The Dyson International Award was established in 2004 and is annually awarded to inventors, scientists and researchers in the field of industrial design and engineering design. The winning team receives a cash prize for the implementation and promotion of their projects. In addition, an additional £ 10,000 receives a university in which the team worked or studied. In different years, the award received such projects as a backpack for the safe transport of small children in transport, a life jacket made of special foam, increasing in size when it enters the water, an autonomous device for watering crops in arid areas and other equally curious inventions. In the same year, all went around the creators of a portable skin cancer detector called sKan.
To effectively recognize cancer cells in the early stages, McMaster University staff built 16 thermistors (resistors whose resistance varies with temperature) in their detector. To the place on the skin, which causes suspicion in melanoma, an ice pack is applied, and then the detector is attached to the same area of the skin. The thing is that the cancer cells heat up faster than healthy cells after a sharp cooling. The device builds a heat map after a sharp cooling (“ice shock”, as it is called by the inventors) and, based on the data obtained, a conclusion is made about the presence or absence of melanoma.
“In the sKan detector, developers used affordable and inexpensive components. At the same time it allows very quickly and effectively to identify a melanoma in a person. Personally it seems to me that the team from Canada managed to create a truly useful device that can save many lives, “James Dyson, the founder of the award, shared with journalists.
In addition to £ 30,000 from the Dyson Foundation, Canadian inventors also received an additional $ 40,000 for their research in various exhibitions and competitions. Looking ahead, researchers say that they are currently working on improving the technology of diagnosing skin cancer and are trying to make their device even more compact and easy to use. At the moment, scientists plan to organize full-scale clinical trials that will eventually allow them to sell their device on the market and provide it to various hospitals and clinics.