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Villanova Professor Investigates Impacts of Hurricanes on Florida Coast
In October 2024, during the height of hurricane season, Hurricanes Milton and Helene swept across the southeastern United States. Their impact on Florida was severe, with damages totaling tens of billions of dollars. While communities in affected states continue to rebuild, a team of researchers mobilized to assess the damage caused in the hopes of better understanding the impacts of hurricane activity in the future. Jonathan Hubler, PhD, assistant professor of civil and environmental engineering at Villanova University, along with Villanova civil engineering graduate student Sarah Burghardt, traveled to Florida with a joint team from the Nearshore Extreme Events Reconnaissance (NEER) Association and the Geotechnical Extreme Events Reconnaissance (GEER) Association to investigate the immediate aftereffects of Hurricanes Milton and Helene. The National Science Foundation-sponsored trip gathered natural hazards research experts and practitioners from across the country, who quickly jumped at the opportunity to examine the impacts of two tropical storms that occurred in quick succession of each other. A few main areas of study were identified by the team so they could hit the ground running once they touched down in Florida. The researchers wanted to focus primarily on the effects of storm surge, waves, sediment erosion and deposition, and debris transport and accumulation from both hurricanes through pre-storm, during-storm, and post-storm data collection. Over 750 miles were covered across just a few days as data was surveyed and collected from Cedar Key, Horseshoe Beach, Venice, Port Charlotte, Port St. Lucie, Vero Beach and other coastal towns. “This was a unique opportunity for our team of scientists because our team collected data before the storms so we will be able to analyze the direct impacts of the storms utilizing the post-storm data that we collected,” said Dr. Hubler. “Although the destruction was difficult to witness firsthand, we are hopeful that our findings will help to mitigate the impact of these major storms in the future.” The data set collected from these storm sites is expected to improve the understanding, prediction, and mitigation of erosion as well as assess the performance of different shoreline protection systems during severe tropical storm events. Findings from the trip will be shared publicly through the NSF’s Natural Hazards Engineering Research Infrastructure (NHERI) DesignSafe-CI, a nationwide network tailored for data sharing among the natural hazards engineering research community. Local Florida communities will also be notified of relevant findings to increase awareness and understanding of risk assessments when preparing for tropical storm events. “It was a productive few days spent in Florida as we collected a significant amount of data and covered a lot of ground in a short span of time. I’m grateful to have been included on this research team and that I had the chance to bring one of my students along. This real-world experience in the field will help further her learning as she completes her studies,” said Dr. Hubler. Dr. Hubler traveled with the NEER and GEER team again in November for another data collection effort. Although the 2024 hurricane season has come to a close, researchers like Dr. Hubler continue to study their impact year-round to discover new mitigation strategies for next year’s season.
Georgia Southern cuts ribbon for Jack and Ruth Ann Hill Convocation Center
Georgia Southern University officials cut a ceremonial ribbon to open the Jack and Ruth Ann Hill Convocation Center, affectionately known as “The Hill,” in a celebration on Dec. 4. At 95,000 square feet, it is the largest event venue space between Savannah and Macon and serves as the signature building on the University’s south campus, fronting Veterans Memorial Parkway (US 301 Bypass). “It’s more than a building; it’s a place of opportunity,” said Georgia Southern President Kyle Marrero. “Inside ‘The Hill,’ our students will learn, our athletes will compete and our community will come together. From classrooms to research labs, from strength and conditioning spaces to media rooms, every inch of this facility is designed with our future in mind.” The exterior of the Jack and Ruth Ann Hill Convocation Center, which evokes the image of a soaring eagle’s wings, illustrates the University’s commitment to supporting students as they soar beyond. Inside the center, there is approximately 8,000 square feet of new space for a Waters College of Health Professions sports psychology lab, a satellite research lab, faculty offices, a conference room and classrooms. The community will be afforded space for community activities and access to a new strength and conditioning area for research and other programs. The arena, which will serve as the new home court for Georgia Southern Eagles NCAA basketball games, provides more than 5,500 in seating capacity, a 50% increase over Hanner Fieldhouse. The arena has chairback seats along both sidelines and behind one baseline, and allows future opportunities to add additional programming to the building, such as more premium seating, suites and club areas. “It is an honor to officially welcome all of Eagle Nation to the gorgeous Jack and Ruth Ann Hill Convocation Center with today’s ribbon-cutting ceremony,” Georgia Southern Director of Athletics Chris Davis told the crowd. “We look forward to christening the facility with women’s and men’s basketball games on Thursday and Saturday, respectively. I especially want to thank Gov. Kemp, the Georgia General Assembly, Dr. Kyle Marrero, the University leadership and our generous donors for this unprecedented opportunity to elevate the stature of our basketball programs with this outstanding facility that will provide an exciting venue to watch the Eagles soar on the court. Hail Southern!” The center also houses the men’s and women’s basketball program and includes spaces for coaches’ offices, locker rooms, laundry/training room, equipment room, strength and conditioning space, fueling station, media room, visiting team locker room and a media green room. Senior Grace Drawdy, who is a multimedia journalism major, member of the swimming and diving team and president of the Georgia Southern Student-Athlete Advisory Committee, is grateful for this contribution. “If I could describe my time here at Georgia Southern, both individually and as a student-athlete, the one word I would use is transformational,” said Drawdy. “Through the opportunities and resources provided to me by Georgia Southern, I have transformed from a young girl who was unsure of her future to a confident woman who is poised for success wherever she may go. I’ve also had the pleasure of watching the University transform while I’ve been here. And what I’m most excited for is the transformation of our athletic training and physical therapy programs. “This space will enhance athletic training and sports psychology for students within the major, but also the student-athletes who access these services every single day. I’m so thankful to be a part of the ribbon-cutting ceremony today, but I’m even more thankful to be a part of a University that continually helps me grow and be successful as a student, as an athlete, and most importantly, as a person.” The new Hall of Fame for Eagle Athletics is located in the building’s concourse. The seating capacity for the events space is more than 5,900 (including nearly 970 seats on the floor). Event-level space also includes a ticketing office, security command center, a Coca-Cola micro market featuring checkout-free technology, and four dividable classrooms that can convert into additional flexible spaces. Marrero thanked the partners who helped to make this impressive $64.4 million two-story complex a reality. “We express our deepest gratitude to Gov. Brian Kemp, the Georgia General Assembly, with the best legislative delegation in the state of Georgia, led by the Speaker of the House Jon Burns, the Board of Regents, and University System of Georgia leadership under Chancellor Sonny Perdue. Your vision and willingness made this project a reality.” He also thanked the University Foundation Board, the Athletic Foundation Board and donors for their generous gifts and unwavering support of such a meaningful addition to the institution. The building is named for Jack Hill (‘66), who was the longest-serving Georgia senator when he died in April 2020. He was a senator for 30 years, serving as chairman of several crucial committees, including Appropriations, which has broad jurisdiction over legislation involving budgeting and spending state and federal funds. With Hill’s support, Georgia Southern reached new heights as an institution serving the southeast region and the state of Georgia. Hill was instrumental in helping the University expand its programs and build several new state-of-the-art facilities, including the Engineering and Research Building, which opened for classes in January 2021. Hill’s wife of 48 years, Ruth Ann, focused her life on public education and retired as principal of Reidsville Elementary School. She was a Triple Eagle, earning degrees from Georgia Southern in 1973, 1990 and 1991. “We’re here to celebrate the great legacy of two individuals who made a difference,” Ga. Rep. Jon Burns enthusiastically shared with the audience. “They were both faithful public servants, because they cared more about their neighbors than they did about themselves. That was very clear. This University and this state could not be what it will be and what it is without the contributions and the foresight of people like Jack Hill. What he endowed this University with was an opportunity for a better life, for a better education for all Georgians and all people who wanted to attend this University. His fingerprints are all over this place. We all know that with the buildings, with the opportunities for these students, for these young people, they’re boundless. Because of the foresight and the work of Jack and Ruth in this place, we are privileged to sit here. Today was a dream of Senator Hill.” Marrero also reflected on the outstanding legacy of Jack and Ruth Ann Hill. “As Senator Hill once said, ‘The power of education is the ability to produce knowledge, character and skill in a way that is beneficial to society,’” Marrero shared.” His legacy embodies that ideal. Today is a celebration of what we’ve achieved together, but it’s also a look to the future. “The Hill” stands as a symbol of our University’s growth and commitment to providing exceptional opportunities for our students and community. “So, today, let us cut this ribbon and open the doors to a new era at Georgia Southern,” he concluded. “Together, we will continue to honor the legacy of Jack and Ruth Ann Hill while building a brighter future for Eagle Nation.” Construction for the Jack and Ruth Ann Hill Convocation Center began in early 2023 and finished late 2024. The program manager for the project is BDR Partners; the architect/engineer is LS3P-AECOM; the site/civil engineer is Hussey, Gay, Bell; the mechanical engineer is Dulohery Weeks; the general contractor is Whiting-Turner. Additional partners are GSFIC and Board of Regents USG. If you're interested in learning more about Georgia Southern University then let us help - simply contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
Georgia Southern welcomes Georgia state leaders on Wexford Campus in Ireland
Georgia Southern University’s Wexford Campus in Ireland has been invigorating educational, civic, business and trade opportunities between Ireland’s southeast region and the state of Georgia since its establishment in 2022. The bicultural partnership has drawn the attention of state leaders in Georgia, prompting a recent visit to the international campus where Georgia Southern and its Irish partners welcomed the delegation. “We hosted legislators and leaders of industrial development and enterprise organizations,” said Howard Keeley, Ph.D., director of Georgia Southern’s Center for Irish Research and Teaching (CIRT). “These Georgia stakeholders believe that what Georgia Southern is doing in Ireland is important. One of the major concepts behind the Wexford Campus is that it’s a true campus, not just a study-abroad venue. So we’re pursuing several streams of activity. One is teaching and another is research. Another one is economic development, which includes internships and community engagement. We want to be in the community; therefore, to have leading constituents from a variety of industries in Georgia was very gratifying.” Among the attendees were U.S. Congressman Earl L. “Buddy” Carter; Georgia Department of Economic Development Commissioner Pat Wilson and five members of his senior staff, as well senior officials from electrical utilities, including Georgia Power; Trip Tollison, CEO of Savannah Economic Development Authority; Teresa MacCartney, chief operating officer for the University System of Georgia; and Georgia Rep. James Burchett (‘04), along with 10 additional members of the Georgia House of Representatives. “The main thing we wanted to do is show them what the student experience is like,” said Keeley. “We care about our students, and, using philanthropic funds, we’ve invested in a beautiful set of buildings, including one, built in 1886, that will house 50 students at a time. Each year, our goal is full capacity over six minimesters for a total of 300 Georgia Southern students. Historically a religious convent, that structure should open in spring 2026, after extensive remodeling. Many Georgia Southern students, including construction management and interior design majors, are gaining valuable professional skills by contributing to the endeavor.” The Wexford Campus already features the Learning Center, a historic administrative complex constructed in 1812 that has been transformed into a contemporary, high-tech educational space where students learn from local and international experts. They also present their research to peers and visiting Georgia Southern alumni while participating in high-impact experiential learning within the region. Visiting delegates were pleased to learn about the Honors College Global Scholars Program, which hosts 24 Honors College students who, taking an interdisciplinary approach, explore two themes for six weeks each spring in Ireland. This year, a prominent topic of study was sustainability in agriculture. One of Georgia Southern’s European research partners, South East Technological University Ireland, helped guide the students as they compared sustainability challenges along the coasts of Georgia and southeastern Ireland. The students drew on various research efforts, including important knowledge generated by Georgia Southern’s Institute for Water and Health. Similar integrated concepts also inform the summer and fall offerings. In 2024, they included two undergraduate global business courses, as well as the first Europe-based course from the MBA program at Georgia Southern’s Parker College of Business. One focus for the MBA students was Rosslare Europort, just south of Georgia Southern’s Wexford Campus, which has become Ireland’s fastest-growing port as multiple new direct routes to continental Europe have opened in response to Brexit. At a workshop facilitated by a top Rosslare Europort official, the MBA students explored international trade, logistics and supply chain management and the European regulatory environment. Spanning undergraduate, graduate and doctoral levels, the Wexford Campus has also provided courses in accounting, philosophy, sociology, geography, environmental biology, tourism and public health, among other disciplines. Shadowing Irish experts, population health science students from the Waters College of Health Professions focused on designing and delivering preventative-health programs, a critical matter in both Ireland and Georgia. “One of the metrics we use to measure success in Ireland is asking what makes it worthwhile for students to complete the course in Ireland as opposed to staying in the United States,” posed Keeley. “The bottom line is that we’re trying to provide a range of courses that look like Georgia Southern and that meet the degree needs, but also the employment needs in the state of Georgia. We’re always looking at how we can make our students more competitive, deepen their knowledge and give them as much hands-on experience as possible. This is really one of the things that we hope is a differentiator for us.” Notably, annual scholarships are available for the Honors College Global Scholars Program, Department of Political Science and International Studies students and Irish Studies students thanks to generous donations from alumni. In addition, philanthropic support has provided $1,000 to each participating student to offset the cost of transatlantic air travel. “The Wexford Campus’ directives exemplify Georgia Southern’s mission of providing holistic educational opportunities for our students to excel and grow,” said Annalee Ashley, Ed.D., Georgia Southern Vice President for External Affairs, Communications, and Strategic Initiatives, who participated in the trip. “Employers value global consciousness and intercultural skills when hiring, and our students who study abroad can enhance their skills, intellect and hireability in the marketplace. We are proud to serve Georgia and the entire southeastern region in this unique way, and to be supported by the state of Georgia as the University moves toward an R1 designation.” Beyond the campus, the group explored Johnstown Castle, an environmental and agricultural research center and heritage venue, as well as the Dunbrody Emigration Experience Center, whose newest permanent exhibition, Savannah Landing, is based on research by Georgia Southern students. The work highlights more than 170 years of historical ties that connect Savannah and Wexford, where hundreds boarded ships and crossed the Atlantic Ocean to arrive in Georgia’s coastal city in the mid-19th century. The centerpiece project, which was celebrated by the Irish prime minister at a ribbon-cutting in August, was made possible by $832,000 in research-grant funding, secured by the Dunbrody Center and Georgia Southern’s Center for Irish Research and Teaching. “Our guests got to experience history and understand the unique story that connects County Wexford to Savannah and, by extension, the state of Georgia,” noted Keeley. “Furthermore, they were able to see more than three-quarters of a million dollars of investment in Georgia Southern student work. That was super exciting.” The legislative group also met with Georgia Southern’s Irish partners, who shared what this relationship means to the people of Wexford and its hinterland, Southeast Ireland. “We invited all the players onto the field to strategically advance themes of education, economic development, and civic and cultural engagement,” said Keeley. “I believe they concluded that Ireland is a fit. It boasts a thriving economy that is modern, global and innovative. It’s the youngest economy in Europe in terms of workforce, and Ireland is one of the biggest investors in the U.S. economy.” Georgia Southern leadership and local Irish legislators, including four members of the Irish House of Representatives, Senator Malcolm Byrne and members of Wexford County Council, hosted Georgia’s VIPs with open arms. “They wanted to rally around us in the way that a family will rally around you,” said Keeley. “They couldn’t have done more. They totally rolled up their sleeves. It was a complete partnership hosting, and we were able to demonstrate that our network is so solid.” Wexford County Council leader Pip Breen shared opportunities for deeper connections with the Georgia delegation through the Irish nonprofit TradeBridge. Established in 2018, the entity facilitates trade and investment between the southeastern regions of Ireland and Georgia by developing new export markets and job creation opportunities. The trade corridor opens doors for southeastern Irish companies to establish a supportive base in southeastern Georgia, while also creating similar coordinates for companies based in southeastern Georgia to enter the European Union marketplace. Keeley, who was awarded the Presidential Distinguished Service Award for the Irish Abroad from the Government of Ireland in 2023, is a board member. “Georgia Southern’s footprint in southeastern Ireland is an important one for students and for the state of Georgia,” said Ga. Rep. Burchett. “The strides they are making not only allow students to participate in research in engineering, coastal sustainability, history and other important areas of study, but they also directly drive trade and investment opportunities between the southeastern regions of Georgia and Ireland. This was an amazing visit and we value our friendships within the Irish community.” Following the event, Burchett returned the hospitality with an invitation for Wexford County Council members to be recognized in person on the floor of the Georgia General Assembly in March 2025. “They very enthusiastically accepted the invitation,” Keeley shared. “I think when you’re involved in education, when you’re doing business and when you’re building out opportunities, the most important single thing is friendship and like-mindedness. You cannot achieve anything otherwise. There has to be this human-to-human connection. There has to be genuine mutual respect and mutual affection, and that was just in spades.” Georgia Southern’s Wexford Campus was featured on the national Irish TV program, “Nationwide.” You can see it here: Looking to know more, then let us help. Howard Keeley, director of Georgia Southern’s Center for Irish Research and Teaching, is available to speak with media. Simply click on his icon now to arrange an interview today.
Turning on the tap for a drink of clean water may seem like part of an everyday routine for many. Yet, for countless communities—even here in the U.S.—this simple act remains a daily challenge, with each glass or clean drop of water far from guaranteed. One Georgia Southern University professor is working to change that. Thirty percent of the Navajo Nation population lacks access to clean drinking water. Lewis Stetson Rowles, Ph.D., assistant professor in the Department of Civil Engineering and Construction in the Allen E. Paulson College of Engineering and Computing at Georgia Southern University, is working to increase access to clean water for this community and beyond by engaging with locals to understand how materials used in traditional cultural practices can be transformed into life-changing solutions. “My first trip to the Navajo Nation as an undergraduate student was a really eye opening experience for me,” Rowles said. “To realize that there were people within the U.S., in our own backyard, who lacked clean water is what inspired my whole career in research and education.” Establishing trust was an important challenge to overcome for Rowles and his fellow researcher and mentor Navid Saleh, Ph.D., professor of environmental and water resources engineering at the University of Texas at Austin. “Years of uranium mining left the mineral-rich area and the connection with the Navajo community polluted,” Rowles said. “It has been a decade-long effort to build community relationships, understand the issues and develop potential solutions specific to the needs of the Navajo Nation.” Finding solutions specific to local needs and cultures is key to their implementation and success according to Rowles. “We have to work with communities to truly understand the issues and collaboratively develop functional solutions because locals are the people who understand the problems the best,” Rowles said. “I don’t believe that there’s a one-size-fits-all solution. For technologies to really be sustainable, we need to understand if they’re going to work in a specific location, which means we need to develop community-specific solutions.” Working with the community is important for more than just understanding the issue at hand. When thinking about big-ticket issues, like clean water, Rowles said that it’s easy to fall into the trap of thinking about large-scale, infrastructure-based solutions. But some of the most immediately effective and impactful solutions happen on a much more intimate level. “Centralized distribution systems take a long time to build, they’re also very costly,” Rowles said. “The need for clean water is dire in many communities, so point-of-use technologies are great because they can be adopted quickly. They also bring power to the people in a way, because technologies can be developed with local materials, like we’re doing here with clay and pinyon resins for ceramic filters. This can create immediate solutions to water contamination issues.” Rowles, who specializes in environmental engineering, worked with members of the Navajo community to discover how the process of creating traditional pottery can help solve the problem of clean drinking water at a local level for families. Deanna Tso, a third-generation Navajo potter, has been integral to this process to ensure that the novel solutions don’t detract from traditional practices. “If you’ve ever climbed a pine tree and gotten sap stuck on your hands, you know it’s very sticky,” Rowles said. “The Navajo people have been using this sap for centuries to waterproof pottery and baskets. Meanwhile, one of the biggest limitations to the use of silver nanoparticles for water treatment is the immobilization of those particles. We used this local resin to coat the nanoparticles, keeping them in place and extending the lifetime of the filters while still allowing them to kill bacteria. It also acts as a really unique barrier that prevents silver poisoning by stopping the silver from interacting with other compounds that would inhibit the dissolution of silver nanoparticles into silver ions which kill bacteria.” By working together to integrate new technologies into existing traditions, Rowles and his partners are one step closer to changing the lives of many in the Navajo Nation. Their hope is that this knowledge will be used to expand access to potable water to more parts of the world. “While we started working with Deanna on a very specific pine tree sap, the more we’ve researched, we’ve seen there are similar pine and conifer trees throughout the continent, even into Mexico, that have been used by indigenous groups for centuries,” Rowles said. “This means that this research has much broader applications across the world, particularly in areas that lack centralized water treatment systems where people go and collect water from distant sources or wells, bring it back to their house, and then treat it at the household level.” The extension of this knowledge begins by sharing it, which is precisely what Rowles’ team has done over the last year. They published their research Integrating Navajo Pottery Techniques To Improve Silver Nanoparticle-Enabled Ceramic Water Filters for Disinfection in October 2023 and shortly thereafter began working with PBS NOVA. Their work will now be shared as part of a documentary series highlighting engineers working to positively change the world. “The Navajo Nation is just one area impacted by lack of access to clean water,” Rowles said. “Around 1.5 million people across the U.S. lack indoor plumbing and many more rely on wells and septic systems that are often aging or failing, leading to sanitation concerns. There are a lot of great organizations and a lot of great research working to address sanitation issues abroad, but I hope this research can open people’s eyes to the fact that this is a local problem, too. Don’t take it for granted that you’re able to turn on the tap and have safe, clean water, because that is not true for a lot of Americans and for much of the world.” You can continue exploring Rowles’ research on an episode of PBS NOVA—Building Stuff: Change It! and by watching the Innovations in Water Treatment with Navid Saleh from Building Stuff: Change It! Twitch episode of Building Stuff with NOVA. If you're interested in learning more or a reporter looking to speak with Stetson Rowles - simply contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
The new device is designed to reduce the risk of injuries when medicines being delivered into a vein enter the surrounding tissues It detects this problem at the earliest stages, before it is visible to the human eye The project is being supported by SPARK The Midlands at Aston University, a network to support technology development for unmet clinical needs. Clinicians at Birmingham Women’s and Children's NHS Foundation Trust (BWC) have joined with academics at Aston University to create an innovative sensor to reduce the risk of injuries caused when drugs being delivered into a vein enter the surrounding tissue. This complication, called extravasation, can cause harm and, in the most severe cases, life-changing injuries and permanent scarring. It happens most often when infusing medicines into peripheral intravenous (IV) devices, such as a cannula, but can also occur when infusing into a central venous access device. By joining together, BWC and Aston University are combining clinical, academic and engineering expertise to create a sensor that can detect extravasation at its earliest stages. Karl Emms, lead nurse for patient safety at BWC, said: “We've done lots of work across our Trust that has successfully reduced incidents. While we've made fantastic progress, there is only so much we can do as early signs of extravasation can be difficult to detect with the human eye. “The next step is to develop a technology that can do what people can't - detection as it happens. This will make a huge impact on outcomes as the faster we can detect extravasation, the less likely it is that it will cause serious harm.” The focused work to date addressing the issue has recently been recognised by the Nursing Times Awards 2024, winning the Patient Safety Improvement title for this year. This new project is supported by SPARK The Midlands, a network at Aston University dedicated to providing academic support to advance healthcare research discoveries in the region. SPARK The Midlands is the first UK branch of Stanford University's prestigious global SPARK programme. It comes as a result of Aston University’s active involvement in the delivery of the West Midlands Health Tech Innovation Accelerator (WMHTIA) – a government-funded project aimed at helping companies drive their innovations towards market success. The SPARK scheme helps to provide mentorship and forge networks between researchers, those with technical and specialist knowledge and potential sources of funding. SPARK members have access to workshops led by industry experts, covering topics such as medical device regulations, establishing good clinical trials, and creating an enticing target product profile to engage future funders. Luke Southan, head of research commercialisation at Aston University and SPARK UK director, said: “I was blown away when Karl first brought this idea to me. I knew we had to do everything we could to make this a reality. This project has the potential to transform the standard of care for a genuine clinical need, which is what SPARK is all about.” Work on another potentially transformative project has also begun as the team are working to develop a medical device that detects the position of a nasogastric feeding tube. There is a risk of serious harm and danger to life if nasogastric tubes move into the lungs, rather than the stomach, and feed is passed through them. Emms explained: “pH test strips can usually detect nasogastric tube misplacement, but some children undergoing treatment can have altered pH levels in the stomach. This means this test sometimes does not work. “A medical device that can detect misplacement can potentially stop harm and fatalities caused by these incidents.” SPARK will bring together engineers, academics and clinicians for both projects to develop the devices for clinical trial, with a goal of the technologies being ready for clinical use in three to five years. Southan said: “BWC is one of our first partners at SPARK and we're really excited to work with them to make a vital impact on paediatric healthcare in the Midlands and beyond." Notes to editors 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 Helen Tunnicliffe, Press and Communications Manager, on (+44) 7827 090240 or email: h.tunnicliffe@aston.ac.uk About Birmingham Women’s and Children’s NHS Foundation Trust Birmingham Women’s and Children’s NHS Foundation Trust (BWC) brings together the very best in paediatric and women’s care in the region and is proud to have many UK and world-leading surgeons, doctors, nurses, midwives and other allied healthcare professionals on its team. Birmingham Children’s Hospital is the UK’s leading specialist paediatric centre, caring for sick children and young people between 0 and 16 years of age. Based in the heart of Birmingham city centre, the hospital is a world leader in some of the most advanced treatments, complex surgical procedures and cutting-edge research and development. It is a nationally designated specialist centre for epilepsy surgery and also boasts a paediatric major trauma centre for the West Midlands, a national liver and small bowel transplant centre and a centre of excellence for complex heart conditions, the treatment of burns, cancer and liver and kidney disease. The hospital is also home to one of the largest Child and Adolescent Mental Health Services in the country, comprising of a dedicated inpatient Eating Disorder Unit and Acute Assessment Unit for regional referrals of children and young people with the most serious of problems (Tier 4) and Forward Thinking Birmingham community mental health service for 0- to 25-year-olds. Birmingham Women’s Hospital is a centre of excellence, providing a range of specialist health care services to over 50,000 women and their families every year from Birmingham, the West Midlands and beyond. As well as delivering more than 8,200 babies a year, it offers a full range of gynaecological, maternity and neonatal care, as well as a comprehensive genetics service, which serves men and women. Its Fertility Centre is one of the best in the country, while the fetal medicine centre receives regional and national referrals. The hospital is also an international centre for education, research and development with a research budget of over £3 million per year. It also hosts the national miscarriage research centre – the first of its kind in the UK - in partnership with Tommy’s baby charity. For interview requests please email the Communications Team on bwc.communications@nhs.net
Researchers race to detect Alzheimer's sooner using $3.9M grant
Too often, people learn they have Alzheimer’s disease when it’s too late. The changes in the brain that lead to the disease manifesting with symptoms have already been occurring for decades. Researchers at the University of Delaware will attempt to detect the disease sooner through a new study that examines changes in the arteries and brain tissue in midlife adults in their 50s and 60s. The findings of this work, funded by a nearly $4 million grant from the National Institute on Aging (NIA), could identify the earliest mechanisms linking vascular aging to the loss of brain tissue integrity, leading to new targets for interventions aimed at preventing age-related cognitive impairment. “People who develop high blood pressure or stiffening of the aorta and carotid arteries in midlife are at a much higher risk for developing cognitive impairment or dementia in late life,” said Christopher Martens, the principal investigator of the study. Martens, an associate professor of kinesiology and applied physiology in UD's College of Health Sciences and director of the Delaware Center for Cognitive Aging (DECCAR), is working closely with Curtis Johnson, an associate professor of biomedical engineering in the College of Engineering and leader of the neuroimaging biomarker core within DECCAR, on research funded by a nearly $4 million grant from the National Institute on Aging (NIA), a division of the National Institutes of Health (NIH). “A lot happens as we age, so we’re aiming to pinpoint the timing and exact mechanisms that cause these changes in midlife adults,” Martens said. This latest grant extends DECCAR’s ongoing Delaware Longitudinal Study for Alzheimer’s Prevention (DeLSAP), which seeks to study how risk and protective factors for dementia are related and change over time. Those eligible for DeLSAP could also meet the criteria for participating in the new study. In his Neurovascular Aging Laboratory, Martens studies mechanisms leading to the stiffening of arteries, while Johnson is specifically interested in measuring the stiffness of the brain. “As a person ages, the brain gets softer and breaks down, and we’re looking to see whether changes in arterial stiffness and patterns of blood flow in the brain cause this decline,” Johnson said. Changes in blood flow to the brain come from controllable factors. Smoking, cardiovascular health, diet and exercise all impact blood flow positively and negatively. “A lot of aging research is done at the end of life,” Johnson said. “We want to look at midlife and try to predict what happens later in life so we can prevent it.” While the brain gets softer with age, arteries get stiffer. “We hypothesize that midlife increases in stiffness in blood vessels cause damaging pulsatile pressure to enter the brain,” Martens said. “We believe this is one of the reasons we start to develop cognitive issues at an older age because the brain is exposed to increased pressure; that pressure is likely inflicting damage on surrounding brain tissue.” In Johnson’s Mechanical Neuroimaging Lab, researchers will use high-resolution magnetic resonance elastography (MRE) to determine where brain damage occurs and what specific brain structures may be affected. “From an MRI perspective, most researchers look at AD and other neurodegenerative diseases like multiple sclerosis with an emphasis on detection in a hospital setting,” Johnson said. “Using highly specialized techniques we’ve developed, we focus on the earlier side and how these changes progress into disease from the neuroscience side, emphasizing prevention.” Together, they’ll seek to learn whether arterial stiffness causes the kind of cognitive impairment seen in AD or whether the decline is associated with a loss in the integrity of brain tissue. “If we can prove arterial stiffness is playing a causal role in cognitive aging, that would provide further support for focusing on blood vessel health as an intervention for delaying AD or other forms of dementia versus solely focusing on the brain,” Martens said.
Villanova Professor at the Forefront of Work to Tackle Quantum Threats
Securing Our Future Against Quantum Threats Security and privacy are values that everyone cherishes. No tech user wants their personal information getting into the wrong hands, which is why we have security measures in place to protect our private data: face ID to unlock our phones, two-factor authentication to log into banking apps and fingerprint technology to securely enter any system—from a computer to your front door. Encryption codes are used on each of these platforms to encode private data and allow only authorized users to access it. These measures are put in place to protect us, but new advancements in technology could soon challenge these secure systems that we have come to know and trust. Quantum computers are extraordinary machines capable of solving problems far beyond the scope of today’s standard computers. Although these computers are not commercially available, scientists harness their power for experimentation and data storage. Quantum computers excel in scientific development, but they may also prove to be a threat to existing technology that we use in our daily lives. Experts predict that by 2035, quantum computers could crack the very encryption codes that secure everyday transactions and data. Jiafeng Xie, PhD, associate professor of Electrical and Computer Engineering at Villanova University, is at the forefront of this battle, using his Security and Cryptography Lab to strengthen security measures against the threat of quantum computers. The Rise of Post-Quantum Cryptography Since quantum computer advancements are accelerating at an unprecedented pace, post-quantum cryptography (PQC) has emerged as a critical area of research and development. Scientists who study PQC are working to come up with new algorithms to encode our sensitive data, with a goal of being installed after quantum computers crack our current encryption systems. Without these new algorithms, once quantum computers break our current codes, sensitive data—whether personal, corporate or governmental—could be left vulnerable to malicious actors. The core problem of our current encryption system lies in the foundation of public-key cryptosystems. Public-key cryptography is a method of encryption where the user logs into a system using their own private “key”, and the back end of the system has a “key” as well. A “key” is a large numerical value that scrambles data so that it appears random. When a user logs in, their “key” can decrypt private information held by the public “key” in the system to ensure a secure login. This security method is safe right now, but these systems rely on mathematical principles that, while secure against classical computing attacks, are vulnerable to the immense processing power of quantum computers. At the heart of the vulnerability is Shor's algorithm, developed by MIT computer scientist Peter Shor in 1994. As Dr. Xie explained, “Shor invented an algorithm to solve prime factors of an integer that can supposedly run on a quantum computer. This algorithm, if run on a large-scale mature quantum computer, can easily solve all these existing cryptosystems' mathematical formulation, which is a problem." The realization of this potential threat has spurred an increased focus on the development of post-quantum cryptography over the past decade. The goal is clear: "We want to have some sort of cryptosystem that is resistant to quantum computer attacks," says Dr. Xie. In 2016, the National Institute of Standards and Technology (NIST) began the process of standardizing post-quantum cryptography. In July 2022, NIST selected four algorithms to continue on to the standardization process, where they are currently being tested for safety and security against quantum computers. The standardization process for these new algorithms is intensive, and two of the candidates that were announced for testing have already been broken during the process. Scientists are in a race against time to increase the diversity of their algorithms and come up with alternate options for standardization. The urgency of this shift to post-quantum cryptography is underscored by recent government action. The White House released a national security memo in 2022 stating that the U.S. government must transition to quantum-resistant algorithms by 2035. This directive emphasizes the critical nature of post-quantum cryptography in maintaining not just personal but national security. Villanova’s Security and Cryptography Lab Once a new algorithm is selected by NIST, it will need to be embedded into various platforms that need to be secured—this is where Dr. Xie’s Security and Cryptography Lab comes in. This lab is actively conducting research into how the newly selected algorithm can be implemented in the most effective and resourceful way. The lab team is working on developing techniques for this new algorithm so that it can be embedded into many different types of platforms, including credit cards and fingerprint technology. However, there are significant challenges in this process. As Dr. Xie explains, "Different platforms have different constraints. A chip-based credit card, for example, has limited space for embedding new encryption systems. If the implementation technique is too large, it simply won’t work.” Another arising issue from this research is security. During the application of this new algorithm, there's a risk of information or security leakage, so Dr. Xie is always on the lookout for developing security issues that could cause problems down the road. The Future of Post-Quantum Cryptography The implications of PQC are widespread and extend far beyond academic research. As Dr. Xie points out, "All existing cryptosystems, as long as they have some sort of function—for example, signing in or entering a password for login—all of these systems are vulnerable to quantum attacks." This vulnerability affects everything from banking systems to small-scale security measures like fingerprint door locks. The scope of this transition is massive, requiring updates to encrypted systems across all sectors of technology. His goal is to ensure that these new cryptographic systems are flexible enough to be applied to everything from small devices like credit cards and drones to large-scale infrastructure like data centers and military equipment. Although researchers are hard at work now, the future of post-quantum cryptography is not without uncertainties. Dr. Xie raises an important question: "When quantum computers become available, will the algorithms we develop today be broken?" While the newly developed algorithms will theoretically be secure, vulnerabilities can emerge when implementing any kind of new security system. These potential vulnerabilities highlight the importance of conducting this research now so that the new algorithms can go through intensive testing prior to being implemented. Despite these challenges, Dr. Xie emphasizes the importance of being prepared for this new reality. "Society as a whole needs to be prepared with this kind of knowledge,” he says. “A new era is coming. With our current security systems, we need to have revolutionized change. On the other hand, we should not be panicked. We just need continued support to do more related research in this field.” More extensive research is required to ensure that our privacy is protected as we enter a new era of quantum computing, but labs like the Security and Cryptography Lab at Villanova are a step in the right direction. Although the “years to quantum” clock is ticking down, researchers like Dr. Xie are well on their way to ensuring that our digital infrastructure remains secure in the face of evolving technological threats.
Aston University is leading a new £5.5 million EU research project Will focus on converting fibre-optic cables into sensors to detect natural hazards Could identify earthquakes and tsunamis and assess civil infrastructure. Aston University is leading a new £5.5 million EU research project to explore converting existing telecommunication fibre-optic cables into sensors which can detect natural hazards, such as earthquakes and tsunamis, and assess the condition of civil infrastructure. The project is called ECSTATIC (Engineering Combined Sensing and Telecommunications Architectures for Tectonic and Infrastructure Characterisation) and is part of the Horizon Europe Research and Innovation Action (RIA), which aims to tackle global challenges and boost the continent’s industrial competitiveness. Converting telecom fibres into sensors requires new digital signal processing to overcome the limited data storage and processing capabilities of existing communication networks. To address this the project will use localised, high performance digital processing that will integrate artificial intelligence and machine learning. The researchers’ goal is to minimise algorithms’ complexity while providing extremely accurate real-time sensing of events and network condition. The new laser interrogation and signal processing technologies will be tested using existing fibre optic networks, including those underwater, in cities, and along railway infrastructure to assess their potential. Delivered by a consortium of 14 partners across seven countries, from academic and non-academic sectors, the research will start in February 2025 and will last three and a half years. The Europe-wide team will be led by Professor David Webb who is based in the Aston Institute of Photonic Technologies (AIPT). Professor Webb said: “There are more than five billion kilometres of installed data communications optical fibre cable, which provides an opportunity to create a globe-spanning network of fibre sensors, without laying any new fibres. “These traverse the seas and oceans - where conventional sensors are practically non-existent - and major infrastructures, offering the potential for smart structural health monitoring.” Professor Webb will be joined by fellow researchers Professor Sergei Turitsyn, Dr Haris Alexakis and Dr Pedro Freire. 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
Putting a price tag on environmental projects
Unlike a grocery store, the goods and services in the environment — think clean water, tree cover, or flood control — don’t come with a price tag. Researchers in the University of Delaware Department of Applied Economics and Statistics have received a $1.5 million grant to assess the value of what is gained or lost from environmental projects. The three-year grant from the U.S. Army Engineer Research and Development Center, the chief research and development center for the federal environmental engineering agency U.S. Army Corps of Engineers, will pave the way for UD environmental economists to develop a web-based platform to help the Corps. The research team is led by Maik Kecinski, associate professor in the Department of Applied Economics and Statistics and also includes department colleagues Kent Messer and Martin Heintzelman, as well as three graduate researchers. The team will create an online platform to help the Corps estimate the monetary value of the ecosystem impacts through its ongoing and proposed projects across the U.S. Kecinski said many of the Corps’ projects involve natural resources, such as building dams or restoring rivers. Those projects require labor hours and equipment, each with a market value. “But the big piece the Corps doesn’t have is what is the environmental value that’s created or lost through these projects?” Kecinski said. The project came about after ERDC representatives visited UD in 2023. Kent Messer, Professor of Applied Economics, presented research about behavioral aspects around water quality and conservation and learned about ERDC’s research needs. Messer said that the big takeaway from those discussions was that ERDC was interested in having a platform to show the ecosystem services value of its projects. “So that was an exciting opportunity to connect and partner with them on the development of a tool that could help them in this regard,” Messer said. Messer said the opportunity to work with the Corps to assess its projects nationwide is “huge” for the University and for UD’s College of Agriculture and Natural Resources. “It speaks enormously to our college’s prominence in environmental economics issues,” Messer said. Martin Heintzelman, chair of UD's Department of Applied Economics and Statistics, said the project will help raise the profile of the department. “This is really in our wheelhouse in terms of the kind of research we do,” Heintzelman said. “It’s a great opportunity for us to be applying research to policymakers, people who are going to use this work to make better decisions as they’re going about their work constructing, managing, and sometimes de-constructing water and related projects.” The researchers hope the web-based platform will play a role in policy and decision-making, helping the Corps make more informed decisions on environmental projects in the future. “One thing I hope is going to come from this is the choices we make today are going to create a better tomorrow. That’s what it is all about” Kecinski said.
Aston University develops novel bone cancer therapy which has 99% success rate
Bioactive glasses, doped with gallium developed to create a potential treatment for bone cancer Lab tests have a 99 percent success rate of killing cancerous cells Method could also regenerate diseased bones. Bioactive glasses, a filling material which can bond to tissue and improve the strength of bones and teeth, has been combined with gallium to create a potential treatment for bone cancer. Tests in labs have found that bioactive glasses doped with the metal have a 99 percent success rate of eliminating cancerous cells and can even regenerate diseased bones. The research was conducted by a team of Aston University scientists led by Professor Richard Martin who is based in its College of Engineering and Physical Sciences. In laboratory tests 99% of osteosarcoma (bone cancer) cells were killed off without destroying non-cancerous normal human bone cells. The researchers also incubated the bioactive glasses in a simulated body fluid and after seven days they detected the early stages of bone formation. Gallium is highly toxic, and the researchers found that the ‘greedy’ cancer cells soak it up and self-kill, which prevented the healthy cells from being affected. Their research paper Multifunctional Gallium doped bioactive glasses: a targeted delivery for antineoplastic agents and tissue repair against osteosarcoma has been published in the journal Biomedical Materials. Osteosarcoma is the mostly commonly occurring primary bone cancer and despite the use of chemotherapy and surgery to remove tumours survival rates have not improved much since the 1970s. Survival rates are dramatically reduced for patients who have a recurrence and primary bone cancer patients are more susceptible to bone fractures. Despite extensive research on different types of bioactive glass or ceramics for bone tissue engineering, there is limited research on targeted and controlled release of anti-cancer agents to treat bone cancers. Professor Martin said: “There is an urgent need for improved treatment options and our experiments show significant potential for use in bone cancer applications as part of a multimodal treatment. “We believe that our findings could lead to a treatment that is more effective and localised, reducing side effects, and can even regenerate diseased bones. “When we observed the glasses, we could see the formation of a layer of amorphous calcium phosphate/ hydroxy apatite layer on the surface of the bioactive glass particulates, which indicates bone growth.” The glasses were created in the Aston University labs by rapidly cooling very high temperature molten liquids (1450o C) to form glass. The glasses were then ground and sieved into tiny particles which can then be used for treatment. In previous research the team achieved a 50 percent success rate but although impressive this was not enough to be a potential treatment. The team are now hoping to attract more research funding to conduct trials using gallium. Dr Lucas Souza, research laboratory manager for the Dubrowsky Regenerative Medicine Laboratory at the Royal Orthopaedic Hospital, Birmingham worked on the research with Professor Martin. He added: “The safety and effectiveness of these biomaterials will need to be tested further, but the initial results are really promising. “Treatments for a bone cancer diagnosis remain very limited and there’s still much we don’t understand. Research like this is vital to support in the development of new drugs and new methodologies for treatment options.” Notes to Editors Multifunctional Gallium doped bioactive glasses: a targeted delivery for antineoplastic agents and tissue repair against osteosarcoma Shirin B. Hanaei1, Raghavan C. Murugesan1, Lucas Souza1, Juan I.C. Miranda1, Lee Jeys2,3, Ivan B. Wall3, and Richard A. Martin1 1. College of Engineering and Physical Sciences. Aston University, Aston Triangle, Birmingham, B4 7ET, UK 2. Oncology Department, The Royal Orthopaedic Hospital, Birmingham, B31 2AP, UK 3. College of Health and Life Sciences. Aston University, Aston Triangle, Birmingham, B4 7ET, UK DOI 10.1088/1748-605X/ad76f1 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
