Cardiac models are becoming increasingly accurate as predictive power improves.
Wearable electronic contact lenses as non-invasive brain sensors
Smart contact lenses could revolutionize the way in which we monitor brain activity and diagnose neurological diseases.
How can nanoparticles improve photoacoustic imaging
How recent advancements in the developing of photoacoustic contrast agents are creating a better imaging technology.
Improving how we image cells using carbon dots
Fluorescent carbon dots could change the way in which we visualize cells.
How Computational Models Can Aid Cardiac Research
Researchers are increasingly interested in how a systems biology approach may be used to tackle multi-scale heart problems.
Protein-Protected Metal Nanoclusters That Behave Like Natural Enzymes
Protein-protected metal nanoclusters have excellent biocompatibility and have received considerable attention as a luminescent probe in a number of fields such as biosensing, bioimaging, and imaging-guided therapy.
Beyond gene editing: A new role for CRISPR
A new use for the revolutionary gene-splicing tool. This new “Electrochemical CRISPR” can quickly and accurately identify viral biomarkers for a range of diseases, including HPV and Parvovirus.
Epidermal Electronics – A Step Closer to Wearable Diagnostic “Labs”
Skin-friendly epidermal electronic devices fabricated using flexible, stretchable, and degradable protein-based substrates could offer a viable solution to real-time health and fitness monitoring.
Polymers are Improving Our Ability to Diagnose Cancer
Polymers have been shown to improve the biological capabilities of optical contrast agents to improve diagnosis of diseases such as cancer.
Electrified Tattoos and Personalized Biosensors
Scientists developed a fully print-in-place electronics technique that is gentle enough to work on surfaces as delicate as human skin.