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Sixth Wave Achieves Electrical Detection with AMIPs(TM) Technology

November 10, 2021 (Source) — Sixth Wave Innovations Inc. (CSE: SIXW) (OTCQB: SIXWF) (FSE: AHUH) (“Sixth Wave”, “SIXW” or the “Company”) is pleased to provide an update on the Company’s Accelerated Molecular Imprinted Polymers (AMIPs) and collaboration with York University.

Sixth Wave has successfully demonstrated the ability to identify the capture of pathogens electrically with one of its AMIPs prototypes. The prototype device created at York University integrates SIXW’s AMIPs technology into an electrical sensor by coating the electrical sensor with AMIP polymer. When the AMIPs selectively binds with the target pathogen, a corresponding electrical signal is detected by the device.

This breakthrough enables the integration of AMIPs with RFID chips for transmission of pathogen detection to smartphones or other wireless device readers, allowing for air monitoring, and other novel applications. Importantly, sample processing using electrical detection is reduced and can be automated for critical applications such as high-throughput screening including densely populated spaces such as schools, hospitals, eldercare facilities, sports and entertainment venues, transportation systems and places of work. It also allows for environmental monitoring for early detection and outbreak monitoring across larger groups of people.

Further research and development will characterize the device’s technical parameters including sensitivity and specificity measurements.

“Achieving electrical detection is a major technical milestone for us,” said Dr. Garrett Kraft, Vice President of Innovation at Sixth Wave. “Our vision for what AMIPs™ can accomplish is reliant on pairing our MIP technology with electrical sensors. Now that the proof-of-principle for that vision has been achieved, we are making rapid progress toward our end goal of launching our innovative technology to meet unfulfilled demand by offering multiple applications in traditional and non-traditional settings.”

The work also directly contributes to the integration of the detectors with microfluidics devices and lab-on-a-chip designs to screen for multiple pathogens with a single test.

The prototype is a result of the intellectual property detailed in the patent filed on September 28, 2021. The patent application Title: MOLECULARLY IMPRINTED POLYMER COATINGS AND SENSORS FOR BIODETECTION, covers the intellectual property generated by the collaboration with York University. The work with York University is an expansion of Sixth Wave’s efforts with the AMIPs product line and covers the capabilities of detecting both viral and bacterial based pathogens in fluid samples. These early-stage results are apart of SIXW”s long term plans of expanding the AMIPs technology to detect a wide range of target pathogens and biomarkers for detecting a change in health status and continuous real-time monitoring.

The Company continues to progress through an aggressive R&D program geared toward developing a wide range of AMIPs Virus/Bacteria rapid detection devices. The spectrum of prospective products will include SIXW’s SmartMask offerings (see SIXW Press Release dated May 15, 2020), in addition to smart-clothing, PPE applications, airborne sensors, breathalyzers, ELISA-based technologies, cartridge/lateral flow designs, and others.

As previously reported, SIXW has filed three patents regarding the AMIPs technology and its application to specific products that can utilize AMIPs. The Company is not making any express or implied claims that its current AMIPs product has the ability to eliminate, cure, contain, or detect, at a commercial level, COVID-19 (or SARS-2 coronavirus) at this time.

For more information on the AMIPs and associated molecular imprinting technology, please visit: https://www.amips.com

About Sixth Wave

Sixth Wave is a nanotechnology company with patented technologies that focus on extraction and detection of target substances at the molecular level using highly specialized Molecularly Imprinted Polymers (MIPs). The Company is in the process of a commercial rollout of its Affinity cannabinoid purification system, as well as, IXOS®, a line of extraction polymers for the gold mining industry. The Company is in the development stages of a rapid diagnostic test for viruses under the Accelerated MIPs (AMIPs) label.

Sixth Wave can design, develop and commercialize MIP solutions across a broad spectrum of industries. The company is focused on nanotechnology architectures that are highly relevant for the detection and separation of viruses, biogenic amines, and other pathogens, for which the Company has products at various stages of development.

For more information about Sixth Wave, please visit our website at: www.sixthwave.com

ON BEHALF OF THE BOARD OF DIRECTORS

“Jonathan Gluckman”
Jonathan Gluckman, Ph.D., President & CEO

For information, please contact the Company:
Phone: (801) 582-0559
E-mail: [email protected]

Cautionary Notes

This press release includes certain statements that may be deemed “forward-looking statements” including statements regarding the planned use of proceeds and performance of the AMIPs™ technologies. All statements in this release, other than statements of historical facts, that address future events or developments that the Company expects, are forward-looking statements. Although the Company believes the expectations expressed in such forward-looking statements are based on reasonable assumptions, such statements are not guarantees of future performance, and actual events or developments may differ materially from those in forward-looking statements. Such forward-looking statements necessarily involve known and unknown risks and uncertainties, which may cause the Company’s actual performance and financial results in future periods to differ materially from any projections of future performance or results expressed or implied by such forward-looking statements. In particular, successful development and commercialization of the AMIPs™ technology are subject to the risk that the AMIPs™ technology may not prove to be successful in detecting virus targets effectively or at all, the uncertainty of medical product development, the uncertainty of timing or availability of required regulatory approvals, lack of track record of developing products for medical applications and the need for additional capital to carry out product development activities. The value of any products ultimately developed could be negatively impacted if the patent is not granted. The Company has not yet completed the development of a prototype for the product that is subject of its patent application and has not yet applied for regulatory approval for the use of this product from any regulatory agency.