Utilizing Nanoparticle Catalyzed TMB/H2O2 System for Determination of in Exhaled Breath Condensate

Background: According to the poison center data for most countries, more than thousands of people's exposure to aspirin or salicylate-containing products. So, this work aimed was to offer a rapid colorimetric method for monitoring aspirin concentration in exhaled breath condensate (EBC). Methods: A method based on a redox reaction catalyzed by nanoparticles was validated for the analysis of aspirin. 3,3 ,5,5 -Tetramethyl benzidine /H2O2 and sodium dodecyl sulfate modified silver nanoparticles were used as the redox reagents and catalyst, respectively. Results: Detection mechanism of aspirin using this system is based on the inhibitory effect of aspirin on the signal intensity of the colorimetric systems. Since the decrement in signal intensity was proportional to aspirin level, a colorimetric method was proposed for its quantification in EBC samples. This method shows a linear relationship with aspirin concentration in the range of 10-250 mg.L-1 with a relative standard deviation of < 3.5%. Conclusion: This method has great potential for aspirin determination due to some features such as high reliability, and fast response time.

Automated summary

This study aimed to provide a rapid colorimetric method for monitoring the concentration of aspirin in exhaled breath condensate (EBC). The analysis of aspirin was validated using a redox reaction catalyzed by nanoparticles. The proposed method shows a linear relationship with aspirin concentration in the range of 10-250 mg.L-1 with high reliability and fast response time.