Every month now, reports continue to come about new and dangerous antibiotic-resistant strains of bacteria, commonly referred to as MRSA. These infections are extremely difficult to treat with most classes of antibiotic medication. Serious infections can result in loss of skin, organs, limbs and also death.
According to Lance Price, a microbiologist at George Washington University, infections are “becoming more and more common.”
What next? It seems a young PhD student from Australia may have an answer…
A 25-year-old student has just come up with a way to fight drug-resistant superbugswithout antibiotics.
The new approach has so far only been tested in the lab and on mice, but it could offer a potential solution to antibiotic resistance, which is now getting so bad that the United Nations recently declared it a “fundamental threat” to global health.
In addition to common hospital superbug, methicillin-resistantStaphylococcus aureus (MRSA), scientists are now also concerned that gonorrhoea is about to become resistant to all remaining drugs.
But Shu Lam, a 25-year-old PhD student at the University of Melbourne in Australia, has developed a star-shaped polymer that can kill six different superbug strains without antibiotics, simply by ripping apart their cell walls.
“We’ve discovered that [the polymers] actually target the bacteria and kill it in multiple ways,” Lam told Nicola Smith from The Telegraph.
“One method is by physically disrupting or breaking apart the cell wall of the bacteria. This creates a lot of stress on the bacteria and causes it to start killing itself.”
The research has been published in Nature Microbiology, and according to Smith, it’s already being hailed by scientists in the field as “a breakthrough that could change the face of modern medicine“.
Before we get too carried away, it’s still very early days. So far, Lam has only tested her star-shaped polymers on six strains of drug-resistant bacteria in the lab, and on one superbug in live mice…