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The introduction to this article provides insufficient context for those unfamiliar with the subject. Please help improve the article with a good introductory style. |
| Glomerulus (olfaction) | |
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| Coronal section of olfactory bulb. | |
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| Plan of olfactory neurons. | |
| Gray's | subject #189 848 |
The glomerulus (plural glomeruli) in olfaction is a structure in the olfactory bulb. It is made up of a globular tangle of axons from the olfactory receptor neurons in the olfactory epithelium and dendrites from the mitral cells, tufted cells, and other cell types. Glomeruli are important waystations in the pathway from the nose to the olfactory cortex. Each glomerulus receives input from olfactory receptor neurons expressing only one type of olfactory receptor. There are tens of millions of olfactory receptor cells, but only about two thousand glomeruli. In a remarkable example of convergence, glomeruli receive input from between five thousand and ten thousand olfactory receptor cells but output onto only ten to twenty-five mitral cells. By combining so much input, the olfactory system is able to detect even very faint odors. Besides the mitral cell dendrites, the dendrites of other cell types, known collectively as juxtaglomerular cells, also synapse at the glomerulus. These juxtaglomerular cells, which include so-called short-axon cells and periglomerular cells are mainly GABA-ergic. They may be involved in feedback or lateral inhibition. The glomerulus is the basic unit in the odor map of the olfactory bulb. Each odor activates a different pattern of glomeruli, such that, simply by analyzing the different sets of activated glomeruli, one could, in theory, decode the identity of the odor. This odor map, however, is modified by the circuitry within the ofactory bulb so that the spiking pattern of the second-order mitral cells is likely different from what is observed by looking at glomerular activation (which, with most techniques, represents mostly pre-synaptic action-potentials in Olfactory sensory neuron axons}.
