Stabilogram

A stabilogram is a graphic representation of the position of a person’s body in space during standing. It allows you to assess the degree of balance and coordination of movements.

The stabilogram can be recorded using special devices - stabilographs. They record changes in the position of the body's center of gravity and its movement in space.

To record a stabilogram, a person stands on a special platform with sensors that measure his position and movements. The data is then transferred to a computer where it is processed and displayed as a graph.

Analysis of the stabilogram allows you to assess the level of balance and coordination of human movements. This can be useful in diagnosing various diseases such as motor coordination disorders, depression, anxiety and other mental disorders.

In addition, a stabilogram can be used in sports to assess the level of training of athletes and determine their individual characteristics.

Thus, a stabilogram is an important tool for assessing a person’s balance and coordination of movements, as well as for diagnosing and treating various diseases.

A stabilogram is a method for diagnosing motor disorders that allows you to evaluate the patient’s coordination of movements and identify balance disorders. This method was proposed by the French physician Guillaume Dumas in 1913 and is one of the first ways to objectively study the functional state of the musculoskeletal system.

The principle of operation of the stabilogram is based on measuring the force of gravity acting on a person at the moment of maintaining balance. For this purpose, a special platform is used, which is installed on a flat surface. The patient stands on the platform, after which the force of attraction to the ground is measured using sensors. Based on these measurements, the system creates a graph called a stabilogram, which shows the patient's balance state.

A stabilogram can be used to detect various disorders of the musculoskeletal and neuromuscular system, such as balance disorders, gait pathology, tremor, dizziness, etc. This test is an important diagnostic tool not only for neurologists, but also for internists and physiotherapists.

In addition, the stabilogram is also used in sports to determine endurance and readiness for training. One of the advantages of stabilograms is that they can be used in a variety of conditions. For example, balance testing can be done outdoors, indoors, or even underwater. This study can be carried out on almost any person of any body weight, from newborns to the elderly.

In conclusion, I would like to note that the stabilogram is a reliable method for diagnosing various disorders of the human motor system and can be used in different areas. In addition, this method is simple and non-invasive and can be used at home, at leisure, and even in the gym before training.