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Mission to Mars – Pack Light on Materials and Heavy on Innovation

On Tuesday May 09, the Humans to Mars Summit kicks off in Washington D.C. This will be a meeting of some of the most powerful, brilliant, creative, scientific and corporate minds on earth. Together they are working on a way that someday soon we will visit Mars. Since 2010 this expanding group is realizing that exploring the red planet is within their grasp and possible during our lifetime. To get there, it will take innovations in science, technology and engineering like we have not seen in generations. Virginia Commonwealth University’s School of Engineering is part of a team that is making this trip a reality. The NASA-sponsored multidisciplinary Space Technology Research Institute (STRI) is working on new a composite material that makes use of engineered carbon nanotubes and will be much lighter—but much stronger—than what is currently available. Space craft need to exit and re-enter atmospheres. To do so, they need to be strong or the results are disastrous. Space travel and the concept of exploring other planets is high science and not easy for most earthly mortals to comprehend. That’s where the experts at VCU’s School of Engineering can help. Ibrahim Guven, Ph.D., assistant professor in the VCU School of Engineering Department of Mechanical and Nuclear Engineering, is an expert on peridynamics, a branch of mechanics that looks at the effect of deformities and fractures. Peridynamics is essential to planning for space travel and to understanding what it takes to get from Earth to Mars. He can explain these concepts in a simple manner and is available to speak with media. Simply click on his profile to arrange an interview. Source:

One Child Dies Every Two Minutes from Malaria – VCU Experts Are Working to Stop Statistics Like This

Did you know 91 countries reported ongoing malaria transmission in 2015? In fact, in that year, according the World Health Organization there were 429,000 malaria deaths and 212 million new cases. While the numbers are astounding – some progress is being made. In fact, according to the World Malaria Report 2016, the rate of new malaria cases fell by 21% globally between 2010 and 2015. Malaria death rates fell by 29% in the same period. However, malaria still claims one child every two minutes. At the Virginia Commonwealth University School of Engineering, the Medicines for All Initiative is helping address the crisis of diseases like malaria by increasing global access to lifesaving medications. Medicines for All develops processes that reduce the cost of active pharmaceutical ingredients (APIs) - a major cost driver in treating infectious diseases in the developing world. VCU is helping find solutions that utilize the lowest-cost raw materials and most efficient tools available. Medicines for All is bringing essential drugs to patients who need them most. VCU’s experts are available to speak regarding the devastating consequence of disease around the world and how VCU's Medicines for All Initiative is saving lives, promoting health and transforming pharmaceutical engineering. B. Frank Gupton, Ph.D., is a professor and the chair of the Department of Chemical and Life Science Engineering at the VCU School of Engineering. He leads the Medicines for All project and is an award-winning researcher and an expert in his field. Simply click on his icon to arrange an interview. Source:

The Value of a Cure and Do All Americans Benefit from Medical Breakthroughs?

On February 28, 2017 policymakers, health officials, industry representatives and patient advocates were meeting in Washington to discuss the ‘value of a cure’ – the costs, the public health benefits and how America will move forward following the passage of the 21st Century Cures legislation. The Act, which was signed in December promises to accelerate funding for biomedical research while it also loosens regulations governing drugs and medical equipment and devices. Innovations in medical research and technology have produced cures and breakthrough therapies to overcome diseases that were once considered a death sentence. Polio is preventable with a vaccine, HIV is managed with a daily drug regimen, and Hepatitis C now has a cure. But are these breakthroughs reaching all communities? How can we balance the high costs of drug development with affordability? And what can we do to ensure that new cures continue to be developed? This is where Virginia Commonwealth University can help. Our experts are thought leaders and are some of the go-to opinions in this field. Dr. Thomas Roper is a professor and the director of the Department of Chemical and Life Science Engineering at the VCU School of Engineering. Thomas specializes in efforts to bring engineering and science closer to patients who utilize medicines via novel technologies. Dr. Frank Gupton is a professor and the chair of the Department of Chemical and Life Science Engineering at the VCU School of Engineering. He leads the school’s Medicines for All project that is striving to reduces costs of treatment for AIDS. He is an award-winning researcher and an expert in his field. Both Dr. Roper and Dr. Gupton are available to speak with media regarding this very important issue. Simply click on either of their icons to arrange an interview. Source:

Nanotechnology is huge - is it the way of the future?

Earlier this week, the International Nanotechnology and Conference took place in Tokyo, Japan. Thousands of researchers, scientists and academics attended from around the world to discuss advances in the field, applications and how nanotechnology is transforming and shaping our world for the future. Nanoscience and nanotechnology are the study and application of extremely small things and can be used across all the other science fields, such as chemistry, biology, physics, materials science and engineering. It's the stuff once only seen in movies and books. Science fiction is now reality. But what will it mean for the public, for academics and for business? The benefits seem extraordinary, but what are the cautions or consequences? Like stem cells, there was much ethical, moral and scientific concerns about their use. Today, science and how we approach the human body has been radically changed because of that research. Will nanotechnology transform the scientific world in the same way? As well, what are the economic benefits? Will we one day just see nanotechnology as an everyday occurrence in our regular lives? There are a lot of questions and this is where Missouri State University's experts can help. We have two experts who can speak to media regarding this very interesting field of research: Dr. Adam Wanekaya's research focuses on the fabrication, modification, characterization and application of nanoscale materials. He also works on integrating these materials into functional devices with specific applications in chemical sensing, biomedical sensing and remediation of heavy metals and other toxins from the environment. Dr. Robert Mayanovic works on investigating the physical and chemical properties of primarily nanophase materials in extreme environments. Both professors will be able to explain the field of nanotechnology and how it is shaping the future of technology, healthcare and the world we live in. Simply click on either of their icons to arrange an interview. Source: