South Korean digital health care firm Seers Technology Co. Ltd. is targeting a ₩22.1 billion (US$16.2 million) IPO on the Korea Exchange, after upping the offering price of its 1.3 million shares to ₩17,000 per share on June 4.
South Korean digital health care firm Seers Technology Co. Ltd. is targeting a ₩22.1 billion (US$16.2 million) IPO on the Korea Exchange, after upping the offering price of its 1.3 million shares to ₩17,000 per share on June 4.
Brainspec Inc. received U.S. FDA 510(k) clearance for use of its artificial intelligence platform, Brainspec Core, in noninvasive measurement of brain chemistry using magnetic resonance spectroscopy (MRS).
Wearoptimo Pty. Ltd. saw the publication of a patent application for its method and system for analyzing measurements from a wearable patch with sensors connected to microstructures that when applied to the skin penetrate the stratum corneum and enter the viable epidermis.
Neckepur SAS signed a licensing agreement with Assistance Publique-Hôpitaux de Paris (AP-HP) to develop an in vitro diagnostic technology to optimize the medical devices used in extracorporeal circulation. The agreement covers the rights to use a patent for a method of evaluating and optimizing the doses of drugs administered to patients admitted to the intensive care unit (ICU) who are undergoing treatment with devices such as hemofiltration, extracorporeal membrane oxygenation (ECMO), continuous hemodiafiltration, and adsorbent column circuits.
Earlysight SA is developing a novel ophthalmology device that can be used to diagnose certain degenerative eye disorders long before onset of first symptoms. Earlysight and researchers at the Swiss Federal Institute of Technology Lausanne (EPFL) have reported positive results for their first clinical trial of Cellularis in the journal Ophthalmology Science.
Mdoloris Medical Systems SAS and Pprs SAS reported a joint venture to launch ANI Guardian, a connected medical device that continuously and non-invasively tracks pain levels and well-being in a range of non-verbal or cognitively impaired people.
A research team at the Korea Advanced Institute of Science and Technology (KAIST) has developed tattoo ink made of liquid metal and carbon nanotubes that can work as a bioelectrode. This technology could translate to a tattoo that can function as a health-monitoring device.
PARIS – Researchers at the Institute for Surface Technologies and Photonics in Weiz, Austria, and the Institute of Scientific and Industrial Research Osaka University, Japan, have invented new ultra-flexible health monitoring patches that use harvested bio-mechanical energy. “These new devices represent a wireless e-health patch for accurate pulse and blood pressure monitoring,” Andreas Petritz, from the Institute for Surface Technologies and Photonics (the materials research unit of Joanneum Research FmbH), told BioWorld.
Monitoring the electrical activity within and between cells on a large scale in a living animal may seem like a task that's next to impossible. But that's precisely what researchers at Cambridge, Mass.-based Harvard University aim to do with the next iteration of nanoscale sensors in the shape of wires.
