News Release

SwRI and UTSA developing helmet pads to reduce traumatic brain injury in military service members

Researchers plan to create multi-behavior padding that can withstand blunt and ballistic impacts

Grant and Award Announcement

Southwest Research Institute

Dr. Morteza Seidi and Dr. Daniel Portillo

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SwRI’s Dr. Daniel Portillo (right) and UTSA’s Dr. Morteza Seidi (left) are creating innovative military helmet pads designed to prevent traumatic brain injury (TBI). The project is supported by a $125,000 grant from the Connecting through Research Partnerships (Connect) program.

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Credit: Southwest Research Institute

SAN ANTONIO — September 16, 2024 —Researchers from Southwest Research Institute (SwRI) and The University of Texas at San Antonio (UTSA) are creating innovative military helmet pads designed to prevent traumatic brain injury (TBI). The project, led by SwRI’s Dr. Daniel Portillo and UTSA’s Dr. Morteza Seidi, is supported by a $125,000 grant from the Connecting through Research Partnerships (Connect) program.

Traumatic brain injury can affect human performance and quality of life. It is a critical concern in military settings, where service members are regularly exposed to environments that pose significant risks for blast exposures, blunt trauma, and ballistic impacts.

“The increasing incidence of TBI among military service members shows a pressing need for enhanced protective equipment in combat and training environments,” Portillo said. “The widespread use of improvised explosive devices and firearms has made TBIs particularly prevalent, and helmets are the primary form of protection against skull and brain injuries.”

SwRI and UTSA will collaborate on a helmet that includes a multi-behavior padding that becomes soft or stiff depending on the type of impact the wearer experiences. During a blunt impact, such as a fall, the padding will soften to cushion against the blow. A ballistic impact from shrapnel or a bullet will make the padding stiffen to absorb the impact’s kinetic energy and prevent injury to the skull and brain.

“Ballistic impacts occur at extremely high speeds,” Seidi said. “They are very different from blunt impacts at relatively lower speeds, which is why it’s challenging to create a helmet that can protect against both.”

SwRI’s Dr. Dan Nicolella and UTSA’s Dr. Marzieh Memar will lead the computer analysis of human brain response to evaluate the overall performance of padding in reducing the likelihood of brain injury.

The researchers will use 3D printing technology to build the helmet pads, and then test their ability to mitigate injury under various levels of both types of impacts, simulating real-world conditions. Blunt impact testing will occur at UTSA, while SwRI will conduct ballistic impact testing.

“By leveraging the unique expertise at UTSA and SwRI, we can improve the safety and wellbeing of military service members,” Portillo said.

SwRI’s Executive Office and UTSA’s Office of Research sponsor the Connect program, which offers grant opportunities to enhance greater scientific collaboration between the two institutions.

For more information, visit https://www.swri.org/bone-biomechanics.


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