5a part II: definition
Phantosmia
"hallucinated smell", often unpleasant; commonly seen as an aura (i.e., early symptom) of a temporal lobe seizure
Olfactory epithelium (also known as olfactory neuroepithelium)
a sheet of cells that contains the olfactory receptors and that lines the upper part of the nasal passages. The epithelium is covered by a mucous layer through which odorants must be absorbed before activating the olfactory receptors.
Hyperosmia
an abnormally acute sense of smell; often associated with hormonal changes like pregnancy
Geographical tongue: an inflammatory condition of the ___ of the tongue in which the loss of fungiform papillae produce smooth, red, painful regions that change location over time; May result from other infections or medications like antibiotics
an inflammatory condition of the *mucous membrane* of the tongue in which the loss of fungiform papillae produce smooth, red, painful regions that change location over time; May result from other infections or medications like antibiotics
Taste pore
any of numerous spherical clusters of receptor cells found mainly in the epithelium of the tongue and constituting the end organs of the sense of taste.
Odorant molecule
any substance capable of stimulating the sense of smell by binding to an olfactory receptor
Tastant molecule
any substance capable of stimulating the sense of taste
Olfactory receptors (also known as odorant receptors)
are expressed in the dendrites of the olfactory receptor neurons and are responsible for the detection of odorant molecules. Rather than binding only one specific odorant, olfactory receptors can bind to a range of odorant molecules with different degrees of activation, and, conversely, a single odorant molecule may bind to a number of olfactory receptors with varying affinities.
Olfactory receptor neurons (also known as olfactory receptor cells or olfactory sensory neurons)
bipolar neurons with dendrites facing the nasal cavity (in the olfactory epithelium) and axons that pass through the openings in the cribriform plate (bone) to synapse in the olfactory bulb. Olfactory receptors are located along the dendrites. These neurons make up the 'olfactory nerve' - the first cranial nerve.
Microvilli
microscopic cellular membrane protrusions that increase the surface area of cells and minimize any increase in volume and are involved in a wide variety of functions
Gustatory nerves
nerve fibers at each taste bud that receive information from the taste receptor cells. Their axons join three different cranial nerves to carry taste information to cortex (which cranial nerve depends on location in tongue and pharynx/throat).
Mitral cells
neurons located in the olfactory bulb that receive inputs from the olfactory receptor neurons within the glomeruli, along with inputs from modulatory cells, and then project axons to several cortical areas including the olfactory tubercle and piriform cortex and regions in the limbic system (the part of cortex involved in emotions and memory). May encode odor concentration in timing of firing.
Trigeminal sense
sensation of touch, pressure, pain, temperature (hot chili peppers!) in mouth, eye, nasal cavity that is carried by the trigeminal nerve (the fifth cranial nerve, CN V). ~70% of odorants co-activate both the olfactory nerve and the trigeminal nerve. Gustation (taste)
Olfactory glomerulus
spherical structures located in the olfactory bulb where synapses form between the axon terminals of the olfactory nerve and the dendrites of mitral cells. Each glomerulus receives input from olfactory receptor neurons expressing only one type of olfactory receptor. The glomerular activation patterns within the olfactory bulb are thought to represent the odor being detected. Specifically, the glomeruli layer represents a spatial odor map organized by chemical structure of odorants.
Olfactory tract
the bundle of axons including those from the mitral cells that connects the olfactory bulb to several target regions in the brain (olfactory tubercle and piriform cortex and regions in the limbic system)
Ageusia
the complete loss of taste; patients will not be able to discriminate differences among sweetness, sourness, bitterness, saltiness, and umami
Olfactory nerve
the first cranial nerve (CN I) is actually the many small nerve fascicles of the olfactory receptor neurons. The olfactory nerve is unique among cranial nerves, because it is capable of some regeneration if damaged (see olfactory bulb below).
Dysosmia
things smell differently than they should; often associated with hormonal changes like pregnancy, with clogged sinuses (e.g., stuffiness from a head cold can block odorants from reaching olfactory receptors) as seen in colds, or with nerve damage from trauma, infection
Flavor
The perception of flavor is a multisensory experience, which relies on the integration of cues from most of the human senses. The process of flavor perception involves the complex interaction of taste with the smell, texture (from S1), and sight of food. In addition, flavor perception changes over time during a meal to signal satiety - or fullness.
Cribriform plate
a section of the bone that separates the nasal cavity from the brain. The cribriform plate contains many small holes through which the olfactory receptor neurons project axons. Clinical significance: (i) a fractured cribriform plate can result in leaking of CSF into the nose and loss of sense of smell. (ii) The tiny holes of the cribriform plate can become the entry point for a pathogenic amoeba (Naegleria fowleri). This amoeba destroys the olfactory bulb and the adjacent inferior surface of the frontal lobe of the brain before fatally spreading to the rest of the brain and CSF.
Anterior insula & frontal operculum
adjacent cortical regions involved in taste processing; considered to be primary gustatory cortex. Plays a primary role in taste identification and evaluation of taste intensity.
Hyposmia
decreased ability to smell; often associated with clogged nasal sinuses (e.g., stuffiness from a head cold can block odorants from reaching olfactory receptors), or from nerve damage from trauma/infection
Dysgeusia
distortion or alteration of taste; food tastes abnormal
Limbic system
includes several interconnected regions in the medial temporal lobe that play important roles in processing emotion and memory. One function is higher-order olfactory processing - tying odors to emotion and memory.
Olfactory bulb
is a multi-layered structure located on the ventral surface of the brain that receives inputs from olfactory receptor neurons and sends output to cortex via mitral cell axons. The olfactory bulb is one of only three structures in the brain that has been found to undergo continuing neurogenesis in adult mammals. The olfactory-receptorneuron axons that form synapses in olfactory bulb glomeruli are also capable of regeneration following regrowth of an olfactory receptor neuron in the olfactory epithelium.
Anosmia
lack of ability to smell; associated with trauma to olfactory neurons projecting through the cribriform plate bone. Damage to one olfactory bulb can cause unilateral (one-sided) anosmia, which is only noticeable if nostrils are tested separately.
Hypogeusia
partial loss of taste; taste sensitivity is reduced
Taste receptor cells
provide taste information. They are located throughout the tongue in the taste buds, have areas of higher sensitivity, and have a very short life span (i.e., they are replaced frequently with new taste cells).
Taste bud
structure on the tongue that contains several taste receptor cells. A young tongue contains ~10,000 taste buds.
Papillae
structures on the surface of the tongue that contain the taste buds.
Orbitofrontal cortex for taste
ventral region of the frontal lobes that is located just above the orbits of the eyes. Contains secondary gustatory cortex (among other functions; see above for olfaction), which is involved in identifying taste, determining the reward value (e.g., pleasantness) of a taste, combining multisensory information to determine flavor, and signaling satiety (fullness).
Orbitofrontal cortex for olfaction
ventral region of the frontal lobes that is located just above the orbits of the eyes. Contains secondary olfactory cortex (among other functions; see below for taste), which is involved in odor identification and determining the reward value (e.g., pleasantness) of an odor.
Olfactory tubercle and piriform cortex
ventral regions that together are considered 'primary' olfactory cortex. The definition of 'primary' olfactory cortex is not as clear as for other senses - note that olfactory information does not pass through the thalamus before reaching these cortical regions, unlike all other senses. Both regions are involved in identification of odor type and concentration.