In a new study, scientists describe a unique computational system for systematically predicting patient response to cancer drugs at the single-cell level.
A new study has found that pancreatic cancer cells vary depending on their location in the organ, providing new information about tumors and could lead to more targeted treatments.
Scientists have created a powerful new bone marrow atlas that will provide the public with a first-of-its-kind visual passport to the spectrum of healthy and diseased hematopoiesis.
Scientists have gained detailed insight into some of these early changes by using powerful high-resolution microscopy to track the earliest physical changes that cause cancer in mouse skin cells.
Artificial intelligence experts from Cedars-Sinai and the Smidt Heart Institute created a dataset with more than 1 million echocardiograms (video ultrasounds of the heart) and their corresponding clinical interpretations.
Scientists have identified a site in early aggregates of the protein alpha-synuclein that can be targeted to prevent it from becoming the toxic amyloid fibrils that accumulate in the brains of people with Parkinson's disease.
B cells can control myeloid cell responses through the release of certain cytokines (small proteins that control the growth and activity of immune system cells), challenging the previously held view that only T cells coordinate immune responses.
