OCICO2
The first breath CO2 analyzer
Discover the first exhaled air analyzer dedicated to the analysis of carbon dioxide in breath!
- Real-time measurement of CO2 concentration in breath
- Highly precise and reliable
- Easy to use and transportable
CO2 Breath Analyzer:
An effective solution to get valuable information on your respiratory functions and general health.
Analyzing carbon dioxide (CO2) in human breath air is a common practice in the medical and scientific fields. This allows for obtaining valuable information about respiratory function and an individual’s overall health. Here are some reasons why CO2 analysis is important:
Assessment of respiratory function: Measurement of CO2 in exhaled air enables assessment of the lungs’ ability to eliminate CO2 produced by cellular metabolism. This gives an indication of the quality of breathing, and can help diagnose respiratory problems such as asthma, chronic obstructive pulmonary disease (COPD) or other lung diseases.
Diagnosis of metabolic disorders: CO2 levels can also be used to assess the acid-base balance in the body. Abnormal CO2 levels may be indicative of metabolic disorders such as acidosis or alkalosis.
Sports performance evaluation: In certain contexts, CO2 analysis can be used to assess the aerobic capacity and performance of athletes during and after exercise.
For personal use
Analyzing CO2 levels in breath with a portable analyzer offers individuals a convenient way to better understand their metabolism and health. By understanding the use of metabolic substrates, you can adjust your diet and physical activity to suit your needs. In addition, CO2 monitoring can help assess the quality of breathing and ventilation, which can be important in detecting and managing respiratory problems. By providing an in-depth understanding of individual physiology, a portable CO2 analyzer enables people to make informed decisions to improve their overall health and well-being.
For healthcare professionals
In the medical field, portable CO2 analyzer devices can also be used to monitor CO2 levels in patients’ exhaled air. This application is particularly valuable in clinical settings, where assessment of respiratory function and metabolic status is crucial to patient care. By measuring CO2 in exhaled air, healthcare professionals can gain insight into patients’ respiratory status, ventilation efficiency and metabolic activity. This information facilitates the diagnosis and management of various respiratory conditions, such as asthma, chronic obstructive pulmonary disease (COPD) and respiratory infections.