Decompression

Decompression is the process of reducing pressure on an organ or part of the body, which can be achieved through surgery. This procedure may be necessary in many cases where increased pressure on an organ or tissue can lead to serious consequences.

Surgical decompression may be effective in cases where the tissue pressure on the nerve becomes unbearable. In this case, the surgeon may cut the tissue to relieve pressure on the nerve. Also, increased intracranial pressure can be reduced by cutting the dura mater, which reduces the pressure on the brain. Cardiac compression caused by blood or fluid in the pericardial cavity can be relieved by cutting the pericardium.

Decompression can also refer to the gradual reduction of atmospheric pressure in divers who work at artificially created high pressures. This process can lead to the development of decompression sickness, which can be dangerous to the health and even life of the diver.

Decompression sickness can occur when leaving deep waters too quickly, when dissolved gases in the blood and tissues begin to come out of solution and form bubbles. These blisters can lead to a variety of symptoms, including joint, muscle and skin pain, loss of coordination, constipation and dizziness.

Decompression is an important process that can save the life and health of the patient in cases where high blood pressure can lead to serious consequences. However, surgical decompression should only be performed under the supervision of a qualified physician, and decompression in divers should be carried out in compliance with all relevant rules and recommendations.



Decompression is a procedure aimed at reducing pressure on an organ or part of the body, which can be performed surgically or physically. In this article we will look at the two main types of decompression: surgical decompression and diving decompression.

Surgical decompression is a procedure that relieves pressure on tissues and organs through surgery. This method can be used in many cases where high blood pressure may be life-threatening. For example, if there is increased intracranial pressure, which can lead to serious consequences such as cerebral edema, dural incision may be performed to relieve pressure. Likewise, if there is compression of the heart caused by blood or fluid in the pericardial cavity, the pericardium may be incised to relieve pressure on the heart.

Decompression is also used in diving. Divers work in conditions of artificially created high pressures, which can lead to various diseases associated with decompression. One of the most common illnesses is decompression sickness, which can occur when quickly emerging from high-pressure conditions. In this case, gases (especially nitrogen) are released from solution in the blood, which can lead to the formation of bubbles in the circulatory system and cause various symptoms such as joint pain, skin rashes, visual disturbances and even loss of consciousness.

To prevent decompression sickness, divers use a procedure to gradually reduce atmospheric pressure, which avoids a rapid release from high-pressure conditions. This method is called decompression and is a necessary condition for the safe operation of divers.

In conclusion, decompression is an important procedure that can be used to relieve pressure on tissues and organs in various diseases and in high-pressure environments such as diving. Surgical decompression and diving decompression are effective methods that help prevent serious complications associated with high blood pressure.



The decompression effect can also occur in an area of ​​the human body, which can be tested or experienced in various ways. One such method is the study of the cranial nerves, which act as an extensive sensory system that provides contact with the outside world through the eyes and ears. Skulls perform various physiological functions - storing the inner ear, moving our body parts back and forth, and moving in and out of our body. Examples of cranial nerves are