Engineering A Better Band-Aid: Antibacterial Paper Created With Silver Coated Gold Nanoparticles
Preventing infection in a wound is sometimes a difficult process, depending of course on the depth of the wound, what caused it, and even where you got hurt (your environment). Play a role in the bacteria that may be present and lead to infection. Often times particularly bad wounds require people to take antibiotics and certainly to apply topical antibiotics to their wounds to prevent and treat infection.
Today I am going to discuss an article that may be of interest to our resident crew of silver lovers (I still don't buy the safety of colloidal silver consumption, BTW. Silver nanoparticles are also quite toxic to humans [1. Despite my take on some applications of silver there is one thing that the science unequivocally supports and that's the topical application of silver on a surface kills bacteria. Today I am going to discuss an article where the authors generated a type of a paper that employs silver coated gold nano particles to kill bacteria.
Today's article of discussion was published in the journal Nature: Scientific Reports on June 9, 2017 and is titled "Antibacterial cellulose paper made with silver-coated gold nanoparticles.".
Cellulose and Silver Nanoparticles
Cellulose a plant based sugar used to make paper and even cellophane (the plastic wrapping around foods!) has an extremely wide range of applications in our modern civilization. From how our food is packaged, to how our wounds are bandaged cellulose plays a role in things that we use every day, many times in ways you wouldn't suspect. A variety of these applications involve packaging and when it comes to packaging our food, or a wound, keeping bacteria from growing is important! [3]
The researchers of this article sought to tackle the need for increased antibacterial properties in these packaging materials through employment of Silver nanoparticles. The antibacterial properties of silver nanoparticles has been getting increasing amounts of scientific attention as of late with researchers investigating where this property comes from.
See that size marker of 50 nm? That is about 1/3000 the width of a human hair! Nanoparticles are TINY!
It has been found that in many cases the silver nano particles leech out silver ions (Ag+) which have the ability of bacteria to replicate their DNA. [4] When there is no DNA replication, there can be no cellular division, so the bacterial population can't increase.
Previous work has shown that it is possible to combine silver nano particles with cellulose. [5] So the authors here decided to take things to the next level. Use this antibacterial silver nanoparticle cellulose technology, to create antibacterial paper. Note that this technology does not come with out it's risks as silver nanoparticles have been observed to have toxic effects in a variety of human tissues and cell types including [1], [6]:
skin, liver, lung, brain, vascular system, and other organs.
The authors acknowledge this while stating that (as any good scientist should) it is just evidence of the need for further work to limit the toxicity of these compounds and create safer more useful antibiotic constructs. The technology is interesting, but as usual, more work needs to be done! Let us discuss their results:
Creation of Silver Coated Gold Nanoparticles and The Cellulose
The authors first set out to attempt to create the nanoparticle structures that they would use to create the infused paper, they created particles of a few sizes (15 and 20 nM) and varying ratios of gold to silver in their composition.
Using visible light spectroscopy, and the absorptive properties of both gold nanoparticles of the size they created (20 nm particles for example absorb strongly 520 nM light), they confirmed that the particles were created, and that they were coated with silver (they observe this through an increase in absorbance and a shifting in the wavelength of light absorbed to 500 nm. (shown in the plot below!)
They then combined these particles with cellulose paper (they literally just pipetted it on there, this isn't complicated technology, the particles are tiny and get caught in the cellulose fibers). To make sure the particles were actually attached to the paper, they soaked the paper in water (so non affixed particles would come off) then took some images with a tunneling electron-microscope:
Seeing that the particles were attached and dispersed on the cellulose paper (though not as dispersed as they had hoped) they proceeded to see whether or not these papers had antimicrobial properties.
What you are looking at here are bacteria being grown on some agarose plates, with a piece of the nanoparticle paper laid overtop while the cells grew (or not). In (a) we are looking at just gold nanoparticles.. which didn't do anything to kill the bacteria. The next image to the right (c) we are looking at nanoparticles with a low amount of the silver (thats the 1000 gold/1 silver ratio), these particles also did NOT kill the bacteria, hmm. Finally in (e) we are seeing their particles with a 10 fold greater amount of silver, and these did result in significantly reduced bacterial growth. Nice.
Conclusions
The authors here presented a novel silver coated gold nanoparticle affixed paper, with antimicrobial properties. The result is interesting however there is one HUGE caveat stated by the authors:
It will also be necessary to examine the cytotoxicity and biocompatibility of these nanomaterials toward human cells before proposing their therapeutic use in cellulose composites.
At this stage, the evidence is fairly clear that silver nanoparticles pose a threat to damaging our cells (the silver ions leech out, its a problem) and significant testing against human cells would be necessary to ensure that these papers are not going to be toxic as well. It is possible that the incorporation of the particles on the cellulose could aide in preventing or lessening toxicity (to an acceptable level), but that will not be known with out further testing.
Nevertheless, the work is interesting, and the nanoparticle paper does indeed have antimicrobial properties. If the toxicity issues are dealt with, this could become a very attractive material for the creation of bandages with the ability to kill infections with out the use of topical antibiotics.
Sources
- http://www.sciencedirect.com/science/article/pii/S0009898110005139?via%3Dihub
- https://www.nature.com/articles/s41598-017-03357-w
- http://www.sciencedirect.com/science/article/pii/S007967001500074X?via%3Dihub
- http://pubs.acs.org/doi/abs/10.1021/bm060721b
- https://www.ncbi.nlm.nih.gov/pubmed/27178957?dopt=Abstract
- https://link.springer.com/article/10.1007%2Fs11051-010-9900-y
All Non Cited Images Are From Pixabay.com or Flickr.com And Are Available Under Creative Commons Licenses
Any Gifs Are From Giphy.com and Are Also Available for Use Under Creative Commons Licences
Extra Image Sourcing
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I read in an article sometime back that in Brazil doctors are treating inferno victims with fish skin apparently it works really well and you don't have to change it severally unlike normal bandages.
Downside is you will smell like dead fish for weeks, upside you heal faster with less pain
I wonder what the mechanism is that fish skins would help. I wonder if there are antimicrobial compounds in the skins?
so they need a lot of silver then? hmmm.. just resort to a more affordable band aid and just spread calendula cream on the wound
It's not actually all that much metal no.
They used This Kit to apply silver to the gold nano particles.
I see. costly band aid?
Dunno yet :)
Oh so you're basically saying if I made a condom coated in silver nano particles I wouldn't have this many STDs. I get it.
Yeah thats the gist of it... kinda :D
Thanks for reading @kryptik
No problem man.
That is interesting and promising. It will however requires a huge next step forward before being able to use that technology for curing people. As you said at the end, silver is toxic and we need to circumvent that first.
This study shows the potential use of the coated paper as a food antimicrobial packing material for longer shelf life, that's great thanks for sharing.
Indeed, there are a lot of potential exciting applications for technology like this. I think further work will help deal with some of the toxicity issues and we will have something really great. However it doesn't seem ready for prime time just yet. Still it's great work :D
Wanna know the only problem? Silver's about to cost too much to use.
Well these nanoparticles are really small, so the actual amount of silver necessary would be quite limited. It might end up still being cost effective, even with a drastically more expensive cost to silver.
You know the fundamentals of silver, and who it's competitors are? Trust me, this application will get the boot. Silver is so rare, and about to be released from suppression.
I know nothing of the markets of precious metals TBH.
Silver is leveraged 500 to 1 paper contracts to physical. It is used in industry heavily, including solar. 91% of all mined silver is gone. it's traditionally 12:1 price with gold, currently 70:1. There are people with charges now for rigging silver. JP morgan suppresses the price with paper contracts, and buys up all the physical they can.
It's used in medical, levitation, gravitrons, precision electronics (CERN, etc). It's rarer than gold, by a lot. It's used in cool stuff like this.
Interesting, thanks for the info :)
Well, if you want a pro tip to make you rich, go buy physical silver right now. Thank me later.
The helicopter moms that I know will buy all these bandaids they could find. Such germaphobes.
Ironically, exposure to bacteria is important for the development of a strong immune system. There are situations to want to keep infections from growing and wounds are one of them however :)
I know. These moms don't care.
Really nice ,upvoted .please see my blod !!
Thanks, Sure.
Great article and you explained it really well!
It's an important discovery despite the toxicity issue. There could be other applications where this discovery could be used. I'm sure it will be tried on something non human body-related first :)
Thanks for giving it a read and this nice comment @elemenya :)
In the future, silver may just prove to be our only defence against super-bugs. With so many people abusing antibiotics it's a catastrophe waiting to happen.
It's amazing how many uses silver has and yet it's still so undervalued. Most of these uses are in very tiny amounts and are almost impossible to recover, or just not worth the cost, so that silver is basically lost.
Silver still has unresolved toxicity issues, it is not the magic elixer some people make it out to be. With a significant amount of work perhaps those toxicity problems can be overcome. However right now the data still leaves me uncomfortable.
Thanks for reading!
We have been using colloidal silver now for about 10 yrs . We use it during flu season and any doctor visits. Its kinda like garlic for vampires . Anyway I dabble in Natural healing myself and I am very impressed with your work.
Colloidal silver is not safe or effective.
im dumb and need the pics .... lol , great read .... im new to steemit and i must say the content is great !!!!
Thanks, I try to do my part :)