated with.
fields of study / plans the course is directly associated with
Course objectives
SBV vision is ability to see with both eyes single united visual percept. It isn´t inborn, it develops until one year and is refined until six years. It divides artificially into 3 grades (superposition, fusion, stereopis). SBV is important for the selection of profession and also for social relations and life. Significant defects of SBV are strabismus and amblyopia. The target of this paeclinical subject is to introduce students to the terminology, physiology and patophysiology of the SBV.
Learning outcomes
After this course of lectures, student will be able to define a term single binocular vision (SBV) and will be able to desctibe it's advantages. Student will know the components of SBV vision. Student will be introduced to the anatomy and physiology of the projection component of the SBV. He or she will know basic terminology and understand the principles of related processes: visual direction, retinal correspondence, horopter, Panum space, receptive field, magnocellular and parvocellular patway, etc. Student will be introduced to the anatomy and physiology of the analytical and association components of the SBV. He or she will know basic terminology and understand the principles of related processes: primary visual cortex, higher visual cortex, magnocellular and parvocellular pathway, dorsal and ventral stream, monocular dominance columns, isoorientational columns, fusion on the first binocular neuron, disparity signal, blur signal, proximity signal, etc. Student will be introduced to the anatomy and physiology of the motoric component of the SBV. He or she will know basic terminology and understand the principles of related processes: duction, vesrsion, vergence, dual-interactive model of vergence-accommodation synkinesys, etc. He or she will also know the factors that affect the correct development of SBV. Student will be introduced to the general patophysiology of SBV defects such as suppression and anomalous retinal correspondence and understand sensorial adaptation and sensorial learning.
Syllabus
  • Complex multilevel nature of fusion (introduction, division, ...).
  • Sensory arm of fusion (subjective visual direction, retinal correspondence, physiological diplopia, functional neuroanatomy of visual pathway and V1, convergence of the corresponding signals, first binocular neuron, receptive fields, …).
  • Motor compnent of the fusion (duction, version, vergence, Shering´s , Hering´s , Listing´s law, neural control of saccades and vergencies, fixation disparity, …).
  • Analytical and psychogenic component of fusion (harmony conflict and disparity of corresponding signals, detection and processing of disparity signal and blur signal, Panum´s fusional area, monocular and binocular stereopsis, vergence - accommodation synkinesis, relative accommodation, relative vergence, monocular dominant column of V1, detection of edges and contrast, dorsal and ventral stream, unimodal, polymodal, supramodal, gnostic areas, ...).
  • Binocular vision development (prestereopsis, development of the fusion’s components), sensorial adaptation and perceptul larning...
Literature
    recommended literature
  • Stidwill, D., Fletcher, R.: Normal Binocular Vision, Theory, Investigation and Practical Aspects, Willey-Blackwell, Chichester, 2011
  • Campos, E.C. von Noorden: Binocular vision and ocular motility, Theory and Management of Strabismus, 6th edition, Mosby, St. Louis, 2002
  • Ciuffreda, K.J., Tannen, B.: Eye Movement Basics for the Clinician, Mosby, St. Louis, 1995
  • Steinman, S.B., Steinman, B.A., Garzia, R.P.: Foundations of Binocular Vision, McGraw-Hill Companies, New York, 2000
  • Evans, B.J.: Pickwell's Binocular Vision Anomalies, 5th edition, Butterworth Heinemann Elsevier, Edinburgh, 2007
    not specified
  • HROMÁDKOVÁ, Lada. Šilhání. Vyd. 3., nezměn. Brno: Národní centrum ošetřovatelství a nelékařských zdravotnických oborů, 2011, 162 s. ISBN 9788070135303. info
  • HROMÁDKOVÁ, Lada. Šilhání. 2. dopl. vyd. Brno: Institut pro další vzdělávání pracovníků ve zdravotnictví v Brně, 1995, 162 s. ISBN 8070132078. info
Teaching methods
lecture
Assessment methods
colloquium
Language of instruction
Czech
Further comments (probably available only in Czech)
Study Materials
The course is taught annually.
Information on the extent and intensity of the course: 30.
Listed among pre-requisites of other courses
The course is also listed under the following terms Spring 2014, Spring 2015, Spring 2016, Spring 2017, Spring 2018, spring 2019, spring 2020, spring 2021, spring 2022, spring 2023.
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