Natural Plant-Derived Resins Used to Make Antibacterial 3D Printing Filament
Hospital-acquired infections are a growing problem everywhere. The CDC calls them a “major, yet preventable threat to patient safety,” and the key to preventing them lies in keeping bacteria from spreading in a setting where bacteria is rampant. As 3D printing becomes more and more prevalent in the medical field, it is vital to make sure that 3D printed implants and tools do not play a role in spreading disease. Certain companies have been working on creating antibacterial 3D printing filament, and a group of researchers has conducted a study on bioactive filaments with antimicrobial and antifungal properties. You can access the paper, entitled Bioactive Potential of 3D-Printed Oleo-Gum-Resin Disks: B. papyrifera , C.myrrha , and S. benzoin Loading Nanooxides—TiO2 , P25, Cu2O, and MoO3, here.
The researchers point out that bacteria have managed to develop resistance to many antibiotics, but that there are many natural antibiotics to which resistance has not yet been developed. They extracted oleo-gum-resins from benzoin, myrrha, and olibanum plants and combined some of them with 10% of metal nano oxide particles. 3D printer filament was created from the resins and metals, then 3D printed into disks which were subject to a number of tests.
Whats more these materials behaved just like some polymers do. The resins,
In short this is a promising study. Polymeric behavior from these Oleo-Gum-Resin may make it easy to process them just as many other 3D printing materials. Furthermore, as 3D printing is being increasingly used to create things such as surgical instruments, surgical guides and implants, special consideration should be given to the materials that are used to 3D print these tools. Of course, all surgical instruments and implants are made to be sterile before being used, but what if they could be made from materials that actively prevented infection? There’s a big difference between tools that are free of pathogens and those that actively repel pathogens. Surgeries could be made safer and recoveries quicker, without the complications and extended hospital stays that happen when infections are acquired. 3D printing surgical tools from these materials will not eliminate all hospital-acquired infections; there are a number of causes for these diseases that go beyond surgeries themselves and threaten anyone who has to stay in a hospital. But if the use of these materials could cut down even a little bit on surgical complications, that would be progress.
Authors of the paper include Diogo José Horst, Sergio Mazurek Tebcerhani, Evaldo Toniolo Kubaski, and Rogério de Almeida Vieira.
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July 31, 2018 at 03:33AM