AIRZONE

AirSport HYPOXY rooms – Manufacturer have been developed by Polish scientists and engineers and include permanent rooms and mobile spaces in which atmospheric air is modified by lowering or increasing oxygen concentration.

AirZone offers permanent rooms, mobile spaces, gyms, and tents in which atmospheric air is modified by lowering or increasing oxygen concentration.

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This allows for inducing specific conditions of hypoxia (in high-altitude conditions) or normobaric hyperoxia (conditions of increased oxygen concentration). The whole process takes place without changes in atmospheric pressure. Also, the technology allows you to control and regulate the temperature and humidity of indoor air, even in very extreme ranges.

With innovative technological solutions, small spaces, large halls, and individual sports facilities can be adapted to suit the needs of athletes. Unique features of AirZone include:

Unlocking Performance Potential

Hypoxia is a phenomenon of oxygen deficit in tissues in relation to oxygen demand, leading to deteriorated oxygenation in the body. Beneficial effects of hypoxia have been known for many years, and athletes often choose to train at the higher parts of the mountains to improve their physical performance. Spending several weeks in such conditions makes the body increase its physical capacity, which significantly improves athletic performance.

This improved effect in the form of slight hypoxia forces special adaptations in the body, which in lowland conditions leads to the increase in physical capabilities.

The first devices that induced hypoxia appeared in the late 1990s. With these solutions, it became possible to induce body responses in lowland conditions similar to those observed in high mountainous areas.

With AirZone, you don't need to leave for high-mountain camps as the same effects can be achieved in specially adapted rooms.

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HOW IT WORKS?

1. By reducing the blood and tissue oxygen saturation, several physiological body responses are induced to improve oxygen supply. The primary response is an increase in the secretion of the hormone erythropoietin (EPO) in the kidneys, which is responsible for the increased production of red blood cells in the bone marrow.

2. Consequently, blood hemoglobin levels rise, leading to the increased oxygen transport to working muscles. In the muscles themselves, new blood vessels are formed (angiogenesis) or an increase in the activity of oxidative enzymes used to generate energy during physical exercise is observed.

3. With these adaptive mechanisms, the use of oxygen supplied with blood to muscles is improved. By applying hypoxia, the improvements in oxygen transport in the body and its utilization in tissues are also observed. Laboratory tests have shown that the use of hypoxia offers the opportunities for 10% improvement of the body's physical capacity, leading to significantly higher sports performance.

4. Altitude training is the perfect preparation for maximizing your performance. It can improve athletes' endurance, speed, reaction time, recovery rate, and significantly accelerate rehabilitation following an injury. Altitude training is no longer a tool only for elite athletes. The research- based practice has shown that it can be used to improve the performance of athletes of all skill levels in a wide variety of sports.

5. With these adaptive mechanisms, the use of oxygen supplied with blood to muscles is improved. By applying hypoxia, the improvements in oxygen transport in the body and its utilization in tissues are also observed. Laboratory tests have shown that the use of hypoxia offers the opportunities for 10% improvement of the body's physical capacity, leading to significantly higher sports performance.

6. Living or training in conditions imitating a high-altitude atmosphere improves the body's endurance at sea level and, in the appropriate mountain conditions, gives athletes a real advantage over others. By adapting the circulatory, respiratory and muscular systems, athletes get the effect of improving stamina and endurance.

7. Correctly applied in the training process, hypoxia leads to improvements in both aerobic and anaerobic capacity. This helps improve the body's capabilities of doing various kinds of exercise, thus allowing for the improvement in performance in almost any sport.

During minimal exercise, the body takes in less oxygen and therefore:

Consequently, this leads to:

An increase in blood hemoglobin
An increase in muscle fiber capillarization
Improvement in the buffering capacity of muscles,
An increase in the activity of glycolytic enzymes
Reduced energy cost of exercise
Improvement in anaerobic and aerobic capacity

In 2019, William Kaelin, Peter Ratcliffe and Gregg Semenza were awarded the Nobel Prize in medicine and physiology. They were awarded for their discovery of how cells sense the oxygen concentration in the environment and adapt to its changes.

As a distributor, together with the technology manufacturer, we use the knowledge of the best experts to support sports centers, individual players and coaches in improving the quality of training preparations. And for investors, we prepare an offer tailored to their individual needs and investment opportunities.