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04-16-2015, 08:45 PM
Gold Particles Significantly Boost Focus of Radiation Therapy
http://www.medgadget.com/wp-content/uploads/2015/04/gold-for-radiation-cancer-therapy.jpgCancer cells (A) treated with gold alone (dark areas) take up far less gold than cells with gold delivered by pHLIPs (B). C and D are cellular close-up with pHLIP-delivered gold. Images: Reshetnyak and Andreev/URI
A team from Brown University and the University of Rhode Island has developed a new technique to radically improve how radiation therapy acts on cancer cells. The method uses gold na**particles that are delivered to cancer cells using so-called*pH Low-Insertion Peptides (pHLIP), compounds that are attracted to acidic environments. Since cancer cells tend to be more acidic than healthy ones, pHLIPs accumulate around tumor sites.
The team attached gold na**particles to the pHLIPs and injected the compound into*laboratory samples of tumor tissue. They showed that the cancer cells had a 24% lower survival rate than cells irradiated without the injection, and 21 percent lower when injecting just the gold particles without the pHLPs. The next step is to test the tech**logy on animal cancer models, hopefully leading to clinical applications of the tech**logy in humans. **t only is there potential for more precise tumor targeting, but the radiation dose delivered to patients may be reduced significantly thanks to the pHLP delivered na**particles.
From the study in*Proceedings of the National Academy of Sciences:
Damage from radiation and gold na**particles depends in part on the Auger effect, which is very localized; thus, it is important to place the gold na**particles on or in the cancer cells. In this work, we use the pH-sensitive, tumor-targeting agent, pH Low-Insertion Peptide (pHLIP), to tether 1.4-nm gold na**particles to cancer cells. We find that the conjugation of pHLIP to gold na**particles increases gold uptake in cells compared with gold na**particles without pHLIP, with the na**particles distributed mostly on the cellular membranes. We further find that gold na**particles conjugated to pHLIP produce a statistically significant decrease in cell survival with radiation compared with cells without gold na**particles and cells with gold alone.
Study in Proceedings of the National Academy of Sciences: Enhancement of radiation effect on cancer cells by gold-pHLIP… (http://www.pnas.org/content/early/2015/04/08/1501628112.abstract)
Source: Brown University… (https://news.brown.edu/articles/2015/04/phlips)
The post Gold Particles Significantly Boost Focus of Radiation Therapy (http://www.medgadget.com/2015/04/gold-particles-significantly-boost-focus-of-radiation-therapy.html) appeared first on Medgadget (http://www.medgadget.com).
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http://www.medgadget.com/wp-content/uploads/2015/04/gold-for-radiation-cancer-therapy.jpgCancer cells (A) treated with gold alone (dark areas) take up far less gold than cells with gold delivered by pHLIPs (B). C and D are cellular close-up with pHLIP-delivered gold. Images: Reshetnyak and Andreev/URI
A team from Brown University and the University of Rhode Island has developed a new technique to radically improve how radiation therapy acts on cancer cells. The method uses gold na**particles that are delivered to cancer cells using so-called*pH Low-Insertion Peptides (pHLIP), compounds that are attracted to acidic environments. Since cancer cells tend to be more acidic than healthy ones, pHLIPs accumulate around tumor sites.
The team attached gold na**particles to the pHLIPs and injected the compound into*laboratory samples of tumor tissue. They showed that the cancer cells had a 24% lower survival rate than cells irradiated without the injection, and 21 percent lower when injecting just the gold particles without the pHLPs. The next step is to test the tech**logy on animal cancer models, hopefully leading to clinical applications of the tech**logy in humans. **t only is there potential for more precise tumor targeting, but the radiation dose delivered to patients may be reduced significantly thanks to the pHLP delivered na**particles.
From the study in*Proceedings of the National Academy of Sciences:
Damage from radiation and gold na**particles depends in part on the Auger effect, which is very localized; thus, it is important to place the gold na**particles on or in the cancer cells. In this work, we use the pH-sensitive, tumor-targeting agent, pH Low-Insertion Peptide (pHLIP), to tether 1.4-nm gold na**particles to cancer cells. We find that the conjugation of pHLIP to gold na**particles increases gold uptake in cells compared with gold na**particles without pHLIP, with the na**particles distributed mostly on the cellular membranes. We further find that gold na**particles conjugated to pHLIP produce a statistically significant decrease in cell survival with radiation compared with cells without gold na**particles and cells with gold alone.
Study in Proceedings of the National Academy of Sciences: Enhancement of radiation effect on cancer cells by gold-pHLIP… (http://www.pnas.org/content/early/2015/04/08/1501628112.abstract)
Source: Brown University… (https://news.brown.edu/articles/2015/04/phlips)
The post Gold Particles Significantly Boost Focus of Radiation Therapy (http://www.medgadget.com/2015/04/gold-particles-significantly-boost-focus-of-radiation-therapy.html) appeared first on Medgadget (http://www.medgadget.com).
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