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Future Oncology 2012-Sep

Nanoscale radiotherapy with hafnium oxide nanoparticles.

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Laurence Maggiorella
Gilles Barouch
Corinne Devaux
Agnès Pottier
Eric Deutsch
Jean Bourhis
Elsa Borghi
Laurent Levy

Märksõnad

Abstraktne

OBJECTIVE

There is considerable interest in approaches that could improve the therapeutic window of radiotherapy. In this study, hafnium oxide nanoparticles were designed that concentrate in tumor cells to achieve intracellular high-energy dose deposit.

METHODS

Conventional methods were used, implemented in different ways, to explore interactions of these high-atomic-number nanoparticles and ionizing radiation with biological systems.

RESULTS

Using the Monte Carlo simulation, these nanoparticles, when exposed to high-energy photons, were shown to demonstrate an approximately ninefold radiation dose enhancement compared with water. Importantly, the nanoparticles show satisfactory dispersion and persistence within the tumor and they form clusters in the cytoplasm of cancer cells. Marked antitumor activity is demonstrated in human cancer models. Safety is similar in treated and control animals as demonstrated by a broad program of toxicology evaluation.

CONCLUSIONS

These findings, supported by good tolerance, provide the basis for developing this new type of nanoparticle as a promising anticancer approach in human patients.

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