Currently there are many research groups that have a very clear objective: find a cancer treatment that is effective, specific and above all safe. Something that can be really complex because of everything that cancer hides behind it, but science continues to give us good news. The last one comes from the University of Texas and the University of Porto which have developed a technique based on tin oxide nanoflakes (SnOx) and LEDs that allows cancer cells to be destroyed with precision.
The current problem. The therapy par excellence today in the fight against cancer, without a doubt It’s chemotherapy and radiotherapy. The first of these has numerous problems that have been tried to be corrected, such as low specificity, that is, it attacks both cancer cells like the healthy ones. And this ultimately produces many side effects that can cause you to not continue with the treatment.
This makes the goal of science to seek specificity and for the treatment to attack only cancer cells. This is something that is being tried to achieve with immunotherapy and techniques like CAR-T which ultimately is part of personalized medicine for each patient and which offers a very specific selection of the type of cell to destroy. But science has not stopped here.
The discovery. One of the techniques that appears to be promising is photothermal therapy (PTT). The concept in this case is quite simple to understand: inject nanomaterials into a tumor and then heat them using light. This logically causes a localized increase in temperature, which selectively destroys the cancer cells that have been marked before.
The problem until now was materials and light. Many photothermal therapies require high-powered lasers, which are expensive and can damage surrounding tissue. Now, a team of researchers from the University of Texas at Austin and the University of Porto have found the key to changing the rules of the game.
A secret ingredient. The team has developed a new photothermal agent called nanoflakes that are made of tin oxide. After all, they are tiny sheets with a thickness of less than 20 nanometers and what is really ingenious is how they were manufactured.
The really ingenious thing is how they made them. They started from a cheap and abundant material such as tin disulfide, which ironically is useless for photothermal therapy. In this way, through a ‘green’ and scalable process called electrochemical exfoliation with oxidation, which only uses aqueous media, they managed to transform the inactive tin disulfide into tin oxide that was already ready to fight cancer.
And the light came. Once this material was available, all that was left was to expose it to the LED irradiation low-cost that emit infrared light at 810 nm. In this case we are talking about radiation that is very safe and does not damage healthy skin as can occur with radiotherapy, and it is also extremely cheap and accessible to everyone (even developing countries).
Results. To test the effectiveness, researchers have tested cells in culture. The first thing they saw was that this treatment had no effect on healthy cells, that is, it did not destroy them. But the best comes when applying it to cancer cells results in a great reduction in the different colonies.
Specifically, in skin cancer there was a 92% reduction in the viability of tumor cells, while in colorectal cancer this percentage dropped to 50%, but still maintained good results. And all thanks to an increase in temperature from 37 °C to 50 °C in 30 minutes that killed cancer cells.
The future. This study not only presents a more efficient material, but validates its use with safer and more economical light sources. The researchers themselves point to the potential of LED systems for applications such as skin cancer treatment, which could theoretically be self-administered at home. This would be a great advantage for patients and would reduce the burden on health systems, although there is still a lot of research ahead to see if this therapy can be viable in a range that will surely not be less than 10 years.
Images | National Cancer Institute Logan Voss
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