By Samir Tigga
01
Scientists at Rice University unveil a groundbreaking method using vibrating molecules to eliminate melanoma cells with 99% efficiency.
Melanoma originates from melanocytes, often appearing on the skin due to UV exposure. Early detection through changes in moles is crucial for timely treatment.
Researchers discovered how specific molecules vibrate under near-infrared light, acting as molecular jackhammers. This plasmon-induced vibration ruptures cancer cell membranes, leading to their destruction.
Vibrating molecules, known as molecular jackhammers, respond to near-infrared light. Their rapid motion, a million times faster than previous models, effectively kills melanoma cells.
While these vibrating molecules target human melanoma cells with exceptional efficiency, further research is needed to determine their applicability to other cancers and ensure their safety in human use.
The next phase involves extensive preclinical studies to assess safety, dosage, and delivery methods. Anticipate clinical trials, pending successful preclinical outcomes.
Stay informed about this cutting-edge research. While it may take time to reach widespread use, this discovery opens avenues for future cancer treatments with greater efficacy and minimal invasiveness.