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Published byKerrie Shields Modified over 8 years ago
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Sensory Pathways and Sensations
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Humans can distinguish among many different types of internal and external stimuli because we have highly developed sensory systems. Examples: the taste of spoiled food, the pain of a headache.
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Our sensory systems translate aspects of the environment into electrical signals and transmit the information to our central nervous system.
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The purpose of sensations is to enable the body to respond appropriately to changing situations in order to maintain homeostasis.
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Sensations follow very precise pathways that have the following parts: 1.Receptors - detect changes and generate impulses 2.Sensory neurons – transmit impulses from receptors to the CNS, found in spinal nerves and cranial nerves.
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Sensations follow very precise pathways that have the following parts: 3. Sensory tracts – white matter in the brain or spinal cord that transmits impulses to the brain. 4. Sensory area – areas in the cerebral cortex that feel and interpret the sensations.
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Receptors: *Sense Receptor – a neuron that is specialized to detect a stimulus. There are many types, classified by the type of stimuli they respond to.
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Types of Sense Receptors: Photoreceptors – respond to light Mechanoreceptors – respond to movement, pressure, and tension
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Types of Sense Receptors: Pain receptors – respond to tissue damage. Chemoreceptors – respond to chemicals Thermoreceptors – respond to temperature
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Sensory receptors are found all over the body, but they are most concentrated in the sense organs.
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The Sense Organs
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*Sense organ – an organ that contains sensory neurons which detect external stimuli. The eyes, ears, nose, tongue, and skin are our sense organs.
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When a sense organ receives the appropriate stimulation, its sensory receptors convert the stimulus into an electrical signal.
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This action potential goes to the specific region of the brain where it can be interpreted.
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The nose controls your sense of smell or olfaction. There may be a thousand or more basic scents.
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Chemicals in the environment are perceived by olfactory receptors in the mucous membranes of our nasal passages.
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The molecules in the air bind to these specialized chemoreceptors and stimulate them to send a signal through the ethmoid bone to the olfactory bulbs.
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From there the signal goes to the olfactory areas in the temporal lobe of the cerebral cortex.
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Adaptation to odors occurs quickly. Both pleasant and unpleasant scents may be very distinct at first but rapidly seem to fade.
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