Single-cell analysis is reshaping drug discovery, but interpretation remains slow. AI single cell approaches may close the ...

Researchers at MIT have developed a noninvasive medical monitoring device powerful enough to detect single cells within blood vessels, yet small enough to wear like a wristwatch. One important aspect ...

Researchers have developed a computationally enhanced adaptive optics optical coherence tomography (AO-OCT) system capable of capturing full-thickness retinal images at single-cell resolution. This ...

In this webinar, Zivjena Vucetic will discuss how single-cell sequencing improves measurable residual disease detection (MRD) ...

The advent of single-cell omics technologies has revolutionized our understanding of the complex cellular landscape in cancer. Traditional bulk sequencing ...

Drawing inspiration from natural cell signaling cascades, chemists at Université de Montréal (UdeM) have developed a DNA-based signaling cascade that allows them to quantify and report via an easily ...

McGill University researchers have developed an artificial intelligence tool that can detect previously invisible disease markers inside single cells. In a study published in Nature Communications, ...

Pleural effusion cytology is already used in cancer diagnosis, especially in metastatic settings, but its sensitivity can be limited.

MethylScan is a low-cost blood test that detects cancers and organ diseases by analyzing DNA methylation, improving early diagnosis, and identifying disease origin.