For people in the United States, an outbreak of malaria might seem exotic, a health issue in a remote or far-away part of the world. But malaria 鈭 an insidious, mosquito-borne disease carried by a parasite 鈭 knows no boundaries and refuses to leave the global stage. In fact, the deadly Plasmodium falciparum kills an estimated 600,000 people a year, 95 percent of them children under age 5.
That鈥檚 one reason a researcher and her colleagues are concerned about any appearance of malaria in the United States, and they diligently identified and tracked a recent outbreak here in the Sunshine State.
鈥淒espite malaria having been eradicated from the United States more than 70 years ago, and local transmissions having ceased for about 20 years, the risk persists,鈥欌 said , PhD, an associate professor with the USF Genomics Program . 鈥淢alaria remains a significant global infectious disease that could potentially affect the United States again.鈥欌
Jiang and a dozen researchers from Florida published new findings in the Emerging Infectious Diseases Journal of the Centers for Disease Control and Prevention in Atlanta. Titled 鈥, Florida,鈥 the paper underscores the usefulness and power of genomic tools in epidemiologic investigations, such as tracing the origins of malaria infection.
鈥淚t鈥檚 important to note that the risk of malaria in Florida remains low, and local transmission events like these are promptly stopped with all patients recovering,鈥欌 Jiang added. 鈥淗owever, raising awareness, particularly among physicians in Florida, is crucial. This ensures early detection and appropriate treatment.鈥欌
The CDC paper focused on a cluster of seven patients at hospitals around Florida who in 2023 were diagnosed with Plasmodium vivax malaria. Experts believe they were infected while visiting Central and South America.
All seven patients were concentrated within a four-mile radius, raising concern about potential local transmission cycles. To trace the origin of the infections, researchers isolated DNA from blood samples and ran it though highly sophisticated screening and comparison tests.
Jiang and her team examined the genomic characteristics, probable transmission dynamics, and likely origins of the 2023 strain in Florida, demonstrating the role of genomic epidemiology (tracking pathogens) and the scale of intervention required to prevent infection or outbreak.
鈥淚n sum, our phylogenomic analysis support the interpretation of a single, limited introduction event from Central/South America into Florida,鈥欌 the study states. 鈥淎lthough the risk for autochthonous (local) malaria in the U.S. remains low, the potential threat of imported P. vivax setting off and establishing local transmission 鈥 in conducive environments is a public health concern.鈥欌
Malaria is most prevalent in parts of Africa, where strained health care systems struggle with prevention techniques and treatment. While malaria isn鈥檛 endemic in Florida, the state is home to the Anopheles mosquito, which is responsible for spreading the disease. Untreated malaria caused by P. falciparum, a protozoan parasite, can be life threatening.
In addition, Florida鈥檚 long summers and mild winters allow mosquitoes more time to breed. This could be exacerbated by global warming, experts believe, as entire populations of insects might migrate from their normal home.
鈥淐limate change could create more suitable habitats for Anopheles mosquitoes, which thrive in warm and wet environments,鈥欌 Jiang said. 鈥淭his could potentially lead to an expansion of their geographic range, increasing the risk of disease transmission.鈥欌
Jiang collaborated on the CDC paper with researchers from USF, Tampa General Hospital and the Florida Department of Health, including co-senior authors Drs. Liwang Cui and Kami Kim, along with lead author Swamy Adapa and contributing author Dr. John Adams. The team hopes their research leads to new pathways in solving the riddle of malaria on a world-wide scale.
鈥淢alaria remains a significant global health challenge, particularly in regions where it is endemic,鈥欌 Jiang said. 鈥淲ith no highly effective vaccines currently available, early detection and treatment are crucial.鈥欌