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 °C, low intensity), LAMP (65 °C, high intensity), and LAMP-PfAgo (65/95 °C, 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 °C, 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.
Keywords: At-home testing; Internet of things (IoT); Isothermal amplification; Molecular diagnostics; Point-of-care device; Thermostable CRISPR-Cas12b variant.
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