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The human nervous system relies on sensory nerve endings to convey information about the surrounding environment to the brain and motor neurons. Stimulating a sensory receptor produces a chemical reaction that converts to an electrochemical impulse, which in turn travels to the brain. Sensory neurons, also called afferent neurons, also collect information from within the body and convey it to the brain. The nervous system has several types of sensory receptors, grouped by the type of stimulus that activates the sensory receptor, known as adequate stimulus. These receptors also are grouped by location and the rate at which they adapt to stimuli.
Several types of adequate stimuli exist, and each type of sensory receptor is designed to respond to a particular type of stimulus. For example, photoreceptors react to visible light and send signals along the optic nerves to the occipital lobe of the brain. Chemoreceptors govern taste and smell, bonding with specific chemicals that attach themselves to the taste buds or interior of the nostrils.
The skin contains receptors embedded throughout, which are responsible for detecting pain, pressure, temperature or humidity. Proprioceptors, located throughout the skin and muscles, provide the body with information about the position of its parts relative to one another. The fluid sacs in the inner ear contain proprioceptors that provide the brain with information about the head's position relative to ground.
Sensory receptors are located in the muscles, skin and sensory organs. Cutaneous and subcutaneous, or skin, receptors are responsible for most surface sensation: temperature, pressure and pain. Their nerve endings branch throughout the upper and lower layers of skin.
Pain receptors are absent from the brain and other internal organs. Any information is sent to the corresponding area of the skin through referred pain. Mechanoreceptors can be found in muscles. They detect the contraction or extension of muscle tissue so that the brain senses the performance of the muscle.
Any given sensory receptor can be classified as a tonic or phasic receptor, depending on its speed of adaptation to stimuli. Tonic receptors send a constant signal when activated by a stimulus, and they are constantly firing. For example, proprioceptors are tonic because they always provide the brain with information. Phasic receptors remain inactive until they receive a stimulus and quickly adapt. Thermoreceptors, responsible for the sensation of temperature, are phasic receptors; the skin receives information about its temperature and quickly adjusts its baseline temperature to match.
I know there are some people out there with a disorder that means they can't feel pain, or even hot and cold because their sensory receptors don't work properly. At first I thought that sounded awesome, because it would mean you could do things like getting a tattoo or waxing without having to worry about the pain of it.
But, when I read more about it, I realized it would actually suck. Not being able to feel pain means you would be damaging your body all the time. You could be seriously ill or injured and not realize it, as nothing would be sore.
I'm glad this is such a rare disorder, because it doesn't look like they know how to fix it at the moment.
@Iluviaporos - It seems counter intuitive seeing as people can get some blinding headaches and you would assume that those come from the brain itself.
I have heard, however that they are from blood vessels constricting in the brain. So, as it says in the article, the brain must register that that is happening through muscle sensors rather than pain sensors and send out a message to the pain sensors outside the brain that a headache is happening.
At least, I think that's how it works with migraines which are some of the worst headaches I've ever had. I don't know how the brain manages to make them so incredibly sickening and painful, but it does and it seems there is little to be done once they get started.
What's interesting is that the brain itself, while it can receive sensory receptor messages from other parts of the body, has no receptors of its own.
This is the reason, if a surgeon is going to do brain surgery, they can often do it while the patient is awake and can be easily monitored for anything that might go wrong.
It is also the way they could have that terrible scene in the sequel to Silence of the Lambs, where Dr Lector took out a piece of a person's brains and then fed them to him.
It is almost difficult to really appreciate it, but you just can't feel anything going on there at all.
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