Chapter 6 Nonvisual Sensory Systems Sensory processing Species
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Chapter 6 Non-visual Sensory Systems
Sensory processing Species specific ¡ System ¡ l l l ¡ Receptors Pathways Brain areas Touch, taste and smell
The somatosensory system Three interconnecting systems: ¡ 1. Exteroceptive system, which senses external stimuli applied to the skin, i. e. skin sensations. This is divided into three general system, one for perceiving mechanical touch, one for perceiving thermal stimuli and one for perceiving pain ¡ 2. Proprioception system, which is the sense of the relative placement of parts of the human body that comes from the receptors in our muscles and joints ¡ 3. Interroceptive system, which provides information about the internal environment of the body, such as temperature and blood pressure
Human skin
Skin receptors ¡ ¡ ¡ Pacinian corpuscles – touch Free-nerve endings – temperature, pain Meissner's corpuscles – pressure Merkel's disks – pressure Ruffini's corpuscles – vibration (not pressure)
Spinal cord ¡ ¡ ¡ 31 pairs of spinal nerves Divided into four sections l Cervaical l Thoracic l Lumbar l Sacral Meninges for protection l Pia l Arachnoid l Dura
Dermatone ¡ ¡ Is a section of skin supplied by peripheral nerve fibres originating from a single dorsal root ganglion Loss of sensation in a specific dermatone can tell us exactly which part of the spine is damaged
Somatosensory pathways Sensory information travels from the sensory receptor to the brain by its own distinct pathway ¡ These pathways lead into the spinal cord or brain stem, and connect with additional nerve cell clusters ¡ Conscious and unconscious systems ¡
Dorsal column-medial lemniscal system – conscio ¡ ¡ ¡ Touch and proprioception Two dorsal column nuclei: l meidal mucleus gracilis – lower part of body l lateral nucleus cuneatus – upper part of body Double dorsal projections then move across the brain and create a cluster of fibres dubbed the medial lemniscus Synapse in the ventral posterolateral thalamic nuclei Third neurons project to the primary somatosensory cortex
Anterolateral system ¡ The anterolateral system consists of three different tracts: l Spinothlamic tract, which projects to the ventral posterior nucleus l Spinoreticular tract, which projects to the reticular formation l Spinotectal tract, which projects to the tectum
Common features of conscious somatosensory pathways ¡ ¡ ¡ All have 3 neurons from receptor to cortex Cell body of first neuron is situated the dorsal root ganglia Second neuron crosses in spinal cord or brain stem All pathways ascend in the medial lemniscus to thalamus All synapse in the ventral posteriolateral thalamic nuclei Third neuron projects to the primary somatosensory cortex
Unconscious – spinocerebellar tract ¡ ¡ The dorsal tract conveys information to the cerebellum about limb and joint position (proprioception) Pathway: dorsal root ganglia via the dorsal horn, and synapse in dorsal nucleus Axon fibres from the dorsal nucleus send this proprioceptive information via the dorsallateral funiculus to the cerebellum Unconscious proprioceptive information processing occurs
The control of pain ¡ ¡ Gate-control theory of pain (Melzack & Wall, 1965) Pain perceived only if it passes through gate PAG projects to spinal cord Endorphins can activate this system, causing inhibition
Auditory system – the ear ¡ ¡ ¡ Outer ear l Folds of cartilage – pinna Middle ear l malleus (hammer) l incus (anvil) l stapes (stirrup) Inner ear l Cochlea: three fluid-filled sections ¡ scala vestibuli ¡ scala media ¡ scala tympa
The organ of corti ¡ Primary receptor unit in cochlea l Hair cells in basilar membrane l Hairs or cilia are attached to tectorial membrane
Transduction of sound waves Transduced into nerve impulses ¡ Excitation of auditory receptors ¡ l Bending of cilia
Transduction of sound waves ¡ ¡ Opening of K+ ion channels Influx of K+, resulting in membrane depolarization Influx of Ca++, which results in neurotransmitter release Cilia return to original position – K+ ion channels close
Pathways of the auditory cortex • Hair cells • Cochlear nerve • Auditory nerve • Cochlear nucleus • Superior olivary nucleus • Inferior colliculus • Medial geniculate nucleus – thalamus • Auditory cortex • Secondary auditory cortex
Primary auditory cortex ¡ ¡ Called Heschl's gyrus BA 41/42
Detection of frequency ¡ ¡ ¡ Place theory of pitch (Helmholz) l Basilar membrane varies in width & thickness Frequency theory of pitch (Rutherford) l Whole basilar membrane vibrates at rate of stimulus frequency l Up to 4000 Hz – beyond that place theory accounts for frequency Volley theory (Wever) Groups of neurons to fire repeatedly, creating a string of nerve impulses (called a volley) faster than the firing rate of any single nerve cell
Detection of amplitude ¡ ¡ High frequency sounds – rate of receptor responding Low frequency sounds – number of neurons firing
Conduction deafness ¡ ¡ When sound is abnormally conducted through the outer ear, middle ear, or both, and is unable to get to the cochlea, the resulting condition is called conduction deafness Fused ossicles
Sensorineural deafness ¡ ¡ ¡ Lack of sensitivity in the inner ear May be caused by l exposure to loud noise l metabolic disorder l genetic disorder l an infection The gene GJB 2 have been estimated to cause as much as 50% of congenital or early-onset hearing impairment
Central deafness ¡ ¡ ¡ Loss their hearing due to an injury to the auditory system in the brain Injury to: l auditory cortex l the brain stem l the superior colliculus Bilateral lesions of the auditory cortex leads to a condition known as cortical deafness
Vestibular system ¡ ¡ ¡ Two major parts: l semicircular canals l vestibular Semicircular canals l the horizontal (lateral) l the anterior (superior) l the posterior (inferior) Vestibular l sacsutricle l saccule
Vestibular pathways ¡ ¡ ¡ The movement of fluid pushes against cupula Hair cells that convert the mechanical motion into electrical signals Vestibular hair cells synapse with the bipolar cells that make up the vestibular ganglia These gather together, forming the vestibular nerve Vestibular nerve connect with the cochlear nerve fibres to create the auditory nerve (cranial nerve VIII)
The gustatory sense – sense of taste ¡ Distinguishes between 5 tastes: sweet, sour, bitter, salty and umani
Taste buds ¡ Taste buds lie in or around raised protrusions of the tongues surface known as papillae. Four types: l Fungiform papillae l Foliate papillae l Filiform papillae l Circumvallate papillae
Gustatory pathway ¡ ¡ ¡ Taste receptors 7 th, 9 th and 10 th cranial nerves Nucleus of the solitary tract of the medulla Ventral posteromedial thalamic nucleus Primary gustatory cortex l l anterior insula frontal operculum
The olfactory sense – sense of smell ¡ ¡ ¡ Distinguishes between various odours Nasal pathway has an area of about 10 cm² Odours stimulate adenylate cyclase to synthesize cyclic AMP (c. AMP) via a G protein called Golf When c. AMP is present, it opens Na+ channels depolarizing membrane This causes information to be transmitted directly to the brain
Olfactory pathway ¡ ¡ ¡ Olfactory receptors (located on the olfactory epithelium) Mitral cells of the olfactory bulbs Primary olfactory cortex (in the limbic system)
Skin
Spinal cord
Sensory pathways
Auditory system
Gustatory system
Readings ¡ Barnes, J. (2011). Essential Biological Psychology (Chapter 6). London: Sage. ¡ The Essentials Hollins, M. (2010). Somesthetic senses. Annual Review of Psychology, 61, 243 -271. ¡ Next Steps Shamma, S. A. , & Micheyl, C. (2010). Behind the scenes of auditory perception. Current Opinion in Neurobiology, 20(3), 361 -366. ¡ Delving Deeper Uneyama, H. , Kawai, M. , Sekine-Hayakawa, Y. , & Torii, K. (2009). Contribution of umami taste substances in human salivation during meal. Journal of Investigative Medicine, 56 (Suppl. ), 197 -204.
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