META Completes UK-Funded Project towards Developing Non-Invasive Glucose Sensing System
Meta Materials Inc. (NASDAQ:MMAT) announced the completion of a 27-month project to develop a non-invasive glucose sensing prototype, supported by approximately £911K (US$1.25M) from Innovate UK. This Home Hub system combines multiwavelength biosensing technology with machine learning to improve glucose level accuracy for diabetes patients. The project involved collaborations with four partners and led to multiple prototypes demonstrating significant accuracy enhancements. Two patent applications were also filed in 2021, expanding the company's intellectual property in this field.
- Completion of a 27-month project developing a non-invasive glucose sensing prototype.
- Supported by £911K (US$1.25M) from Innovate UK.
- Demonstrated significant accuracy improvements in glucose level monitoring through multiwavelength biosensing.
- Collaboration with four partners enhances development credibility.
- Filing of two patent applications adds to the company's IP portfolio.
- None.
"Home Hub" System Uses Multiwavelength Biosensing to Improve Accuracy
LONDON, UK / ACCESSWIRE / July 6, 2021 / Meta Materials Inc. (the "Company" or "META®") (NASDAQ:MMAT) a developer of high-performance functional materials and nanocomposites, today announced the conclusion of a 27-month long project to develop a non-invasive glucose sensing prototype, which combined radio wave and optical sensors to improve accuracy in predicting glucose level changes. The developed biosensing prototype is a critical step towards a "Home Hub" system targeted at monitoring biological parameters. The project was supported with about £911K (US
META's glucoWISE® Point-of-Care "Home Hub" Product Concept
During the project, several prototypes of the system were developed, designed for use by diabetes patients in point of care settings such as homes and clinics. The system consists of a "Home Hub" along with a wearable element for overnight trend monitoring. It uses multiwavelength biosensing technology, which combines optical and radio wave sensors along with machine learning processing. The project demonstrated in a laboratory environment that the system improves the accuracy in predicting glucose level changes, compared to using standalone sensors. Preliminary results of the project, using an early prototype system, were published in the journal Sensors (https://doi.org/10.3390/s21093275), which may also be found on META's website under Applications / Medical Applications. The novel multiwavelength biosensing technology is protected with two patent applications filed in 2021 and extends the previous research work on this topic resulting in a total of 5 patent families, comprising 11 international patents (4 granted, 7 pending).
"Accurately measuring glucose without drawing blood must overcome a number of challenges, including the weak signature of the glucose molecule compared to other tissue components and water, the signal interference from other biological substances, calibrating for the effects of environmental factors such as ambient temperature and skin moisture," said Themos Kallos, Co-Founder and Chief Science Officer of META. "In this work, we have demonstrated that combining optical and radio wave sensors with data processing using artificial intelligence improves accuracy compared to standalone sensors. We are continuing development of this system, seeking new strategic partners, and planning to conduct pre-clinical human studies scheduled to start this summer."
"Virtual Clinic Direct Ltd. was able apply its expertise in IoT/medical device hardware, firmware, and software to the META non-invasive glucose monitoring technology. This innovation project has been extremely rewarding given its potential social value and the caliber of the partners we have worked with," said James Stevenson, Director at Virtual Clinic Direct.
"META's non-invasive glucose monitoring technology presented a unique opportunity for The Imagination Factory to design a home health hub style device that can be used at home without looking or feeling like a piece of hospital equipment. The design research interviews that we carried out at the start of the project reminded our design team of the need for products that enable people with diabetes to take glucose readings with comfort and discretion," noted Mark Hester, Co-Founder and Technology Director at The Imagination Factory.
META's glucoWISE® "Home Hub" Product Concept with Wearable Element
"This successful research project led by META, to develop a non-invasive blood monitoring device, was a great and unique opportunity for Brunel University London to apply its modern signal acquisition and processing techniques, with advanced AI algorithms in the healthcare field. Brunel University London took care of the hardware and software developments for data acquisition in the infrared band, as well as of Artificial Intelligence algorithms that allow data fusion and prediction of glucose concentration," said Jamil Kanfoud, Head of Brunel Innovation Centre.
To measure glucose non-invasively, glucoWISE® transmits signals through the web of skin between the thumb and forefinger. During previous published human studies, wearable metamaterial films have been demonstrated to help boost these signals by up to
About Meta Materials Inc.
META® delivers previously unachievable performance, across a range of applications, by inventing, designing, developing, and manufacturing sustainable, highly functional materials. Our extensive technology platform enables leading global brands to deliver breakthrough products to their customers in consumer electronics, 5G communications, health and wellness, aerospace, automotive, and clean energy. Our achievements have been widely recognized, including being named a Global Cleantech 100 company. Learn more at www.metamaterial.com.
Forward Looking Information
This press release includes forward-looking information or statements within the meaning of Canadian securities laws and within the meaning of Section 27A of the Securities Act of 1933, as amended, Section 21E of the Securities Exchange Act of 1934, as amended, and the Private Securities Litigation Reform Act of 1995, regarding the Company and its business, which may include, but are not limited to, statements with respect to the business strategies, product development and operational activities of the Company. Often but not always, forward-looking information can be identified by the use of words such as "potential," "predicts," "projects," "seeks," "plans," "expect", "intends", "anticipated", "believes" or variations (including negative variations) of such words and phrases, or statements that certain actions, events or results "may", "could", "should," "would" or "will" be taken, occur or be achieved. Such statements are based on the current expectations and views of future events of the management of the Company and are based on assumptions and subject to risks and uncertainties. Although the management of the Company believes that the assumptions underlying these statements are reasonable, they may prove to be incorrect. The forward-looking events and circumstances discussed in this release may not occur and could differ materially as a result of known and unknown risk factors and uncertainties affecting the Company, including risks related to the further development of the Company's non-invasive glucose monitoring technology, the research and development projects of the Company, the market potential of the Company's products, the investment priorities and manufacturing plans of the Company, the scalability of the Company's production ability, the technology industry, market strategic and operational activities, and management's ability to manage and to operate the business. More details about these and other risks that may impact the Company's businesses are described under the heading "Risk Factors" in the Company's Form 8-K filed with the SEC on July 2, 2021, in the Company's Form 10-Q filed with the SEC on May 14, 2021, in the Company's Form 10-K filed with the SEC on March 18, 2021, and in subsequent filings made by Meta Materials with the SEC, which are available on SEC's website at www.sec.gov. Although the Company has attempted to identify important factors that could cause actual actions, events or results to differ materially from those described in forward-looking statements, there may be other factors that cause actions, events or results to differ from those anticipated, estimated or intended. Accordingly, readers should not place undue reliance on any forward-looking statements or information. No forward-looking statement can be guaranteed. Except as required by applicable securities laws, forward-looking statements speak only as of the date on which they are made and the Company does not undertake any obligation to publicly update or revise any forward looking statement, whether as a result of new information, future events, or otherwise, except to the extent required by law.
Contact
Mark Komonoski
Senior Vice President
Integrous Communications
Phone: 1-877-255-8483
Email: ir@metamaterial.com
Media inquiries:
SOURCE: Meta Materials Inc.
View source version on accesswire.com:
https://www.accesswire.com/654268/META-Completes-UK-Funded-Project-towards-Developing-Non-Invasive-Glucose-Sensing-System
FAQ
What recent project has Meta Materials Inc. completed?
How much funding did Meta Materials Inc. receive for its glucose monitoring project?
What technology does the Home Hub system use?
What are the implications of the project for diabetes patients?