UCLA Researchers Develop High-Sensitivity Paper-based Sensor for Rapid Cardiac Diagnostics

LOS ANGELES - Oct. 4, 2024 - PRLog -- Cardiovascular diseases (CVDs) remain the leading cause of death worldwide, accounting for over 19 million fatalities annually. Early detection of acute myocardial infarction (AMI), commonly known as a heart attack, is essential for improving patient outcomes and reducing mortality rates. However, the high costs and infrastructure requirements associated with traditional laboratory-based diagnostic equipment often limit access to high-quality care, particularly in low- and middle-income regions.

To address this challenge, UCLA researchers developed a high-sensitivity vertical flow assay (hs-VFA) that combines the precision of traditional laboratory testing with the convenience and affordability of point-of-care technologies. Their findings demonstrate that this innovative platform can accurately quantify cTnI levels in just 15 minutes using a small sample of serum, making it ideal for rapid diagnostics in emergency settings or remote locations.

The core of this platform lies in the integration of deep learning algorithms with cutting-edge nanoparticle amplification chemistry. The hs-VFA system uses time-lapse imaging and computational analysis to enhance the detection of cTnI—a key biomarker for cardiac damage—achieving a detection limit as low as 0.2 picograms per milliliter (pg/mL). This level of sensitivity surpasses current point-of-care devices by a significant margin and meets the clinical requirements for high-sensitivity troponin testing, which is essential for the early diagnosis of AMI.

In rigorous testing using both spiked and clinical serum samples, the hs-VFA demonstrated high precision with a coefficient of variation (CV) of less than 7%. It also exhibited a strong correlation with gold-standard laboratory analyzers. Importantly, the hs-VFA also demonstrated an extensive dynamic range, covering cTnI concentrations from 0.2 pg/mL to 100 nanograms per milliliter (ng/mL). This range makes it suitable not only for diagnosing heart attacks but also for monitoring at-risk patients over time.

The paper-based assay costs less than $4 per test, while the portable reader, designed using a Raspberry Pi computer and off-the-shelf components, costs approximately $170 per unit. This affordability is crucial for expanding access to high-quality diagnostics in low-resource settings, where traditional laboratory infrastructure may be unavailable.

Beyond cardiac diagnostics, the researchers believe the hs-VFA platform could be adapted for other critical low-abundance biomarkers, broadening its potential applications to various areas of medical diagnostics. The portability, simplicity, and affordability of the platform position it as a viable alternative to centralized laboratory testing for many conditions, offering hope for improved health outcomes on a global scale.

This research was supported by the US National Science Foundation (NSF) PATHS-UP Engineering Research Center.

Publication: https://pubs.acs.org/doi/10.1021/acsnano.4c05153