Latest numbers show antimicrobial resistant infections contributed to 4.95 millions deaths globally in 2019.
Antimicrobial resistance kills around 700,000 people worldwide annually. It is a top-ten global health threat.
If no action is taken to address antibiotic resistance, infections from multidrug-resistant bacteria could cause 10 million deaths each year by 2050.
Penicillin originally came from a fungus, and with thousands of fungi to explore, Aotearoa New Zealand has a potential treasure trove of bacteria-killing compounds.
With nurse prescribing expanding globally, it’s important they are properly guided and supported when it comes to antibiotics and managing patient expectations.
Prevention may be the best way to cope with the worldwide wave of treatment-resistant fungal pathogens.
A new network of public clinical trials institutes is urgently needed to replenish the empty pipeline for new antibiotics.
During a raging pandemic it is obviously worthwhile to use hand sanitisers, particularly when we are unable to wash our hands. But we should minimise their use when cases drop.
The increased use of disinfectants could allow for the development of bacterial strains which are resistant to disinfectants.
While the whole world is obsessed by the COVID-19 pandemic, another equally deadly threat is going unnoticed: antibiotic resistance.
We found a new way to revert antibiotic resistance. It involves using phage therapy to resensitise a type of bacteria to antibiotics.
In some countries there appear to be mismatches between lists of essential medicines and lists of registered medicines.
Estimating the cost of antibiotic resistance to economies and health-care systems is fraught with difficulty, but new research says Australia will be hit harder than we think.
The African continent has the highest burden of gonorrhoea worldwide. In South Africa alone, it’s estimated that more than 2 million new cases occur annually.
As antimicrobial resistance increases, the options for treating serious infections dwindle. Doctors need reliable information about which treatments to try out.
Antimicrobial resistance is a public health and economic disaster waiting to happen. If we do not address this threat, by 2050 more people will die from drug-resistant infections than from cancer.
Misuse of common cleaning products or hand sanitisers can lead to antimcrobial resistance in bacteria.
Knowing what genes cause antibiotic resistance – and where they are in the body – is critical for preventing further antibiotic resistance.
Antibiotics aren’t a one-size-fits-all treatment – the one you had last time might not work on the infection you have at the moment. So how do doctors determine which one is likely to work?
Bioinformatics can be applied to a range of problems, such as understanding the genome sequence of organisms or coming up with new drugs.