APPLIED MEDICAL TECHNICAL SCIENCES
cod. 15470

Academic year 2017/18
1° year of course - Second semester
Professor
Elisabetta DELFINI
Academic discipline
Scienze tecniche mediche applicate (MED/50)
Field
"scienze dell'ortottica e dell'assistenza di oftalmologia"
Type of training activity
Characterising
7 hours
of face-to-face activities
1 credits
hub: -
course unit
in - - -

Integrated course unit module: EYE MOTILITY AND BINOCULAR VISION

Learning objectives

The student is expected to acquire full knowledge of the basic mechanisms of extrinsic ocular motility and the anatomophysiological bases of binocular vision

Prerequisites

No

Course unit content

THE EYE: ITS SURFACES, AXES, MOVEMENTS AROUND THE SAME. THE LOCOMOTOR APPARATUS: THE ORBIT, OCULOMOTOR MUSCLES, SUPPORT APPARATUS, SUPRANUCLEAR CENTRES OF OCULOMOTRICITY, OCULOMOTOR NERVES. THE ACTIONS OF THE OCULAR MUSCLES. AGONIST AND ANTAGONIST MUSCLES. THE LAWS OF OCULAR MOTILITY: SHERRINGTON’S LAW OF RECIPROCAL INNERVATION, HERING’S LAW OF EQUAL INNERVATION. OCULAR MOVEMENTS: DUCTIONS, VERSONS (VOLUNTARY, STATIC, STATIC-KINETIC, OPTICAL-KINETIC) VERGENCES. MONOCULAR (TONIC, ACCOMODATIVE, PROXIMAL) AND BINOCULAR (FUSIONAL) VERGENCES. DYNAMIC CHARACTERISTICS OF OCULAR MOVEMENTS (SACCADIC MOVEMENTS, PURSUIT MOVEMENTS). OCULAR FIXATION. SUPRANUCLEAR CONTROL OF EXTRINSIC OCULAR MOTILITY. ANATOMICAL BASES OF BINOCULAR VISION: MONOCULAR AND BINOCULAR VISUAL FIELD. OPTICAL PATHWAYS AND CHIASMATIC DECUSSATION. VISUAL CORTEX. PHYSIOLOGICAL BASES OF BINOCULAR VISION: PHOTORECEPTOR LOCAL SIGN. OCULOCENTRIC (OR RELATIVE) AND ECOCENTRIC (OR ABSOLUTE) LOCALISATION . THE CONCEPT OF CORRESPONDING RETINAL POINTS

Full programme

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Bibliography

Burian - von Noorden: Binocular Vision and Ocular motility

Teaching methods

Practical lessons

Assessment methods and criteria

Practical examination

Other information

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2030 agenda goals for sustainable development

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