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Monday, September 30, 2019

Toward safer, more effective cancer radiation therapy using X-rays and nanoparticles



Towards safer, more effective cancer radiation therapy using X-rays and nanoparticles

Precisely tuned X-ray can target give cancer cells more effective punch without harming body's surface, using gadolinium loaded silicon porous silica particles. Credit: Mindy Takamiya
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An element called gadolinium delivered into cancer cells releases killer electrons when hit by specially tuned X-rays. The approach, published in the journal Scientific Reports, could pave the way towards a new cancer radiation therapy.

"Our method opens up the possibility of selectively amplifying the effect of X-ray radiation at the tumor site," says Kotaro Matsumoto of Kyoto University's Institute for Integrated Cell-Material Sciences (iCeMS), who developed the technique with Fuyuhiko Tamanoi and colleagues in Japan, Vietnam, and the U.S. "This solves one of the major problems of current radiation therapies, where only a small amount of X-rays actually reach the tumor."


Conventional radiation therapies employ polychromatic X-rays, consisting of various energy levels, with low-energy X-rays failing to penetrate the body's surface. Monochromatic X-rays, on the other hand, have the same precisely tuned . If they could be aimed at electron-releasing chemical elements inside tumors, they could be damaging.


To achieve this, the researchers used specially designed silica nanoparticles that were loaded with the chemical element gadolinium. The in a 3-D tumor culture effectively consumed the particles after one day of incubation. The particles specifically located just outside tumor cell nuclei, where their most critical machinery is found.


At the SPring-8 synchrotron facility in Harima, Japan, the researchers aimed monochromatic X-rays at tumor samples containing gadolinium-loaded nanoparticles.


X-rays tuned to an energy level of 50.25 kiloelectron volts (keV) that targeted the samples for 60 minutes completely destroyed the cancer cells two days following irradiation.


Tuning the X-rays to an energy level just below 50.25keV did not have the same effect. The researchers explain that the X-rays are specifically tuned so that their energy can be absorbed by gadolinium. When they hit it, gadolinium releases low-energy electrons into the cancer cell, damaging its vital components, including DNA, and killing it.


The X-rays had no effect on that did not contain gadolinium-loaded nanoparticles.


"Our study demonstrates that a new type of radiation therapy for cancer can be developed," says Tamanoi. "We can expect therapy with increased efficacy and less side effects."




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More information:
Kotaro Matsumoto et al. Destruction of tumor mass by gadolinium-loaded nanoparticles irradiated with monochromatic X-rays: Implications for the Auger therapy, Scientific Reports (2019). DOI: 10.1038/s41598-019-49978-1





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Citation:
Toward safer, more effective cancer radiation therapy using X-rays and nanoparticles (2019, September 30)
retrieved 30 September 2019
from https://phys.org/news/2019-09-safer-effective-cancer-therapy-x-rays.html



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