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Florida Tech, Kennedy Space Center to Study Waste Treatment in Space
Associate professor of chemical engineering Toufiq Reza has spent years researching sustainable waste conversion techniques on Earth. When Florida Tech offered him a sabbatical, he took the chance to learn what that conversion process looks like in outer space while further strengthening the university’s already deep ties to NASA. In Fall 2023, Reza became the first professor to leverage school funding to spend a semester at NASA’s Kennedy Space Center. He worked with Annie Meier, who leads a team developing ways to convert astronaut-generated trash into fuel during missions, known as in-situ resource utilization (ISRU). “I wanted to do something different that I haven’t done. I have been doing research in my field; I know who the players are,” Reza said.” I could have easily gone to a research lab at another university and continued my research. But I wanted to learn something new.” His sabbatical prompted a new partnership between NASA Kennedy and Florida Tech. This summer, they signed an annex to their existing Space Act Agreement which will allow Kennedy Space Center (KSC) and the university to conduct joint research regarding logistical waste treatment and ISRU. “At NASA, we want researchers who are doing something that could help us, that could be synergistic, and to not reinvent the wheel,” said Jose Nuñez, university partnerships and small sat capabilities manager at NASA Kennedy. “The goal is to find professors who can benefit the agency in an area that needs more research.” As part of the agreement, KSC will share raw materials, waste simulant samples and information such as gas composition data with Florida Tech. In return, the university will analyze and share findings, such as what useful products can be taken from trash-to-gas waste for use as plant nutrients, and evaluate value-added applications. “I will encourage students to work on some of their technologies, test them in our lab and vice versa. This is a massive thing,” Reza said. “We can learn from each other to help each other.” Already, Reza’s students have visited Meier’s lab, and Meier and her KSC team came to Florida Tech to present her research and visit the university’s research facilities. Meier’s goals are similar to Reza’s: Both researchers want to find sustainable ways to convert trash and waste into energy, materials and chemicals. However, the methods aren’t completely transferrable between the two different environments of Earth and space. On Earth, Reza explained, waste can be burned or stored in a landfill. Neither of those options are viable in space. “You cannot dig up the moon soil and start burying. There is no oxygen or air to actually burn it…there is no water,” Reza explained. Currently, astronaut waste, such as food packaging, clothing, hygiene items and uneaten food, is launched back towards Earth and incinerates on the way there. However, Meier is working to advance waste mitigation technology, which Reza got to see up close. One of her projects, the Orbital Syngas/Commodity Augmentation Reactor (OSCAR), mixes oxygen, heat and trash in a reactor, which burns the trash and collects the gas it creates. Over the course of the semester, Reza assisted in KSC’s Applied Chemistry Lab, where Meier’s research took place. He offered both expertise and extra hands, from helping measure samples to reading through literature. He also took note of innovative technology for potential new research ideas, such as potentially developing a way of protecting metal coatings in space using the tools he learned. Meier’s waste conversion technology is built for a space environment, but Reza said it is unlikely that her complete systems could be used for waste conversion on Earth. Just as water and oxygen are limited resources in space but are plentiful on Earth, vacuums are plentiful resources in space but are expensive to create back home. However, that doesn’t stop the researchers from seeking inspiration through the new partnership. “We can learn from them and then take a part of their technology and integrate it with ours to make our technology more sustainable and vice versa,” Reza said. “They can improve their technology by utilizing part of our technology as well. As Meier said, “I wanted to learn on the terrestrial side how we can infuse some of our technology, and he wanted to learn from us to grow into the space sector, so it was a really cool match.”
300 million tonnes of rice straw are burned after harvest in Asia every year Aston University will be contributing to new international project to unlock renewable energy potential Its researchers will lead on calculating the greenhouse gas emissions savings of new systems. Aston University researchers are helping to make rice straw processing in India and the Philippines less environmentally damaging. The University will be contributing to a new international collaboration, the Renewable, Inclusive Carbon-negative Energy (RICE) project, funded by Innovate UK Energy Catalyst programme to unlock renewable energy for rice farmers. Already the University has worked with UK company Straw Innovations in the Philippines and now the two are expanding their collaboration to benefit more of the continent. Aston University working with UK company Straw Innovations and Indian enterprise, Takachar Rice straw is a crop waste byproduct and each year across Asia 300 million tonnes of it go up in smoke when burnt after harvest. This releases emissions and air pollutants that triple risks of increased respiratory diseases and accelerate climate change. India and the Philippines are the world’s second and eighth largest rice producers respectively and together they produce 130 million tonnes of both rice and straw per year. Aston University and Straw Innovations and will be collaborating with an Indian award winning small and medium sized enterprise, Takachar. The firm has developed small scale, low-cost, portable equipment which can convert agricultural waste on-site into higher value bioproducts such as fertilizer blends, chemicals and biofuels. "The company will develop a super-sized version which is 10 times bigger than their current device, make it adaptable to rice mills, and will send it to Straw Innovations, so the two firms can test out different business models for farmer adoption/benefit. Straw Innovations will also send their machines from the Philippines to India mid-project and the two countries will test out different business models for farmer adoption/benefit. And for the first time they will tap into the heat produced in the waste process to dry rice, instead of using diesel or kerosene. University researchers will lead on assessing the sustainability of the project, calculating the greenhouse gas emissions savings of the new systems introduced by Straw Innovations and Takachar. Sustainability expert Dr Mirjam Röder will also engage with the farming community and rural stakeholders to quantify how the systems can increase farmer incomes, equality of opportunity, food security and decarbonisation benefits, whilst highlighting any trade-offs. Dr Röder who is based at Aston University’s Energy & Bioproducts Research Institute (EBRI) said: “Environmentally, rice produces 48% of all global crop emissions, due to methane from flooded fields. This is halved when the straw is removed and reduced further when its carbon is stored in biochar. We are aiming for carbon negative which means removing carbon dioxide (CO₂) from the atmosphere or sequestering more CO₂ than is emitted. “Our new research leads on from our rice straw bio gas hub project with Straw Innovations, SEARCA and Koolmill and we’re pleased to be building further relationships with new partners in India. In January Biomass and Bioenergy published a paper about the topic written by Dr Röder, the director of EBRI Professor Patricia Thornley and Craig Jamieson of Straw Innovations called The greenhouse gas performance and climate change mitigation potential from rice straw biogas as a pathway to the UN sustainable development goals. Craig Jamieson from Straw Innovations said "We’ve been pioneering rice straw work with the team at Aston University for the past seven years. We're delighted to continue that strong partnership and widen it to include Takachar in this new project. “Takachar is a leader in making biochar from crop residues and our partnership with them is very strategic. We look forward to combining our new improved straw harvesting technology with their scaled-up biochar production. It will be a step change, creating a new, more efficient system for carbon negative energy and soil improvement for rural communities across Asia." Vidyut Mohan who founded Takachar said: “We are excited to partner with Aston University and Straw Innovations. “Our combined solutions can significantly move the needle in reducing crop residue collection costs and biochar production costs for carbon removal." Notes to Editors Rice straw is a crop waste byproduct and each year across Asia 300 million tonnes of it go up in smoke when burnt after harvest https://tinyurl.com/2afjhhsj To read The greenhouse gas performance and climate change mitigation potential from rice straw biogas as a pathway to the UN sustainable development goals visit https://www.sciencedirect.com/science/article/pii/S0961953424000254, Biomass and Bioenergy Volume 182, March 2024, 107072 Mirjam Röder and Patricia Thornley Energy & Bioproducts Research Institute (EBRI), College of Engineering and Physical Sciences, Aston University, Aston Triangle, Birmingham, B4 7ET, United Kingdom Craig Jamieson Straw Innovations Ltd., Lawes Open Innovation Hub, Rothamsted Research, West Common, Harpenden, HERTS, AL5 2JQ, United Kingdom https://doi.org/10.1016/j.biombioe.2024.107072 About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
Climate change research trailblazer elected to prestigious list of AAAS Fellows
University of Delaware professor Rodrigo Vargas has been elected as a fellow of the American Association for the Advancement of Science (AAAS) — one of the largest scientific societies in the world and publisher of the Science family of journals. The new class of AAAS Fellows includes 502 scientists, engineers and innovators across 24 disciplines, who are being honored for their scientifically and socially distinguished achievements. Vargas, professor of ecosystem ecology and environmental change in UD’s College of Agriculture and Natural Resources, is recognized "for distinguished contributions to carbon dynamics across the terrestrial-aquatic interface, development of environmental networks, novel data analysis tools and his leadership in creating a more diverse scientific workforce." Deborah Allen, who retired from UD in 2019 as a professor of biological sciences, was also names as a fellow. She was cited “for transformational contributions to STEM education nationally and internationally, particularly for developments in problem-based learning and faculty development.” Vargas is an ecosystem ecologist who studies how nature-based solutions can help address global environmental change in both terrestrial and coastal ecosystems, Vargas uses a variety of research methods, including data mining, machine learning, remote sensing, measurements of greenhouse gas fluxes and modeling techniques for forecasting applications.
Healthy Environment, Healthy People: The Intersection Between Climate and Health
How is climate change influencing our health? Why does climate change have a greater impact on vulnerable populations and low-income people? How does the U.S. health care system affect the climate? How can health care systems improve their impact on the climate and the environment? ChristianaCare’s inaugural Climate and Health Conference addressed these topics and raised possible solutions at the John H. Ammon Medical Education Center on the Newark, Delaware, campus on April 12. At the conference, the common denominator was this: An unhealthy environment can lead to illnesses and deaths from air pollution, high heat, contaminated water and extreme weather events. Health systems, government entities, community organizations and individuals all have a role to play in decreasing these effects. “Climate, the environment and health care systems are intertwined,” said Greg O’Neill, MSN, APRN, AGCNS-BC. “We need to pay close attention to this relationship so we can improve health for everyone.” O’Neill is director of Patient & Family Health Education and co-chair of the Environmental Sustainability Caregiver Committee at ChristianaCare. Climate change and intensifying health conditions Negative health effects are so closely tied to the environments where people live, work and play that The Lancet called climate change “the greatest global health threat facing the world in the 21st century [and] the greatest opportunity to redefine the social and environmental determinants of health.” At the conference, speakers addressed specific areas of concern. Asthma. Air pollutants, while largely invisible, are associated with asthma. What’s more, people who live in urban areas with little green space are more likely to have uncontrolled asthma, said speaker Robert Ries, M.D., an emergency medicine resident at ChristianaCare. And there’s the rub, he said: When people with asthma spend time in green spaces, it may improve their health. “In Canada,” he said, “some doctors prescribe nature – two hours a week for better overall health outcomes. Could we do that here?” Heat-related illness. Temperatures worldwide have been rising, increasing the likelihood of heat-related health incidents. Heat waves may be harmful to children and older adults, particularly those who don’t have access to air conditioning, swimming pools or transportation to the beach, said speaker Alan Greenglass, M.D., a retired primary care physician. Children visit the emergency room 20% more frequently during heat waves. Weather-related illness. Climate change is causing more floods, which may result in respiratory problems due to mold growth; and droughts, which may threaten water safety and contribute to global food insecurity, said speaker Anat Feingold, M.D., MPH, an infectious disease specialist at Cooper Health. Stress and anxiety. Climate change can affect mental health, even leading to “solastalgia,” which is distress about environmental change and its effect on one’s home, said speaker Zachary Radcliff, Ph.D., an adolescent psychologist at Nemours. He encouraged clinicians in the audience to keep this mental health concern in mind when seeing patients as it may become more prevalent. Cardiovascular disease risk. Frequent consumption of red meat increases the risk of cardiovascular disease, the top cause of death in the U.S. It’s also unhealthy for the environment, said speaker Shirley Kalwaney, M.D., an internal medicine specialist at Inova. Livestock uses 80% of available farmland to produce only 17% of calories consumed, creating a high level of greenhouse gas emissions. By comparison, plant-based whole foods decrease the risk of cardiovascular disease and diabetes. They use only 16% of available farmland, producing 82% of calories consumed. This makes reducing red meat in our diets one of the most powerful ways to lower the impact on our environment. Health equity and the environment People in low-income communities are more likely to live in urban areas that experience the greatest impacts of climate change, including exposure to air pollutants and little access to green space, said speaker Abby Nerlinger, M.D., a pediatrician for Nemours. A Harvard study in 2020 demonstrated that air pollution was linked with higher death rates from COVID-19 — likely one of the many reasons the pandemic has disproportionally harmed Black and Latino communities. Similarly, access to safe, affordable housing is essential to a healthy environment, said Sarah Stowens, Ed.D., manager of State Policy and Advocacy for ChristianaCare, who advocated for legislation including the Climate Solutions Act, another bill that increased oversight regarding testing and reporting of lead poisoning and a policy to reduce waste from topical medications. Opportunities for change in health care Reduce emissions from pharmaceuticals and chemicals. These emissions are responsible for 18% of a health system’s greenhouse gas emissions. One way to reduce this number is for clinicians to prescribe a dry-powder inhaler (DPI) instead of a metered-dose inhaler (MDI) when applicable and safe for the patient and to give patients any inhalers that were used in the hospital at discharge if they are going home on the same prescription. Hospitals have opportunities to reduce greenhouse gases while caring for patients, said Deanna Benner, MSN, APRN, WHNP, women’s health nurse practitioner and co-chair of ChristianaCare’s Environmental Sustainability Caregiver Committee. The health care sector is responsible for 8.5% of U.S. greenhouse gas emissions, the highest per person in the world. U.S. greenhouse gas emissions account for 27% of the global health care footprint. One way to significantly reduce the carbon footprint is to use fewer anesthetic gases associated with greater greenhouse gas emissions, Benner said. Limit single-use medical devices. Did you know that one surgical procedure may produce more waste than a family of four produces in a week? Elizabeth Cerceo, M.D., director of climate health at Cooper Health, posed this question during her talk. Sterilizing and reusing medical devices, instead of using single-use medical devices, she said, may meaningfully reduce hospital waste. ChristianaCare’s commitment to healthy environments and healthy people As one of the nation’s leading health systems, ChristianaCare is taking a bold, comprehensive approach to environmental stewardship. ChristianaCare reduced its carbon footprint by 37% in 2023 by purchasing emission-free electricity. ChristianaCare joined the White House Climate Pledge to use 100% renewable energy by 2025, reduce greenhouse gas emissions by 50% by 2030 and achieve zero net emissions by 2050. ChristianaCare has created an Environmental, Social and Governance structure to help advance a five-year strategic plan that delivers health equity and environmental stewardship. Nearly 150 staff members have become Eco-Champions, an opportunity to be environmental change-leaders in the workplace. In 2023, ChristianaCare’s successful environmental stewardship included: Reducing our carbon footprint by 37% by purchasing emission-free electricity. Recycling 96,663 pounds of paper, which preserved 11,485 trees. Reducing air pollution by releasing an estimated 33,000 fewer pounds of nitrogen oxides and sulfur oxides through the use of a cogeneration energy plant on the Newark campus. Donating 34,095 pounds of unused food to the Sunday Breakfast Mission in Wilmington, Delaware. Donating 1,575 pounds of unused medical equipment to Project C.U.R.E., ChristianaCare’s Virtual Education and Simulation Training Center and Delaware Technical Community College. “In quality improvement, they say you improve the things that you measure,” O’Neill said in expressing goals for continued success. In looking ahead, said Benner, “I really hope that this conference is the catalyst for positive change with more people understanding how climate is connected to health, so that we can protect health from environmental harms and promote a healthy environment for all people to thrive.”
Aston University research centre to focus on using AI to improve lives
• New centre specifically focuses on using AI to improve society • Current research is designed to improve transport, health and industry • “There have been a lot of reports focusing on the negative use of AI...this is why the centre is so important now.” Aston University researchers have marked the opening of a new centre which focuses on harnessing artificial intelligence (AI) to improve people’s lives. The Aston Centre for Artificial Intelligence Research and Application (ACAIRA) has been set up to become a West Midlands hub for the use of AI to benefit of society. Following its official opening, the academics leading it are looking to work with organisations and the public. Director Professor Anikó Ekárt said: “There have been a lot of reports focusing on the negative use of AI and subsequent fear of AI. This is why the centre is so important now, as we aim to achieve trustworthy, ethical and sustainable AI solutions for the future, by co-designing them with stakeholders.” Deputy director Dr Ulysses Bernardet added: “We work with local, national and international institutions from academia, industry, and the public sector, expanding Aston University’s external reach in AI research and application. “ACAIRA will benefit our students enormously by training them to become the next generation of AI practitioners and researchers equipped for future challenges.” The centre is already involved in various projects that use AI to solve some of society’s challenges. A collaboration with Legrand Care aims to extend and improve independent living conditions for older people by using AI to analyse data collected through home sensors which detect decline in wellbeing. This allows care professionals to change and improve individuals’ support plans whenever needed. A project with engineering firm Lanemark aims to reduce the carbon footprint of industrial gas burners by exploring new, more sustainable fuel mixes. Other projects include work with asbestos consultancy Thames Laboratories which will lead to reduced costs, emissions, enhanced productivity and improved resident satisfaction in social housing repairs and a partnership with transport safety consultancy Agilysis to produce an air quality prediction tool which uses live data to improve transport planning decisions. The centre is part of the University’s College of Engineering and Physical Sciences and its official launch took place on the University campus on 29 February. The event included a talk by the chair of West Midlands AI and Future Tech Forum, Dr Chris Meah. He introduced the vision for AI within the West Midlands and the importance of bringing together academics, industry and the public. Current research in sectors such as traffic management, social robotics, bioinformatics, health, and virtual humans was highlighted, followed by industry talks from companies Smart Transport Hub, Majestic, DRPG and Proximity Data Centres. The centre’s academics work closely with West Midlands AI and Future Tech Forum and host the regular BrumAI Meetup. About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
Aston University to train the UK’s next generation of decarbonisation experts
Consortium led by the University is to receive almost £11 million to open doctoral training centre Will focus on use of biomass to replace fossil fuels and removal of CO2 “…part of the UK’s biggest-ever investment in engineering and physical sciences doctoral skills”. Aston University is to train the next generation of scientists tasked to remove greenhouse gases from the environment. A consortium led by the University is to receive almost £11 million to open a doctoral training centre which will focus on leading the UK towards net zero. The centre, based at Aston University, will bring together world-leading research expertise and facilities from the University of Nottingham, Queens University Belfast and the University of Warwick and more than 25 industrial partners. The funding has been announced by the UK science, innovation and technology secretary Michelle Donelan. The centre is to receive almost £8 million of government money while the remainder will be made up through match funding and support from industry and the four universities. The government has described it as part of the UK’s biggest-ever investment in engineering and physical sciences doctoral skills, totalling more than £1 billion. The Aston University centre will focus on the use of biomass to replace fossil fuels and removal (or capture) of CO2 from the atmosphere, with the potential to create new sources of fuels and chemicals. Integration of these two areas will lead to significant cost and energy savings. Called NET2Zero, the centre will train PhD students across the full range of engineered greenhouse gas removal techniques including direct air capture, CO2 utilisation (including chemical and material synthesis), biomass to energy with carbon capture and storage, and biochar. The students will work in the centre’s laboratories exploring the conversion of feedstock into alternative energy, improving conversion processes and measuring how the new technologies will impact the economy. Supported by a range of relevant industrial, academic and policy partners the centre will equip students to develop the broad range of skills essential for future leaders in decarbonisation. NET2Zero will be led by Professor Patricia Thornley, director of Aston University’s Energy and Bioproducts Research Institute (EBRI). She said: “I am delighted that this centre for doctoral training has been funded. The climate emergency is so stark that we can no longer rely on demand reduction and renewables to meet our decarbonisation targets. “If we are to have greenhouse gas removal options ready in time to be usefully deployed, we need to start now to expand our knowledge and explore the reality of how these can be deployed. This partnership of four leading UK universities with key industrial and policy partners will significantly augment the UK’s ability to deliver on its climate ambitions.” “We are absolutely delighted to be working with our partners to deliver this unique and exciting programme to train the technology leaders of the future. Our students will deliver research outcomes that are urgently needed and only made possible by combining the expertise and resources of all the centre’s academic and industry partners.” Science and technology secretary, Michelle Donelan, said: “As innovators across the world break new ground faster than ever, it is vital that government, business and academia invests in ambitious UK talent, giving them the tools to pioneer new discoveries that benefit all our lives while creating new jobs and growing the economy. “By targeting critical technologies including artificial intelligence and future telecoms, we are supporting world class universities across the UK to build the skills base we need to unleash the potential of future tech and maintain our country’s reputation as a hub of cutting-edge research and development.” Centres for doctoral training have a significant reputation in training future UK academics, industrialists and innovators who have gone on to develop the latest technologies. The University of Nottingham’s Dr Eleanor Binner said: “We are absolutely delighted to be working with our partners to deliver this unique and exciting programme to train the technology leaders of the future. Our students will deliver research outcomes that are urgently needed and only made possible by combining the expertise and resources of all the Centre’s academic and industry partners.” Her colleague Professor Hao Liu added: “We look forward to providing our best support to the NET2Zero CDT, including using our past and existing successful experience in leading other centres, to make this an exemplar.” Overall, there will be 65 new Engineering and Physical Sciences Research Council (EPSRC) centres for doctoral training which will support leading research in areas of national importance including the critical technologies AI, quantum technologies, semiconductors, telecoms and engineering biology. The funding is from a combination of £500 million from UK Research and Innovation and the Ministry of Defence, plus a further £590 million from universities and business partners. Notes to Editors EPSRC and BBSRC Centre for Doctoral Training in Negative Emission Technologies for Net Zero (NET2ZERO) Led by: Professor Patricia Thornley, Aston University The Engineering and Physical Sciences Research Council (EPSRC) is the main funding body for engineering and physical sciences research in the UK. Our portfolio covers a vast range of fields from digital technologies to clean energy, manufacturing to mathematics, advanced materials to chemistry. EPSRC invests in world-leading research and skills, advancing knowledge and delivering a sustainable, resilient and prosperous UK. We support new ideas and transformative technologies which are the foundations of innovation, improving our economy, environment and society. Working in partnership and co-investing with industry, we deliver against national and global priorities. The Biotechnology and Biological Sciences Research Council (BBSRC) invests in world-class bioscience research and training on behalf of the UK public. Our aim is to further scientific knowledge, to promote economic growth, wealth and job creation and to improve quality of life in the UK and beyond. Funded by government, BBSRC invested £451 million in world-class bioscience in 2019-20. We support research and training in universities and strategically funded institutes. BBSRC research and the people we fund are helping society to meet major challenges, including food security, green energy and healthier, longer lives. Our investments underpin important UK economic sectors, such as farming, food, industrial biotechnology and pharmaceuticals. About Centres for Doctoral Training A CDT trains doctoral students with each centre focused on a specific theme or topic. Most CDTs will support five cohorts (a new cohort starting each academic year) with a cohort supporting an average of thirteen students. Fourteen of the centres will have four cohorts rather than five. EPSRC supports doctoral students through three training routes (Doctoral Training Partnerships, ICASE awards and CDTs), and in the last 30 years has supported over 50,000 doctoral students. About Aston University For over a century, Aston University’s enduring purpose has been to make our world a better place through education, research and innovation, by enabling our students to succeed in work and life, and by supporting our communities to thrive economically, socially and culturally. Aston University’s history has been intertwined with the history of Birmingham, a remarkable city that once was the heartland of the Industrial Revolution and the manufacturing powerhouse of the world. Born out of the First Industrial Revolution, Aston University has a proud and distinct heritage dating back to our formation as the School of Metallurgy in 1875, the first UK College of Technology in 1951, gaining university status by Royal Charter in 1966, and becoming The Guardian University of the Year in 2020. Building on our outstanding past, we are now defining our place and role in the Fourth Industrial Revolution (and beyond) within a rapidly changing world. For media inquiries in relation to this release, contact Nicola Jones, Press and Communications Manager, on (+44) 7825 342091 or email: n.jones6@aston.ac.uk
Since 2022, the U.S. Food and Drug Administration has been actively urging consumers to avoid purchasing or consuming tianeptine -- a synthetic drug commonly called "gas station heroin" that can mimic the actions of opioids like fentanyl. Now, the FDA is upping the urgency of it's warnings as vendors continue to market the drug as a so-called "dietary supplement." UConn's C. Michael White, a Distinguished Professor of Pharmacy Practice, spoke with The Conversation about the problem with tianeptine in a must-read Q-and-A: What is tianeptine and why is it risky? Tianeptine stimulates the same receptors as well-known opioids such as fentanyl, heroin and morphine. When these drugs make their way from the blood to the brain, they bind to the “mu” type opioid receptor that triggers the sought-after pain relief and euphoria of those drugs as well as the dangerous effects like slowed or stopped breathing. High doses of tianeptine can bring euphoric effects similar to heroin and can also bring about the dissociative effect – the perception of your mind being disconnected from your surroundings and body – that is reminiscent of ketamine, an anesthetic that has a role in treating post-traumatic stress disorder and depression but has also commonly been abused as a street drug. Products containing tianeptine are often called “legal high drugs” – sometimes dubbed “gas station drugs” – a term used for all non-FDA-approved synthetic drugs that are sold casually in gas stations, online and elsewhere. What are the major adverse effects that people can experience? Data from clinical trials, case reports and poison control centers shows that tianeptine commonly induces agitation. This is typically accompanied by a fast heart rate and high blood pressure, confusion, nightmares, drowsiness, dry mouth and nausea, among other conditions. The most serious adverse events are slowed or stopped breathing, coma, heart arrhythmia and death. When long-term users try to stop tianeptine use, they often experience withdrawal symptoms reminiscent of opioid withdrawal. Consumers need to be aware that products containing tianeptine may not adhere to good manufacturing practices. This means they could contain lead or have other heavy metal contamination or be contaminated by microorganisms such as salmonella or mold. They could also contain other drug ingredients that are not disclosed. Knowingly or unknowingly combining active ingredients can increase the risk of adverse events. Additionally, the amount of the active ingredient contained in the product can vary widely, even with the same manufacturer. So past use does not guarantee that using the same amount will provide the same effect. How are these drugs sold in the US if they are not FDA-approved? If a drug product is not FDA-approved for prescription or over-the-counter-use, it is the Drug Enforcement Agency that is responsible for controlling market access. Before the DEA can ban an active ingredient in a drug product, it must be designated Schedule I, meaning the drug has no legitimate medical purpose and has high abuse potential. Manufacturers do not have to alert the DEA before selling their products to U.S. citizens. This means the DEA must detect an issue, identify the products causing the issue, identify the active ingredients in the product in question and do a full scientific review before designating it as Schedule I. Tianeptine came to market masquerading as a dietary supplement in gas stations and smoke shops, even though it is a synthetic compound. Tianeptine is also sold online allegedly for research purposes and not for human consumption. Tianeptine is undergoing clinical trials for the treatment of pain and depression, but sellers do nothing to make this type of labeling clear to consumers or to restrict purchases to researchers. What can people do to protect themselves and their families? Non-FDA-approved products containing synthetic drugs are very risky to use and should be avoided. FDA-approved drugs are available by a prescription from a health professional or over the counter with active ingredients on an approved list. If someone in a gas station, smoke shop or over the internet touts the benefits of a non-FDA-approved drug product – for pain or anxiety relief, to increase energy or for a buzz – be aware. It could be dangerous the first time you use it, but using it successfully once also doesn’t mean the experience will be the same the next time, and continued use can cause addiction. If a product is being sold “not for human consumption” or “for research purposes only,” you are at a high risk if you take it. Before you take any dietary supplement, make sure you check the active ingredient to be sure that it is, in fact, a natural product and not a synthetic chemical. If someone you know has bags with unmarked powder, a product labeled for research use or not for human consumption, or tablets or capsules not in standard drug bottles, that is a sign of a potentially dangerous situation. Standard drug tests sold over the counter are not designed to pick up tianeptine. One of the main reasons that people use these alternative substances of abuse over regular opioids, cannabis or amphetamines is that they are much harder to detect through work- or at-home drug screens by parents, schools, employers, probation officers and so on. If the DEA is not responding to emerging threats quickly enough, individual states can also act to ban sales of dangerous active ingredients in products. As of January 2024, at least 12 states have banned the sale of tianeptine, according to the FDA, although people in those states can still illegally procure it from the internet. So contacting your state legislators could be a place to start exercising your power to help prevent the harms from these products. This is an important piece, and if you are looking to know about tianeptine and the threat it poses to consumers in America, then let us help. Dr. C. Michael White is an expert in the areas of comparative effectiveness and preventing adverse events from drugs, devices, dietary supplements, and illicit substances. Dr. White is available to speak with media -- click on his icon now to arrange an interview today.
Casting Light on the Dark Universe, Euclid's Mission Shows Promise
On December 7, 1968, the National Aeronautics and Space Administration (NASA) successfully launched the first functional space telescope into orbit. In the 55 years since, dozens of these crafts have embarked on missions of discovery, advancing and transforming our understanding of the cosmos. Among the latest is Euclid, a wide-angle space telescope developed by the European Space Agency (ESA). Equipped to chart portions of the universe that are not directly observable and currently shrouded in mystery, Euclid is working to generate a three-dimensional map unlike any other, surveying billions of galaxies out to 10 billion light-years. This past month, the first images from its journey were released. Joey Neilsen, PhD, is a world-renowned astrophysicist, a frequent collaborator with NASA and an assistant professor in Villanova University’s College of Liberal Arts and Sciences. From his perspective, Euclid’s early returns evidence its voyage’s incredible potential. “In Euclid’s first image of the Perseus cluster, the sheer number of galaxies is really astonishing,” said Dr. Neilsen. “We talk a lot about how the universe is mostly empty space—and it is!—but it’s also enormous, and it’s really stunning that there’s room for so many galaxies in just a small patch of sky. There are 1,000 galaxies here huddled together in this cluster and over 100,000 in the background. “I also note some pale purple patches in the image of NGC 6822. These are planetary nebulae, the layers of gas and dust blasted off by stars at the ends of their lives. It’s amazing to be able to see these so clearly in images that show the entire galaxy and its environment at the same time.” According to Dr. Neilsen, Euclid’s remarkable visuals are the product of a calculated tradeoff. The ESA craft sacrifices the fine resolution of images taken by other observatories, like NASA’s James Webb Space Telescope, to capture cosmic phenomena in greater breadth. By collecting these visuals, Euclid aims to spark breakthroughs on subjects as of yet understudied—breakthroughs that could benefit Dr. Neilsen’s field of research. “Euclid’s mission is to understand the evolution of the dark components of the universe: the invisible dark matter whose gravity holds large structures like galaxies and galaxy clusters together and the dark energy responsible for the accelerating expansion of the universe,” he explained. “Much of my research focuses on a different aspect of the dark universe (black holes), but there is a puzzle that might connect: observations of very distant galaxies show there were very massive black holes very early on. How did these behemoths grow so big so fast? If would be neat if Euclid helped us to better understand the early universe in a way that informed our understanding of the growth of black holes.” In tracking and investigating the dark entities that compose and mold the cosmos, Euclid could very well offer insights into the history and development of over 95% of all energy and matter—and perhaps into the very fabric of existence itself. It is reasonable to wonder whether, when its mission is complete in six years’ time, the telescope could provide us with answers to questions that have gone unaddressed for six billion years. “For me, the best-case scenario would be that Euclid would show clear evidence of something that’s hard to explain with our current models,” said Dr. Neilsen. “For example, right now, we have ‘Hubble tension,’ a discrepancy between measurements of the expansion of the universe from when it was young and from the current era… The moments when things don’t add up are the ones where we learn the most about how the universe works. So, I’ll keep my fingers crossed for a surprise and for more to learn over the next six billion years.”
Small island states forging climate legacy
Comprising nations that are often overshadowed by larger counterparts on the economic stage, the Alliance of Small Island States (AOSIS) has become a formidable presence in shaping the discourse around climate change. Despite their limited economic clout, the AOSIS group wields influence by virtue of their vulnerability to the frontlines of climate impacts, making them pioneers in advocating for climate justice. Now at the heart of global climate negotiations, the AOSIS group has successfully spearheaded the establishment of a breakthrough in climate justice: A dedicated fund geared towards assisting less developed nations in bolstering their adaptation and resilience efforts. Kalim Shah, associate professor of energy and environmental policy at the University of Delaware, can comment on AOSIS and its role at The United Nations Framework Convention on Climate Change (also known as UNFCCC). He makes the following points: The AOSIS group, which is the negotiating body for small island developing states (SIDS) in The United Nations Framework Convention on Climate Change (UNFCCC), has emerged over the last decade as a major force in the global negotiations (even though the group comprises of small island nations which are typically not significant economic powerhouses=). They continue to lead on a number of key components of the UNFCCC climate agreement and wield this power largely because small islands are on the frontlines of climate impacts like seal level rise and are among the first to be impacted, even as they hold "no responsibility" for global warming. Small island states have now successfully led the negotiations for and approval of acknowledgement of "loss and damage" and a specific new loss and damage fund. This fund is dedicated to helping less developed countries with their adaptation and resilience building needs. “Loss and damage” is a general term used in UN climate negotiations to refer to the consequences of climate change that go beyond what people can adapt to, or when options exist but a community doesn’t have the resources to access or utilize them. This could be a turning point for the Alliance of Small Island States, since over 70% of climate funds to date have been allocated or distributed to climate mitigation efforts and very little to the SIDS. Since SIDS do not account for massive amounts of Greenhouse gas emissions, this was of little real help to them. But now the global consensus is understanding that the 1.5 degrees threshold of the Paris Accord will be passed and more efforts on the adaptation side must be available for the most vulnerable, such as SIDS to cope with climate impacts that are inevitable. To set up an interview with Professor Shah, visit his profile and click on the "contact" button.
Cold and winter weather is about to settle in and CAA South Central Ontario (CAA SCO), Toronto Police Service (TPS), Ontario Provincial Police (OPP), and the Ontario Government want to know: are you winter ready? The four organizations have joined forces to help inform Ontarians that now is the time to get your winter tires installed, check your car battery and stock your car with an emergency kit with all the essentials needed for the winter months. “Our weather can be unpredictable, especially in the winter. It’s important to think ahead and prepare before driving conditions become hazardous,” says Nadia Matos, Manager External Communications, CAA SCO. “It all comes down to safety and there’s no time like the present to ensure you and your car are properly equipped.” TPS, OPP and the Ontario Government are also reinforcing the importance of driver behaviour. "The safety of Ontario’s roads is always a top priority, and we are continuing to work closely with our road safety partners to promote safe driving habits this winter season,” says Prabmeet Sarkaria, Minister of Transportation. “Road safety is everyone’s responsibility, so when you’re heading out, always remember to slow down and drive according to weather and road conditions. Together, we can keep Ontario’s roads and highways safe for everyone this winter.” “Winter driving can be stressful. Motorists need to be alert at all times when on the road, even in the most routine circumstances like driving to and from work,” says Police Constable Sean Shapiro, Toronto Police Service. “That includes slowing down and driving according to weather conditions and ensuring you give yourself plenty of time to get to your destination.” This year motorists also need to be aware of new amendments to the Highway Traffic Act. “It is now illegal to pass snowplows working side by side on Ontario highways. Only pass a snowplow if the lane is completely clear of any part of the plow, including its blade,” says Sargeant Kerry Schmidt, Ontario Provincial Police. Offenders may face a fine ranging from $150 to $1,000. This winter, before heading out on the road motorists can download and use the 511 app to check the weather and road conditions before they leave home. The 511 app can be found at 511on.ca or in the app store on your mobile device. Motorists should also refer to some other tips to help make their winter drive a safer one: Keep your gas tank at least half full at all times. Cold weather causes condensation in the system, which can lead to fuel-line freeze-up and can prevent your car from starting. Remove excess snow from your car before driving off. Any snow left on the roof might slide down onto the windshield and obstruct your vision. Keep your wiper fluid full. Keep extra fluid in your trunk. Make sure it’s rated for -40℃. Pack a fully stocked emergency kit. The kit should include a flashlight and extra batteries, warning devices (e.g., flares, reflective vests/strips), a first aid kit, blankets, jumper cables, non-perishable food and water plus a phone charger. Be sure to also keep an ice scraper, small shovel and snow brush handy in your car at all times.
