Stories tagged MRSA


Number of people on Earth to number of bacteria, that is. They’re everywhere. EVERYWHERE. And we’re making them stronger, and getting sicker because of it. MRSA: Antibiotic-resistant staph.  a.k.a. - seriously evil stuff.
MRSA: Antibiotic-resistant staph. a.k.a. - seriously evil stuff.Courtesy Centers for Disease Control and Prevention

Hey, nanoscale science, this is your cue!

[Enter nanoscale science]

Hi! I’m nanoscale science! And boy, have I got some whiz-bang anti-bacterial solutions for you!

For one, there’s this new type of drug that uses nanoparticles to poke holes in bacteria so they die. Sounds really promising against super-bugs…but then again, all the scientists are hoping that if the bacteria in question leave any survivors, we won’t end up with super, SUPER bugs. Because that would be so NOT super.

Because here’s the thing:

“The medical community has for so long been focused on killing as much of the bacteria as they can. Now the interesting thing about bacteria is that you can’t kill them all. You can kill 99% of them, but that 1% that you leave alive is the strongest 1%.” This is from Dr. Shravanthi Reddy – Director of Research at Sharklet Technologies, Inc. She makes a good point. “We can’t keep fighting that same traditional war. We kind of have to shift our thinking. Kind of convince them, ‘hey, you don’t want to settle here.’”

For two, Sharklet Technologies has created this stuff that mimics the skin of actual sharks. Turns out that sharks don’t ever get covered in algae or barnacles or anything like that, but whales and other marine life do. Why? It’s because shark skin has a very special pattern to it – called dermal denticles - a pattern that bacteria apparently hate and can’t really figure out how to properly colonize. There’s nothing chemical about it – it’s all about the shape of the material itself.

Our friends over at Nova made a great program about it:

Granted, we’re pretty limited with how we can treat nasty super-bacteria, like antibiotic-resistant staph infections and MRSA, once it’s in the human body – so we probably shouldn’t rule out our hole-poking options just yet - but we can put this awesome sharkskin technology to work in the places people are most likely to contract infections like those; hospitals being some of the worst offenders.

Makes you just want to go out and lick stuff, doesn’t it?


Disease Detectives
Disease DetectivesCourtesy Disease Detectives
Earlier this year I got the chance to work as the crew of high school staff in the Kitty Andersen Youth Science Center ( at the museum to create a series of web-based videos about infectious diseases for the Disease Detectives exhibit. We worked from January through August learning video production skills, learning about different infectious disease topics, talking to experts and folks on the museum floor. We're just getting the videos online now, and all of our videos will be on the exhibit website soon ( but I wanted to share them here as well.

For this video, titled "Got Beef? The Story Behind Antibiotics and Livestock" the crew to a slaughter house on in South St. Paul, the Minnesota Department of Health, U of M St. Paul (at 7AM to see the cows grazing), Mississippi Market Co-op, and did hours of research, prep, and post production.
Got Beef? The Story Behind Antibiotics and Livestock from Disease Detectives on Vimeo.

You can check out the video here.


Researchers at Swansea University, in the UK, are developing an antibiotic that can fight the MRSA superbug. And they're using superbugs to do it. OK, not superbugs. They're using the secretions from the maggots of the common green bottle fly.

A cage match I'm not sure I want to see: Maggots secrete a compound that can fight superbugs, including 12 strains of MRSA, E. coli, and C. difficile.
A cage match I'm not sure I want to see: Maggots secrete a compound that can fight superbugs, including 12 strains of MRSA, E. coli, and C. difficile.Courtesy National Institutes of Health

Super gross? Sure. And you won't see an ad for this antibiotic (Seraticin) on TV anytime soon. It takes some 20 maggots to make a single drop of the drug. So scientists have to fully identify it, figure out a way to synthesize it in the lab, test it on human cells, and put it through a clinical trial.

In the meantime, using live maggots on infected wounds is a time-tested way of beating infections. Dr. Alun Morgan, of ZooBiotic Ltd, told the BBC,

"Maggots are great little multitaskers. They produce enzymes that clean wounds, they make a wound more alkaline which may slow bacterial growth and finally they produce a range of antibacterial chemicals that stop the bacteria growing."

How effective are maggots? The University of Manchester has been doing research on diabetic patients with MRSA-contaminated foot ulcers. The patients treated with maggots were mostly cured within three weeks. Patients who got more conventional treatment needed 28 weeks.

So give maggots a big shout out. And then check these other stories:
"NHS 'needs to use more maggots'"
Prescription insects
Fun with beetles