Noze Building World’s First Breathalyzer to Detect Infectious Diseases
AI-powered, digital odor perception leader receives grant from Bill & Melinda Gates Foundation to develop portable, mass-scale solution to help millions in developing countries
MONTREAL – March 14, 2023 – Noze (formerly Stratuscent), a Canadian AI startup that has developed the world’s leading technology to digitize the sense of smell, today announced a grant of $1 million from the Bill & Melinda Gates Foundation to build a breathalyzer, powered by its platform, to detect breath biomarkers (VOCs). This will enable rapid screening and diagnostics of infectious diseases such as Malaria and Tuberculosis, that impact millions of people, particularly in developing countries.
Healthcare screenings and diagnostics are often time consuming, invasive, costly and not readily accessible to all population groups. To remedy this situation, Noze and the foundation are turning to a groundbreaking, yet largely overlooked source of health information: smell. Exhaled breath offers an incredibly revealing picture of a person’s current health due to the efficient exchange that takes place between the blood and the air in the lungs. Many different diseases are represented in the breath through their unique metabolic biomarkers, which will now be targeted via Noze’s platform enabling instant, low-cost and ubiquitous diagnostics.
The long-term goal of the initiative is to enable global access to a reliable detection device that can help reduce the spread of diseases, identify the need for treatment as early as possible, and improve patient outcomes in developing countries.
Underpinned by its exclusive license to NASA patents, Noze continues to innovate and evolve its AI-powered digital odor perception platform with a specialized focus on medical and health conditions. During the COVID-19 pandemic, Noze’s technology was the first in the world to have capabilities to track the airborne markers released by persons infected with the Coronavirus and Influenza. This advancement opened the door to solving other healthcare challenges by leveraging the digital sense of smell.
“Breath-based diagnostics will be a game-changer for healthcare accessibility, and our ability to launch a portable device and deliver it on a massive, worldwide scale can be a powerful new tool to fight the spread of Malaria and Tuberculosis, in addition to many other diseases,” said Karim Aly, CEO at Noze, “We are thrilled to have the support of the Bill & Melinda Gates Foundation as we develop an affordable and easy to use breathalyzer that can accurately detect infectious diseases to help millions of people.”
Malaria is one of the world’s most severe public health problems and is a leading cause of death and disease in many developing countries, with young children and pregnant women being the groups most affected. According to the 2021 World Malaria Report, nearly half of the world’s population lives in areas at risk of Malaria transmission (87 countries and territories).
Development of the diagnostic breathalyzer is targeted for completion by the end of 2023, which will be followed by a clinical validation phase. Noze is also actively developing other health-related projects with additional partners, including the Montreal Heart Institute, with clinical trials underway that utilize the company’s digital odor perception platform.
Researchers interested in leveraging Noze’s platform in clinical studies can learn more at Noze labs.
Noze (formerly Stratuscent) is the global leader in digital odor perception and the creators of the only digital nose capable of detecting, identifying and interpreting odors with unparalleled accuracy in the real world. Built on a foundation of NASA-patented technology previously deployed to the International Space Station, its platform offers an innovative solution for the non-invasive screening and diagnostics of medical conditions through breath and body odor. Utilizing cutting-edge machine perception and a revolutionary sensor, Noze aims to enable healthcare professionals to detect potential health risks, monitor the progression of medical conditions, and improve patient outcomes.