Otoconia: Calcium carbonate crystals Gelatinous mass. Cilia. Hair cells. Vestibular nerve. Vestibular ganglion
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1 VESTIBULAR SYSTEM (Balance/Equilibrium) The vestibular stimulus is provided by Earth s, and. Located in the of the inner ear, in two components: 1. Vestibular sacs - gravity & head direction 2. Semicircular canals - angular acceleration (changes in the rotation of the head, not steady rotation) 1. Vestibular sacs (Otolith organs) - made of: a) ( little pouch ) b) ( little sac ) Signaling mechanism of Vestibular sacs Receptive organ located on the floor of Utricle and on wall of Saccule when head is in upright position - move within upon head movement; - crystals slightly bend also located within gelatinous mass; - this of action potentials in bipolar vestibular sensory neurons. Otoconia: Calcium carbonate crystals Gelatinous mass Hair cells Cilia Vestibular nerve Vestibular ganglion 1
2 2. Semicircular canals: 3 ring structures; each filled with fluid, separated by a membrane. Signaling mechanism of Semicircular canals -head movement induces movement of but of endolymph slightly bends cupula (endolymph movement is initially slower than head mvmt); - cupula bending slightly moves the cilia of hair cells; - this bending changes rate of action potentials in bipolar vestibular sensory neurons; - when head movement stops: endolymph movement, again bending the cupula but in reverse direction on hair cells which changes rate of APs; - detects acceleration in all 3 planes semicircular canal Ampulla Crosssection Crosssection Perilymph Membrane Endolymph Cupula Hair cells Vestibular nerve Vestibular Ganglion 2
3 3. Vestibular pathway to the nervous system: - vestibular bipolar sensory cell bodies located in, which looks like a nodule ( ) on the vestibular nerve; - axons from vestibular neurons get together with axons of the spiral ganglion (auditory) and give rise to = VIII cranial nerve; - vestibular axons synapse within in medulla, and in cerebellum; - vestibular neurons send axons to cerebellum, spinal cord, medulla and pons; - medullary responses to vestibular stimulation involved in (nausea, emesis); - responsible for controlling for keeping head upright; - controls eye movement; compensates for sudden head movement =. Chap. 8-4 Nerves out of the vestibule and entering the brain 3
4 AUDITORY SYSTEM (Hearing) I. AUDITORY (ACOUSTIC) STIMULUS - waves of energy = sound waves - propagates through: (air), (water), and (metals) 1 cycle Intensity y( (loudness): measured on a logarithmic scale ; very sensitive & wide range - range: db (>140 db = painful) Frequency: Normal range (humans): - cps = cycles per seconds = - frequency = - ex., women s voice higher pitch than men s - range gets considerably narrower with age Complexity: addition of gives rise to waves - most sounds are complex waves that can be analyzed with into their component simple waves. 4
5 II. EAR A. OUTER EAR a. (external ear) b. } Hammer Ossicles (middle Anvil Stirrup ear bones) Oval window Auditory nerve Bone Cochlea Pinna Ear canal Tympanic membrane Round window Eustachian tube (connects with throat) Vestibule B. MIDDLE EAR a. Eardrum ( ) b. Ossicles C. INNER EAR = COCHLEA C. COCHLEA a. Oval window b. Round window c. Endolymph d. Cochlear duct - contains Organ of Corti 1. Tectorial membrane (top) 2. Basilar membrane (bottom) 3. Hair cells Deiter s cells Outer hair cells Tectorial membrane (rigid) Cilia of hair cell Inner hair cell Cochlear duct Axons of auditory nerve Basilar membrane - mobile Organ of Corti Slice through cochlea Cochlear nerve Spiral ganglion Bone Membrane surrounding cochlea 5
6 Signaling mechanism for hearing: - sound waves produce movement of basilar membrane; - movement of basilar membrane induce movement of cilia of hair cells; - cilia movement increase or decrease polarization of hair cells, which increase or decrease neurotransmitter release onto axon terminals of bipolar auditory neurons; - this increases or decreases action potentials in bipolar auditory neruons. - it is the inner hair cells that provide the auditory signal to the brain; - the outer hair cells are believed to control the tightness of the basilar membrane, and therefore provide some modulation of hearing. D. CODING OF FREQUENCY: Pitch (frequency) perception: 1. a. Different spots on basilar membrane vibrate to different frequencies (Fig. A above) b. Works for moderate to high frequencies, to 20,000 Hz; - near oval window: very high frequencies (20,000 Hz) - near round window: moderate frequencies ( Hz) 2. a. Frequency of sound waves over a large portion of basilar membrane = frequency of action potentials b. Works for low frequency sounds (below about Hz) Chap
7 E. CODING OF INTENSITY (LOUDNESS): Determined by action potential frequency; ex. soft sound =, loud sound = F. CODING OF SOUND LOCALIZATION: Based on: 1. : ex., click sound generated to the left arrives at left ear first 2. : ex., continuous sound waves will reach each ear at slightly different phases of the oscillating sound waves - these mechanisms work best with sounds of moderate frequencies 3. : ex., sound generated to the left are sensed slightly louder on the left side -this mechanism works best with sounds of high frequencies Note. Low frequencies ( ) are nearly impossible to localize (that s why you need only one sub-woofer in a home-theater system) G. AUDITORY SYSTEM PATHWAY Spiral ganglion - contains bipolar neurons - receive information from hair cells - send their axons to brain via VIII nerve (auditory component of vestibulocochear nerve) Lateral fissure Forebrain Midbrain Auditory cortex Thalamus: Medial geniculate body Inferior colliculus Medulla Lateral lemniscus Trapezoid body Dorsal cochlear nucleus Ventral cochlear nucleus Superior olivary complex Auditory nerve (VIII nerve) 7
8 Frequency organization kept throughout auditory system all the way to auditory cortex 8
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