Electromedicine and medical technology in the halls 9 to 17
This segment deals with the use of equipment for diagnostics, surgery and endoscopy, therapy and physical medicine, intensive care medicine / anaesthesia / respiration, rescue / emergency medicine, hygiene / sterilisation / disinfection as well as of imaging, implants / prostheses, surgical techniques and equipment for hospitals, surgeries and care areas.
Product categories in the segment Electromedicine and Medical Technology:
X-rays allow researchers to map out the 3D structure of proteins relevant to diseases at the scale of molecules and atoms, and Lawrence Berkeley National Laboratory's (Berkeley Lab's) Advanced Light Source (ALS) X-ray facility has been recalled to action to support research related to COVID-19, the coronavirus disease that has already infected about 2 million people around the world.
An innovative measurement method is helping to detect people infected with coronavirus from a safe distance. It detects fever, increased pulse rates and fast breathing without endangering the person conducting the testing. Fraunhofer IPA and Fraunhofer IAO are currently testing the procedure at the Robert Bosch Hospital in Stuttgart.
Universidad Carlos III de Madrid (UC3M) is participating in a research project together with the Hospital General Universitario Gregorio Marañón (HGUGM), the Instituto de Investigación Sanitaria San Carlos and the company Sedecal Molecular Imaging (SMI), project coordinator, to develop a new high-precision radiology system for coronavirus pulmonary involvement.
Our ability to study networks within the nervous system has been limited by the tools available to observe large volumes of cells at once. An ultra-fast, 3D imaging technique called SCAPE microscopy, developed through the NIH's BRAIN Initiative, allows a greater volume of tissue to be viewed in a way that is much less damaging to delicate networks of living cells.
The project Electronic AXONs: wireless microstimulators based on electronic rectification of epidermically applied currents, funded by a an ERC Consolidator Grant awarded to Antoni Ivorra, head of the BERG of the DTIC at UPF principally aims to "develop very thin, flexible, injectable microstimulators to restore movement in paralysis", says Ivorra, principal investigator of the project.
Researchers have demonstrated the ability to implant an ultrathin, flexible neural interface with thousands of electrodes into the brain with a projected lifetime of more than six years. Protected from the ravaging environment of internal biological processes by less than a micrometer of material, the achievement is an important step toward creating high-resolution neural interfaces.
A simple, low-cost ventilator based on the resuscitation bags carried in ambulances - and widely available in hospitals - has been designed by an international team of university researchers. The device, which is powered by a 12-volt motor, could help meet peak medical demands in the industrialized world and serve resource-constrained countries that don't have supplies of conventional ventilators.
Researchers led by biomedical engineers at Tufts University invented a microfluidic chip containing cardiac cells that is capable of mimicking hypoxic conditions following a heart attack - specifically when an artery is blocked in the heart and then unblocked after treatment.
The brain is one of our most vulnerable organs, as soft as the softest tofu. Brain implants, on the other hand, are typically made from metal and other rigid materials that over time can cause inflammation and the buildup of scar tissue.
Researchers in Japan have figured out a way to use x-rays to tell doctors about those squishy parts as well, not just bones, in a similar way to how ultrasound or magnetic resonance imaging (MRI) work--but with much greater resolution.
Researchers at Karolinska Institutet and St Erik Eye Hospital in Sweden have discovered a way to refine the production of retinal cells from embryonic stem cells for treating blindness in the elderly. Using the CRISPR/Cas9 gene editing, they have also managed to modify the cells so that they can hide from the immune system to prevent rejection.
Recently a stem cell biologist from City University of Hong Kong, together with his collaborators, has developed a novel strategy, called in vivo priming, to "train" the stem cells to stay strong after implantation to the damaged heart via the 3D-printed bandage-like patch. The positive results of the study show that an in vivo priming strategy can be an effective means to enhance cardiac repair.
In the future, dysfunction in signal transmission in the brain will be investigated and potentially alleviated with the help of light signals. This is the goal of NEUROPA, a new European joint project in which the research group of Prof. Andreas Möglich at the University of Bayreuth has taken on a significant role.
Researchers from Chalmers University of Technology, Sweden, have created a new, rubber-like material with a unique set of properties, which could act as a replacement for human tissue in medical procedures. The material has the potential to make a big difference to many people's lives. The research was recently published in ACS Nano.
University of California, Berkeley, investigators have now built a high-speed camera to catch electrical and chemical signals in our brain: a microscope that can image the brain of an alert mouse 1,000 times a second, recording for the first time the passage of millisecond electrical pulses through neurons.
Researchers at Baylor College of Medicine and the Jan and Dan Duncan Neurological Research Institute at Texas Children's Hospital have improved our understanding of how tremor - the most common movement disorder - happens, opening the possibility of novel therapies for this condition.
A UK study of patients participating in low-dose CT lung cancer screening highlights the importance of spirometry in the assessment of possible chronic obstructive pulmonary disease (COPD), and demonstrates that over-reliance on radiological changes alone may result in detection of clinically insignificant disease. The new study is published online in the Annals of the American Thoracic Society.
The National Institutes of Health has granted Sandia $6 million to build the prototype medical device that would make magnetoencephalography (MEG) - a type of noninvasive brain scan - more comfortable, more accessible and potentially more accurate.
Photoacoustic imaging has gained global attention for capturing images without causing pains or using ionizing radiation. Recently, many researchers have heavily studied on observing deep tissues to apply the photoacoustic imaging to clinical diagnosis and practices.
Researchers have incorporated ultra-thin optical devices known as meta-surfaces into off-the-shelf contact lenses to correct deuteranomaly, a form of red-green color blindness. The new customizable contact lens could offer a convenient and comfortable way to help people who experience various forms of color blindness.
Stem cells involved in replenishing human tissues and blood depend on an enzyme known as telomerase to continue working throughout our lives. When telomerase malfunctions, it can lead to both cancer and premature aging conditions. Roughly 90 percent of cancer cells require inappropriate telomerase activity to survive.
After the synchrotrons of the fourth generation were invented (these are particle accelerators, which are, in fact, giant research facilities), there was an urgent need for a fundamentally new optics that could withstand high temperatures and radiation loads created by a powerful x-ray stream.
EIZO GmbH today announced an extension for its video over IP solution, CuratOR Alipe, which provides lossless transmission of image and video within and outside of the OR. With the new TIP0810-HDMI IP...
In its FP 400 diaphragm liquid pump, KNF has managed to horizontally arrange five diaphragms on a single level for the first time. The new arrangement enables the FP 400 to achieve very low pulsing on...
When coming into close contact with medical devices, patients primarily expect these devices to be quiet and produce minimal vibration. For the manufacturers, size, weight and reliability also count —...
BPR Medical - an international leader in the design and manufacture of medical gas therapy solutions - will be joining the ABHI UK Pavilion at MEDICA 2019 (18 – 21st November 2019) at Hall 16 / K03-3...
Prof. Dr. Andreas Pinkwart, Minister for Economic Affairs, Innovation, Digitalisation and Energy of the State of North Rhine-Westphalia, appeared in 2019 as speaker on the topic MEF: Digitalisation of the Health Care Industry - Challenges and Opportunities, in the MEDICA ECON FORUM.