This project supports the development of a non-invasive diagnostic tool for malaria, focusing on validating the link between VOCs (volatile organic compounds) and malaria infection using thermodynamic sensors. This technology aims to provide rapid, painless alternatives to blood-based diagnostics, enabling malaria detection without invasive sampling. Trace Sensing has already identified six potential VOC biomarkers based on published literature specific for malaria. Two of these are part of the company's existing library and can already be detected in purified form by the TRACE-E device, while the others are under active evaluation. To confirm the suitability of the selected VOC biomarkers for diagnosing malaria and strengthen the detection algorithm, high-quality, robust clinical data from well-characterized biological specimens are required. In partnership with Gondar University in Ethiopia, breath samples will be collected from individuals (12 years and older) suspected of having malaria presenting at two health clinics. PCR performed on blood samples will serve as reference method to confirm infection status, while non-invasive clinical breath tests will be performed using the TRACE-E device. The resulting data will confirm whether the six candidate malaria VOC biomarkers can be detected in patient breath, and if other VOC biomarkers can be detected as well. This study will therefore act as a malaria VOC biomarker confirmation study.
Study Type
OBSERVATIONAL
Enrollment
200
Endpoint 1
Detection rate of the six predefined malaria VOC biomarkers in breath from PCR-confirmed malaria-positive and negative participants, as measured by TRACE-E.
Time frame: From June 2026 to September 2026
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.