There really is a sixth sense: it’s called proprioception. It is the sense of position and movement. It is produced by nerves in our muscles and connective tissues. Without proprioception, you couldn’t stand up. You couldn’t so much as scratch your nose, because you wouldn’t be able to find it.
There is a very rare neurological condition that deprives people of this extraordinary, little-known sense. Oliver Sacks describes a case of it in his book, The Man Who Mistook His Wife for a Hat: “She continues to feel the loss of proprioception, that her body is dead, not-real, not-hers … She can find no words for this state, and can only use analogies derived from other senses ….”
We don’t know what proprioception “feels” like because we cannot shut it off and it rarely changes intensity the way sights or sounds do. You can’t truly know what proprioception feels like until it is gone.
Proprioception is a very large sense. It produces a tremendous amount of data, as much or more than all the other senses combined. So although it is a silent sense, it is a very important one. Just knowing that it exists is significant self-knowledge.
The nerves that generate proprioception are embedded in the tissues of our musculoskeletal system: in muscles, tendons, ligaments, joint capsules and cartilage. They send information to the brain about how much tension or pressure is being applied to them, and how quickly it’s changing. The brain uses this information to figure out how hard your quadriceps are contracting, how bent or twisted your knee is, how long a step you’ve taken. It tells you the size of something held in your arms by their position. It tells you the effort needed to lift a glass of water without throwing it into your face.You actually know the direction and focus of your gaze because you know the position of your eyeball, and the effort it took to change the shape of your lens.
Proprioception is even more complex and vital than that. You might expect the brain to be able to figure out the position of the eye based on what you are looking at. But that’s not how it works. You actually know the direction and focus of your gaze because you know the position of your eyeball, and the effort it took to change the shape of your lens. Without those nerves in the muscles of the eyeballs, we would be able to see, but we wouldn’t know where any of it was. Try to imagine that! You would, in effect, be virtually blind.
An understanding of proprioception is routinely applied in a variety of physical therapies. The most familiar example is the relaxing effect of vibration. This works on a simple principle called “proprioceptive confusion.” If you move or shake the body at random, the brain gets a deluge of nonsensical proprioceptive data. The nervous system, overwhelmed by the random stimuli, effectively “gives up” and stops resisting the movement: providing you with deep, muscle loosening relaxation!
Similarly, proprioception is also responsible for most of the feeling of sensory novelty that we experience when we are massaged. Although stroking sensations on the skin are nice, it is really the deeper sensations of our proprioceptive nerve endings being stimulated — the unfamiliar movements of joints, the pressures on our muscles in places we can’t reach ourselves, the incongruously effortless stretches of tendons and ligaments that are normally only stimulated by intense exercise — that feel so good! Without proprioception, every massage would feel like just a skin massage: a much poorer sensory experience.