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Professor James Wolffsohn and Dr Sònia Travé Huarte in collaboration with NuVision won the Medilink Business Award 2023 for a Partnership between Academia and Business The optometry researchers were recognised with an award for their partnership with a company that develops treatments for ocular diseases The collaboration has directly benefitted patients and enhanced global research knowledge. Researchers in the School of Optometry and Vision Sciences at Aston University have been recognised with an award for their partnership work with NuVision, a company that develops treatments for ocular diseases Professor James Wolffsohn and Dr Sònia Travé Huarte recieved the Medilink Business Award 2023 for a Partnership between Academia and Business at a prestigious ceremony held on 16 March in the Great Hall at the University of Birmingham. Professor Wolffsohn, who is also the head of the School of Optometry at Aston University, said: “We are delighted to have won this Medilink award in partnership with NuVision. This collaboration has directly benefitted our patients with this common chronic, debilitating disease, has enhanced global research knowledge in dry eye management and enhanced the local economy. The team at NuVision are exceptional and it is a pleasure to continue to innovate with them.” NuVision has an expert team of scientific, clinical and industry professionals dedicated to building innovative ocular biotherapies. It was founded in 2015 based on 15 years of translational research at the University of Nottingham. The company develops ocular biotherapies through research and innovation. The Medilink Midlands Business Awards 2023 are sponsored by the University of Birmingham and the Precision Health Technologies Accelerator Ltd. The awards event saw 13 life science companies based in the East and West Midlands receive awards from Start-Up to Outstanding Achievement. A further six companies received Highly Commended certificates. For more information about the School of Optometry and the Vision Sciences Research Group please visit our website.
Is America's banking system in trouble once again?
Nerves are rattled and many are worried as the markets opened Monday to news of another US bank collapse, making that two large banks shuttered in less than a week. It's news that's rocking the financial world on a massive scale. Federal regulators announced on Sunday that another bank had been closed and that the government would ensure that all depositors of Silicon Valley Bank — which failed Friday — would be paid back in full as Washington rushed to keep fallout from the collapse of the large institution from sweeping through the financial system. The Federal Reserve, Treasury and Federal Deposit Insurance Corporation announced in a joint statement that “depositors will have access to all of their money starting Monday, March 13.” In an attempt to assuage concerns about who would bear the costs, the agencies said that “no losses associated with the resolution of Silicon Valley Bank will be borne by the taxpayer.” March 12 - New York Times With an economy already on edge as Americans feel the grip of inflation and worries of recession - this is frightening news and media are scrambling for answers. What is causing the closures of these big banks and how many more will follow? How much money is lost and how much has been protected? Is this 2008 all over again? Is the federal government doing enough to stop the damage from spreading? What measures need to be put in place by government to assure citizens that their savings, retirement plans and mortgages aren't at risk? And will anyone be held accountable for the billions already lost? There's a lot to explain - and that's where our experts can help. Rebel Cole, Ph.D., a Lynn Eminent Scholar Chaired Professor of Finance, has expertise in global financial institutions, commercial banking and small business finance. He spent 10 years working in the Federal Reserve System and has experience at the the International Monetary Fund and the World Bank. Cole has been interviewed by numerous national media outlets, such as The Wall Street Journal, The New York Times, The Washington Post and Fox Business. Rebel is available to speak to media regarding the current state of banking and what Americans need to watch for or worry about. Simply click on his icon now to arrange an interview today.
• Institute of Health and Neurodevelopment to host children’s activities at Birmingham’s science museum Thinktank on Saturday 18 March • British Science Week is a ten-day celebration of science, technology, engineering and maths • Brain Awareness Week highlighted with research showcased in glass box exhibition space on University campus. Aston Institute of Health and Neurodevelopment (IHN) is celebrating British Science Week (10-19 March) and Brain Awareness Week (13-19 March) by hosting an activities day for children at the Birmingham science museum Thinktank, alongside a social media campaign to help educate and inform the public on its latest research. Each year, the British Science Association runs a ten-day celebration of science, technology, engineering and maths called British Science Week. It is closely followed by Brain Awareness Week, a yearly global campaign to increase public awareness of brain research. The week-long celebration is organised by the Dana Alliance with a goal to educate and highlight the importance of research in developing new treatments, preventions and possible cures for brain diseases. Both campaigns align closely with the work of the Aston Institute of Health and Neurodevelopment, with the Institute’s researchers keen to use the week to host activities and share their research and information about the brain health with the public. Activities to highlight both British Science Week and Brain Awareness week include a social media campaign sharing research updates from members and surprising brain facts on Twitter (@Aston_IHN), a brain research exhibition in the glass box space in the Aston University main entrance, as well as an activity session at the Birmingham science museum Thinktank in Millennium Point. The meet and greet with IHN researchers will take place on Saturday 18 March between 11.00 and 16.00. Children and families can speak to researchers about their work and take part in interactive activities, such as memory games and eye-tracking experiments. Professor Jackie Blissett, co-director of IHN said: “British Science week and Brain Awareness week are really important campaigns for us. Brain Awareness week is the perfect time to showcase our research and engage with the public on what we do here at IHN. “We work in close collaboration with the NHS to help research potential treatments for children who experience a range of brain related conditions. We put children at the heart of what we do, with the aim of unlocking the potential of research to support children’s health and development as well as answering the questions that matter to children, their families and the services that support them.” Visitors to the exhibition on the Aston University campus are encouraged to share their thoughts about the exhibition and their pictures on Twitter, tagging @Aston_IHN. For more information about Aston Institute of Health and Neurodevelopment visit its website and for more information about studying psychology and neuroscience at Aston University visit our course pages.
Aston University welcomes Mexican Ambassador to campus during Global Trade Conference
Her Excellency Josefa González-Blanco, Mexican Ambassador to the UK visits West Midlands for the Global Trade Conference The ambassador met with representatives of British industry including University Vice-Chancellor Professor Aleks Subic Josefa González-Blanco was appointed as Mexico's representative in London in 2021. Mexican Ambassador to the UK, Her Excellency Josefa González Blanco Ortiz Mena, has visited Aston University during a high-profile visit to the city to attend the Global Trade Conference and meet with representatives of British industry. The Global Trade Conference (15 February) is an annual event hosted by the Greater Birmingham Chambers of Commerce which offers businesses the opportunity to build relationships and grow their network. During her visit to campus, she met with Vice-Chancellor Professor Aleks Subic, executive director of business engagement Mark Smith, and Lloyd Broad, head of international affairs at Birmingham City Council. Ambassador González Blanco said: “I was thrilled to visit Aston University and to meet the Vice-Chancellor and Chief Executive, Professor Aleks Subic. “We had a chance to review our academic links towards intensifying the research collaboration already in place between Aston Business School, Tecnológico de Monterrey, Conacyt México and Instituto Nacional de Astrofísica.” Professor Aleks Subic said: “It was a pleasure to welcome Her Excellency Josefa González Blanco Ortiz Mena to Aston University. “We are immensely proud of our international collaborations, and meetings such as this one, are crucial in deepening our understanding of areas of common interest and priorities as we work together to advance global partnerships and trade. “I look forward to working further with relevant higher education institutions and industries in Mexico and around the world in line with our 2030 strategy focused on creating a globally relevant university that can make substantial contributions to innovation and trade at international level.”
Aston University turns red to highlight World Encephalitis Day
• Aston Institute of Health and Neurodevelopment (IHN) researchers support World Encephalitis Day on 22 February • Aston University library will be lit up in red – the official campaign colour • Staff and students are encouraged to wear red and tweet their photos in support of the campaign Researchers and staff at Aston Institute of Health and Neurodevelopment (IHN) are marking World Encephalitis Day (22 February) by lighting up the Aston University library on its campus near Birmingham city centre. The library will be lit up in red – the official colour of the campaign - to support and raise awareness of encephalitis and all those affected by the condition. The global awareness campaign, introduced by the charity the Encephalitis Society, is based on the theme of Code Red – an emergency alert code used in hospitals. Encephalitis is inflammation of the brain. It is caused either by an infection invading the brain or through the immune system attacking the brain in error. According to the Encephalitis Society, anyone at any age can develop the condition, with up to 6,000 cases in the UK each year and potentially hundreds of thousands worldwide. In the USA there were approximately 250,000 patients admitted to hospital with a diagnosis of encephalitis in the last decade. Researchers at Aston Institute of Health and Neurodevelopment are working closely with patients affected by the disease through their child-focused research programme. Dr Sukhvir Wright, honorary consultant neurologist at Birmingham Children's Hospital, and Wellcome Trust clinical research career development fellow at IHN, said: “IHN researchers know first-hand what children and families affected by encephalitis go through on a daily basis. That’s why we are fighting to answer the questions that matter most to this community through our work. “Our research includes, developing disease models to help try and improve treatments. We do brain imaging to identify biomarkers that might help predict outcomes and at the bedside of our patients we contribute up-to-date practical information and support for children and their families. This work is carried out closely in partnership with the Encephalitis Society.” As part of the awareness campaign IHN researchers are calling upon staff and students to show their support by wearing red on Wednesday 22 February - and share their pictures on social media. Please use the hashtags #Red4WED #WorldEncephalitisDay #TeamAston and remember to tag @Aston_IHN. For more information about Aston Institute of Health and Neurodevelopment (IHN) please visit our website.
Late last year, America was gripped with a shortage of frightening proportions and potential deadly consequences - baby formula was all but gone from store shelves and near impossible to find. Parents were panicked, newborns needed to eat and the government became desperate to source, import and distribute the baby formula to nervous mothers and children in need of nutrition. It's a topic that captured global attention and recently UMW's Sushma Subramanian - a journalist and assistant professor - looked to explain what was happening and how country's like Brazil might have found the natural way to solve this problem. Here's an excerpt from her piece in National Geographic: Five days after the early delivery of her baby last month at a municipal hospital, Talita Alves Araújo Lourenço sat in a chair while a nurse helped her express breast milk into a glass jar. Araújo, 20, had given birth at 32 weeks; she had known early delivery was likely because she had been diagnosed with preeclampsia. At first, her baby could only drink her milk through a tube, but even after developing the strength and coordination to feed from her breast, Araújo was producing too much. The nurse was helping her to empty her breasts so they would feel more comfortable and to donate the extra milk. “To know that my milk could be saving someone is very important to me,” says Araújo. While the ongoing formula shortage that began in February 2022 affected families of infants who couldn't find supplies at the store, it also renewed interest in donation of breast milk to milk banks that supply it to hospitals for vulnerable newborns. Brazil is widely considered the world’s leading example of milk banking because of a program started in the 1980s that combined promotion and training in breastfeeding with donation. The country today runs 228 of the world’s approximately 750 human milk banks. The United States, by comparison, has 28 that are members of the Human Milk Banking Association of North America. January 2023, National Geographic Magazine The rest of the article is attached and is well worth the read. If you are a journalist looking to speak with Sushma Subramanian about her latest book, then let us help. Simply click on Sushma’s icon now to arrange a time and interview. How breast milk banks could avert the next formula crisis (National Geographic) Sushma Subramanian, associate professor of journalism, published a story in National Geographic on how Brazil has become the world’s leader in breast milk banking, inspiring similar programs in other countries. https://www.nationalgeographic.com/science/article/brazil-breast-milk-banking-program-formula-crisis
Aston University to help power Indonesia with affordable energy made from rice straw
Project to convert unwanted rice straw into cheap energy on a commercial scale Most rice straw in Indonesia is burned causing pollution and health problems Project will almost double affordable energy captured from waste. Scientists at the Energy and Bioproducts Institute at Aston University are to start a project to convert Indonesia’s unwanted rice straw into low-cost energy on a commercial scale. Each year the country produces 100 million tonnes of the rice waste, of which 60% is burned in open fields, causing air pollution and has even been linked to lung cancer. The amount burned is equivalent to approximately 85 Terawatts of electricity, which is enough to power Indonesia’s households 10 times over. A consortium which includes Aston University aims to develop processes to capture more affordable energy from rice straw than ever before - and demonstrate that it can be done on a commercial scale. Part of the process involves a biomass conversion technology called pyrolysis. This involves heating organic waste materials to high temperatures of around 500 °C to break them down, producing vapour and solid products. Some of the vapour may be condensed into a liquid product called pyrolysis oil or pyrolysis bio-oil. Both the pyrolysis vapour and liquid bio-oil can be converted to electricity. Current methods convert just 35% of the thermal energy of rice straw to affordable electricity. However, a newly patented combustion engine designed by consortium member, UK-based Carnot Limited, could see that doubled to 70%. Energy extracted this way could help low and middle-income countries create their own locally generated energy, contribute to net zero by 2050, create new jobs and improve the health of locals. The project will help develop a business model which could support companies and local authorities to produce local, cheap energy in Indonesia, and other countries with biomass capacity. Three academic experts from different disciplines at Aston University are involved in this initial project, which focuses on Indonesia’s Lombok Island. Dr Jude Onwudili, Dr Muhammad Imran and Dr Mirjam Roeder are based at Aston University’s Energy and Bioproducts Research Institute (EBRI). Dr Jude Onwudili who is leading the team said: “This project has huge potential - commercialisation of this combined technology will have significant economic benefits for the people of Indonesia through direct and indirect job creation, including the feedstock supply chain and electricity distribution and sales. “About one million Indonesian homes lack access to energy and Indonesia's 6,000 inhabited islands make sustainable infrastructure development challenging in areas such as Lombok Island. “The new techniques being explored could reduce environmental pollution, contribute to net zero and most importantly, provide access to affordable energy from sustainable local agricultural waste. “Aston University is a global leader in bioenergy and energy systems, and I am delighted we received funding to explore this area.” Over a power plant’s life, the project team have calculated that biomass produces cheaper electricity (approx. $4.3$/kWh) compared to solar (approx. $6.6/kWh), geothermal (approx. $6.9/kWh), coal (approx.$7.1/kWh), wind (approx. $8/kWh) and subsidised gas (approx.$8.4ckWh). The project will start in April 2023 with a total of £1.5 million funding for the four partners from Innovate UK. Alongside Carnot Limited, the Aston University scientists will be working with two other UK-based businesses to deliver the project, PyroGenesys and Straw Innovations. PyroGenesys specialises in PyroChemy technology which will convert 70% of the rice straw into vapour or bio-oil for electricity production, with the remainder converted into nutrient-rich biochar, which can be sold back for use as fertiliser on the rice farms. Straw Innovations will contribute their rice straw harvesting and collection expertise, with their many years of similar operations in Asia.
First ever computer reconstruction of a virus, including its complete native genome Will open way for investigating biological processes which can’t currently be fully examined because the genome is missing Could lead the way to research into an alternative to antibiotics. An Aston University researcher has created the first ever computer reconstruction of a virus, including its complete native genome. Although other researchers have created similar reconstructions, this is the first to replicate the exact chemical and 3D structure of a ‘live’ virus. The breakthrough could lead the way to research into an alternative to antibiotics, reducing the threat of anti-bacterial resistance. The research Reconstruction and validation of entire virus model with complete genome from mixed resolution cryo-EM density by Dr Dmitry Nerukh, from the Department of Mathematics in the College of Engineering and Physical Sciences at Aston University is published in the journal Faraday Discussions. The research was conducted using existing data of virus structures measured via cryo-Electron Microscopy (cryo-EM), and computational modelling which took almost three years despite using supercomputers in the UK and Japan. The breakthrough will open the way for biologists to investigate biological processes which can’t currently be fully examined because the genome is missing in the virus model. This includes finding out how a bacteriophage, which is a type of virus that infects bacteria, kills a specific disease-causing bacterium. At the moment it is not known how this happens, but this new method of creating more accurate models will open up further research into using bacteriophage to kill specific life-threatening bacteria. This could lead to more targeted treatment of illnesses which are currently treated by antibiotics, and therefore help to tackle the increasing threat to humans of antibiotic resistance. Dr Nerukh said: “Up till now no one else had been able to build a native genome model of an entire virus at such detailed (atomistic) level. “The ability to study the genome within a virus more clearly is incredibly important. Without the genome it has been impossible to know exactly how a bacteriophage infects a bacterium. “This development will now allow help virologists answer questions which previously they couldn’t answer. “This could lead to targeted treatments to kill bacteria which are dangerous to humans, and to reduce the global problem of antibiotic-resistant bacteria which are over time becoming more and more serious.” The team’s approach to the modelling has many other potential applications. One of these is creating computational reconstructions to assist cryo-Electron Microscopy – a technique used to examine life-forms cooled to an extreme temperature.
Aston University bioenergy researchers to improve measurement of industrial carbon dioxide
Researchers at Aston University are to take the UK a step nearer to net zero emissions by developing a better system of measuring industrial carbon dioxide. The government is giving the University £100,000 to improve measurement of CO2 streams from sites such as at power plants and factories. The Energy and Bioproducts Research Institute (EBRI) at Aston University is to develop a comprehensive guide based on industry and academic expertise. Industrial decarbonisation will play a major role in achieving the UK’s 2050 ambitious net zero emissions target, however current measurement guidelines need to be improved. The six-month project will be a collaboration between EBRI researchers and the company Progressive Energy and the Energy Institute. Progressive Energy will work alongside potential end-users and the Energy Institute will help to ensure the final guidelines are clear. The work is being led by Dr Paula Blanco Sanchez, who has more than 15 years of experience in bioenergy. She said: “This funding will help Aston University to address a major gap in the decarbonisation pathway. It will contribute to the UK’s net zero target and is another example of how the University is using its expertise to tackle real world problems. “Our experts in EBRI will provide research, industrial experience and knowledge in areas such as gas measurement, metric and analytics, life cycle and techno-economic assessments, and thermal conversion processes.” The funding has been awarded by the Industrial Decarbonisation Research and Innovation Centre (IDRIC) to achieve the net zero ambition set out in the UK Industrial Decarbonisation Strategy (2021). Bryony Livesey, challenge director, Industrial Decarbonisation Challenge, UKRI, said: “The announcement of this funding continues to build upon IDRIC’s whole system approach to decarbonising industry, enabling the UK to remain at the forefront of a global low-carbon future. These successful Wave 2 projects will build evidence on a range of areas from economics and emissions to skilled jobs and wider net zero policy, supporting UK’s green growth and net zero ambitions.” It’s hoped the Aston University project will lead to future collaborations and funding to support UK industry to decarbonise their businesses. In May, June and September the EBRI plant will be opening its doors to professionals who want to enhance their careers with a short hands-on course in Practical Process Engineering. For more information visit https://www.aston.ac.uk/study/courses/practical-process-engineering
Aston University computer scientist joins first UK-wide Young Academy
The new UK Young Academy is a network of early career researchers and professionals It has been established to tackle local and global issues Dr Alina Patelli is a senior lecturer in computer science at Aston University. Aston University is delighted to announce that Dr Alina Patelli, a senior lecturer in computer science in the College of Engineering and Physical Sciences, is among the first members of the new UK Young Academy – a network of early career researchers and professionals established to help tackle local and global issues and promote meaningful change. Dr Patelli specialises in evolutionary computation, specifically, genetic programming and its applications in smart cities, with a focus on traffic modelling and prediction. Her interests also include autonomic, knowledge-based systems, as well as self-adaptation and self-organisation in computing. As part of the first cohort of 67 members, announced on 10 January by UK and Ireland National Academies, Dr Patelli will have the opportunity to help shape the strategy and focus of this new organisation, based on areas that matter to them. Along with their fellow members from across academia, charity organisations and the private sector, they will have the chance to inform local and global policy discussions, galvanising their skills, knowledge, and experience to find innovative solutions to the challenges facing societies now and in the future. The UK Young Academy has been established as an interdisciplinary collaboration with prestigious national academies: the Academy of Medical Sciences, British Academy, Learned Society of Wales, Royal Academy of Engineering, Royal Irish Academy, Royal Society of Edinburgh, and the Royal Society. It joins the global initiative of Young Academies, with the UK Young Academy becoming the 50th to join the Young Academy movement. Dr Alina Patelli said: “I am anticipating the start of my service as a member of the UK Young Academy with great enthusiasm. I highly value the opportunity to collaborate with colleagues from across the spectrum of science and governance in order to make a significant impact on the UK’s approach to tackling national and international challenges. “The UK Young Academy is perfectly placed to substantively improve the life of human communities everywhere and I am honoured to contribute towards the achievement of that goal.” Professor Stephen Garrett, executive dean of the College of Engineering and Physical Sciences at Aston University, said: “I would like to congratulate Alina on being selected as one of the first members of the UK Young Academy. It is a fantastic achievement to have been selected to join this talented and diverse cohort. “I wish her every success and look forward to seeing the fruits of her work with the Young Academy.” The successful applicants officially took up their posts on 1 January 2023, and membership runs for five years. It is expected that the next call for applications will open in 2023.