Abstract
Biomarkers in exhaled breath are useful for respiratory disease diagnosis in human volunteers. Conventional methods that collect non-volatile biomarkers, however, necessitate an extensive dilution and sanitation processes that lowers collection efficiencies and convenience of use. Electret filter emerged in recent decade to collect virus biomarkers in exhaled breath given its simplicity and effectiveness. To investigate the capability of electret filters to collect protein biomarkers, a model that consists of an atomizer that produces protein aerosol and an electret filter that collects albumin and carcinoembryonic antigen-a typical biomarker in lung cancer development- from the atomizer is developed. A device using electret filter as the collecting medium is designed to collect human albumin from exhaled breath of 6 volunteers. Comparison of the collecting ability between the electret filter method and other 2 reported methods is finally performed based on the amounts of albumin collected from human exhaled breath. In conclusion, a decreasing collection efficiency ranging from 17.6% to 2.3% for atomized albumin aerosol and 42% to 12.5% for atomized carcinoembryonic antigen particles is found; moreover, an optimum volume of sampling human exhaled breath ranging from 100 L to 200 L is also observed; finally, the self-designed collecting device shows a significantly better performance in collecting albumin from human exhaled breath than the exhaled breath condensate method (p<0.05) but is not significantly more effective than reported 3-stage impactor method (p>0.05). In summary, electret filters are potential in collecting non-volatile biomarkers in human exhaled breath not only because it was simpler, cheaper and easier to use than traditional methods but also for its better collecting performance.
Highlights
Though volatile organic compounds (VOCs) in human breath have been studied and reviewed in depth in recent decades [1,2,3,4,5,6,7,8,9,10], increasing interests are seen in studies on non-volatile biomarkers in exhaled breath of human volunteers
The results showed that our selfdesigned collection device based on the electret filter method was significantly more effective than the exhaled breath condensate (EBC) method in collecting albumin from human exhaled breath (Kruskal-Wallis ANOVA, p0.05)
The results indicated that electret filter method had a better collection ability than the EBC method in collecting albumin in exhaled breath
Summary
Though volatile organic compounds (VOCs) in human breath have been studied and reviewed in depth in recent decades [1,2,3,4,5,6,7,8,9,10], increasing interests are seen in studies on non-volatile biomarkers in exhaled breath of human volunteers. Collecting Protein Biomarkers in Human Exhaled Breath abundant yet at different collection efficiencies [11, 12]. Among them is the exhaled breath condensate (EBC) method, where biomarkers, in the form of epithelial lining fluid (ELF) droplets from airway [13], are diluted approximately 20000-fold by condensed water vapor [14]. It has been reported that inner coating of collection surface could make EBC method more efficiency, different coatings or even different condensing systems favor different biomarkers in breath [18]. This method offers limited help in in vivo study [18]. The reasons include that the EBC method wastes more than 90% of the sub-micron particles in exhaled breath [19]
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