A wearable microneedle patch integrates real-time glucose monitoring and automated insulin delivery, offering a minimally invasive and efficient solution for diabetes management.
A clinical study evaluated a dual-chamber leadless pacemaker's ability to maintain atrioventricular synchrony in patients requiring pacing. The device demonstrated high success rates in implantation and synchrony, offering a promising alternative to traditional lead-based systems.
A novel biophotonic sensor was developed for rapid CRP detection in urine, integrating optical fiber technology with machine learning.
Researchers have developed a novel wearable system for non-invasive, continuous monitoring of bulbar muscle function in ALS animal models.
This study quantifies soft tissue desiccation during decomposition using custom sensors in the Western Cape, South Africa.
Researchers developed a microfluidic platform using surface-enhanced Raman spectroscopy (SERS) to detect single pancreatic cancer cells. The platform successfully differentiated between cancer stages, offering a promising tool for early cancer diagnosis through molecular analysis of individual cells.
Researchers developed an ultraflexible energy harvesting-storage system that combines organic photovoltaics (OPVs) with zinc-ion batteries, achieving high efficiency and adaptability for wearable devices. The system, featuring a power conversion efficiency of up to 16.18%, offers a lightweight, safe, and flexible energy solution
Researchers developed a smart silicone belt integrating wearable sensors for monitoring motion and harvesting energy from body movements. Utilizing triboelectric nanogenerators, the belt enhances self-powered wearables, demonstrating effective energy generation and physical activity tracking with optimized design features.
Researchers developed a flexible wearable sensor to monitor cortisol levels in sweat, providing real-time feedback for stress management. This non-invasive device utilizes molecularly imprinted polymers and carbon nanotubes to enhance sensitivity, offering a practical solution for everyday stress monitoring.
A review article highlights the growing importance of electronic tongues (e-tongues) in evaluating the bitterness of oral medications. These advanced taste sensors offer objective and reliable measurements, improving pharmaceutical formulations and patient compliance.
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