The latest filing from Orlando-based Noble International Inc.—an Aptar Pharma company—hints at the development of a new category of medical devices. Best known for its medical device training solutions and patient onboarding strategies, Noble filed for protection of a compression sleeve for monitoring and treating rheumatic disorders.
Researchers from the University of Stellenbosch in South Africa are seeking protection for a simple and user-friendly point-of-care device for diagnosing tuberculosis. Their electrochemical lateral flow device merges lateral flow device technology and electrochemical device technology by using porous electrodes that are capable of transporting electrolytic liquid and fluid sample.
In what represents its first patenting, Copenhagen, Denmark-based HEI Therapeutics ApS reported seeking patent protection for a point-of-care or home monitoring solution, which enables personalized treatment for hypothyroidism.
Inventors from the International School of Advanced Studies (SISSA) in Trieste, Italy reported filing a patent for a graphene-based device for the targeted mucosal and transmucosal delivery and/or controlled release of active pharmaceutical ingredients (APIs) for various therapeutic applications when on-demand drug administration is needed.
Researchers at Singapore’s Agency for Science Technology & Research Bioprocessing Technology Institute (also known as A*STAR BTI) saw publication of their patent application for a wearable electronic system for solid-state epidermal biomarkers (SEB) that enables in situ, continuous, multiplexed, wireless, and skin-integrated sensing of analytes such as cholesterol, lactate, and glucose.
University of California researchers saw publication of their patent application for a multimodal cryptographic bio-human machine interface (CB-HMI), which seamlessly translates the user's touch-based entries into encrypted biochemical, biophysica, and biometric indices.
Researchers from the University of Shanghai for Science and Technology have developed an electrotechnical patch, printed on a wearable substrate, capable of detecting dopamine and glucose levels in real-time. They published their work in Analytica.
Sensome SAS reported a partnership with Asahi Intecc Co. Ltd. to develop the next generation Clotild smart guidewire. Asahi Intecc is taking on the manufacturing role for Sensome’s smart guidewire designed for the treatment of acute ischemic stroke.
A graphene-based electronic biosensor platform from Paragraf Ltd. simultaneously detected both protein antigen and RNA biosignals from samples in real time, according to a study published in Advanced Materials Technology. Paragraf claimed that the achievement is a world first, and the development of the platform, which can be quickly adapted for multiomics and multiplexed diagnosis of continuously evolving biothreats and global pandemics, is a major breakthrough.
The move away from in-clinic testing continues, with another company offering a convenient, at-home sensor that gathers critical health information without requiring any change on the part of the patient, which may provide even more accurate, real-world data on patient health than the tests they replace.