Herein we developed age clocks that predict biological age from fundus photography and optical coherence tomography. We evaluated our multimodal models’ clinical relevance by examining their ...

A JCI review traces biological age measurement from functional tests and blood biomarkers to epigenetic, proteomic, imaging, ...

Biomimetics draws inspiration from biological organisms, yet only a small fraction of Earth’s biodiversity has been explored for innovation. This study examines the biological models used in ...

We all know someone who seems to defy aging—people who look younger than their peers despite being the same age. What's their secret? Scientists at Osaka University (Japan) may have found a way to ...

A research team has developed a new system to estimate a person's biological age -- a measure of how well their body has aged, rather than just counting the years since birth. Using just five drops of ...

To create models that can identify the inner workings of complex biological systems, the researchers turned to a type of model known as a probabilistic graphical network. These models represent each ...

This review provides an overview of artificial intelligence–enabled biological models, focusing on their applications in designing biological molecules and systems. We review foundation models that ...

This is read by an automated voice. Please report any issues or inconsistencies here. Epigenetic aging clocks measure chemical alterations to DNA to determine the functional age of human cells and ...

Concerns over the biosecurity risks posed by artificial intelligence (AI) models in biology continue to grow. Amid this concern, Doni Bloomfield and colleagues argue, in a Policy Forum, for improved ...