NanoSensing Breath
Where are VOCs?
Every day, we breathe over 20,000 times, drawing in oxygen that nourishes our cells and expelling carbon dioxide (CO2), which carries waste products. This CO2, rich with disease biomarkers, makes its way from our blood back into our lungs and is exhaled, offering new opportunities for disease detection.
What are VOCs?
Volatile Organic Compounds (VOCs) are carbon-based molecules that become gaseous at room temperature and standard pressure. These compounds can originate from both internal bodily processes (endogenous VOCs) and external sources like food, pollution, and medications (exogenous VOCs).
Generation and Detection of VOCs:
These compounds are produced by the body’s metabolic activities and circulate in the bloodstream. They enter the lungs and are exhaled in breath. Because they reflect the body’s metabolic state, changes in endogenous VOC patterns can indicate disease. Our advanced AI and Machine Learning models are trained to detect the slightest change in biomarkers allowing for accurate and fast detection rates.
eNose
Many diseases subtly alter our metabolism long before symptoms appear, producing unique profiles of volatile organic compounds (VOCs) that serve as biomarkers. Our eNose technology is designed to detect these biomarkers in exhaled breath, enabling early disease detection.
The Power of Exhaled Breath
Exhaled breath contains numerous VOCs that offer valuable insights into various bodily processes. Our eNose technology captures and analyzes these VOCs, providing a reliable platform for early disease diagnosis and health monitoring.
How eNose Works
Effective Chemical Transfer: The lungs are remarkably efficient at transferring chemicals, such as VOCs that appear early in disease development, between the bloodstream and the air we breathe.
Thorough Breath Sampling: Blood takes about one minute to flow through the entire body. By collecting breath samples for a minute or more, our device is able to gather and evaluate VOCs from the whole blood circulation.
Increased Detection Capability: By integrating artificial intelligence, our device can more effectively identify even the smallest concentrations of VOC biomarkers. AI enhances the sensitivity of our technology, enabling it to detect early, subtle metabolic shifts by analyzing complex patterns in the data more efficiently than traditional methods.
Benefits of eNose Technology
Non-Invasive: The breath sampling process is completely non-invasive and pain-free, making it comfortable and convenient for patients.
Rapid and Reliable: Our technology provides quick and reliable results, facilitating timely medical intervention.
Broad Applicability: It can be used for a wide range of health conditions, making it a versatile tool in both clinical and research settings.
Our Device is beyond the edge
Artificial intelligence (AI) is revolutionizing how we detect volatile organic compounds (VOCs). By integrating AI neural networks, our eNose device continuously learns and improves with each VOC analysis. This enhances both the reliability and accuracy of our detection technology, ensuring precise results every time.
Our state-of-the-art AI and machine learning integration offers more than just routine check-ups. Our mobile app leverages sophisticated models in the cloud to provide personalized health features, including wellness monitoring, preventive care, holistic health insights, and tailored wellness recommendations.
