MRSA: Microneedle patch delivers antibiotics
Researchers are developing a microneedle patch that delivers antibiotics directly into the affected skin area.
Researchers are developing a microneedle patch that delivers antibiotics directly into the affected skin area.
Researchers are developing a color-changing test strip that can be stuck on a mask and used to detect SARS-CoV-2 in a user’s breath or saliva.
The supplier sector will showcase its expertise and innovative high-tech solutions for the medical technology industry.
Researchers encoded their specialized knowledge into the computer game Foldit to enable citizen scientists to successfully design synthetic proteins for the first time.
Researchers have tested a robotic cat in its ability to influence the mood and cognition of patients with dementia.
Researchers are developing an algorithm that flags tweets that spread bogus information about vaccines.
A 3D printed microneedle vaccine patch delivers stronger immune response than a vaccine shot.
The future of vaccines may look more like eating a salad than getting a shot in the arm.
Argonne, industry and academia collaborate to bring innovative AI and simulation tools to the COVID-19 battlefront.
Scientists have created a deep learning method, RoseTTAFold, to provide access to highly accurate protein structure prediction.
With a ‘liquid assembly line,’ researchers produce mRNA-delivering-nanoparticles a hundred times faster than standard microfluidic technologies.
Random passersby got the opportunity to try a new virtual reality game, when researchers visited a park to test the efficiency of VR technology within health information.
Progressive Mechanoporation makes it possible to mechanically disrupt the membranes of cells for a short time period and let drugs or genes inside cells.
Researchers suggest using microneedles for immunotherapy due to the high abundance of immune cells under the skin. The aim is to vaccinate or treat different diseases with minimal invasiveness.
Scientists have developed a new generation of microneedles technology which allows the intradermal delivery of living cells in a minimally invasive manner.
The lung is rather challenging to create artificially for experimental use due to its complex structure and thinness. Researchers have succeeded in producing an artificial lung model using 3D printing.
Clinicians using a new viral screening test can not only diagnose Covid-19 in a matter of minutes with a portable, pocket-sized machine, but can also simultaneously test for other viruses.
Artificial Intelligence is now capable of generating novel, functionally active proteins.
Using AI and mobile digital microscopy, researchers hope to create screening tools that can detect precursors to cervical cancer in women in resource-limited settings.
According to researchers at Indiana University, digital twins could lead to more proactive and personalized medicine.
Researchers have developed a biobattery-powered device capable of both delivering large molecule pharmaceuticals across the skin barrier and extracting interstitial fluid for diagnostic purposes.
Researchers have developed an antiviral material made from copper, silver and tungsten which can be 3D printed and kills the Covid-19 virus.
Scientists are working toward advances that, using nanotechnology, could lead to a hospital bed or doorknob that naturally destroys viruses.
By downscaling the needles tool to micrometer-size, researchers open even more areas of application for them, while bypassing some of the most important issues.
Engineers have developed a microneedle patch that can be applied to the skin, capture a biomarker of interest and, thanks to its unprecedented sensitivity, allow clinicians to detect its presence.
An advanced nanomaterial-based biosensing platform detects antibodies specific to SARS-CoV-2 within seconds.
Covid-19 gave many of these predictions for 2020 an entirely new spin: while some of the hyped trends turned out to play only bit-parts others became box-office hits in the new normal.
Researchers at have revealed how high-frequency sound waves can be used to build new materials, make smart nanoparticles and even deliver drugs to the lungs for painless, needle-free vaccinations.
With soaring demand for point-of-care testing (POCT), microfluidics has been a pivotal resource as COVID-19 swept across the world.
Researchers have developed an AI-powered forecasting tool for predicting influenza outbreaks.
As COVID-19 quickly spread worldwide at the beginning of the year, an urgent need has risen worldwide for specialized health and medical products such as the nasal swabs to collect viral samples or PPE.
Find out more about how scientists and physician are using AI to make contributions in the fight against the coronavirus.
Researchers make the case that Artificial Intelligence tools have the potential to help researchers separate the wheat from the chaff.
Scientists have used machine learning to predict the reemergence of existing infectious diseases.
AI is playing a key role in the Covid-19 response, but it could also be exacerbating inequalities within our health systems – a critical concern that is dragging the technology’s limitations back into the spotlight.
Researchers have printed the first biologically correct 3D model of the SARS-CoV-2 virus.
Scientists at Purdue University have developed a skin patch that can deliver chemotherapy into melanoma tumors in an effective and painless way.
Scientists are launching a project to apply machine learning methods to assess the role of climate variables in disease transmission
Using machine learning, a team of Western computer scientists and biologists have identified an underlying genomic signature for 29 different COVID-19 DNA sequences.
Researchers have developed an artificial intelligence platform to dramatically increase the efficiency of drug combination therapies.
A portable surveillance device powered by machine learning can detect coughing and crowd size in real time, then analyze the data to directly monitor flu-like illnesses trends.
Researchers used a skin cream infused with microscopic particles, named STAR particles, for therapy of Skin diseases
A game devised to make players better at spotting fake news and misinformation, has the intended effect in Sweden, Greece, Germany and Poland.
Using a virtual reality simulation to show how flu spreads and its impact on others could be a way to encourage more people to get a flu vaccination.
Coated pill carries microneedles that deliver insulin and other drugs to the lining of the small intestine; they usually have to be injected.
Algorithms using data from antibody signatures in peoples’ blood may enable scientists to assess the size of cholera outbreaks and identify hotspots of cholera transmission more accurately than ever.
Researchers at the University of California San Diego develop a new non-touch technology that rapidly identifies infants and children.
Scientists have developed machine learning algorithms that can predict yeast metabolism from its protein content.
A flying smartbox from AT&T and Softbox shows how Internet of Things can help safely deliver vital temperature-sensitive medicines in crises.
Are virtual reality headsets a means to decrease fear and pain associated with immunizations in pediatric patients?