Antimicrobial resistance (AMR), as defined by the , “occurs when microorganisms such as bacteria, viruses, fungi and parasites change in ways that render the medications used to cure the infections they cause ineffective.” AMR is broader than , which is limited specifically to bacteria that mutate in response to antibiotics, rendering the antibiotics ineffective. The increasing use of antibiotics and other antimicrobials, and the subsequent rise of AMR is a significant global health concern, with an estimated half a million deaths annually and a projected mortality of 10 million people per year by 2050 if not brought under control.
These impacts often hit low- and middle- income countries the hardest, as AMR can spread easily in humans and agricultural settings due to large variations in healthcare infection-control practices, high rates of infectious diseases, high population densities and suboptimal agricultural regulations in place for biosecurity and the use of veterinary antimicrobials. However, as you’ll see below, AMR can also impact wildlife and food safety in high-income regions, including common food items such as milk.
A One Health Approach to AMR Research
Understanding AMR using a One Health framework requires transdisciplinary work to identify the drivers of antimicrobial resistance and to characterize AMR across One Health domains such as high-risk transmission routes between humans, animals and the environment.
The is at the forefront of research in AMR around the world and here we highlight of few of the projects and people working to advance both our understanding of AMR and our ability to slow the spread of AMR in people, domestic animals, wildlife and our shared environments.
1. Epicenter for Disease Dynamics: AMR in Wildlife and the Natural Environment - California
is a veterinarian and PhD candidate focused on wildlife epidemiology. Dr. Sebastian is currently investigating risk factors of AMR in multiple wildlife species, including California condors with a special emphasis on the importance of freshwater and coastal ecosystems in AMR transmission. Dr. Sebastian’s research has shown links to E.coli AMR in condors, possibly as a result of feeding on livestock carcasses (a reflection of AMR in livestock), thereby causing environmental contamination that is then transferred to the condors.
2. Working at the Intersection of Public Health & Veterinary Medicine - Tanzania
working on her veterinary degree at ϲϿ Davis’ School of Veterinary Medicine. As a STAR award grantee, Cara worked with and at the One Health Institute, joining their work in Tanzania with the (Health for Animals and Livelihoods Improvement). While in Tanzania, Cara studied AMR in poultry, finding high resistance to two commonly used antibiotics on poultry farms. Her research also included interviewing local veterinarians to gain a greater understanding of antibiotic use and knowledge of AMR in the region. Cara also participated in the One Health Institute’s summer program in Tanzania, Rx One Health - a hands-on, multidisciplinary course to gain experience in research design and fieldwork in through a One Health framework ( for Rx One Health 2021).
3. AMR & Food Safety in Dairy Cows - California
Veterinary student, , spent her summer externship at the , studying AMR in pre-weaned dairy calves from the Central Valley. The goal was to benchmark antimicrobial drug usage in California dairy calves as part of state legislation to improve dairy management practices. Anett’s work also studied AMR in bulk milk tanks across dairy farms in California. Surveillance of AMR can provide veterinarians with valuable information to guide health management on dairy farms which can also impact food safety for humans.
4. PREDICT: AMR at the Intersection of Urban & Rural Settlements - Nepal
Dr. Cristin Young, MPH, and recent One Health Institute PhD graduate in Infectious Disease Epidemiology, worked on the USAID-funded in a low-income urban settlement with livestock production in Kathmandu, Nepal. This community exists at the intersection of urban and rural settings where people, livestock and wildlife share habitat, sanitation infrastructure is limited, and both regional and international travel is common. Findings showed widespread AMR genes among humans, domestic animals, water sources, and wild small mammals, strengthening the need for public health improvements to sanitation and hygiene in an effort to slow the spread of AMR. Dr. Young continues her research as a field researcher with the .
Resources
– July 11-24th in California – Deadline to Apply: January 31, 2021
World AMR Week: November 18 – 24th, 2020 #WAAW2020 #AMR