The fishing event was organized by Kentucky Waterways Alliance (KWA) and UofL’s to help monitor the health of the Ohio River and its fish populations. Additional support was provided by Backcountry Hunters and Anglers (Kentucky chapter), two centers affiliated with Envirome – the Center for Healthy Air, Water and Soil and the Center for Integrative Environmental Health Sciences – along with the Falls of the Ohio Foundation and Humana Foundation.

UofL researchers and KWA arranged for laboratory testing of the channel catfish and freshwater drum caught from the Ohio River at the Clarksville, Ind. park by volunteer anglers for an array of contaminants:  heavy metals, polychlorinated biphenyls (PCBs) and per- and polyfluoroalkyl substances – known as forever chemicals. Researchers then compared these laboratory results with screening values and action levels from the EPA and the FDA.

Levels of the contaminants found in the fish were generally low, with most samples falling within safe consumption thresholds. One metal that exceeded EPA recommended screening levels was selenium, a naturally occurring heavy metal that can be affected by a fish’s age and diet. PCB levels for all fish samples were well below the FDA’s consumption action level threshold of 2.0 mg/kg of fish. However, PFOS, a forever chemical, was slightly above the EPA screening level in the freshwater drum. All forever chemicals were below recommended levels in catfish samples.

“These results highlight the need for continued monitoring of contaminants and will be used to inform ongoing waterway restoration efforts and updated consumption guidelines for fish caught in the Ohio River,” said Ted Smith, director of the Center for Healthy Air, Water and Soil. “This project is a powerful example of participatory science, allowing local residents to engage directly in environmental health research and contribute to the assessment of waterway health.”

The data gained from this event will support ongoing research and advocacy for cleaner water policies, helping to ensure the long-term health and sustainability of the Ohio River, the source of drinking water for millions of people, and its ecosystems.

The idea of a fishing day to enlist local volunteers in monitoring contaminant levels in the Ohio River first arose at the Association for the Advancement of Participatory Sciences regional conference hosted by the Envirome Institute’s Center for Healthy Air, Water and Soil in the spring of 2024.

Researchers at the University of Louisville  are working at the forefront in combating these pathogens. The CPM has been testing the effectiveness of new drugs against P. aeruginosa under a contract with the National Institutes of Health since 2013, and a new contract from the U.S. Food and Drug Administration will expand the center’s work in testing new drugs against this pathogen. Under the new two-year, $933,606 contract, CPM will develop a validated model for screening antimicrobial drugs against P. aeruginosa.

“This model likely will play an important role in drug development pipelines leading to identification of new antimicrobial drugs,” said Matthew Lawrenz, PhD, associate professor of microbiology and immunology who is leading the research. “Researchers at UofL and from around the world will use the model to screen new antimicrobials against multi-drug resistant bacteria prior to clinical trials.”

Forest Arnold, DO, hospital epidemiologist for UofL Hospital and associate professor in the Division of Infectious Diseases in the UofL School of Medicine, said multi-drug resistant bacteria and XDR bacteria, those with resistance to all existing antibiotics, are evolving faster than the drugs to kill them.

“The germs get smarter as we make new drugs. If we are going to stay on top of them, we need new antibiotics, especially new classes of antibiotics — those with a new mechanism of action that the germ hasn’t seen before,” Arnold said.

Infections with MDR bacteria are particularly threatening for patients with weakened immune systems, those who have had multiple rounds of treatment with antibiotics, and in patients using devices such as ventilators and blood catheters. Since these bacteria are now resistant to many of the antibiotic drugs used to treat them, they can lead to severe infections and death.

“If you have an infection with a bacterium we don’t have an antibiotic to treat, it could kill you,” Arnold said.

P. aeruginosa is common in the environment and in otherwise healthy people, it may cause relatively minor of the ear, skin or eye. However, in people with weakened immune systems or in hospital settings, P. aeruginosa can cause serious, life-threatening infections of the blood, lungs, digestive tract or tissue. Infected wounds will have a green pus or discharge and a fruity smell.

The validated animal model, to be developed by UofL researchers with collaborators at the University of Kentucky and the University of Wisconsin, will be used to test new compounds developed by drug companies and research labs around the world against P. aeruginosa. This model will allow testing against multiple strains of pseudomonas and will give more detailed information about the effectiveness of the drugs being tested.

“The previous methods we used for testing the drugs provided basic information about a compound’s effectiveness. This new model will allow us to test anything from older classes of antibiotics to brand new classes and will provide information on dosing and scheduling. In addition, we will be able to test different strategies, such as immunomodulation – targeting the host to better respond to the infection as opposed to directly killing the bacteria,” Lawrenz said.

The CPM’s new contract with the FDA will take advantage of the sophisticated resources at the , located on the UofL ShelbyHurst Campus, which provide the environment necessary for this work.

“This new contract from the Food and Drug Administration supports the development of a model for understanding how bacteria build resistance to current commercially available antibiotics, which in turn, will lead to the discovery of new drugs or methods to combat a variety of infectious diseases,” said Robert Keynton, PhD, interim executive vice president for research and innovation at UofL. “The UofL Center for Predictive Medicine and the Regional Biocontainment Laboratory represents a significant investment in infrastructure, faculty and staff by the university in the field of emerging infectious diseases, which is one of our research and training strategic priorities.”