Breath for Better Health Study

Breath analysis is becoming of increasing interest to researchers throughout the world for disease identification and monitoring. It is known that small chemicals dissolved in the blood can pass through the blood/air barrier within the lungs and be exhaled in normal breath, with many of these chemicals being potential biomarkers for a broad range of diseases.

As a biological waste media, it has many advantages over other more invasive approaches. It can be given at will with a large volume of potential sample, it has a high level of patient acceptability, it is non-invasive, sample collection is very quick and it is potentially possible to analyse the sample in almost real-time. This has made breath analysis a target focus for many groups working on a broad range of diseases. Previous studies, by the investigators group and others have shown that breath analysis can be used to identify patients with irritable bowel diseases, hepatic encephalopathy, cancers (specifically colorectal and breast) and respiratory infections (such as tuberculosis).

Though these previous projects have shown promise, it is only now that our ability to make highly sensitive gas analysis instruments and sensors makes it a real possibility to bring this to the wider public. However, to be able to develop such sensors and sensor systems, the investigators need to identify the specific chemical biomarkers in the breath to detect and measure. At this point in time, there is no such definitive list of biomarkers (potential or otherwise) for all possible disease groups. In addition, where there are proposed markers, there is no agreement in the field on what these are.

The final goal of this project is to produce a new device that will allow simple, non-invasive monitoring of diabetic patients, which the investigators believe will lead to a significant improvement in the quality of life of those suffering from this condition.

The purpose of this study is partly to discover new potential biomarkers in human breath associated with diabetes and from this, try and understand what confounding factors may affect its efficacy. The investigators believe that these confounding factors maybe sex, age, diet and food and others. Without a deep understanding of these variables, it will be impossible to develop a new generation of person monitoring tools.

To maximise the chances of discovering new potential biomarkers, the investigators will deploy a range of different analytical instruments aimed at different parts of the chemical spectrum. Together, the investigators believe they will be able to get a comprehensive understanding of the chemicals being released in human breath, how these are affected by confounding factors and how they are related to blood sugar levels.