The use of antibiotics when they are not needed is creating “one of the most dangerous global crises facing the modern world today”, a new campaign is warning.
Public Health England (PHE) has launched the new “Keep Antibiotics Working” campaign to tackle the growing resistance to the drugs.
TV and radio adverts and posters have been produced to discourage patients from asking their GPs for antibiotics as the NHS heads into the busy winter period.
Professor Paul Cosford, medical director at PHE, said: “Antibiotic resistance is not a distant threat, but is in fact one of the most dangerous global crises facing the modern world today.
“Taking antibiotics when you don’t need them puts you and your family at risk of developing infections which in turn cannot be easily treated with antibiotics.
“Without urgent action from all of us, common infections, minor injuries and routine operations will become much riskier.”
It is estimated that 5,000 people die every year in England because antibiotics no longer work for some infections.
England’s Chief Medical Officer, Professor Dame Sally Davies, has already warned of a “post-antibiotic apocalypse”, where antibiotics no longer work for serious infections.
She said: “Without effective antibiotics, minor infections could become deadly and many medical advances could be at risk – surgery, chemotherapy and caesareans could become simply too dangerous.
“But reducing inappropriate use of antibiotics can help us stay ahead of superbugs.
“The public has a critical role to play and can help by taking collective action.”
Antimicrobial resistance occurs when bacteria changes in such a way that the medication used to treat them – in this case antibiotics – becomes ineffective.
The Government wants to see the number of prescriptions handed out by GPs drop by 50% by 2020/21 to help combat the threat from resistance.
Meanwhile, British scientists have found a bacterial “Archilles heel” that may help overcome antibiotic resistance.
The target is an enzyme relied on by many bugs to destroy beta-lactams, a common kind of antibiotic.
The scientists found that a combination of two enzyme-inhibitors and the antibiotic aztreonam was able to kill some of the most resistant bacteria known.
Dr Matthew Avison, from the University of Bristol’s school of cellular and molecular medicine, said: “At the risk of sounding like King Canute, it is the first time for a decade that there is some genuine positivity about our ability to turn back the rising tide of beta-lactam antibiotic resistance.”
For more information on what Antibiotics DO and DO-NOT work on, click the link below: