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UConn Expert Weighs In on FIFA's Hottest New Timeout

For the first time in FIFA World Cup history, every match at the 2026 tournament includes mandatory three-minute hydration breaks midway through each half. Introduced as a player welfare measure amid concerns about extreme summer temperatures across North America, the breaks have quickly become a much discussed development in the tournament. Coaches, players, broadcasters, sports scientists, and fans are all weighing in on the impact the stoppages have on player safety, game flow, strategy, and even commercial opportunities. The conversation has intensified as several matches have been played in challenging heat conditions and prominent coaches have publicly questioned whether the mandatory breaks alter the rhythm of the sport. At the same time, medical experts continue to emphasize the risks posed by heat stress and dehydration during elite athletic competition, particularly in tournaments spanning multiple climates and venues. Experts like UConn's Douglas Casa have been front and center when the media call for insight and perspective. The three-minute mandatory hydration breaks are meant to protect players, and referees, from extreme heat illness and help them maintain their physical performance. In that time, players can cool off and replenish lost water and salt from sweating, but how effective it is depends on how aggressive the cooling methods are. That could mean putting wet, cold towels on the exposed parts of a player's body, such as the neck, head, back and arms. If done well, that could reduce their body temperature by about 0.22 F (0.12 C) per minute, said Douglas Casa, CEO of the University of Connecticut's Korey Stringer Institute who also co-signed the letter to FIFA. "Some people can tolerate a little more fluids comfortably and then do intense exercise. Some people can't because it sloshes around in their stomach and they don't feel super comfortable, so they might not drink as much in such a short period of time," he added. The time, he said, dictates the volume of impact, whether from fluid or cooling, and "that's why we're suggesting doing something like five or six minutes, because it just makes such a big impact when you're dealing with a change of that magnitude." June 18 - NPR Douglas Casa is a professor of kinesiology and chief executive officer of UConn’s Korey Stringer Institute. He is a leading authority on research, advocacy, and education about exertional heat stroke View his profile While the standardized breaks represent a major step forward for player welfare, some leading heat illness experts argue the new policy does not go far enough. Dr. Douglas Casa, a professor of kinesiology at the University of Connecticut and chief executive officer of the Korey Stringer Institute, expressed skepticism regarding the efficacy of such brief intervals. Dr. Casa warned that prolonged, high-intensity physical exertion causes a rapid spike in core body temperature, which dramatically degrades athletic performance and increases the risk of exertional heat illness. He noted that a mere three minutes from whistle to whistle provides insufficient time for optimal physiological cooling and active rehydration, recommending instead that tournament officials expand the mandatory breaks to five or six minutes. Faced with these demanding environmental conditions, several competing national teams are taking proactive measures to gain a competitive edge. Multiple countries have expanded their technical staffs to include specialized sports scientists tasked exclusively with designing aggressive heat-acclimatization and thermal-management strategies. According to Dr. Casa, these data-driven preparation strategies will likely play a monumental role in determining player durability and ultimately crowning the world champion. June 09 - NBC News Covering? We can help. Douglas Casa, who leads UConn's renowned Korey Stringer Institute, is available to discuss: The science behind hydration and cooling breaks in elite sport Heat illness risks facing World Cup athletes Whether mandatory breaks are sufficient to protect players How extreme weather is changing sports medicine and event management The balance between player safety, competition, and fan expectations Check out the video below featuring Doug Casa explaining what happens when the human body gets too hot. Media interested in speaking with Doug Casa can contact the UConn media relations team to arrange an interview.

World Cup 2026: The Business Behind the Game

As the 2026 FIFA World Cup unfolds across North America, Emory University’s Goizueta Business School experts are available to help media explore the business stories behind the world’s biggest sporting event, from the economics of hosting and ticket pricing to global sponsorship, player brands and the psychology of fandom. Goizueta’s World Cup 2026 Business Hub brings together faculty who can provide timely, research-backed commentary on the commercial, cultural and consumer forces shaping the tournament as it moves from match to match, city to city and story to story. Featured Topics The Economics of Hosting Infrastructure investment, tourism revenue, real estate, local labor markets and the broader financial impact of hosting World Cup matches. The Science of Fandom What drives global fan devotion, audience loyalty and engagement across stadiums, broadcasts and digital platforms. Ticket Pricing and Demand Dynamic pricing, hospitality packages, travel costs and how extraordinary demand shapes the fan experience at major global events. Brand Strategy and Global Sponsorship How companies evaluate World Cup sponsorships, build global campaigns and measure the return on major sports partnerships. The Rise of the Player Brand How star footballers build, extend and monetize personal brands that reach far beyond the pitch. Media can visit Goizueta’s World Cup 2026 Business Hub to explore available experts and connect directly with the right source for their story.

100 Years After the “Launch” of Aerospace Industry, Villanova Faculty Continue to Innovate the Sector

In 1926, Robert H. Goddard launched the world’s first liquid-fueled rocket in Auburn, Mass. Goddard’s 10-foot-tall rocket was airborne for just 2.5 seconds, reaching speeds of 60 miles per hour before landing 184 feet away from the launch site. A century later, the aerospace industry is booming, with new technology and missions making headlines every day—some with incredible success, and others encountering challenges that send scientists back to the drawing board. In February 2026, NASA delayed the launch of Artemis II—its next mission to the moon—citing issues with helium flow in the rocket’s systems. By April, the mission was on track again, and Artemis II completed the first crewed flight to the moon in more than half a century. Crew members for the upcoming Artemis III mission were also recently announced, as well as a timeline and overview for Artemis IV, the first planned crewed mission to the lunar South Pole in 2028. Amid these successes and setbacks, researchers continue to innovate the field and develop new technologies designed to help expand our knowledge of the vast universe. That innovation comes from diverse and unique places, including Villanova University. Research in Flight Student interest in aerospace led to the creation of a Master of Science in Aerospace Engineering (MSAE) program at Villanova University, which began in the Fall 2025 semester. Sergey Nersesov, PhD, associate professor of Mechanical Engineering, was instrumental in the inception of the MSAE program and helped develop courses in space flight mechanics, applied aerodynamics, aerospace structures analysis and advanced flight dynamics and control, among others. The idea for the graduate program was inspired by the growing popularity of the College of Engineering’s Minor in Aerospace Engineering. The minor attracts students from across the university, drawing from other majors and colleges at Villanova. For example, Dr. Nersesov recently collaborated on a research project focused on spacecraft and satellite control systems with Aedan Disanto ‘26 CLAS, an astrophysics and planetary sciences major and aerospace engineering minor. “If you look up at the sky, sometimes you see satellites chasing each other,” said Dr. Nersesov. “Dynamics and control researchers develop algorithms to ensure proper spacing between the satellites so they can function correctly.” The spacing between satellites is crucial to avoid collision, which is also a potential issue when a spacecraft approaches a space station to dock. In this situation the velocities, rotation and orientation of both vehicles are carefully controlled so that docking mechanisms align correctly, which requires up to 12 variables to be coordinated simultaneously. Dr. Nersesov and Disanto analyzed the algorithms needed to guarantee perfect satellite function and built upon them, discovering more efficient ways to operate vehicles in space. This summer, Dr. Nersesov and his students will also begin designing a prototype for a new kind of drone. Typical drones use ample amounts of energy to become airborne and capture photos or video content because they rely entirely on thrust to hold themselves up. To improve effectiveness, Dr. Nersesov and his students aim to create a drone in the style of an airplane, with vertical takeoff and landing (VTOL) capability. The drone will take off vertically, like a helicopter, but then transition to flying horizontally like an airplane, allowing lift from the wings to reduce the energy needed to stay airborne. As a result, it could stay in the air up to ten times longer than a hovering drone. While the project focuses on a single aircraft design, it represents the type of forward-thinking research driving the aerospace field today. Aerospace Engineering with Biology Elsewhere, Qianhong Wu, PhD, chair of Mechanical Engineering in the College of Engineering, is exploring a concept called super-lubrication, inspired by the way red blood cells move through the human body. Blood cells travel through capillaries narrower than their own diameter without damaging themselves or the vessel walls. A soft, porous layer called the endothelial glycocalyx within the vessels allows cells to glide through, reducing friction. In studying this biological process, an idea emerged that could potentially be translated to the aerospace field. Dr. Wu’s team is currently applying their deep understanding of biomechanical processes to applications that might reduce aerodynamic friction on aircraft surfaces by more than 90 percent. This lower friction may also improve fuel efficiency and extend flight endurance for drones or other aircraft. “Our work is an example of how thinking outside your traditional field can lead to innovation,” said Dr. Wu. “Sometimes the solution comes from a completely different subject, like biology.” A Century of Momentum One hundred years after Goddard’s brief but groundbreaking flight, aerospace innovation has expanded far beyond its earliest experiments. Today, progress in the field depends not only on major missions and milestones, but also on the steady work of researchers refining systems and exploring new ideas. At Villanova, that work is taking shape across disciplines—from spacecraft control systems to biologically inspired materials. Together, these efforts reflect how the field continues to evolve through collaboration and creativity.

World Cup 2026: Hofstra experts on the science, health, and business behind the tournament.

The 2026 FIFA World Cup comes to the New York metro area, and Hofstra University is ready. From the training room to the boardroom, Hofstra faculty bring research-backed expertise to the stories journalists are chasing this tournament season. Featured Topic The Cultural Game Why soccer means what it means and what this World Cup moment represents The World Cup has always been about more than the game. Brenda Elsey, Professor of History, studies soccer as a cultural and political force across the Americas -- from grassroots identity to gender and power. She can speak to what this tournament represents as a historical moment, on and off the field. Expert Brenda Elsey - History Featured Topic Health and Performance on the World Stage Expert insight on what it takes to compete and recover at a World Cup. Competing at this level means managing the body and the mind across weeks of high-stakes matches with almost no recovery time. Hofstra's health and kinesiology faculty are your sources for the stories behind the performance. Experts Jayne Ellinger - Athletic Training Katie Sell - Exercise Physiology Anna Len - Physical Therapy Genevieve Weber - Mental Health Featured Topic Beyond the Pitch What the World Cup does to cities, economies, and public health systems From local business impact and tourism economics to disease surveillance and emergency preparedness - Hofstra faculty are ready to talk. Experts Andy M. Forman - Marketing & Tourism Lauren Hindman - Management Martine Hackett - Population Health Meshack Achore - Population Health

World Cup 2026: Georgia Southern University Experts on the Game Behind the Game

Atlanta is one of the World Cup's biggest host cities. Georgia Southern faculty across economics, health sciences and international studies are ready to speak to the stories behind the tournament. Featured Topic The Atlanta Advantage: Regional Economics of Hosting the World Cup What it means for local businesses, tourism, and the long-term economic legacy of a host city Atlanta's World Cup moment is as much an economic story as a sporting one. Georgia Southern University economics professors Michael Toma, Ph.D., and Anthony Barilla, Ph.D., can speak to tourism revenue, infrastructure investment and what host cities actually gain — and manage —- when the world comes to town. Experts Michael Toma, Ph.D. - Regional Economics and Development Anthony Barilla, Ph.D. - Economics and Public Policy Featured Topic Playing Across a Continent: The Physical Demands of a 48-Team Tournament What elite athletes face competing across climates, time zones and a month-long schedule 48 teams. Multiple cities. Almost no recovery time. Georgia Southern health sciences and kinesiology professor Samuel Wilson, Ph.D., and sports psychologist Brandonn Harris, Ph.D., can explain how a World Cup schedule affects the human body and how elite teams prepare for it. Experts Samuel Wilson, Ph.D. - Health Sciences and Athletic Performance Brandonn Harris, Ph.D. - Kinesiology and Exercise Science Featured Topic More Than a Match: The World Cup as Cultural and Political Exchange How the world's biggest sporting event becomes a stage for diplomacy, identity, and soft power When 48 nations converge on American soil, the game is only part of the story. Political science and international studies expert Christopher M. Brown, Ph.D., can speak to the geopolitical dimensions — national identity, soft power and what it means for the U.S. to host global soccer for the first time in a generation. Experts Christopher M. Brown, Ph.D. - Political Science and International Studies

UD’s happiness expert appears on NPR's Hidden Brain to explain importance of a helping hand in a stressed-out America

Happiness isn’t just about chasing big, exciting moments. A lot of the science points to the smaller, everyday things that help people feel connected, calm and grounded. Simple habits like helping others when we see them struggling create a bigger impact than we often expect. University of Delaware's resident "happiness expert" Amit Kumar, a psychologist and assistant professor of marketing in UD's Lerner College of Business & Economics, appeared on NPR's Hidden Brain to discuss that very topic.  Kumar discusses why sometimes it feels like we can't help others and how we can surmount those fears to build strong connections and also feel a greater sense of happiness.  To speak with Kumar about this topic, click his profile. 

World Cup 2026: Story Angles Beyond the Pitch

The 2026 FIFA World Cup will be one of the biggest sports stories of the year, with matches underway across Mexico, Canada and the United States. But the story will reach well beyond the field. As the tournament moves from city to city, it will bring host communities, public agencies, local businesses and civic leaders into the spotlight. That creates a wide range of story angles for journalists, from public health and safety, tourism and economic impact to sports technology, fan culture, athlete performance, national identity and the politics of international sport. Institutions using ExpertFile are helping media cover these broader World Cup stories through dedicated Topic Authority Hubs, Spotlight posts and expert profiles featuring trusted sources across health, business, technology, public policy, culture and sport. Featured World Cup Expert Hubs With the World Cup coming to the New York metro area, Hofstra University’s hub brings together experts on athlete health, recovery, injury prevention, mental performance, public health, tourism, local business impact and the cultural history of soccer. Explore Hofstra’s World Cup 2026 Hub. Source: Hofstra University The University of Delaware’s hub focuses on player safety, concussion research, sports analytics, tourism, youth development, fan behavior, shared experiences and the science behind elite competition. Explore the University of Delaware’s World Cup 2026 Hub. Source: University of Delaware Carnegie Mellon University’s hub looks at the tournament through the lenses of geopolitics, diplomacy, sports marketing, fan engagement, AI, robotics, biomechanics, human performance and emerging sports technologies. Explore Carnegie Mellon’s World Cup 2026 hub. Source: Carnegie Mellon University Emory University’s Goizueta Business School hub explores World Cup 2026 through the business of the tournament, including host city economics, ticket pricing, fan engagement, sports marketing, global sponsorship, brand strategy and the rise of the player brand. Explore Goizueta Business School’s World Cup 2026 hub. Story Angles As coverage plans take shape, these are some of the World Cup 2026 story angles journalists may want to explore. The Topic Authority Hubs featured above offer a helpful starting point, with Spotlight posts and expert profiles connected to many of these issues. Journalists can also search directly on expertfile.com to find additional academic experts who can bring depth, context and clarity to their coverage. The politics behind the tournament The World Cup is never just about sport. It can become a global stage for diplomacy, national pride, protest, soft power and political tension, with countries not only competing on the field but also presenting themselves to the world. For journalists, that creates timely story opportunities around national identity, international relations and the political flashpoints that often surface around major global sporting events. The next generation of fans A World Cup can shape how young people connect with sport, family, community and national identity. For many children and teenagers, this may be the first tournament they experience in a big way — at school, at home, in their community or through local soccer programs. The mental pressure of representing a country Few sporting events carry the emotional weight of the World Cup. Players are not just competing for clubs or contracts. They are carrying national expectations in front of a global audience, often under intense media and social media scrutiny. The science of movement under pressure World Cup matches are full of moments that happen almost too quickly to see: a sudden change of direction, a hard landing, a collision, a late tackle, a split-second decision to accelerate or pull back. Experts can help explain the biomechanics behind elite soccer movement, how the body absorbs stress during competition, and why injuries such as ACL tears and concussions remain such important issues at the highest level of the game. How technology is changing the game AI, sports analytics, wearables, robotics, motion tracking and virtual experiences are changing how soccer is played, trained, analyzed and watched. Some of this technology is visible to fans. Much of it is happening behind the scenes. The hidden science behind the tournament Some of the most important parts of the World Cup are easy to overlook. Playing surfaces, stadium preparation, natural grass requirements, turfgrass systems and venue logistics all play a role in the quality of the tournament. What host cities gain — and what they have to manage The World Cup can bring major attention to host cities, along with increased demand on hotels, restaurants, transportation systems, small businesses and public services. The story is not only how many people visit, but who benefits and what remains after the tournament moves on. Sports analytics in action Data is now part of how elite soccer is understood, taught and analyzed. From performance trends to real-time decision-making, analytics can help explain what is happening inside the game and how teams, coaches and analysts evaluate play at the highest level. Soccer as culture and identity For many fans, soccer is tied to family, community, immigration, history and belonging. The World Cup offers a chance to tell stories about fan culture, grassroots soccer, Latin American soccer history, gender and power in the sport, and why watching together can feel so meaningful. Public health and mass gatherings Millions of fans travelling across borders and gathering in stadiums, fan zones and public spaces create important public health questions. Cities need to think about disease surveillance, emergency preparedness, health system readiness and health equity — all while hosting one of the most visible events in the world. About ExpertFile ExpertFile helps organizations become the most trusted and visible source of expertise in an AI-driven world. The platform combines expert profiles, content publishing, inquiry management, analytics and media distribution into a single Visible Authority infrastructure - enabling universities, healthcare organizations, corporations and associations to improve how their expertise is discovered, cited and engaged across search engines, AI assistants and media channels. Built-in workflow orchestration, governance controls and compliance oversight help organizations reduce risk and achieve greater impact with existing resources. Trusted by leading institutions including Carnegie Mellon University, the Massachusetts Institute of Technology (MIT) and ChristianaCare, ExpertFile helps organizations unlock the full value of their expertise at scale. The ExpertFile Mobile App connects journalists, conference organizers, policymakers, researchers and industry partners with authoritative expertise across more than 50,000 topics.

Research Matters: Water, Water Everywhere — and Lots to Drink

Researchers at the University of Rochester have discovered a better way to turn seawater into drinking water as climate change, population growth, and drought intensify pressure on freshwater supplies. Desalination, as the process of converting saltwater to freshwater is known, has been used for some time. But desalination methods commonly used today have significant drawbacks: they require large amounts of energy and generate brine waste that can damage marine ecosystems. Enter University of Rochester optics and physics professor Chunlei Guo and his research team, who have developed a solar-thermal desalination technology that converts seawater into drinking water without chemical additives and without producing the harmful brine. Their system uses a specially engineered solar panel made of “superwicking” black metal etched with ultrafast lasers that allow it to absorb light and attract water. The panels have a laser-treated “active” region that pulls a think layer of water across the surface, absorbs sunlight, distills the water, and deposits leftover salts and minerals onto the untreated “passive” region. The technology also transforms waste into a resource. Instead of generating brine, the process captures salts in solid form, creating opportunities to recover valuable minerals. Guo's team has already demonstrated the ability to extract lithium, a critical component in rechargeable batteries, from salt-rich water sources. For reporters covering sustainability innovation, Guo is available to discuss: • Why desalination is becoming increasingly important worldwide • The environmental challenges associated with current desalination technologies • How solar-powered desalination works • The role of advanced materials and laser engineering in water purification • Recovering valuable minerals such as lithium from seawater • The future of sustainable water and resource management With an estimated 2.2 billion people worldwide lacking access to safely managed drinking water, Guo's research offers a glimpse of how next-generation technologies could help address both global water shortages and growing demand for critical minerals. Researchers recently explained their method in a paper published in Light: Science & Applications. Journalists can connect with Guo by contacting Luke Auburn, director of communications at the University of Rochester’s Hajim School of Engineering and Applied Sciences, at luke.auburn@rochester.edu.

What's in the Water? New Research Brings Weekly River Health Data to the Public

A recent article in the Fredericksburg Free Press highlighted a new University of Mary Washington initiative that is testing the Rappahannock River weekly for fecal coliform bacteria and sharing the results publicly. Led by Associate Professor of Earth and Environmental Science Tyler Frankel, the program aims to provide residents with accessible information before swimming, fishing, paddling, or otherwise enjoying one of the region's most important waterways. Dr. Tyler Frankel is an Assistant Professor in the Department of Earth and Environmental Sciences at the University of Mary Washington. He is an expert on ecotoxicology, specifically the impact of pharmaceutical, industrial waste products, & pesticides on aquatic wildlife. View his profile The project addresses a significant gap in environmental monitoring. While bacteria levels can change rapidly following rainfall and other environmental conditions, routine testing has historically been limited. Frankel and his student research team are collecting samples from five locations along the river and building a long-term database that can help identify contamination trends and potential pollution sources. The effort also provides valuable hands-on research opportunities for students while generating information with direct public health benefits. “There isn’t really a program that exists like that for the Rappahannock where the public can get access to weekly data sets.” — Tyler Frankel, Associate Professor of Earth and Environmental Science, University of Mary Washington The research focuses on fecal coliform bacteria, including E. coli, which can enter waterways through sewage, failing septic systems, agricultural runoff, pets, wildlife, and other sources. Elevated levels can pose health risks to people who come into contact with contaminated water, making timely and accessible monitoring an important tool for both recreation and environmental stewardship. Connect with an Expert Interested in discussing water quality monitoring, bacterial contamination in rivers, watershed management, citizen science, or environmental health risks? Connect with Tyler Frankel, Associate Professor of Earth and Environmental Science at the University of Mary Washington, for expert insight into water quality testing, pollution tracking, environmental monitoring, and the science behind protecting freshwater ecosystems.

Psychology Expert Explains Why Nostalgia Hits Us So Hard

Whether it’s the smell from a vintage shop or the recent social media trend of sharing 2016 photos, Professor Cathy Cox from TCU’s Louise Dilworth Davis College of Science & Engineering recently spoke to TCU News about why our brains respond so strongly to nostalgia. Read the full interview below and check out her Explained in 60 Seconds video: Looking to connect with Cathy Cox? Simply contact Holly Ellman, Associate Director of Communication, today at h.ellman@tcu.edu.