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Color-changing polymer may signal traumatic brain injuries in soldiers, athletes

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Posted August 21, 2015

A bomb blast or a rough tackle can inflict brain damage that destroys lives. Yet at the time of impact, these injuries are often invisible. To detect head trauma immediately, a team of researchers has developed a polymer-based material that changes colors depending on how hard it is hit.

Image from YouTube video.

Image from YouTube video.

The goal is to someday incorporate this material into protective headgear, providing an obvious indication of injury.

A brand-new video on the research is shown below:

Recent research and media accounts have indicated that soldiers and professional athletes may suffer long-term complications — such as memory loss, headaches and dementia — stemming from past head trauma. In April, a lawsuit filed by a group of National Football League players was settled, requiring the organization to pay retired players with head injuries. And several professional hockey players are now suing the National Hockey League over the same issue. But even children playing contact sports may be at risk.

There is no easy way to tell if someone has just sustained a brain injury, so soldiers and athletes may unknowingly continue to do the very activity that caused the damage and potentially cause more harm. But a force-responsive, color-changing patch could prevent additional injury, says Shu Yang, Ph.D. “If the force was large enough, and you could easily tell that, then you could immediately seek medical attention,” she explains.

Yang’s team at the University of Pennsylvania used holographic lithography (HL) to create photonic crystals with carefully designed structures to give them a particular color, just like opals. Deforming the crystals with an applied force changes their internal structures, and thus the crystal’s color. The material does not require power to detect forces and is lightweight, thus offering an attractive way for medical personnel to identify a damaging force on-site without the use of expensive tools. However, making these crystals is an expensive process that isn’t suitable for the mass production, she says.

So the team turned to self-assembly and polymer-based materials that are cheaper to produce over a large area than the earlier HL method. Younghyun Cho, Ph.D., a postdoctoral fellow in Yang’s lab, will describe the team’s development, which could offer a path to commercialization.

The first step was to mold the polymer into a structure that worked just like the specialized photonic crystals. To make a mold, the researchers mixed up silica particles of various sizes and allowed them to self-assemble into crystals with the desired pattern. They heated the polymer, which infiltrated the mold, allowed it to solidify and then removed the silica mold, leaving behind the inversed polymer crystals.

The researchers then applied varying amounts of force to the polymer crystal and recorded the color change. The results were encouraging. “We were able to change the color consistently with certain forces,” Yang says. For example, applying a 30 mN force — approximately the force of a sedan moving at 80 miles per hour crashing into a brick wall — caused the crystal to change from red to green. A force of 90 mN — the equivalent of a speeding truck hitting that same wall — turned the polymer purple, Cho adds.

“This force is right in the range of a blast injury or a concussion,” Yang says.

In future studies, Yang plans to develop materials that can indicate how quickly a force is applied, which affects how damaging a particular trauma is on the brain.

Source: ACS

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