Your search keyword '"Tierra Smiley Evans"' showing total 5 results

1. Exposure to diverse sarbecoviruses indicates frequent zoonotic spillover in human communities interacting with wildlife

Author

Tierra Smiley Evans, Chee Wah Tan, Ohnmar Aung, Sabai Phyu, Htin Lin, Lark L. Coffey, Aung Than Toe, Pyaephyo Aung, Tin Htun Aung, Nyein Thu Aung, Christopher M. Weiss, Kyaw Zin Thant, Zaw Than Htun, Suzan Murray, Linfa Wang, Christine Kreuder Johnson, and Hlaing Myat Thu

Subjects

Microbiology (medical), Sarbecovirus, Life on Land, Wild, Myanmar, Microbiology, Vaccine Related, Clinical Research, Chiroptera, Zoonoses, Biodefense, Animals, Humans, Phylogeny, SARS-CoV-2, Prevention, Zoonotic, COVID-19, Bat, General Medicine, Coronavirus, Infectious Diseases, Severe acute respiratory syndrome-related coronavirus, Medical Microbiology, Public Health and Health Services, Infection

Abstract

BackgroundSarbecoviruses are a subgenus of Coronaviridae that mostly infect bats with known potential to infect humans (SARS-CoV and SARS-CoV-2). Populations in Southeast Asia, where these viruses are most likely to emerge, have been undersurveyed to date.MethodsWe surveyed communities engaged in extractive industries and bat guano harvesting from rural areas in Myanmar. Participants were screened for exposure to sarbecoviruses, and their interactions with wildlife were evaluated to determine the factors associated with exposure to sarbecoviruses.ResultsOf 693 people screened between July 2017 and February 2020, 12.1% were seropositive for sarbecoviruses. Individuals were significantly more likely to have been exposed to sarbecoviruses if their main livelihood involved working in extractive industries (logging, hunting, or harvesting of forest products; odds ratio [OR]=2.71, P=0.019) or had been hunting/slaughtering bats (OR=6.09, P=0.020). Exposure to a range of bat and pangolin sarbecoviruses was identified.ConclusionExposure to diverse sarbecoviruses among high-risk human communities provides epidemiologic and immunologic evidence that zoonotic spillover is occurring. These findings inform risk mitigation efforts needed to decrease disease transmission at the bat-human interface, as well as future surveillance efforts warranted to monitor isolated populations for viruses with pandemic potential.

Published

2023

2. Global shifts in mammalian population trends reveal key predictors of virus spillover risk

Author

Cristin C. W. Young, Peta L. Hitchens, Tierra Smiley Evans, Pranav Pandit, Christine K. Johnson, Megan M. Doyle, and Julie Rushmore

Subjects

threatened species, Range (biology), Population Dynamics, 010501 environmental sciences, Global Health, 01 natural sciences, Communicable Diseases, Emerging, Medical and Health Sciences, zoonotic disease, Abundance (ecology), Chiroptera, Zoonoses, 2.2 Factors relating to the physical environment, Aetiology, General Environmental Science, Mammals, Emerging, 0303 health sciences, education.field_of_study, Global Change and Conservation, Ecology, General Medicine, Biological Sciences, Infectious Diseases, Habitat, Viruses, General Agricultural and Biological Sciences, Infection, Research Article, spillover, habitat loss, Population, Wildlife, Wild, Animals, Wild, virus, Biology, Communicable Diseases, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Animals, Humans, education, Ecosystem, 030304 developmental biology, 0105 earth and related environmental sciences, General Immunology and Microbiology, Agricultural and Veterinary Sciences, Prevention, Outbreak, Habitat destruction, Emerging Infectious Diseases, Threatened species, exploitation

Abstract

Emerging infectious diseases in humans are frequently caused by pathogens originating from animal hosts, and zoonotic disease outbreaks present a major challenge to global health. To investigate drivers of virus spillover, we evaluated the number of viruses mammalian species have shared with humans. We discovered that the number of zoonotic viruses detected in mammalian species scales positively with global species abundance, suggesting that virus transmission risk has been highest from animal species that have increased in abundance and even expanded their range by adapting to human-dominated landscapes. Domesticated species, primates and bats were identified as having more zoonotic viruses than other species. Among threatened wildlife species, those with population reductions owing to exploitation and loss of habitat shared more viruses with humans. Exploitation of wildlife through hunting and trade facilitates close contact between wildlife and humans, and our findings provide further evidence that exploitation, as well as anthropogenic activities that have caused losses in wildlife habitat quality, have increased opportunities for animal–human interactions and facilitated zoonotic disease transmission. Our study provides new evidence for assessing spillover risk from mammalian species and highlights convergent processes whereby the causes of wildlife population declines have facilitated the transmission of animal viruses to humans.

Published

2020

3. Suspected Exposure to Filoviruses Among People Contacting Wildlife in Southwestern Uganda

Author

Peter A. Barry, Jonna A. K. Mazet, Emmanuel Mugisha, Kirsten V. K. Gilardi, Meghan K. Eberhardt, Scott Kellermann, Michael R. Cranfield, Christine K. Johnson, Leonard Tutaryebwa, Obed Mugisha, Andrea Marzi, Tierra Smiley Evans, and Benard Ssebide

Subjects

0301 basic medicine, Male, Supplement Articles, medicine.disease_cause, Ebola virus, 0302 clinical medicine, Immunology and Allergy, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Uganda, Viral, Aetiology, Child, Pcr analysis, Antigens, Viral, Marburg virus, Medical And Health Sciences, General Medicine, Middle Aged, Biological Sciences, Bundibugyo virus, Geography, Infectious Diseases, Child, Preschool, Female, Infection, Biotechnology, Microbiology (medical), Adult, Adolescent, wildlife, 030231 tropical medicine, Wildlife, Wild, Animals, Wild, Biology, Microbiology, Virus, Vaccine Related, 03 medical and health sciences, Ebola Hemorrhagic Fever, Young Adult, Environmental health, Biodefense, medicine, Filoviridae Infections, Animals, Humans, Antigens, Preschool, Glycoproteins, Aged, Prevention, Infant, Newborn, Outbreak, Infant, Filoviridae, Newborn, Virology, Filovirus, zoonoses, 030104 developmental biology, Emerging Infectious Diseases, Good Health and Well Being, bushmeat

Abstract

Background Human and filovirus host interactions remain poorly understood in areas where Ebola hemorrhagic fever outbreaks are likely to occur. In the Bwindi region of Uganda, a hot spot of mammalian biodiversity in Africa, human livelihoods are intimately connected with wildlife, creating potential for exposure to filoviruses. Methods We tested samples from 331 febrile patients presenting to healthcare facilities near Bwindi Impenetrable Forest, Uganda, by polymerase chain reaction (PCR) analysis and Western blot, using recombinant glycoprotein antigens for Ebola virus (EBOV), Sudan virus (SUDV), Bundibugyo virus (BDBV), and Marburg virus. Behavioral data on contact with wildlife were collected to examine risk factors for filovirus seropositivity. Results All patients were negative for active filovirus infection, by PCR analysis. However, patients were seroreactive to SUDV (4.7%), EBOV (5.3%), and BDBV (8.9%), indicating previous exposure. Touching duikers was the most significant risk factor associated with EBOV seropositivity, while hunting primates and touching and/or eating cane rats were significant risk factors for SUDV seropositivity. Conclusions People in southwestern Uganda have suspected previous exposure to filoviruses, particularly those with a history of wildlife contact. Circulation of filoviruses in wild animals and subsequent spillover into humans could be more common than previously reported.

Published

2018

4. Mountain gorilla lymphocryptovirus has Epstein-Barr virus-like epidemiology and pathology in infants

Author

Peter A. Barry, Antoine Mudakikwa, Jean Bosco Noheri, Linda J. Lowenstine, Kirsten V. K. Gilardi, Jonna A. K. Mazet, Tracey Goldstein, Jean Felix Kinani, Tierra Smiley Evans, Michael R. Cranfield, Fred Nizeyimana, Benard Ssebide, and Christine K. Johnson

Subjects

0301 basic medicine, Pathology, medicine.disease_cause, Lymphoid hyperplasia, Serology, Lymphocryptovirus, 0302 clinical medicine, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Aetiology, Lung, Pediatric, education.field_of_study, Multidisciplinary, biology, Histocytochemistry, Herpesviridae Infections, Virus Shedding, Ape Diseases, Infectious Diseases, 030220 oncology & carcinogenesis, Medicine, HIV/AIDS, medicine.symptom, Infection, medicine.medical_specialty, Life on Land, Science, Population, Mountain gorilla, Virus, Article, 03 medical and health sciences, Rare Diseases, Acquired immunodeficiency syndrome (AIDS), Clinical Research, medicine, Animals, education, Mouth, Gorilla gorilla, fictional_universe, fictional_universe.character_species, biology.organism_classification, medicine.disease, Newborn, Epstein–Barr virus, Virology, Tumor Virus Infections, 030104 developmental biology, Animals, Newborn, Immunology

Abstract

Epstein-Barr virus (EBV) infects greater than 90% of humans, is recognized as a significant comorbidity with HIV/AIDS, and is an etiologic agent for some human cancers. The critically endangered mountain gorilla population was suspected of infection with an EBV-like virus based on serology and infant histopathology similar to pulmonary reactive lymphoid hyperplasia (PRLH), a condition associated with EBV in HIV-infected children. To further examine the presence of EBV or an EBV-like virus in mountain gorillas, we conducted the first population-wide survey of oral samples for an EBV-like virus in a nonhuman great ape. We discovered that mountain gorillas are widely infected (n = 143/332) with a specific strain of lymphocryptovirus 1 (GbbLCV-1). Fifty-two percent of infant mountain gorillas were orally shedding GbbLCV-1, suggesting primary infection during this stage of life, similar to what is seen in humans in less developed countries. We then identified GbbLCV-1 in post-mortem infant lung tissues demonstrating histopathological lesions consistent with PRLH, suggesting primary infection with GbbLCV-1 is associated with PRLH in infants. Together, our findings demonstrate that mountain gorilla’s infection with GbbLCV-1 could provide valuable information for human disease in a natural great ape setting and have potential conservation implications in this critically endangered species.

Published

2017

5. Spillover and pandemic properties of zoonotic viruses with high host plasticity

Author

William B. Karesh, Nathan D. Wolfe, Tierra Smiley Evans, Tracey Goldstein, Peta L. Hitchens, Peter Daszak, Christine K. Johnson, Damien O. Joly, Andrew Clements, Kate Thomas, and Jonna A.K. Mazet

Subjects

Asia, Disease, Genome, Viral, Biology, Communicable Diseases, Emerging, Communicable Diseases, Article, Host Specificity, Vaccine Related, Spillover effect, Zoonoses, Biodefense, Pandemic, Global health, Animals, Humans, 2.2 Factors relating to the physical environment, Human Activities, Viral, Aetiology, Animal species, Pandemics, Emerging, Multidisciplinary, Genome, Transmission (medicine), Host (biology), Prevention, Virology, Good Health and Well Being, Emerging Infectious Diseases, Infectious Diseases, Evolutionary biology, Virus Diseases, Viruses, Multivariate Analysis, Africa, Epidemiological Monitoring, Americas, Infection, Disease transmission

Abstract

Most human infectious diseases, especially recently emerging pathogens, originate from animals and ongoing disease transmission from animals to people presents a significant global health burden. Recognition of the epidemiologic circumstances involved in zoonotic spillover, amplification and spread of diseases is essential for prioritizing surveillance and predicting future disease emergence risk. We examine the animal hosts and transmission mechanisms involved in spillover of zoonotic viruses to date and discover that viruses with high host plasticity (i.e. taxonomically and ecologically diverse host range) were more likely to amplify viral spillover by secondary human-to-human transmission and have broader geographic spread. Viruses transmitted to humans during practices that facilitate mixing of diverse animal species had significantly higher host plasticity. Our findings suggest that animal-to-human spillover of new viruses that are capable of infecting diverse host species signal emerging disease events with higher pandemic potential in that these viruses are more likely to amplify by human-to-human transmission with spread on a global scale.

Published

2015