Enteropathogen antibody dynamics and force of infection among children in low-resource settings

Autor: E. Brook Goodhew, Gretchen Cooley, Veronica Costantini, Diana L. Martin, Richard Omore, Jane Juma, Patrick J. Lammie, John B. Ochieng, Jeffrey W. Priest, Jan Vinjé, Harran Mkocha, Jamae F Morris, Benjamin F. Arnold
Rok vydání: 2019
Předmět:
Antibodies
Protozoan
global health
Force of infection
medicine.disease_cause
Antibodies
Viral
Tanzania
0302 clinical medicine
Seroepidemiologic Studies
Global health
Medicine
2.2 Factors relating to the physical environment
030212 general & internal medicine
Viral
Longitudinal Studies
Biology (General)
Intestinal Diseases
Parasitic
Aetiology
Child
Caliciviridae Infections
education.field_of_study
Transmission (medicine)
General Neuroscience
Entamoeba histolytica
Bacterial
Age Factors
Infectious
Salmonella enterica
General Medicine
Bacterial Infections
Giardia intestinalis
Foodborne Illness
Antibodies
Bacterial
6. Clean water
3. Good health
Virus
Diarrhea
Infectious Diseases
Parasitic
Protozoan
Epidemiological Monitoring
epidemiology
medicine.symptom
Infection
Research Article
Biotechnology
medicine.medical_specialty
QH301-705.5
Science
030231 tropical medicine
Population
virus
General Biochemistry
Genetics and Molecular Biology
Antibodies
Campylobacter jejuni
Vaccine Related
03 medical and health sciences
Disease Transmission
Environmental health
Biodefense
parasitic diseases
Disease Transmission
Infectious
Humans
education
Developing Countries
Cryptosporidium parvum
General Immunology and Microbiology
business.industry
Public health
Prevention
Norovirus
E. coli
medicine.disease
Kenya
Haiti
Intestinal Diseases
Epidemiology and Global Health
Emerging Infectious Diseases
Good Health and Well Being
Immunoglobulin G
Other
Biochemistry and Cell Biology
business
Digestive Diseases
Malaria
Zdroj: eLife
eLife, Vol 8 (2019)
Popis: Little is known about enteropathogen seroepidemiology among children in low-resource settings. We measured serological IgG responses to eight enteropathogens (Giardia intestinalis, Cryptosporidium parvum, Entamoeba histolytica, Salmonella enterica, enterotoxigenic Escherichia coli, Vibrio cholerae, Campylobacter jejuni, norovirus) in cohorts from Haiti, Kenya, and Tanzania. We studied antibody dynamics and force of infection across pathogens and cohorts. Enteropathogens shared common seroepidemiologic features that enabled between-pathogen comparisons of transmission. Overall, exposure was intense: for most pathogens the window of primary infection was
eLife digest Diarrhea, which is caused by bacteria such as Salmonella or by viruses like norovirus, is the fourth leading cause of death among children worldwide, with children in low-resource settings being at highest risk. The pathogens that cause diarrhea spread when stool from infected people comes into contact with new hosts, for example, through inadequate sanitation or by drinking contaminated water. Currently, the best way to track these infections is to collect stool samples from people and test them for the presence of the pathogens. Unfortunately, this is costly and difficult to do on a large scale outside of clinical settings, making it hard to track the spread of diarrhea-causing pathogens. The body produces antibodies – small proteins that can detect specific pathogens – in response to an infection. These antibodies help ward off future infections by the same pathogen, so if they are present in the blood, this indicates a current or previous infection. Scientists already collect blood samples to track malaria, HIV and vaccine-preventable diseases in low-resource settings. These samples could be tested more broadly to measure the levels of antibodies against diarrhea-causing pathogens. Now, Arnold et al. have used blood samples collected from children in Haiti, Kenya, and Tanzania to measure antibody responses to 8 diarrhea-causing pathogens. The results showed that many children in these settings had been infected with all 8 pathogens before age three, and that all of the pathogens shared similar age-dependent patterns of antibody response. This finding enabled Arnold et al. to combine antibody measurements with statistical models to estimate each pathogen’s force of infection, that is, the rate at which susceptible individuals in the population become infected. This is a key step for epidemiologists to understand which pathogens cause the most infections in a population. The experiments show that testing blood samples for antibodies could provide scientists with a new tool to track the transmission of diarrhea-causing pathogens in low-resource settings. This information could help public health officials design and test efforts to prevent diarrhea, for example, by improving water treatment or developing vaccines.
Databáze: OpenAIRE
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