University聽of聽蓝莓视频聽researchers are developing a new patch that would offer diabetics an affordable, accurate, pain-free, round-the-clock alternative to traditional tests that require pricking a finger for a blood sample every few hours.
And to make it even more user-friendly, potentially life-saving readings from the patch would be transmitted to people鈥檚 smartphones.
After three years of work, the research team is perfecting a wearable patch that uses hundreds of tiny microneedles to sense glucose levels, crucial information for diabetics who need to know exactly how much medication they require at any one time.
鈥淭his will improve people鈥檚 lifestyle by leading to more personalized medicine-taking,鈥 said Peyman GhavamiNejad, an engineering PhD student at 蓝莓视频 who led the work. 鈥淲e want to make it easier for people to monitor themselves, without any pain, with better control of the levels of their glucose and so they know how much insulin to take.鈥
Although a variety of monitoring patches have been commercially available for several years, GhavamiNejad said this is the first of its kind.
鈥淚t鈥檚 really novel work that we continue to improve,鈥 he said of the electro-chemical sensor. 鈥淏efore this no one鈥檚 done it with hydrogel conductive material that could be used for glucose sensing as a microneedle platform.鈥
There are distinct advantages to the new patch, according to WIN Member聽Dr. Mahla Poudineh, an electrical and computer engineering professor who leads the overall project. For example, patients can apply the patch themselves, unlike some other devices that must be inserted under the skin by a nurse.
The patch would be extremely small 鈥 only a centimetre square 鈥 so it could be worn very discreetly on a person鈥檚 arm. Because it uses low-cost materials, it would be cheaper than some of the patches now available, which can cost up to $4,800 a year, and it could be purchased by patients over the counter. It聽would also give more accurate and continual measurements for 14 days, compared to current devices that provide monitoring for seven to 10 days.
In conjunction with the work being done by GhavamiNejad, Poudineh and the rest of their team, Dr. Peter Levine, an electrical and computer engineering professor, is building a miniature electronic platform to wirelessly send readings from the microneedles to users鈥 smartphones.
A paper on the research,聽, appears in the journal Advanced Healthcare Materials.聽
The project is funded by a Discovery Grant from the Natural Sciences and Engineering Research Council of Canada.