Tactile Taurus

Touch corpuscles are cellular structures that are found in the skin and are responsible for the sensations of touch, pressure and pain. They are part of the nervous system and are involved in transmitting signals from the skin to the brain.

Tactile corpuscles consist of special cells called neurons, which have long processes - axons. These axons connect to other neurons in the nervous system to form a neural network. When the skin is exposed, the tactile corpuscles react to this change and send signals to the brain.

There are two types of tactile corpuscles: encapsulated and non-encapsulated. Encapsulated bodies are located inside capsules that protect them from external influences. Unencapsulated bodies have a more complex structure and may be more sensitive to different types of stimuli.

The importance of the tactile bodies is that they help us understand and respond to the world around us. Without them, we would not be able to sense touch, pressure, pain and other sensations that help us adapt to our environment and make good decisions.

However, there are some diseases associated with disruption of the tactile corpuscles. For example, when the skin loses sensitivity, Raynaud's disease can occur, in which the skin becomes more sensitive to cold and pressure. Also, some medications can cause disturbances in the functioning of the tactile corpuscles, which can lead to decreased sensitivity and a deterioration in quality of life.

In general, the tactile bodies play an important role in our lives and are an integral part of the nervous system. Studying and understanding them helps us better understand and adapt to our environment.



The tactile corpuscle (corpusculum tactus, lnh) is specialized nerve cells located in the skin and responsible for the perception of touch. They are part of the sensory system that allows us to sense the texture, pressure and temperature of our environment.

Tactile corpuscles are found in the skin in special layers - the dermis and epidermis. They have the shape of round or oval cells arranged in groups. Each group of cells contains about 10-20 bodies.

When the skin is exposed to an external stimulus, such as touching an object or pressure, the tactile corpuscles respond to the change in pressure and transmit this information to the brain. The brain interprets this information and creates a sensation of touch, texture, and pressure of the object on the skin.

In addition, tactile corpuscles are also responsible for the perception of temperature. When the skin is exposed to heat or cold, the corpuscles transmit this information to the brain, which interprets it and creates a sensation of temperature.

Thus, the tactile body plays an important role in our ability to sense and interact with our environment. It allows us to obtain information about the texture, pressure and temperature of objects with which we come into contact, and ensures safety and comfort when interacting with the outside world.