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As Senate debates Trump's 'Big, Beautiful Bill,' expert Gerald Gamm offers insight

President Donald Trump’s agenda hangs in the balance this week as Senate Republicans race to lock down the votes to pass their major tax and domestic policy bill by the president’s July 4 deadline. Republicans are holding firm against Democrats’ efforts to challenge elements of the measure, particularly its cuts to Medicaid and federal nutrition programs, as well as tax cuts for the wealthy. But the G.O.P. is also witnessing nagging reservations within its own ranks, as fiscal hawks are upset that the bill could pile more than $3 trillion onto the national debt. University of Rochester political scientist Gerald Gamm is watching the deliberations and political maneuverings closely, and is in a unique position to lend insight to reportage on the negotiations. Gamm is a co-author of Steering the Senate (Cambridge University Press, June 2025). The book has received high praise from a multitude of sources, and has been called "essential reading for all who care — or worry — about the past and future of institutional leadership and capacity on Capitol Hill," "the best book we have about the organizational development of the Senate," and "a masterpiece . . . that unearths new information on the emergence of leadership institutions and the role of parties and showing their relevance for the Senate of today." Gamm is available for interviews and can be contacted by email at gerald.gamm@rochester.edu or by clicking on his profile.

LSU AgCenter Research Enables Better Flood Protection for Homes

The American Society of Civil Engineers (ASCE) recently released its new standard for flood-resistant design and construction, ASCE/SEI 24-24, which provides new minimum requirements that can be adopted for all structures subject to building codes and floodplain management regulations. The new elevation standard was directly supported by LSU research and should help reduce flood risk and make flood insurance more affordable. “Without the research by the LSU AgCenter, the advancements made to the elevation requirements would not have been possible,” said Manny Perotin, co-chair of the Association of State Floodplain Managers’ Nonstructural Floodproofing Committee, who helped update the standard. “Dr. Carol Friedland’s research shows there are better ways to protect communities from flooding than adding one foot of additional freeboard.” The research team, led by Friedland, an engineer, professor, and director of LSU AgCenter’s LaHouse, showed how previous standards were failing to protect some homeowners. They mapped the impact of moving from a standard based on a fixed freeboard amount to being based on real risk in every census tract in the U.S. In response to these findings, they developed a free online tool to help builders, planners, managers, and engineers calculate the elevation required under the new standards. “Many on the committee said it would be too hard to do these complex calculations,” said Adam Reeder, principal at the engineering and construction firm CDMSmith, who helped lead the elevation working group for the new ASCE 24 elevation standards. “But the LSU AgCenter’s years of research in this area and the development of the tool makes calculations and implementation simple. This allowed the new elevation standard to get passed.” Flooding, the biggest risk to homes in Louisiana, continues to threaten investments and opportunities to build generational wealth. On top of flood losses, residents see insurance premiums increase without resources to help them make informed decisions and potentially lower costs. In response to this problem, Friedland is working on developing a whole suite of tools together with more than 130 partners as part of a statewide Disaster Resilience Initiative. When presenting to policy makers and various organizations, Friedland often starts by asking what percentage of buildings they want to flood in their community in the next 50 years. “Of course, we all want this number to be zero,” Friedland said. “But we have been building and designing so 40% will flood. People have a hard time believing this, but it’s the reality of how past standards did not adequately address flood risk.” Designing to the 100-year elevation means a building has a 0.99 chance of not flooding in any given year. But when you run that probability over a period of 50 years (0.99 x 0.99 x 0.99… 50 times, or 0.99 ^ 50), the number you end up with is a 60.5% chance of not flooding in 50 years. This means a 39.5% chance of flooding at least once. “We’ve been building to the 100-year elevation while wanting the protection of building to the 500-year elevation, which is a 10% chance of flooding in 50 years,” Friedland said. “Now, with the higher ASCE standard, we can finally get to 10% instead of 40%.” As the AgCenter’s research led to guidelines, then to this new standard, Friedland has also been providing testimony to the International Code Council to turn the stronger standard into code. In May, Friedland helped lead a workshop at the Association of State Floodplain Managers’ national conference, held in New Orleans. There, she educated floodplain managers about the new standard while demonstrating LSU’s web-based calculation tool, which was designed for professionals, while her team also develops personalized decision-making tools such as Flood Safe Home for residents. At the conference, Friedland received the 2025 John R. Sheaffer Award for Excellence in Floodproofing. More than two-thirds of the cost of natural hazards in Louisiana comes from flooding, according to LSU AgCenter research in partnership with the Governor’s Office of Homeland Security and Emergency Preparedness for the State Hazard Mitigation Plan. That cost was recently estimated to rise to $3.6 billion by 2050. “Historically, we have lived with almost a 40% chance of flooding over 50 years, which in most people’s opinion is too high—and the number could be even higher,” Reeder said. “Most building owners don’t understand the risk they are living with, and it only becomes apparent after a flood. The work done by the LSU AgCenter is critical in improving resilience in communities that can’t afford to be devastated by flooding.” “This may be the most significant upgrade in the nation’s flood loss reduction standards since the creation of the National Flood Insurance Program minimums in 1973, and it could not come at a better time as annual flood losses in the country now average more than $45 billion per year,” said Chad Berginnis, executive director of the Association of State Floodplain Managers. In addition to LaHouse’s work to prevent flooding, Friedland’s team is also working to increase energy efficiency in homes to help residents save money on utility bills. Their HEROES program, an acronym for home energy resilience outreach, education, and support, is funded by the U.S. Department of Agriculture and has already reached 140,000 people in Louisiana. Article originally posted here.

The Canadian Housing Market is a Mess

The Social Contract is Broken—And We Forgot to Tell Our Kids There was a time in Canada when the rules seemed straightforward: work hard, stick to the plan, and your kids would have an even better future than you did. That was the unspoken social contract—not legally binding, but deeply believed. A handshake between generations, sealed with maple syrup and mutual optimism. You purchased a modest home, stayed with one employer for 30 years, and retired with a gold watch, a pension, and a house you owned outright. Life wasn’t flashy, but it was fair. And your kids? They would climb even higher. Well… about that! The Housing Market: From Stepping Stone to Stumbling Block Homeownership used to be a rite of passage. Now it feels more like winning The Amazing Race: Toronto Edition. According to Statistics Canada housing data, in 1990, the average Canadian home sold for approximately $215,000. Fast-forward to late 2023–early 2024, and that number has ballooned to around $670,000–$700,000 on average —a more than 200–225% increase in just over three decades. Meanwhile, wages didn’t get the memo. Since 1990, they’ve only doubled. So, while home prices soared, incomes shifted to the kitchen for more instant noodles. It's not just a gap—it’s a canyon. Sure, there was a housing correction in the early ’90s. But if you’re under 40, you’ve never seen a price drop—only stable prices (on a good day). Meanwhile, boomers and older Gen Xers bought homes when down payments didn’t require a GoFundMe page. Boomers Rode the Rocket—Then Pulled Up the Ladder Let’s be honest: we did quite well. If you purchased property in the ’70s, ’80s, or ’90s, you benefited from a wave of equity that transformed retirement into a cruise ship brochure. For many, the house became the largest—and only—source of real wealth. We got used to it. Then we got protective. Then... well, a bit smug. • NIMBYism? Guilty. • Zoning restrictions? Voted yes. • Capital gains reform? Over my arthritic body. • Preferred Pronouns – Me, Myself and I We feared anything that could lower our property values. A 25% correction? Not in my golden years! But that might be what it takes to give our kids a fair shot. We told them to "work hard," then quietly reinforced a game they couldn’t win. We Told Them to Hustle—Then Rigged the Game Today’s young Canadians aren’t lazy; they’re exhausted. They’ve done everything we asked—degrees, careers, even side hustles—and still can’t afford a 500-square-foot shoebox in Toronto without cashing in their RRSPs or moving back into our basements. By the way, they’re doing this—not because they missed us, but because rent is eating up half their paycheque and still asking for dessert. Even worse? Many are looking abroad, not for a gap year, but for an economy in which they can participate—one where they might be able to afford a home and groceries in the same month. If the best and brightest are quietly packing their bags, it’s not wanderlust; it’s a policy failure. There’s now a whole ecosystem catalyzed by everything from consultants to cloud-based software and payment platforms that has aided a global movement of “creative-class” digital nomads. For those who want a more affordable cost of living and have the skills necessary to work remotely, this generation has options to move. In "Intelligent Money," author Chris Skinner envisions a future where AI-powered financial systems won’t just advise against homeownership—they’ll actively discourage it. Why commit to mortgage debt when you can rent flexibly, invest digitally, and maintain liquidity in your life? Not a dream, but a necessity. We told them to pull up their socks. They’re wondering if we sold their shoes. What Happened to Profit Sharing? Remember when companies used to share their success? Microsoft, Google, and yes, still Costco, offered profit-sharing or stock options that turned employees into unexpected millionaires. It wasn’t charity; it was a fair deal. Then gig work emerged, HR departments disappeared, and the only thing we shared was burnout. We need to restore fairness—perhaps even incentivize companies that value loyalty. Renter Equity Accounts: A Radical Concept—Equity You're not building wealth if rent is more than 30% of your income. You’re funding someone else’s retirement. So, here’s a thought: when rent exceeds 30%, why don’t we match the excess—25% to 50%—and deposit it into a locked “Renter Equity Account”? It grows tax-free and can be used for: • A down payment • Retirement savings • Student debt relief • Emergency funds Employers could contribute to REA plans. Governments could provide incentives, and renters could finally receive more than just a rent receipt and a pat on the back. It's Time for Bold, Practical Ideas We can’t rewind to 1990. (Although the fashion world is trying.) But we can fix what’s broken: Let Canadians earn their first $250,000 tax-free, provided it is used for a down payment or to eliminate student loans. That’s helping reduce overall debt. Ensure zoning reform is effective by linking federal infrastructure funding to genuine housing development. Establish public wealth tools - TFSA-style accounts for low-wealth, high-effort Canadians. Forgive student loans for public service, specifically for individuals filling positions such as nurses, teachers, early childhood educators, and tradespeople, with added incentives for those relocating to underserved areas. Invest in them, and they will reinvest in us. What Families Can Do—Right Now No, you can’t rewrite national policy from the kitchen table. (Unless you’re Chrystia Freeland.) But here’s what you can do: Start a down payment fund—consider using a TFSA or an investment account to help your kids build capital. Create an ADU—laneway homes, granny suites, legal basement rentals. Housing and support combined. Access your home equity—HELOCs or reverse mortgages can be lifelines, not luxury options. Create a rent-to-own family plan—turn monthly rent into future equity. Discuss finances—share your successes, warn against mistakes, and share the financial knowledge you’ve gained from hard lessons. An Apology—from the Heart To our kids and to the next generation, we should say we’re sorry. We didn’t plan for this outcome. We assumed the paths we walked would still be open for you, that the same rules would still apply, and that equity would be available to all. We forgot that a contract—even an unspoken one—still needs to be honoured. But it’s not too late. We can speak out. We can share our thoughts. We can change the policies, shift the mindsets, and reopen the doors that have been closed, because the future of this country shouldn’t be something you have to leave to find. Let’s fix this. So, you can stay. And thrive. And lead. Let’s rebuild the contract together. Deal? Don’t Retire … Re-Wire! Sue

Food is medicine, and this professor has the research to prove it

For more than 20 years, Dr. Allison Karpyn has worked to understand and address food insecurity in America and beyond — studying how communities access healthy food, how policy shapes those opportunities and how local partnerships can make meaningful change. A professor in the University of Delaware’s College of Education and Human Development and co-director of its Center for Research in Education and Social Policy, Karpyn has published extensively on topics including food deserts, healthy corner store initiatives, school nutrition programs and strategies to bring farmer’s markets to underserved areas. Her work, which blends rigorous research with community-based implementation, has appeared in leading journals such as Pediatrics, Preventive Medicine and Health Affairs. Karpyn has also worked directly with nonprofit organizations, government agencies and retailers to pilot and evaluate programs designed to increase access to high-quality food in low-income neighborhoods. Her focus is on actionable, data-informed solutions to persistent challenges — from childhood hunger to structural barriers in the food supply system. Now, Karpyn’s expertise is being tapped as part of Delaware’s new Food is Medicine Committee, a statewide initiative under the Delaware Council on Farm and Food Policy. The committee seeks to connect nutrition and health care to improve outcomes, lower costs and strengthen local food systems — goals that align closely with Karpyn’s career-spanning mission. For journalists exploring food policy, hunger, public health and the future of food access, Karpyn is a key source of insight, research and real-world perspective. She can be contacted by clicking her profile. 

Mental health risks spike for young LGBTQ+ men of color, new study shows

As Pride Month shines a spotlight on the progress and resilience of LGBTQ+ communities, it also serves as a reminder of the ongoing challenges — especially the toll that stigma continues to take on mental health. A new in Developmental Psychology study from the University of Delaware’s Eric Layland, assistant professor in the College of Education and Human Development, reveals just how urgent the need for tailored mental health support is — particularly for Black, Latinx and Afro-Latinx gay, bisexual and other sexual minority young men. Published during a time when national attention turns toward LGBTQ+ visibility, the study tracks the mental health trajectories of over 400 cisgender men between the ages of 18 and 29, focusing on how experiences of racism, heterosexism, or both — what Layland terms compound stigma — influence patterns of depression and anxiety. The results are stark: participants who experienced frequent racism and heterosexism across relationships and settings showed the earliest and most severe symptoms of anxiety and depression, with mental health challenges peaking during late adolescence and early adulthood. While symptoms tended to decline by age 24, these years — critical for education, identity formation and economic independence — were marked by emotional strain. "This study emphasizes how multiple sources of discrimination converge to impact the mental health of sexual minority men of color," Layland said. The research calls for early, culturally responsive mental health interventions that help young sexual minority men of color cope with stigma and build resilience. Layland’s team points to interventions that not only teach coping skills but also foster connection, celebrate cultural identity and create peer networks for support. Layland, who specializes in LGBTQ+ development and affirmative interventions, underscores the importance of systemic change as well.  “We need clinical and community resources that are adapted to address the intersecting discrimination experienced by sexual minority men of color, especially in their late teens in early twenties,” said Layland. Supported by the National Institute on Drug Abuse, the National Institute on Mental Health and UD, this study arrives at a crucial time for researchers, educators and community organizations working to create more inclusive and supportive environments. For journalists covering Pride, mental health, or intersectional equity, Layland’s work offers a powerful, data-driven look at what young LGBTQ+ people of color are facing — and how communities can act to change that story.  Journalists can reach Layland by clicking on his profile. 

FAST nanotechnology unveiled at Rome Global Congress by AU scientist

Stephen Hsu, PhD, a professor at the Dental College of Georgia at Augusta University, unveiled his groundbreaking nanotechnology, known as FAST, during a keynote address at the 8th World Congress on Infectious Diseases in Rome, Italy. FAST, or Facilitated Self-Assembling Technology, offers a revolutionary way to convert compounds that are difficult to dissolve in water into stable nanoparticles. This innovation could transform drug development, viral infection prevention, hospital hygiene and more. “FAST takes a completely different approach from traditional nanotechnology,” Hsu explained. “Unlike methods that rely on polymers, metals, surfactants, fat-based carriers or complex engineering processes, FAST allows compounds to self-assemble into nanoparticles with minimal effort. This makes drugs that were once nearly impossible to formulate in water stable, effective and practical for medical and consumer use.” At the heart of this innovation is EC16, or EGCG-palmitate, a lipid-soluble compound derived from green tea. Known for its antioxidant, anticancer, anti-inflammatory and antimicrobial properties, green tea has long been studied but is challenging to use in clinical settings due to stability issues. FAST overcomes these limitations, transforming EC16 and other hydrophobic compounds into water-friendly nanoparticles. “You can’t even tell the particles are there,” said Hsu. “They look just like water. I made several different formulations in one afternoon in my lab. It’s that fast and simple.” A natural solution to global challenges Hsu’s work is the culmination of decades of research and a deeply personal journey. He credits green tea with helping him survive illness during his youth in a labor camp in China. Now, he’s turning its natural properties into cutting-edge therapies with the hope of helping more people. “I’ve been drinking green tea my entire life,” Hsu said. “Now, we’re turning its benefits into medical-grade treatments.” Supported by over $600,000 in NIH grants, Hsu’s team is developing applications like alcohol-free disinfectants and nasal sprays to prevent respiratory virus infections. One promising product is an EC16-based disinfectant that is natural, non-toxic and highly effective against tough pathogens, like norovirus and C. difficile, a bacterium that can cause severe diarrhea. “That’s a big deal for schools, hospitals and places like cruise ships, where these infections spread easily,” he said. Tackling long COVID and beyond Among FAST’s most promising applications is a nasal spray developed to prevent or treat long COVID and other respiratory illnesses. The spray, currently undergoing preclinical testing, targets viral entry points in the nasal mucosa, where infections often begin. “Our goal is to help immunocompromised patients and those with lingering symptoms like brain fog and loss of smell,” Hsu said. “We’ve already seen strong in vitro results against human coronavirus and norovirus.” In addition to nasal and topical treatments, Hsu’s team has developed oral formulations of EC16 that remain stable through the stomach’s acidic environment, critical for treating gastrointestinal viruses and potentially inflammatory bowel diseases like Crohn’s. “We found that even without direct contact with the virus, the EC16 nanoparticles taken by mouth can reduce infection,” Hsu explained. “That’s a major step forward in treatment of digestive tract viral infections.” A platform for the future of medicine FAST isn’t limited to green tea compounds. Hsu’s method can transform a wide range of hydrophobic compounds like cannabidiol, ivermectin, quercetin, procyanidin and retinoic acid, as well as hundreds of existing drugs, into nanoparticle suspensions that are stable and water-friendly. This has huge implications,” said Hsu. “Up to 90% of new drug candidates have poor water solubility and low bioavailability, which limits their effectiveness. With FAST, we can change that.” His lab is already exploring applications in Alzheimer’s research, cancer therapy, oral health and even anti-biofilm coatings to prevent hospital infections. These products, along with the nasal spray, are expected to hit the market this fall. Hsu is currently finalizing publications and preparing patent filings to protect and expand the reach of FAST. While optimistic, he remains cautious. “The results so far are phenomenal. FAST could be a new chapter in how we fight disease and deliver medicine,” Hsu said. Looking to know more about FAST nanotechnology and the research happening at Augusta University? To connect with Dr. Stephen Hsu - simply contact AU's External Communications Team mediarelations@augusta.edu to arrange an interview today. 

Kyle Davis wins NSF CAREER Award for pioneering research on climate-resilient food systems

University of Delaware assistant professor Kyle Davis has received a National Science Foundation (NSF) CAREER Award—one of the most competitive and prestigious honors for early-career faculty—for his work advancing the climate resilience of global food systems. Davis, who holds joint appointments in the College of Earth, Ocean and Environment and the College of Agriculture and Natural Resources, leads cutting-edge research at the intersection of agriculture, sustainability and global environmental change. His focus? Making food production more efficient, climate-smart and socially equitable—especially in regions grappling with limited water resources. With a growing global population and increasing pressure on land and water, Davis’s research is helping to answer one of the most critical questions of our time: How can we feed the world without destroying the planet? His lab’s work recently led to the development of MIRCA-OS, a groundbreaking open-source dataset that offers high-resolution global data on irrigated and rain-fed croplands across 23 crop types. The tool, co-created with UD doctoral student Endalkachew Kebede and published in Nature Scientific Data, allows researchers, farmers and policymakers to assess how crop choices, rainfall and irrigation interact with water systems and food security. Some of the thirstiest crops are grown in the most water-stressed areas Davis said. Shifting crop mixes to crops that require less water but still ensure farmer profits is a promising way to reduce the amount of water needed to irrigate crops and to avoid conditions of water scarcity. Davis’s research spans continents, with active projects in the United States, India, China and Nigeria, where his team is exploring solutions to water scarcity, crop nutrition and agricultural sustainability. His work has appeared in Earth.com, Phys.org and major scientific journals. In 2023, he was recognized with the American Geophysical Union’s Global Environmental Change Early Career Award. In addition to research, Davis is a dedicated mentor, guiding graduate students from around the world. “So much of my research is the result of their passion, abilities, drive and creativity,” Davis said. Davis is available for interviews on topics including sustainable agriculture, water use, climate adaptation, food systems and the power of data science in global development. He can be contacted by clicking the "View Profile" button.

Augusta University named NIH Specialized Center of Research Excellence on Sex Differences

Jennifer C. Sullivan, PhD, dean of The Graduate School at Augusta University, has dedicated her research to better understand why blood pressure increases in hypertension and raising awareness to the dangers of not paying attention to heart health, particularly among women. Throughout her career, Sullivan has been continuously funded by the National Institutes of Health (NIH) and the American Heart Association since becoming a tenure-track faculty member in 2008, and now she has a chance to take her research further after securing a five-year, $7.5 million grant to have Augusta University designated as a Specialized Center of Research Excellence on Sex Differences (SCORE) by the NIH’s Office of Research on Women’s Health. It’s a distinction that places AU among 10 other leaders in research for the field, including Brigham and Women’s Hospital, Cedars-Sinai Medical Center, Emory University, Johns Hopkins University, Massachusetts General Hospital and Harvard Medical School, the Mayo Clinic, the Medical University of South Carolina, the University of Colorado and Yale University. The University of California, Los Angeles has two SCORE programs. “I’m so proud and excited for this opportunity because this has been what I have focused my research program on for my entire career, and to be able to advance it with a program like this, where we can actually build a unique program focused on an area that can make a difference, is just so much fun,” Sullivan said. “Just the fact that Augusta will be included on this list, attached to an organization of the caliber of NIH, will provide opportunities that we’ve never had before, especially for our students and younger researchers.” Sullivan’s SCORE project, “Improving awareness of women with hypertension: ROAR (Rural, Obese, At Risk),” focuses primarily on the fact that, while young women are considered “protected” from hypertension and the associated cardiovascular risk relative to age-matched men, the elimination of hypertension is projected to have a larger impact on cardiovascular disease (CVD) mortality in women. “The group of people with the highest risk of death from hypertension is in the rural South of the U.S., specifically Black women are particularly vulnerable to developing hypertension and CVD,” Sullivan said. According to Sullivan’s research and information available from the American Heart Association (AHA), approximately 19 million deaths were attributed to CVD globally in 2020, an increase of about 20% from 2010. Both Sullivan and the AHA state that cardiovascular disease remains the leading cause of death for both men and women in the United States, and that hypertension is a major modifiable risk factor for CVD. Sullivan said, “It has been suggested that eliminating hypertension would reduce CVD mortality by over 30% in men and 38% in women, but a critical barrier to limiting premature death from CVD is lack of awareness surrounding the risks of CVD. Our overall goal in this new funded project is to transform academic and community understanding of sex as a biological variable in the consideration of hypertension.” The three research projects include Sullivan’s lead project on high fat diets, a project on systemic lupus erythematosus (SLE) disproportionately affects young women led by Erin Taylor, PhD, at the University of Mississippi Medical Center, and another project looking at the role of inflammation and how immune cells are activated in SLE led by Michael Ryan, PhD, at the University of South Carlina’s School of Medicine. But there is more to SCORE than just conducting research. Each SCORE team is also responsible for a career enhancement core and a leadership administrative core. “What really sets these grants apart are the emphasis on the career enhancement and leadership administrative cores. The Career Enhancement Core is designed to be a bit open ended for each SCORE, but in talking to the NIH, what they were most excited about in our project is the community outreach piece we designed. “Our grant includes people across the entire campus, including Augusta University’s Medical College of Georgia, the College of Allied Health Sciences, the College of Education and Human Development and multiple campus partners including some of our sororities on campus and the Center for Writing Excellence,” Sullivan said. “More specifically, the COEHD is able to extend our outreach efforts to our local schools to begin educating children on the importance of screening, and our sororities are obviously connected with other chapters across the southeast which helps us spread our message, as well.” Sullivan notes that, through this portion of the project alone, there will be numerous opportunities to include students from Augusta University’s CAHS, College of Nursing, Department of Kinesiology, the Biomedical Sciences PhD program and the proposed School of Public Health. Marlo Vernon, PhD, associate professor at MCG and researcher for the Georgia Cancer Center, and Amanda Behr, chair of the Medical Illustration Program in CAHS, are also involved in various stages of the project. “The other thing the Career Enhancement Core will do is provide pilot grants to three research projects each year for early-stage investigators. We’ll also be able to fund sabbaticals for graduate students or postdocs to go someplace else and learn cutting edge techniques from other experts, so there is a lot built in that will help us support up-and-coming researchers,” Sullivan said. “We’re now part of this consortium, and they have a once-a-year, in-person meeting at the NIH offices, so we’ll go to that for the first time this year, and what’s neat about it is they’re really promoting young investigators. Each grant can bring up to eight people, the our hope is that we will have the investigators funded by the pilot projects attend next year, giving those folks the opportunity to present and talk to program officers with the NIH and develop a pipeline of investigators committed to studying women’s health and sex as a biological variable.” Sullivan is also looking to designate some of her summer graduate and undergraduate research positions to the project beginning next summer. “The Graduate School already has a summer program to support undergraduates that we will be able to piggyback off of. We have set aside five slots in that program for this that will go to students studying the sex as a biological variable, and the applications for that program, STAR, is already open,” Sullivan said. “We’re also planning a symposium in collaboration with the Physiology Department in April 2024. This is an annual event sponsored by the department, and this year they selected sex differences as the topic, so we are hoping to help increase exposure and attendance.” Looking to know more about the amazing research happening at  Augusta? To connect with Jennifer Sullivan, simply click on her icon ow to arrange an interview today.

The Impact of Counterfeit Goods in Global Commerce

Introduction Counterfeiting has been described as “the world’s second oldest profession.” In 2018, worldwide counterfeiting was estimated to cost the global economy between USD 1.7 trillion and USD 4.5 trillion annually, as well as resulting in more than 70 deaths and 350,000 serious injuries annually. It is estimated that more than a quarter of US consumers have purchased a counterfeit product. The counterfeiting problem is expected to be exacerbated by the unprecedented shift in tariff policy. Tariffs, designed as an import tax or duty on an imported product, are often a percentage of the price and can have different values for different products. Tariffs drive up the cost of imported brand name products but may not, or only to a lesser extent, impact the cost of counterfeit goods. In this article, we examine the extent of the global counterfeit dilemma, the role experts play in tracking and mitigating the problem, the use of anti-counterfeiting measures, and the potential impact that tariffs may have on the flow of counterfeit goods. Brand goods have always been a target of counterfeits due to their high price and associated prestige. These are often luxury goods and clothing, but can also be pharmaceuticals, cosmetics, and electronics. The brand name is an indication of quality materials, workmanship, and technology. People will pay more for the “real thing,” or decide to buy something cheaper that looks “just as good.” In many cases, “just as good” is a counterfeit of the brand name product. A tariff is an import tax or duty that is typically paid by the importer and can drive up the cost of imported brand name products. For example, a Yale study has shown that shoe prices may increase by 87% and apparel prices by 65%, due to tariffs. On the other hand, counterfeit products don’t play by the rules and can often avoid paying tariffs, such as the case of many smaller, online transactions, shipped individually. Therefore, we expect to see an increase in counterfeit products as well as a need to increase efforts to reduce the economic losses of counterfeiting. The Scale of the Counterfeit Problem In their 2025 report, the Organisation for Economic Co-operation and Development (OECD) and the European Union Intellectual Property Office (EUIPO), estimated that in 2021, “global trade in counterfeit goods was valued at approximately USD 467 billion, or 2.3% of total global imports. This absolute value represents an increase from 2019, when counterfeit trade was estimated at USD 464 billion, although its relative share decreased compared to 2019 when it accounted for 2.5% of world trade. For imports into the European Union, the value of counterfeit goods was estimated at USD 117 billion, or 4.7% of total EU imports.” In a 2020 report, the US Patent and Trademark Office (USPTO) estimated the size of the international counterfeit market as having a “range from a low of USD 200 billion in 2008 to a high of USD 509 billion in 2019.” According to the OEDC / EUIPO General Trade-Related Index of Counterfeiting for economies (GTRIC-e), China continues to be the primary source of counterfeit goods, as well as Bangladesh, Lebanon, Syrian Arab Republic, and Türkiye. Based on customs seizures in 2020-21, the most common items are clothing (21.6%), footwear (21.4%), and handbags, followed by electronics and watches. Based on the value of goods seized, watches (23%) and footwear (15%) had the highest value. However, it should be noted that items that are easier to detect and seize are likely to be overrepresented in the data. Although the share of watches declined, and electronics, toys, and games increased, it remains unclear whether this represents a long term trend or just a short term fluctuation. In general, high value products in high demand continue to be counterfeited. Data from the US Library of Congress indicates that 60% – 80% of counterfeit products are purchased by Americans. The US accounts for approximately 5% of the world’s consumers; however, it represents greater than 20% of the world’s purchasing power. Though it is still possible to find counterfeit products at local markets, a large number of counterfeit goods are obtained through online retailers and shipped directly to consumers as small parcels classified as de minimis trade. This allows for the duty-free import of products up to USD 800 in value. Counterfeit items may be knowingly or unknowingly purchased from online retailers and shipped directly to consumers, duty-free. Purchased products can be shipped via postal services, classified as de minimis trade. Approximately 79% of packages seized contained less than 10 items. Given the size and volume of the packages arriving daily, many or most will evade scrutiny by customs officials. This means of import is increasing over time. In 2017-19 it was 61% of seizures. By 2020-21, it was 79%. Economic Impact of Counterfeiting The scale of the counterfeiting problem has significant impacts on the US economy, US business interests, and US innovations in lost sales and lost jobs. Moreover, counterfeit products are often made quickly and cheaply, using materials that may be toxic. The companies producing these goods may not dispose of waste properly and may dump it into waterways, causing significant environmental consequences. Counterfeit products from electrical equipment and life jackets to batteries and smoke alarms may be made without adhering to safety standards or be properly tested. These products may fail to function when you need it and may lead to fire, electric shock, poisoning, and other accidents that can seriously injure and even kill consumers. Counterfeit cosmetics and pharmaceuticals can also lead to injuries by either including unsafe ingredients or by failing to provide the benefits of the real product. The Tariff Counterfeit Connection Tariffs may be seen as a tax on consumers and raise the price of imported products that are already the target of counterfeiters such as luxury leather products and apparel. It’s commonly understood that raising prices on genuine products can only drive up the demand for counterfeit goods. In general, consumers will have less disposable income and the brand goods they desire will cost more which is bound to increase the demand for counterfeit goods. Although recent changes removing the USD 800 tax exemption on de minimis shipments from China and Hong Kong will make it more expensive for counterfeiters to ship their goods internationally, tariffs are typically applied as a percentage of the cost of an object. This will cause the price of more expensive legitimate goods to increase even more than the cheaper counterfeit goods and likely make the counterfeit products even more attractive economically. Therefore, we expect to see an increase in counterfeit products as well as an increase in efforts to reduce the economic losses of counterfeiting. The Role of Technical Experts in Counterfeit Detection Technical experts play an important role in both the prevention and detection of counterfeits and helping to identify counterfeiting entities. Whether counterfeit money, clothing, shoes, electronics, cosmetics or pharmaceuticals, the first step in fighting counterfeits is detecting them. In some cases, the counterfeit product is obvious. A leather product may not be leather, a logo may be wrong, packaging may have a spelling mistake, or a holographic label may be missing. These products may be seized by customs. However, some counterfeit products are very difficult to detect. In the case of a counterfeit memory card with less than the stated capacity or a pharmaceutical that contains the wrong active ingredient, technical analysis may be needed to identify the parts. Technical analysis may also be used to try and identify the source of the counterfeit goods. For prevention measures, manufacturers may use radio frequency identification (RFID) or Near Field Communication (NFC) tags within their products. RFID tags are microscopic semiconductor chips attached to a metallic printed antenna. The tag itself may be flexible and easy to incorporate into packaging or into the product itself. A passive RFID requires no power and has sufficient storage to store information such as product name, stock keeping unit (SKU), place of manufacture, date of manufacture, as well as some sort of cryptographic information to attest to the authenticity of the tag. A simple scanner powers the tag using an electromagnetic field and reads the tag. If manufacturers include RFID tags in products, an X-ray to identify a product in a de minimis shipment (perhaps using artificial intelligence technology) and an RFID scanner to verify the authenticity of the product can be used to efficiently screen a large number of packages. Many products also may be marked with photo-luminescent dyes with unique properties that may be read by special scanners and allow authorities to detect legitimate products. Similarly, doped hybrid oxide particles with distinctive photo-responsive features may be printed on products. These particles, when exposed to laser light, experience a fast increase in temperature which may be quickly detected. For either of these examples, the ability to identify legitimate products, or – due to the absence of marking – track counterfeit products, allows authorities to map the flow of the counterfeit goods through the supply chain as they are manufactured, shipped, and are exported and imported to countries. For many years, electronic memory cards such as SD cards and USB sticks have been counterfeited. In many cases, the fake card will have a capacity much smaller than listed. For example, a 32GB memory card for a camera may only hold 1GB. Sometimes, these products may be identified by analyzing the packaging for discrepancies from the brand name products. In other cases, software must be used to verify the capacity and performance of each one, which is time-consuming when analyzing a large number of products. Forensic investigators, comprised of forensic accountants and forensic technologists, are heavily involved in efforts to combat this illicit trade. By analyzing financial records, supply-chain data, and transaction histories, they trace the origins and pathways of counterfeit products. Their work often involves identifying suspicious procurement patterns, shell companies, and irregular inventory flows that signal counterfeit activity. Forensic investigators often begin by mapping the counterfeit supply chain, an intricate web that often spans continents. Using data analytics, transaction tracing, and inventory audits, they identify anomalies in procurement, distribution, and sales records. These methodologies help pinpoint the origin of counterfeit goods, the intermediaries involved, and the final points of sale. By reconstructing the flow of goods and money, forensic investigators can begin to unmask activities. Cross-border partnerships are essential for tracking assets, sharing insights, and coordinating with financial regulators. Public-private partnerships further enhance the effectiveness of anti-counterfeiting efforts. Forensic investigators often serve as bridges between government agencies, brand owners, and financial institutions, facilitating the exchange of key information. These partnerships increase information-sharing, streamline investigations, and amplify the impact of enforcement actions. A promising development in this space is the World Customs Organization’s Smart Customs Project, which integrates artificial intelligence to detect and intercept counterfeit goods. Forensic investigators can leverage this initiative by analyzing AI-generated alerts and incorporating them into broader financial investigations, which allows for faster and more accurate identification of illicit networks. Jurisdictional complexity is a major hurdle in anti-counterfeiting efforts. Forensic investigators work closely with legal teams to navigate these challenges to ensure that investigations comply with local laws, and evidence is admissible and can withstand scrutiny in court, especially when dealing with offshore accounts and international money laundering schemes. Forensic investigators follow the money, tracing illicit profits through bank accounts, shell companies, and cryptocurrency transactions. Their findings not only help recover stolen assets but also support disputes by providing expert testimony that quantifies financial losses and identifies the bad actors. Conclusion Imitations of brand name products have become more convincing, harder to detect, and the sources of the counterfeit goods more difficult to identify. While counterfeiting clearly has evolved because of technological advancements, e-commerce, and the growing sophistication of bad actors, the process has now been complicated even further by the unpredictable tariff and trade policies that are affecting businesses worldwide. Consequently, companies need to take a multi-faceted approach to these new challenges introduced into the counterfeiting of products by tariffs. By engaging high-tech product authentication measures, utilizing technology-based alerts about counterfeits, and retaining the specialized skills of forensic investigators and other experts, companies will be able to navigate the risks posed by the complex and changing relationship between tariffs and counterfeit goods. To learn more about this topic and how it can impact your business or connect with James E. Malackowski simply click on his icon now to arrange an interview today. To connect with David Fraser or Matthew Brown - contact : Kristi L. Stathis, J.S. Held +1 786 833 4864 Kristi.Stathis@JSHeld.com

Neutrons by the trillions: Using computational physics to understand nuclear reactors

Zeyun Wu, Ph.D., associate professor in the mechanical and nuclear engineering department at VCU Engineering, is reshaping the future of nuclear power. Nuclear reactors are among the most complex engineered systems on earth, with different physical processes interacting simultaneously across various scales. Even the world's most powerful computers cannot simulate every detail of an operating reactor at once. With a background in computational reactor physics, Wu’s research develops modeling and simulation techniques crucial to understanding next-generation nuclear reactors. By creating these advanced tools, his research eliminates the need for costly physical experimentation while ensuring the safety, efficiency and environmental sustainability of future nuclear power plants. Wu's research focuses on understanding reactor behavior through two aspects: multi-physics and multi-scale modeling. The multi-physics approach integrates various physical phenomena, such as nuclear physics reactions, fluid dynamics, heat transfer and structural mechanics, into a unified simulation framework. The multi-scale modeling technique addresses the vast range of physical scales involved, from subatomic neutron interactions to meter-sized reactor components. Wu’s research can simulate the complex phenomena within reactors at different scales. These models, developed using advanced numerical methods, help predict reactor behavior under various conditions. One of the models Wu uses tracks neutron behavior, a fundamental aspect to understand nuclear reactions. His simulations track trillions of neutrons as they move through various reactor materials, cause fission events and generate power. "What drives power is actually the neutron," explained Wu. "Once an atom splits, along with the nuclear energy release, lots of neutrons come out. We're talking about 1012 to 1013 neutrons per second. Our code tracks each neutron to understand where it comes from and where it goes." By understanding neutron distribution across space, time and energy domains, Wu's team can predict power distribution throughout the reactor core. This helps identify potential hotspots – areas of heightened thermal activity that could pose safety challenges. Beyond neutron behavior, Wu's research also explores how cooling fluids interact with neutrons and carry away thermal energy, a field known as thermal hydraulics, because how the reactor components are cooled significantly affects the neutron behavior as well. This also explains why the multi-physics modeling becomes essential for nuclear reactor simulations. Wu founded the Computational Applied Reactor Physics Laboratory (CARPL) to continue his research in nuclear reactor modeling and simulation. Undergraduate and master’s students learn to use established nuclear simulation codes to analyze reactor problems – skills highly valued in the industry and national labs. Ph.D. students build on theoretical foundations to deepen their understanding, enhance existing models, and develop new ones. “My area of research has been continually evolving for the past 60 years or so,” said Wu. “Most of the codes we use have been developed by national labs, like Oak Ridge National Lab, but these codes aren’t perfect. National labs hire Ph.D. level students with this niche to identify deficits in the code, correct errors and even add new functions and improve them.” Looking forward, Wu hopes his research will have a real-world impact on the upcoming shift in nuclear power in America. Over the next 20 to 30 years, the nation's approximately 90 light-water-cooled nuclear reactors reach the end of their operational lifetimes. Light water refers to ordinary water (H₂O), used in most existing reactors to both cool the system and slow down neutrons to sustain the nuclear reaction. To replace them, experts are looking toward advanced, non-light-water-cooled reactors, such as the Molten Uranium Breeder Reactor (MUBR) shown in the figure. Computational methods and tools like Wu’s research lab developed will be essential to their development and implementation. Non-light-water cooled reactors offer significant advantages over the older designs. Some can operate at higher temperatures while others produce substantially less nuclear waste, addressing one of the industry's persistent challenges. "Unlike traditional water reactors, where we have decades of operational experience and established analysis tools, these new designs present unique challenges," explained Wu. "Companies like Dominion employ large teams of analysts who use well-tested computational tools to maintain their existing reactors, but those same tools aren't calibrated for these next-generation reactors. Our research is developing the computational methods and simulations these advanced reactors will need. When these new reactors come online, the methodologies we're creating now can be quickly converted into production-level nuclear codes, providing immediate practical value to industry.”