The contrasting realities of antimicrobial resistance between high-income countries and low- and middle-income countries demands international co-operation to effectively fight superbugs.
Australia is one of the highest users of antibiotics in the developed world. So when do we actually need antibiotics to treat an infection? And when should we avoid them?
We’ve all heard of antibiotic resistance. The same thing is happening with other causes of infections in humans: fungi, viruses and parasites. This is making thrush and other infections hard to treat.
Developing new antibiotics is important in the fight against antibiotic resistance. But we also need to use the antibiotics we already have much more wisely – GPs play a major role in this.
Antibiotics have been around for less than a century. But as resistant bacteria become increasingly difficult to treat, we risk a greater number of deaths from infections.
Ivan Erill, University of Maryland, Baltimore County
Researchers discovered a satellite virus latching onto the neck of another virus called MindFlayer. Studying the viral arms race between similar viruses could lead to new ways to fight infections.
‘Fried rice syndrome’ refers to food poisoning from a bacterium called Bacillus Cereus, which becomes a risk when cooked food is left at room temperature for too long.
New research finds that 85% of formula preparation machines tested were dispensing water that did not appear to reach NHS recommended temperatures for preparing bottles of formula.
With the help of the microbes that once played an essential role in keeping you alive, the building blocks of your body go on to become a part of other living things.
Warmer ocean waters are fueling the spread of the bacteria Vibrio vulnificus. Infections can lead to a rare but fatal condition called necrotizing fasciitis.
Bacteria and lipids get a bad rap for causing breakouts and oily skin. But both play an essential role in helping your skin barrier stay strong against pathogens and insults from the environment.
Researchers simulated thousands of scenarios of an ancient pathogen being released into modern ecosystems. In the worst cases, up to one-third of host species were destroyed.