What Causes Aftertaste?

Ever wonder why certain foods seem to hang around after you swallow them?

Aftertaste is generally classified as any taste that remains in your mouth after your food or drink has been swallowed or spit out. The exact mechanism that causes these sensations isn’t fully understood. In fact, understanding how our brains perceive specifics tastes is still a subject of debate.

The current leading theory of taste is that it’s the perceived combination of several different sensory systems that include smell, flavor and what has been referred to as somatosensation. Basically meaning a combination of sensory input like temperature and texture.

Aftertaste is thought to be the left over flavor of whatever food or drink was consumed without the input of the other sensory systems. The result of the chemicals in food and drink continuing to interact with the specific taste receptor cells within our taste buds. To understand why this leading theory has no real competitors, let’s look at what flavor actually is and how our bodies combine it with other senses to create what we refer to as taste.


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There are 5 basic flavors our taste buds perceive. They are: sweet, salt, sour, bitter and umami (the flavor that comes from glutamate like MSG {monosodium glutamate}). The idea we have a taste-map on our tongues where specific areas are responsible for specific flavors is false. All taste buds have the potential for perceiving the differing flavors.

Taste buds are a grouping together of around 50-150 flavor cells, known as gustatory cells. These buds are dispersed throughout the tongue in three different types of structures called papillae. The three papillae types are; fungiform, foliate, and circumvallate.

Your gustatory cells contain within them hairs that have proteins on them. Those proteins react to the chemicals in our food and drink to bind them to the cell. These cells have neuron-like properties (namely depolarization) that can cause the release of neurotransmitters. It’s these neurotransmitters that are perceived by the brain as flavor.

About half of the flavor cells within each taste bud react to several of the 5 basic flavors. These reactions vary in sensitivity to each of the 5 types. A specific cell might react strongly to sweet, but poorly to salt. The cell next to it may react strongly to salt and poorly to sweet. Those reactions are classified in levels of intensity from 1-10.

The other half of flavor cells within a taste bud are specialized and react to only one flavor. This is why some taste buds react, overall, to salty foods more than sweet.

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When you combine these flavors, and variance of intensity of flavor between tastebuds, with how the food or drink smells, feels, and its temperature, there are countless different tastes that can be perceived by our brains.

Most adults have around 2-4 thousand taste buds. While many people think they reside only on the tongue, they’re also found in the back of your throat, epiglottis, nasal cavity, and the upper part of your esophagus.

As mentioned before, how our brains perceive this taste is still not well understood. What we think is that our brains perceive taste by taking in input from several different senses and combining them to create the sensation of taste. For example, the smell of a food affects its taste because our olfactory sensors can perceive thousands more odors than our taste buds can flavors- fruity, nutty, garlic, and burnt to name a few. The differing senses of odor, when combined with the flavor of food or drink, will affect overall taste. This is why when your nose is stuffed up, foods tend to taste differently.

Aftertaste is thought to be remaining chemicals from food or drink still affecting the gustatory cells on the tongue, back of the throat, epiglottis, and the upper part of your esophagus. This taste then is the sensation left over after the other factors of overall taste, like smell and texture, are no longer affecting the brain.

While the mechanisms of taste and aftertaste continue to be debated, scientists have begun to understand which chemicals within food and drink cause what type of aftertaste flavor. One example being iron.

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