How Do We Sense Touch?

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Central nervous system (CNS): a part of the nervous system which includes the brain and spinal cord.

Inhibit: to restrain or prevent.

Periphery: the area that surrounds a place or thing.

Sensory Cortex: a part of the cerebral cortex that processes information from the five senses: vision, sound, smell, taste, and touch.

Making Sense of Touch

Friends touching shoulders

You can feel your friend touch your shoulder because of your touch receptors. Image by Alex Proimos.

You’re walking around your neighborhood and your friend sees you from across the street. As she catches up to you, you feel a tap on your right shoulder. You turn your head to look over that shoulder to see her smiling, excited to have run in to you. 

You can figure out which way to turn your head to see what’s going on behind you because the touch receptors in your skin are organized. Because of this you can tell if you were tapped on the right versus left shoulder. But what if information about touch was not organized? You would feel the tap, but you wouldn’t be able to figure out where it came from. This could be both difficult and confusing, since every time you felt a tap you would need to look all around you to see what was happening. It could even be dangerous if whatever was touching you was harmful. 

Mapping the Body

Fortunately, the nervous system is very well mapped. Because of this, it can quickly locate where on the body something is touching you. When something touches the skin, the receptors under that area of skin become more active. This increase in activity tells the nervous system there has been contact in a specific area of skin. But something else happens too. These receptors send a signal to all the other receptors around it. This signal inhibits, or turns down, the firing of these surrounding receptors. This allows the nervous system to figure out exactly what part of your body is being touched.

Receptors that sense touch are located all over the body. But the number of receptors in each location is different, and so some parts of the body have more than others. This difference in receptor number affects the ability to sense touch. An area of skin with a larger number of receptors is better able to sense and locate touch. For example, in sensitive areas, a person can sense two small objects that touch the skin (such as the two tips of a staple) rather than thinking they are only a single object. Scientists call this the two-point discrimination test. You can try out this small experiment yourself to see which areas of the body are more sensitive to touch.

Different parts of the body are better able to locate touch. These areas have a higher density of touch receptors. Click for more detail.

Areas with more receptors are located in places that humans tend to use to explore the world, like the hands, feet, and face. Other areas, like the back and thighs, can also sense touch. But because humans don’t often use these body parts to interact with objects in the environment, there are fewer receptors in these regions.

The Brain’s Touch

Touch receptors send information to neurons in the central nervous system. Most of the signals from touch will travel all the way up to the brain before they can be processed and understood.  

Model showing travel of touch

In special cases information will be processed by the spinal cord. Click for more detail.

In some cases the spinal cord will also process sensory information. This usually happens when the body touches something that could damage it, like a hot surface or sharp object. When this happens, the body will respond differently to try to avoid injury. For example, if you touch something very hot you would pull your hand away as fast as possible. Very fast responses are reflexive, which means they happen without a person being aware of the body doing it.

Even if the information is processed in the spinal cord, it will also go up to your brain. If you recall a time that you touched something hot, you probably pulled your hand away without even thinking about it. It likely wasn’t until after your hand was clear that you realized it hurt. The fast response of pulling your hand away is controlled by the spinal cord. Checking your hand afterwards to see if you are ok happens after the brain receives this information.

Map of the sensory cortex

The sensory cortex is very well mapped to the different parts of the body. Click for more detail.

Lastly, the brain is organized to keep track of all the sensory information. This organization serves a similar purpose to that of the receptors in the skin – it helps the nervous system figure out where it is touched. When touch information arrives at the brain, it is sorted by the sensory cortex. The sensory cortex is an area of the brain that processes information about touch and other senses. Scientists call the sort of nerve map that is in the sensory cortex a homunculus, or “little man.” 

The regions of the sensory cortex that process touch information for each body part are not all the same size. Areas of the cortex are larger if they process information from parts of the body that have more sensory receptors. This means, for example, that the parts of the brain that process touch information for the hands is larger than that for the back. The fact that this organization is similar on the skin and in the brain makes sense. If you have more receptors on one part of the body, the brain will need to have more neurons to process information from that body region. 


Candle Image by Bangin.

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Bibliographic details:

  • Article: Making Sense of Touch
  • Author(s): Dr. Biology
  • Publisher: Arizona State University School of Life Sciences Ask A Biologist
  • Site name: ASU - Ask A Biologist
  • Date published: March 31, 2016
  • Date accessed: February 23, 2018
  • Link: https://askabiologist.asu.edu/understanding-touch

APA Style

Dr. Biology. (2016, March 31). Making Sense of Touch. ASU - Ask A Biologist. Retrieved February 23, 2018 from https://askabiologist.asu.edu/understanding-touch

American Psychological Association. For more info, see http://owl.english.purdue.edu/owl/resource/560/10/

Chicago Manual of Style

Dr. Biology. "Making Sense of Touch". ASU - Ask A Biologist. 31 March, 2016. https://askabiologist.asu.edu/understanding-touch

MLA 2017 Style

Dr. Biology. "Making Sense of Touch". ASU - Ask A Biologist. 31 Mar 2016. ASU - Ask A Biologist, Web. 23 Feb 2018. https://askabiologist.asu.edu/understanding-touch

Modern Language Association, 7th Ed. For more info, see http://owl.english.purdue.edu/owl/resource/747/08/
Candle flame

The spinal cord can initiate reflexive responses when touch receptors sense pain or other sensation that might be harmful to the body.

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