From Drifting Polyaniline Sensor to Accurate Sensor Array for Breath Analysis

Abstract: Kidney failure is a critical chronic disease, defined as the irreversible loss of kidney functions. It has been shown that this pathology is associated with an increase of ammonia concentration in breath. Measuring it with a handheld system is a simple way for a noninvasive and early diagnostic. The idea of this paper is to measure the concentration of ammonia in a concentration range of human breath (500 ppb-2100 ppb) with humidity using a network of 11 different nanocomposite sensors. To overcome sensor weak… Show more

“…[13,23,24] Based on repeated experiments with our conductive polymer-based sensors, the limit of detection (LOD) is below 0.5 ppm, the recommended limit for an effective ammonia sensing device. [25] The polymer sensor reaches a saturation point around ≈1300 ppm in a human breath environment, which is well above the necessary diagnostic endpoint for both metabolic diseases of CKD and CLD (Figure 2E). As shown in Figure 2F, the device can detect changes in vapor concentrations of liquid ammonia.…”

AI‐Assisted Multimodal Breath Sensing System with Semiconductive Polymers for Accurate Monitoring of Ammonia Biomarkers

“…[13,23,24] Based on repeated experiments with our conductive polymer-based sensors, the limit of detection (LOD) is below 0.5 ppm, the recommended limit for an effective ammonia sensing device. [25] The polymer sensor reaches a saturation point around ≈1300 ppm in a human breath environment, which is well above the necessary diagnostic endpoint for both metabolic diseases of CKD and CLD (Figure 2E). As shown in Figure 2F, the device can detect changes in vapor concentrations of liquid ammonia.…”

AI‐Assisted Multimodal Breath Sensing System with Semiconductive Polymers for Accurate Monitoring of Ammonia Biomarkers

Non-invasive Approach for Disease Diagnosis