In November 2021, Northwestern University researchers introduced an injectable new therapy, which harnessed fast-moving "dancing molecules," to repair tissues and reverse paralysis after severe ...

When comparing slow-moving molecules to the "dancing" assembly, the researchers found that the latter was significantly more effective at activating TGFb-1 receptors.

In November 2021, researchers at Northwestern University introduced an innovative therapy using fast-moving "dancing molecules" to repair tissues and reverse paralysis after severe spinal cord ...

Cartilage cells generate more protein components (collagen II and aggrecan) for regeneration when treated with fast-moving dancing molecules (left) compared to slower moving molecules. In November ...

It works by unleashing fast-moving “dancing molecules” that help jumpstart the body’s natural repair systems. This latest study reveals that the therapy can trigger key gene expression for ...

In November 2021, Northwestern Engineering researchers introduced an injectable new therapy, which harnessed fast-moving “dancing molecules,” to repair tissues and reverse paralysis after severe ...

Northwestern University researchers have found the second use for an injectable therapy using fast-moving "dancing molecules" to regenerate tissue rapidly, leading the biochemists group to hope ...

Human cartilage cells treated with fast-moving dancing molecules made more collagen II (shown in red), a crucial component for regeneration. Cell nuclei are shown in blue/purple.

Faster-moving atoms in the spoon strike the water molecules, transferring some of their energy to them. The atoms in the spoon move slower (decreasing temperature) and the water molecules move faster ...