smell


Taste Buds – Episode 108

An image for your taste buds. A plate of bread and cheese with sliced salmon, a cup of yogurt with berries, a container of fancy crackers, a mug of black coffee, and a plate with red and black grapes, circular orange slices, and a half of grapefruit. It's all laid out on brown parchment paper on a table of raw wood planks.

Review

Smell plays a big part in your ability to taste.  The bumps on your tongue that you can see are actually papillae.

4 Types of Papillae

Filiform

Filiform papillae are the most numerous papillae and are arranged in regular rows running parallel to the median sulcus.  They are cone-shaped – either a single cone (like a volcano shape) or a frill of cones.  These papillae don’t actually taste flavors but they do sense touch.  They work as cleaners, helping your tongue create friction with other parts of your mouth to loosen bits of food from the nooks and crannies.

Foliate

These papillae are located on the sides of the tongue near the back.  They are flat, leaf-like folds, and can be visible in some people.  These papillae contain taste buds for flavors.

Fungiform

These are mushroom-shaped.  They are scattered all over the tongue but seem to be more concentrated on the edges and tip of the tongue.  They contain taste buds for flavor as well as the sense of touch.

Vallate (Circumvallate)

These papillae are dome-shaped with a border.  The best description is that they appear as a circular fort with a mote around it and then a wall on the outside.  Or maybe they look like a bunch of “outie” belly buttons!  They are laid out on the back of the in a V-shaped pattern, pointing towards the back of the throat.  These papillae can be visible in some people, and they contain taste buds for flavors as well.

Each papilla contains many taste buds.  They are called “buds” because, microscopically, they appear as unopened rosebuds. Taste buds have a swirl-like funnel with an opening in the middle that contains fluid.

How You Taste

You put food in your mouth. Your saliva dissolves bits of it to free up molecules.  The molecules that are mixed in your saliva wash into the funnels of each taste bud.  There, the molecules mix into the taste bud fluid and get swirled around to come in contact with as many taste sensors (nerves) as possible.  From here, the chemical signal changes into an electrical signal as the taste messages zoom into your brain.  In the brain, the signal is translated and identified – including details such as flavor, pain, temperature, texture, intensity, and smell (while your saliva mixes with some molecules, other molecules are released into the air as aromatics and contact the olfactory sensors in your nose).

Taste Buds Map Truth

The taste bud map that has been used for years in textbooks was created in 1901.  Even with all the things that we’ve learned about how taste buds work, where they’re located, and what they look like, this map has never been re-written.  The original map identified four basic flavor categories: sweet, sour, salt, bitter.  Yet, just nine years later, the Japanese were able to identify “umami” – that savory flavor that doesn’t quite fit into the other four.  Yet, the map still wasn’t re-written.  Even now, scientists are learning and updating the database on what the tongue can taste and how – including categories like “fatty” and “metal” and even “water”.

So, while the taste buds are not grouped into sections based on the flavor they can taste, some taste buds may have a greater affinity or sensitivity to a certain type of flavor.

It is estimated that we have about 2000-4000 tastebuds, and since the surface of the tongue is like your skin, the tastebuds recycle about every week or two.  This rapid and continuous recycling might be why it is acclaimed that your taste (preference and enjoyment from your taste buds) changes approximately every seven years.

Conclusion

Even though the tastebud categories are still too complicated to rewrite the map, I still plan to use my taste buds to their fullest potential.  Eat up!

Resources

I gathered some of my information from a PubMed article that is actively being updated by real scientists – How Does Our Sense of Taste Work?

Callback

Smell

Connect with me

Support us on Patreon

Give us your Feedback

Join the Pharmacist Answers Podcast Community on Facebook

Subscribe: iTunesStitcherGooglePlayTuneIn Radio

Like the Facebook page

Music Credits: Up In My Jam (All Of A Sudden) by – Kubbi https://soundcloud.com/kubbiCreative Commons — Attribution-ShareAlike 3.0 Unported— CC BY-SA 3.0 http://creativecommons.org/licenses/b…Music provided by Audio Library https://youtu.be/tDexBj46oNI


Nose Issues [Show Notes]

Nose issues that cause your breathing to fail

  • Congestion from allergies, viruses, or infections.
  • Deviated septum – the septum (the bone that separates the nasal cavity and divides your nostrils) can get crooked and change the size and access of the nostrils or nasal cavity.  Can be from trauma, or may gradually get crooked from chronic pressure.
  • Turbinate Hypertrophy – over-growth of tissue covering the turbinates (tissue-covered bones that add warmth and moisture to the air you breathe). This can lead to snoring.  May be treated by steroid nasal sprays or surgery to remove extra tissue.
  • Nasal Polyps – uneven overgrowth of mucus membranes (symptoms may be runny nose, post-nasal drip, stuffiness).  They are not cancerous.  Treated by snipping them out.
  • Sinus cancer – a single growing tumor that causes bulging, either around the eye, face, or mouth.

Nose issues that cause your smelling to fail

  • Age
  • Deviated septum (see above)
  • Polyps (see above)
  • Chronic sinus infections – the smelling sensors are inflamed or covered with mucus so much that they become damaged or less sensitive.
  • Smoking – smoke and toxins can damage smelling receptors in your nose.  Also, the receptors become so clogged up with smoke and tobacco molecules that there’s no room for other molecules to be detected.  This can be temporary or permanent.

Nosebleeds

  • In kids, this is usually from trauma (either bumps and bonks or picking).  Can also be caused by dry air in the wintertime (use vaseline in the nostrils).
  •  In adults, can be from hypertension (high blood pressure) or chronic use of blood thinners.

PSA: Treatment for a nosebleed:  DO NOT tip your head backwards!!!!!  It makes you swallow that blood!  THAT’S GROSS!!  Proper treatment:  pinch the nose and tip the head forward.  This allows a clot to form and clots stop the bleeding.

Connect with me

Support us on Patreon

*NEW* Join the Pharmacist Answers Podcast Community on Facebook

Subscribe: iTunesStitcherGooglePlayTuneIn Radio

Like the Facebook page

Music Credits:  “Radio Martini” Kevin MacLeod (incompetech.com)  Licensed under Creative Commons: By Attribution 3.0  http://creativecommons.org/licenses/by/3.0/


Smell [Show Notes]

Smell Basics

Air goes in your nose and flows over the smell sensors.

Your nose and sinus cavities act as a resonating chamber for your voice.  That’s why you sound funny when you hold your nose or when your nose is stopped up from a cold or allergies.  This is important in talking and singing.

What makes something smell?

Volatile molecules evaporate at normal temperatures and pressures, so actually molecules of the thing are in the air and available to go in your nose.  Don’t think about this too hard….

The smelling sensors are on the roof of the nasal cavity –> olfactory receptors (olfactory is the fancy word for smelling).  The molecules fit into the receptors like a key in a key hole.  Our brain likes to categorize things, and so certain compounds have similar structures and get lumped together (“smells like eggs” but you know it’s not real eggs).

The olfactory receptors send the signals to the olfactory bulb (which is the area in the brain that translates all the smells and allows you to identify a smell).  It’s not a very long trip….

The olfactory bulb is a part of the limbic system (the emotion center).  this is why smell is more strongly connected to emotions and memory – even stronger than sight and sound.

Smell Tidbits

If you go to the perfume counter at a department stores, you’ll find that they all start smelling the same.  The perfume department will have coffee beans because it helps clean out the receptors.

Coffee-scented, caffeinated perfume <– free idea!!

Inflammation and mucus congestion blocked off the receptors.

No concrete evidence of why pregnant women get a “super smeller” during pregnancy.

One rogue molecule won’t make you smell something.

Connect with me

Support us on Patreon

*NEW* Join the Pharmacist Answers Podcast Community on Facebook

Subscribe: iTunesStitcherGooglePlayTuneIn Radio

Like the Facebook page

Music Credits:  “Radio Martini” Kevin MacLeod (incompetech.com)  Licensed under Creative Commons: By Attribution 3.0  http://creativecommons.org/licenses/by/3.0/


Nose Anatomy [Show Notes]

Nose Basics

Your nose is responsible for breathing and smelling.  These things work better when it isn’t stopped up.

The part of your nose that you can see and touch is cartilage covered in skin.  There is bone above it, beside your nose, below it, and right in the middle (inside your head).  Part of the cartilage is stiff and hold shape, other parts of cartilage are soft for flexibility.

The nasal root (the bone that extends between your eyes) connected to the bridge of your nose (which is made of cartilage).  The tip is also called the lobe.  The wings are on each side of your nose that you can flare.  The nostrils is actually the holes.

There are 4 main sinus cavities

  1. Frontal sinuses = in your forehead, between your eyebrows
  2. Maxillary sinuses = run under your eyes, behind your cheeks
  3. Ethmoid sinus = right between your eyes, in the middle of your head, connected to your tear ducts
  4. Sphenoid sinus = under your sphenoid bone (in the middle of your head)

The sinus cavities are lined with mucous membranes that keep them moist and have lots of blood flow to them.  Their job is to warm and moisten the air you breathe in your nose before it goes into the lungs.  Your lungs don’t like cold air.

Mouth breathing is not very efficient. This is true in athletics as well as sleep.   But breathing out through your mouth can be useful because you can get a large amount of air out rather quickly and the lungs empty better.

You have a fast-flow and a slow-flow nostril – this has to help you perceive smell.  Sometimes almost as good as dogs.

The cartilage of your ears and nose never stop growing through your life.

Connect with me

Support us on Patreon

*NEW* Join the Pharmacist Answers Podcast Community on Facebook

Subscribe: iTunesStitcherGooglePlayTuneIn Radio

Like the Facebook page

Music Credits:  “Radio Martini” Kevin MacLeod (incompetech.com)  Licensed under Creative Commons: By Attribution 3.0  http://creativecommons.org/licenses/by/3.0/