Molecular Device Triggers Drug Delivery and Self-Healing Materials
Scientists have developed a first-of-its-kind molecular device that controls the release of multiple small molecules.
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In a new breakthrough that could revolutionise medical and material engineering, scientists have developed a first-of-its-kind molecular device that controls the release of multiple small molecules using force.
The researchers from The University of Manchester describe a force-controlled release system that harnesses natural forces to trigger targeted release of molecules, which could significantly advance medical treatment and smart materials.
The discovery, published today in the journal Nature, uses a novel technique using a type of interlocked molecule known as rotaxane. Under the influence of mechanical force - such as that observed at an injured or damaged site - this component triggers the release of functional molecules, like medicines or healing agents, to precisely target the area in need. For example, the site of a tumour.
It also holds promise for self-healing materials that can repair themselves in situ when damaged, prolonging the lifespan of these materials. For example, a scratch on a phone screen.
“Forces are ubiquitous in nature and play pivotal roles in various processes. Our aim was to exploit these forces for transformative applications, particularly in material durability and drug delivery.
“Although this is only a proof-of-concept design, we believe that our rotaxane-based approach holds immense potential with far reaching applications - we’re on the brink of some truly remarkable advancements in healthcare and technology.”
Guillaume De Bo, Professor of Organic Chemistry at The University of Manchester
Traditionally, the controlled release of molecules with force has presented challenges in releasing more than one molecule at once, usually operating through a molecular "tug of war" game where two polymers pull at either side to release a single molecule.
The new approach involves two polymer chains attached to a central ring-like structure that slide along an axle supporting the cargo, effectively releasing multiple cargo molecules in response to force application. The scientists demonstrated the release of up to five molecules simultaneously with the possibility of releasing more, overcoming previous limitations.
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Subscribe for FREEReference: Chen L, Nixon R, De Bo G. Force-controlled release of small molecules with a rotaxane actuator. Nature. 2024;628(8007):320-325. doi: 10.1038/s41586-024-07154-0
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