The fight against cancer is an old challenge for mankind. Apart from surgery and chemo-therapy, which are the most common treatments, use of radiation represents a promising, less inva-sive strategy that can be performed both from the outside or inside the body. The latter approach, also known as brachytherapy, relies on the use of implantable beta-emitting seeds or microspheres for killing cancer cells. A set of radioactive glasses have been developed for this purpose but their clinical use is still mainly limited to liver cancer. This review paper provides a picture of the bio-medical glasses developed and experimented for brachytherapy so far, focusing the discussion on the production methods and current limitations of the available options to their diffusion in clinical practice. Highly-durable neutron-activatable glasses in the yttria-alumina-silica oxide system are typically preferred in order to avoid the potentially-dangerous release of radioisotopes, while the compositional design of degradable glass systems suitable for use in radiotherapy still remains a challenge and would deserve further investigation in the near future.
Biomedical radioactive glasses for brachytherapy / Baino, F.; Fiume, E.; Ciavattini, S.; Kargozar, S.; Borges, R.; Genova, L. A.; Marchi, J.; Verne', E.. - In: MATERIALS. - ISSN 1996-1944. - ELETTRONICO. - 14:5(2021), pp. 1-18. [10.3390/ma14051131]
Biomedical radioactive glasses for brachytherapy
Baino F.;Fiume E.;Ciavattini S.;Marchi J.;Verne' E.
2021
Abstract
The fight against cancer is an old challenge for mankind. Apart from surgery and chemo-therapy, which are the most common treatments, use of radiation represents a promising, less inva-sive strategy that can be performed both from the outside or inside the body. The latter approach, also known as brachytherapy, relies on the use of implantable beta-emitting seeds or microspheres for killing cancer cells. A set of radioactive glasses have been developed for this purpose but their clinical use is still mainly limited to liver cancer. This review paper provides a picture of the bio-medical glasses developed and experimented for brachytherapy so far, focusing the discussion on the production methods and current limitations of the available options to their diffusion in clinical practice. Highly-durable neutron-activatable glasses in the yttria-alumina-silica oxide system are typically preferred in order to avoid the potentially-dangerous release of radioisotopes, while the compositional design of degradable glass systems suitable for use in radiotherapy still remains a challenge and would deserve further investigation in the near future.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2897252