SA superbug kills six newborns, facility closed

HEALTH | DISEASE

An outbreak of the Klebsiella pneumonia superbug that killed six newborns at a government hospital in Johannesburg has forced medics to close the facility's neo-natal and maternity wards.

The Thelle Mogoerane hospital in the eastern Johannesburg township of Vosloorus has been in the grip of the antibiotic resistant bacteria since July 11.

"We can no longer admit babies here," said Health Minister Aaron Motsoaledi in a media briefing on Sunday.

The affected patients are being transferred to another government hospital as well as the Nelson Mandela Children's Hospital, which opened in Johannesburg 18 months ago, he added.

The health minister said overcrowding undermined the facility's infection control measures.

He said neonatal wards in Gauteng province, which includes the financial hub Johannesburg and the capital Pretoria, were at 132 percent capacity on average.

The province has huge numbers of patients from neighbouring countries including Zimbabwe who travel to South Africa in search of better quality care.


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DRUG-RESISTANT SUPERBUG 'SPREADING IN HOSPITALS'

Earlier this month, scientists in Australia warned that a superbug resistant to all known antibiotics that can cause "severe" infections or even death is spreading undetected through hospital wards across the world.

Researchers at the University of Melbourne discovered three variants of the multidrug-resistant bug in samples from 10 countries, including strains in Europe that cannot be reliably tamed by any drug currently on the market.

"We started with samples in Australia but did a global snapshot and found that it's in many countries and many institutions around the world," Ben Howden, director of the university's Microbiological Diagnostic Unit Public Health Laboratory told AFP.

"It seems to have spread."

The bacteria, known as Staphylococcus epidermidis, is related to the better-known and more deadly MRSA.

It's found naturally on human skin and most commonly infects the elderly or patients who have had prosthetic materials implanted, such as catheters and joint replacements.

"It can be deadly, but it's usually in patients who already are very sick in hospital... it can be quite hard to eradicate and the infections can be severe," Howden said.

His team looked at hundreds of S. epidermidis specimens from 78 hospitals worldwide.

They found that some strains of the bug made a small change in its DNA that led to resistance to two of the most common antibiotics, often administered in tandem to treat hospital infections.

"These two antibiotics are unrelated and you would not expect one mutation to cause both antibiotics to fail," said Jean Lee, a PhD student at Melbourne's Doherty Institute, and co-author of the study.

Many of the most powerful antibiotics are extremely expensive and even toxic, and the team behind the study said that the practice of using multiple drugs at once to prevent resistance may not be working.

'Biggest danger'

The researchers said they believe the superbug is spreading rapidly due to the particularly high use of antibiotics in intensive care units, where patients are sickest and strong drugs are prescribed as routine.

The World Health Organization has long warned of antibiotic overuse sparking new strains of killer, drug-resistant bacteria.

Another Australian study, published last month, suggested some hospital superbugs are growing increasingly tolerant to alcohol-based disinfectants found in handwashes and sanitisers used on hospital wards.

Howden said his study, published in the journal Nature Microbiology, showed the need for better understanding of how infections spread and which bacteria hospitals choose to target.

"This highlights that the use of more and more antibiotics is driving more drug-resistant bacteria," he said.

"With all bacteria in a hospital environment we are driving more resistant strains and there's no doubt that antibiotic resistance is one of the biggest dangers to hospital care worldwide."