LED wound dressings for chronic wounds: Better wound care with light and sensors
Chronic wounds place a heavy burden on patients and the healthcare system. The Institute of Textile Technology at RWTH Aachen University is therefore designing a novel wound dressing that will intelligently support wound healing with light therapy and sensors.
A team of researchers discovered strong adhesive properties of white-berry mistletoe. The mistletoe berry's flexible fibers adhere to both skin and cartilage as well as to various synthetic materials and could find application in many fields, such as wound sealant in biomedicine, through ease of processing.
A team of researchers from HSE University, Skoltech, MPGU, and MISIS have developed a nanophotonic-microfluidic sensor whose potential applications include cancer detection, monitoring and treatment response assessment. The device can identify gases and liquids dissolved at low concentrations with a high degree of accuracy.
Researchers from the University of Tsukuba and collaborating partners prepared polyaniline in a wide range of cheap solvents. This development will facilitate advanced applications in printed circuit boards and other technologies.
Researchers from the University of Tokyo pool knowledge of robotics and tissue culturing to create a controllable robotic finger covered with living skin tissue. The robotic digit has living cells and supporting organic material grown on top of it for ideal shaping and strength.
Biomedicines are produced by living cells and are used to treat cancer and autoimmune diseases among other things. The medicines are very expensive to produce, something that limits global access. Now researchers have invented a material that uses electrical signals to capture and release biomolecules.
Today, public cloud systems can be used for outsourcing computationally intensive applications and storing large amounts of data. However, these systems are not designed for millisecond-accurate control of machines in production environments. They are not freely configurable and are difficult to connect to real-time-capable networks.
Researchers have developed 3D printed artificial heart valves designed to allow a patient’s own cells to form new tissue. To form these scaffolds using melt electrowriting – an advanced additive manufacturing technique – the team has created a new fabrication platform that enables them to combine different precise, customized patterns and hence to fine-tune the scaffold’s mechanical properties.
In medical care, magnetic fields of heart and brain activity are measured to detect diseases at an early stage. To measure even the smallest magnetic fields, researchers at Fraunhofer IAF are working on a new approach: diamond-based laser threshold magnetometry.
The Department Living Matter Physics from the Max Planck Institute for Dynamics and Self-Organization (MPI-DS) revealed a link between the generation of entropy and the topological features of a system. In their study, recently published in Nature Communications, the scientists investigated the random motion of particles in vortex flows.
A flagship of semiconductor research with international reach is emerging in Dresden. Fraunhofer IPMS and Fraunhofer IZM-ASSID are bundling their competences and establishing the Center for Advanced CMOS & Heterointegration Saxony. The center will offer the complete value chain in 300 mm microelectronics, a prerequisite for high-tech research for future technologies.
Europe imports most of its raw materials used in renewable energy and digital technologies. But Europe has its own deposits of key raw materials and boosting domestic production would help to secure strategic and industrial value chains.
After rising four times in a row, there is no further increase in the European Labour Market Barometer in May. The labour market leading indicator of the European Network of Public Employment Services and the Institute for Employment Research (IAB) remains at 103.4 points – the same level as for April. The assessments of the development of unemployment and employment continue to be positive.
The Liver4Life research team owes its perfusion machine, which was developed in house, to the fact that it became possible to implant a human organ into a patient after a storage period of three days outside a body.
Imagine being able to measure your blood sugar levels, know if you've had too much to drink, and track your muscle fatigue during a workout, all in one small device worn on your skin. Engineers at the UC San Diego have developed a prototype of such a wearable that can continuously monitor several health stats – glucose, alcohol, and lactate levels – simultaneously in real-time.
Ovarian cancer is the fifth leading cause of cancer death among women, and it’s so deadly, in part, because the disease is hard to catch in its early stages. A team of researchers is working to change that. Their approach uses machine learning techniques to efficiently analyze spectral signatures of carbon nanotubes to detect biomarkers of the disease and to recognize the cancer itself.
Worldwide, almost all technology-intensive industries depend on readily available metallic raw materials. Consequently, precise and reliable information is needed on how long these raw materials remain in the economic cycle. To obtain the necessary data, a research team from the universities of Bayreuth, Augsburg and Bordeaux has now developed a new modelling method.
Future quantum computers are expected not only to solve particularly tricky computing tasks, but also to be connected to a network for the secure exchange of data. In principle, quantum gates could be used for these purposes.
An international group of scientists have demonstrated that nanowires can act like a quantum one-way street for electrons when made of material known as a topological insulator. The discovery opens the pathway for new technological applications of devices and demonstrates a significant step on the road to achieving qubits, which can robustly encode information for a quantum computer.
Research conducted within the Cluster of Excellence "Matter and Light for Quantum Computing" (ML4Q) has analysed cutting-edge device structures of quantum computers to demonstrate that some of them are indeed operating dangerously close to a threshold of chaotic meltdown.
Last year, special machine manufacturer KOCH Pac-Systeme in Germany, expanded its machine portfolio in the medical technology industry, with the blister machine KBS-C medplus. The machine has now been...
Metecon's new DigiLab brings medical device manufacturers and RA software providers together: DigiLab translates manufacturers' regulatory requirements into vendors' technical solutions. Since 2019,...
Bulbitech announces it has been granted 20.2 MNOK from the Norwegian Research Council for the further validation, commercialization and development of its technology. Funds will be used in a project...
SYnabs and Belgian Volition SRL are proud to announce the signature of a strategic collaborative agreement. As part of this ambitious 28-months project supported with funding from the Walloon Region,...
November 12, 2021, Düsseldorf, Germany Shell-Case Ltd, the leading global designer and manufacturer of unique, tailor-made professional carrying solutions for medical devices, is excited to continue...
Deep drawing specialist STÜKEN celebrates 90th anniversary In 1931 Hubert Stüken founded the family business. Today, the world market leader employs 1250 people at five locations in Europe, Asia and...