Anatomy and Physiology of Balance
Vestibular Hair Cells Type I (aka inner) Type II (aka outer) With Kinocilium
The Semicircular Canals posterior canal shares plane with contralateral anterior canal. horizontal canals share plane.
Stimulated by Angular Acceleration greatest when fulcrum is within head induces relative motion of endolymph crista is displaced by fluid motion
Responses of the Cristae All kinocilia are oriented in the same direction Crista in each pair of canals respond inversely to each other
The Otolithic Organs Saccule: roughly vertical orientation, responds to acceleration components within saggital plane Utricle: horizontal (+ 30 deg.) orientation
Excitation Patterns in the Utricle STRIOLA Posterior Anterior Medial
Cranial Nerve VIII
Vestibular Portion of C.N. VIII superior division: utricle, anterior part of saccule, and horiz & anterior canals inferior division: posterior part of saccule, and posterior canal to vestibular nuclei to cerebellum
Vestibulocochlear Nerve Exits temporal bone near its medial edge. Enters lateral face of brainstem at the level of the lower pons. Synapsing in (Cochlear and) Vestibular Nuclei
Responses of Vestibular Neurons: To changes in acceleration, but onset and fade slowly For most normal head movements firing rates are in phase with head VELOCITY.
Other inputs to vestibular nuclei: Cerebellum: primarily inhibitory Spinal cord Pontine reticular formation Contralateral vestibular nuclei
From the Vestibular Nuclei: Vestibulo-Oculomotor Pathways: –Direct: to oculomotor nuclei. –Indirect: via reticular formation to oculomotor nuclei (III IV and VI) Vestibulo-Spinal Pathways: –Lateral V-S-throughout spinal cord –Medial V-S-cervical & thoracic –Reticulospinal tract-via brainstem reticular formation
In the brainstem Vestibular inputs undergo integration Integrated signal is combined with original (velocity driven) signal Processing to reset spatial map for eye musculature
Ocular Musculature Superior Rectus (SR) Inferior Rectus (IR) Lateral Rectus (LR) Medial Rectus (MR) Superior Oblique (SO) Inferior Oblique (IO)
Inferior Rectus Inferior Oblique Medial Rectus Lateral Rectus Superior ObliqueSuperior Rectus Midline
The Oculomotor Cranial Nerves III the oculomotor IV the trochlear VI the abducens
III (Oculomotor) innervates: 1) Medial rectus 2) Superior rectus 3) Inferior rectus 4) Inferior oblique Levator palpebrae sup Pupillary sphincter Ciliary muscle
IV (Trochlear) innervates: Superior oblique
VI (Abducens) innervates Lateral rectus.
Proprioceptive info from eye muscles comes through Trigeminal nerve.
Vestibulo-Ocular Reflex
Horizontal/Lateral Canal VOR
Anterior/Superior Canal VOR
Posterior Canal VOR
Central Nervous System Will Adapt to Peripheral Damage
Eye Movements Saccades—rapid shift in gaze Pursuit—stabilize image of moving object Fixation—stabilize image of still object VOR—stabilize image during head motion OKN—backup for when VOR decays to cont’d head rotation Vergent movements—change depth of focus
Pause cells inhibit Burst Neurons which stimulate: III & VI (horizontal) or III & IV (vertical) Saccades
Visual System Vestibular System Somato- Sensation Compare, Select & Combine Senses SENSORY INPUTS Vision Vestibular Somatosensory
Somato- Sensation Compare, Select & Combine Senses SOMATOSENSORY RECEPTORS Joints Position Kinesthesia Muscles Length Tension Skin Touch Pressure
Visual System Compare, Select & Combine Senses Central Orientation Navigation Peripheral Motion-sensitive Body-sway VISUALRECEPTORS
Vestibular System Compare, Select & Combine Senses Semi-circular canals Orientation Navigation Utricle & Saccule Horizontal & vertical acceleration & deceleration VESTIBULAR RECEPTORS
Selection based on Availability Accuracy Value for the task at hand Processing of inputs from the periphery SENSORY ORGANIZATION Compare, Select & Combine Senses Determination of Body Position VisualVestibularSomatosensory
Functional Balance: Navigating in our Environment