Nanocomposite Fillings Kill Bacteria and Regenerate the Tooth

Silver nanoparticles in the composite might raise concerns

2 min read
Nanocomposite Fillings Kill Bacteria and Regenerate the Tooth

Earlier this year, I was teased by news that graphene could be ‘tattooed’ to one’s tooth to detect harmful bacteria. I say teased because the bacteria that could be detected was not the Streptococcus mutans bacteria that causes tooth decay. Instead the device could detect just about every other bacteria except that one. So, what appeared to be a story that might be able to redeem me in the eyes of the dental community—after I echoed others’ doubts about the efficacy of a nanofilm in promoting cell growth in decayed teeth—just wasn’t the opportunity I had hoped for.

This week, however, researchers at the University of Maryland have offered up a technology that should be of keen interest to the dentists of the world, and those who visit them. The researchers have developed a nanocomposite that can be used not only as a filling for the cavity, but also can kill any remaining bacteria in the tooth and regenerate that tooth’s structure that had been lost due to the decay. You can access a PDF file that offers up a poster presentation of the research here.

The basis of the nanocomposite are calcium phosphate nanoparticles that regenerate tooth minerals. The ingredient that kills off the remaining bacteria in the tooth is made up of silver nanoparticles and quaternary ammonium along with a high pH. According to the news release, the alkaline pH is the feature that limits the acid production by the bacteria. This begs the question: why not just develop a mouthwash with these ingredients so you don’t need the cavity filling in the first place?

One answer may be the use of silver nanoparticles, which are not without some controversy when associated with anything that might be consumed by humans. Sure enough, just a quick perusal to see how this story was being covered turned up a blog called “Beyond Pesticides” that offered up this headline: “New Dental Fillings Utilize Controversial Nanotechnology to Kill Bacteria”. The blog goes into some detail about the potential risks of silver nanoparticles.

The researchers are continuing with their animal and human testing with the nanocomposite. Given that some sectors of the public are concerned about the potential risks of silver nanoparticles, they should probably take a look at the issue as part of their research.

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3 Ways 3D Chip Tech Is Upending Computing

AMD, Graphcore, and Intel show why the industry’s leading edge is going vertical

8 min read
Vertical
A stack of 3 images.  One of a chip, another is a group of chips and a single grey chip.
Intel; Graphcore; AMD
DarkBlue1

A crop of high-performance processors is showing that the new direction for continuing Moore’s Law is all about up. Each generation of processor needs to perform better than the last, and, at its most basic, that means integrating more logic onto the silicon. But there are two problems: One is that our ability to shrink transistors and the logic and memory blocks they make up is slowing down. The other is that chips have reached their size limits. Photolithography tools can pattern only an area of about 850 square millimeters, which is about the size of a top-of-the-line Nvidia GPU.

For a few years now, developers of systems-on-chips have begun to break up their ever-larger designs into smaller chiplets and link them together inside the same package to effectively increase the silicon area, among other advantages. In CPUs, these links have mostly been so-called 2.5D, where the chiplets are set beside each other and connected using short, dense interconnects. Momentum for this type of integration will likely only grow now that most of the major manufacturers have agreed on a 2.5D chiplet-to-chiplet communications standard.

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