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Health

Vibrating molecules eradicate 99% of cancer cells, scientists call it a whole new generation

By Jeffrey Rapaport | Published

Scientists recently took a revolutionary step by developing an innovative method to eliminate 99 percent of cancer cells. How? Thanks to the use of vibrating molecules. This remarkable breakthrough represents a significant advance in the treatment of cancer.

The approach involves using aminocyanine molecules, stimulating them with near-infrared light. Aminocyanine molecules are often used as synthetic dyes in bioimaging.

The remarkable results resulting from the vibrating molecules represent an important milestone in cancer research.

By inducing synchronous vibrations, this exciting new approach harnesses the power of aminocyanine molecules to disrupt cancer cell membranes. Rice University chemist James Tour likened the method to a “molecular jackhammer,” surpassing the capabilities of previous Feringa-type engines.

More than a million times faster than their predecessors, these incredible vibrating molecules are akin to molecular machines and can be activated using near-infrared light (instead of visible light). The choice of near-infrared light is crucial; it can penetrate deeper into the body and enable the treatment of cancers located in bones and internal organs.

All without resorting to invasive surgery.

The laboratory tests were indeed very promising. For example, the molecular jackhammer technique has achieved an impressive 99 percent success rate in destroying cancer cells in culture. In addition, experiments on mice suffering from melanoma tumors also gave satisfactory results. Thanks to the experiments, half of the mice became completely free of cancer.

The remarkable results resulting from the vibrating molecules represent an important milestone in cancer research.

The unique structure and chemical properties of aminocyanine molecules partly explain the method’s success. When these molecules are stimulated, their electrons form plasmons, that is, synchronized vibrating entities that facilitate coordinated movement inside the molecule. This coordinated movement then physically disrupts the membranes of the cancer cells.

Rice University chemist James Tour likened the method to a “molecular jackhammer.”

It’s all about plasmons, which, whether they resemble an alien race in Star Trek or not, play a crucial role in this process. Plasmons establish the connection between vibrating molecules and the membranes of cancer cells, driving the vibrations that ultimately result in the destruction of these cells.

This approach works at the molecular level, constituting a cutting-edge method in cancer treatment, as chemist Ciceron Ayala Orozco of Rice University explains.

Scientists from Rice University, Texas A&M University, and the University of Texas conducted this groundbreaking collaborative research. By focusing on mechanical forces at the molecular level, this work presents new possibilities for cancer treatment. Being a biomechanical technique, vibrating molecules could pose significant challenges to cancer cells and their ability to develop resistance.

Biomechanics, the relevant field, is the area of ​​study concerning the structure, function, and movement of mechanical aspects of biological systems. This concerns all levels of the organism, from whole organisms to organs, cells and cellular organelles. Basically, it is the science of applying the principles of physics, primarily mechanics, to understand biological systems.

Plasmons establish the connection between vibrating molecules and the membranes of cancer cells, driving the vibrations that ultimately result in the destruction of these cells.

The team of Texas scientists is also studying alternative molecules that could be used in the same way. Their work offers promising prospects for significantly improving cancer treatment approaches.

Ultimately, this incredible breakthrough – the use of vibrating molecules to eliminate cancer cells – marks the dawn of a new era in cancer treatment. Showcasing possibilities for alternative, non-invasive treatments, it presents an exceptionally effective approach to eradicating cancer cells.

All of this has the potential to transform our approach to cancer treatment.

Source: Natural Chemistry


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