Smartphone network helps uncover hundreds of anti-cancer molecules in food

phys.org | 5/1/2018 | Staff
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A crowdsourcing project which uses thousands of idling smartphones has helped to uncover anti-cancer properties of everyday foods and medicines.

The project, led by researchers at Imperial College London, uses artificial intelligence to crunch huge volumes of data on a cloud computing network of smartphones while they charge overnight.

Findings - Insights - Medicines - Diabetes - Infections

Among the latest findings are insights into existing medicines for diabetes and infections and their potential to be repurposed to target cancer, as well as identifying hundreds of anti-cancer molecules in everyday foods such as oranges, cabbages and grapes.

The Imperial team, led by Dr. Kirill Veselkov from the Department of Surgery & Cancer, has worked with the Vodafone Foundation—who make the DreamLab app—to carry out the research.

App - Night - Phones - Charge - Members

By downloading the app and running it at night while their phones charge, members of the public can donate some of their phone's unused processing power to crunch data and help to speed up cancer research while they sleep.

The latest findings from the project, published in the journal Scientific Reports, used the platform to analyse data on the molecular content of more than 8000 everyday foods, identifying more than 110 cancer-beating molecules. Many of these molecules are flavonoids, the huge class of compounds which help to give fruit and vegetables their colour.

Properties - Number - Medicines - Potential - Drugs

They also found anti-cancer properties associated with a number of existing medicines, highlighting the potential for the drugs to be "repurposed" to target cancer. Chief among these are the anti-diabetic drug Metformin and anti-microbial Rosoxacin.

The team says as the drugs have already been in therapeutic use, their approval for use as cancer therapies carries fewer risks, substantially lower costs and will involve shorter timescales than developing completely new drugs.

Findings - Researchers - Work

While these early-stage findings are encouraging, the researchers say further work is now needed to confirm...
(Excerpt) Read more at: phys.org
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