Researchers developed a gold nanoparticle-based DNA walker biosensor for detecting Klebsiella pneumoniae.
This review highlights the advances and challenges of EEG-based wearable devices in sleep monitoring.
Researchers have developed a plasmonic biosensor to rapidly and cost-effectively detect pyrin protein levels for diagnosing Familial Mediterranean Fever.
The WARM system is a novel wearable device for assessing erectile dysfunction. Utilizing dual-ring sensors, it monitors penile rigidity and tumescence in real time during sleep, offering a non-invasive alternative to traditional methods while maintaining sleep quality.
A multimodal bracelet integrating multiple biosensors, such as sEMG, FMG, and IMUs, improves intent detection for robotic hand control. By combining various physiological data, the bracelet achieves high accuracy in classifying gestures, advancing prosthetic and robotic hand functionality.
Researchers developed a flexible, wearable ultrasonic bladder volume monitoring device for non-invasive, continuous assessment.
A novel electrochemical biosensor capable of over 200 regeneration cycles without losing accuracy has been developed for detecting cancer biomarkers like EGFR. This reusable point-of-care device could significantly improve the efficiency of cancer diagnosis and personalized treatment
Researchers demonstrated that 24-hour contact lens sensors can monitor intraocular pressure fluctuations, providing critical insights into normal-tension glaucoma progression. Continuous data collection offers better disease management and personalized treatment for patients, improving clinical outcomes
Researchers developed a HEK-hTLR5 cell-based biosensor to rapidly detect viable Salmonella in food.
Researchers at Cranfield University have created a novel approach to detect biomarkers in wastewater that will allow the tracking of infectious diseases with a mobile phone's camera utilizing origami-paper sensors.
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