A compact, palm-sized isothermal fluorescent diagnostic intelligent IoT device for personal health monitoring and beyond via one-tube/one-step LAMP-CRISPR assay.

Publication date: Feb 15, 2025

The demand for accurate, user-friendly, and sensitive at-home nucleic acid testing solutions is rising due to occasional outbreaks of various infectious diseases and a growing desire for an improved quality of life. In response, we developed the WeD-mini, a compact, palm-sized isothermal fluorescent diagnostic IoT device that weighs just 61 g. The WeD-mini features a uniquely designed, highly sensitive optical sensing system, ultra-low power consumption, a minimalist industrial design, and an intelligent operating algorithm. It integrates real-time fluorescence detection and automatic result interpretation via a smartphone, with results seamlessly uploaded to the ‘EzDx Cloud’ for comprehensive health management and spatio-temporal disease mapping. The device supports various assays that operate at different temperatures and with varying fluorescence emission intensities, such as RPA (39 ^0C, low intensity), LAMP (65 ^0C, high intensity), and LAMP-PfAgo (65/95 ^0C, high intensity), while maintaining precise temperature control and exceptional fluorescence detection sensitivity. Additionally, we engineered a more thermostable AapCRISPR-Cas12b variant that operates effectively at 63 ^0C, enhancing compatibility with LAMP to create a robust One-Tube/One-Step LAMP-CRISPR assay. Adaptable for at-home testing of SARS-CoV-2 and influenza viruses, the WeD-mini achieved 100% sensitivity and specificity with the newly established One-Tube/One-Step LAMP-CRISPR assay. Furthermore, the WeD-mini shows potential applications in detecting meat adulteration, monitoring respiratory diseases in pets, and conducting wastewater surveillance, making it suitable for a wide range of personal and public health use cases.

Concepts Keywords
Bioelectron Animals
Influenza At-home testing
Isothermal Biosensing Techniques
Pets COVID-19
Smartphone CRISPR-Cas Systems
Equipment Design
Fluorescence
Humans
Isothermal amplification
Molecular Diagnostic Techniques
Molecular diagnostics
Point-of-care device
SARS-CoV-2
Smartphone

Semantics

Type Source Name
disease IDO assay
disease IDO nucleic acid
disease MESH infectious diseases
disease IDO quality
disease IDO algorithm
disease MESH influenza
disease MESH respiratory diseases
disease MESH COVID-19

Original Article

(Visited 1 times, 1 visits today)