virtual.MEDICA + virtual.COMPAMED win audiences over with their high degree of international resonance
They provided important stimuli for the healthcare economy and there is keen anticipation for the reunion in Düsseldorf in 2021
For the first time in the history of MEDICA, the world-leading medical trade fair, and the industry’s number one platform for the suppliers of the medical technology industry, COMPAMED, held from 16 to 19 November 2020, took place entirely online due to the pandemic - but still won over their audiences due to their high degree of international resonance in this format too, as virtual.MEDICA and virtual.COMPAMED. Despite a very short registration period, a total of over 1,500 exhibitors took part, hailing from 63 nations. They displayed a huge variety of innovative products, amounting to over 18,300 items, in their online showrooms, and presented live programmes for the healthcare community in over 100 web sessions, which hosted 300 participants at their peak. The community showed avid interest in their droves: Over 45,000 professional visitors (unique users) from 169 nations used the virtual offers and generated 405,000 page impressions. International online visitors to the event made up 78% of the attendees.
Bioinformaticians at Friedrich Schiller University Jena, Germany together with colleagues from Finland and the USA, have now developed a unique method with which all metabolites in a sample can be taken into account, thus considerably increasing the knowledge gained from examining such molecules.
In high school textbooks, human chromosomes are pictured as wonky Xs like two hotdogs jammed together. But those images are far from accurate. "For 90 percent of the time," said Jun-Han Su, "chromosomes don't exist like that."
Current state-of-the-art techniques have clear limitations when it comes to imaging the smallest nanoparticles, making it difficult for researchers to study viruses and other structures at the molecular level.
The pursuit of ever-higher imaging resolution in microscopy is coupled with growing demands for compact portability and high throughput. While imaging performance has improved, conventional microscopes still suffer from the bulky, heavy elements and architectures associated with refractive optics.
A team at Aalto University has used bacteria to produce intricately designed three-dimensional objects made of nanocellulose. With their technique, the researchers are able to guide the growth of bacterial colonies through the use of strongly water repellent - or superhydrophobic - surfaces.
Nanographene is a material that is anticipated to radically improve solar cells, fuel cells, LEDs and more. Typically the synthesis of this material has been imprecise and difficult to control. For the first time, researchers have discovered a simple way to gain precise control over the fabrication of nanographene.
Many industries have seen innovative breakthroughs in their respective fields of 3D printing. Amongst them, the water treatment industry has also reaped benefits off the prospects of 3D printing. High performance spacers and membranes can be fabricated by 3D printing, and they help increase permeate production while minimising energy consumption in purification processes.
When atoms get extremely close, they develop intriguing interactions that could be harnessed to create new generations of computing and other technologies. These interactions in the realm of quantum physics have proven difficult to study experimentally due the basic limitations of optical microscopes.
Researchers of the Technical University of Munich (TUM) have cultured so-called intestinal organoids from human intestinal tissue, which is a common byproduct when performing bowel surgery. These small "miniature intestines" can be used for molecular biological examinations and allow for a direct application of research results to humans, thereby making animal experiments redundant.
Brandon Medical launches interactive virtual tour and live demonstration platforms of equipment package for operating rooms and critical care areas in order to support hospitals to return to elective...
Edmund Optics®, the premier provider of optical and imaging components, announced today that it has acquired Quality Thin Films, Inc. (QTF). QTF, located outside of Tampa, Florida, offers a wide range...
As you may know, Westlake Chemical Corporation completed the acquisition of NAKAN (IVY GROUP HOLDING) in January 2019. As a result, all NAKAN entities became Westlake companies. Today, we are pleased...
On September 8, 2020, under the guidance of the Organization Department of the Xiamen Municipal Party Committee, the Xiamen Torch High-tech Zone Management Committee, the Municipal High-level Talent...
On Oct 31st, the senior leaders of Biolight and its subsidiary corporation Jun Kang, and hundreds of industry elite were together to discuss China's medical industry and to find a way of independent...