Antibiotic resistence–a new approach

As a nurse, even a psych nurse, we all know the dangers of antibiotic resistence.  It costs so much money to get new and stronger antibiotics developed and takes quite a long time to do so; all the while the bacteria are developing ways to negate the treatments we currently have in place.  So called superbugs are killing patients globally.

It seems that in the news there is regularly an article or episode dealing with a new bug or a new antibiotic being developed.  Well and good.  Keep up the good work of keeping us informed.  However, this article below is an example of “thinking outside the box” when researching antibiotic resistence.

This seems like a viable and new avenue to pursue in our efforts to combat bacteria that cause illness.  I hope other researchers view this promising result and it prompts them to come up with other unusual ways to combat this scourge of medicine.

Please read this article and see what you think.

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Why The Science World Is Freaking Out Over

This 25-Year-Old’s Answer to Antibiotic

Resistance

Could this be the end of superbugs?

FIONA MACDONALD
26 SEP 2016
 antibiotic resistenceA 25-year-old student has come up with a way to fight drug-resistant superbugs without 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.

Antibiotic-resistant bacteria already kill around 700,000 people each year, but a recent study suggests that number could rise to around 10 million by 2050.

In addition to common hospital superbug, methicillin-resistant Staphylococcus 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.

But in all experiments, they’ve been able to kill their targeted bacteria – and generation after generation don’t seem to develop resistance to the polymers.

The polymers – which they call SNAPPs, or structurally nanoengineered antimicrobial peptide polymers – work by directly attacking, penetrating, and then destabilising the cell membrane of bacteria.

Unlike antibiotics, which ‘poison’ bacteria, and can also affect healthy cells in the area, the SNAPPs that Lam has designed are so large that they don’t seem to affect healthy cells at all.

“With this polymerised peptide we are talking the difference in scale between a mouse and an elephant,” Lam’s supervisor, Greg Qiao, told Marcus Strom from the Sydney Morning Herald“The large peptide molecules can’t enter the [healthy] cells.”

Read the entire article here.

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