Pentagon Shelves Blast Gauges Meant To Detect Battlefield Brain Injuries

Dec 20, 2016
Originally published on December 20, 2016 8:40 am

The Pentagon has quietly sidelined a program that placed blast gauges on thousands of combat troops in Afghanistan.

NPR has learned the monitoring was discontinued because the gauges failed to reliably show whether service members had been close enough to an explosion to have sustained a concussion, or mild traumatic brain injury.

But the small wearable devices did produce a trove of data on blast exposure that could eventually have helped researchers understand the links between bomb blasts, concussions and brain diseases. And they produced evidence that many service members are exposed to worrisome levels of blast pressure simply by being near a heavy weapon when it's fired.

The decision to warehouse the blast gauges is "a huge mistake," says retired Gen. Peter Chiarelli, who was the Army's vice chief of staff before retiring in 2012 and is now the chief executive officer of One Mind, a nonprofit focused on brain illness and injury.

Mild TBI was the signature wound of the wars in Iraq and Afghanistan, affecting more than 200,000 troops. Having data from blast sensors could play "a very, very important role in helping us understand why an individual has negative effects from a concussion," Chiarelli says, "or why an individual develops one of the neurodegenerative diseases that seem connected with concussion, everything from ALS, to Parkinson's to dementia and even Alzheimer's."

When NPR contacted the Army, a spokesman said it would be early 2017 before it could respond to an interview request.

But Eric Fanning, secretary of the Army, did discuss the decision in a letter to Rep. Louise Slaughter, D-N.Y. One problem was that the gauges failed to show how much blast exposure is too much, Fanning wrote, adding that "The DoD's current inventory of blast gauges does not provide consistent and reliable data in the training or combat environment."

The blast gauges are about the size of a quarter, and troops wear three of them on their helmets and upper bodies. The gauges contain sensors that measure overpressure, the sudden increase in air pressure caused by an explosion.

An overpressure of just 5 pounds per square inch can burst an eardrum. One-hundred PSI can be fatal. And somewhere in between is probably where most concussions occur.

The Army began outfitting thousands of combat troops with blast gauges in 2011.

Kyle Sims was a Special Forces medic who helped deploy the gauges in Afghanistan. He remembers the first time he saw the gauges help a soldier. Oddly, the soldier hadn't been anywhere near a bomb blast.

"He was a soldier who fired a shoulder-fired rocket," Sims says. "And that shoulder-fired rocket actually gave him a pretty significant overpressure exposure just because he was firing it from a bit of a confined space."

When the soldier returned from his mission, he said he had a headache, Sims says. "The medic checks his gauges, sees that he's got an exposure, takes him over to the hospital, gets a good neuro exam, [and] he gets diagnosed with a concussion."

So this soldier's brain had taken a hit just from firing his own weapon.

But the gauges had done their job. "And I thought that that was going to be the start of great things, you know, that we were really on the right path," says Sims, who began working with the company that makes the gauges this year, after leaving the service.

As researchers began looking at the data from the gauges, it became clear the sort of exposure Sims had witnessed was pretty common.

"The majority of exposures were not from improvised explosive devices, as you might expect," says David Borkholder, an engineering professor at the Rochester Institute of Technology and the founder of BlackBox Biometrics, which makes the blast gauges. Instead, the culprit was usually "blast-intensive weapons systems" like recoilless rifles, shoulder-fired rockets, artillery and mortars, he says.

The reason is pretty simple. Firing something like a recoilless rifle generates a powerful pressure wave both in front of and behind the weapon. Those pressure waves are usually less intense than those from a bomb, Borkholder says. But exposures are far more common, and not limited to the battlefield.

"A service member on the training range may experience 30 to 300 exposures per day multiple days per week," Borkholder says.

That suggests many troops are routinely exposed to worrisome levels of overpressure as part of their job. And research in the past few years suggests that lots of small blows to the head can add up.

"It's just like in the NFL," Sims says. "The more they look at it, the more they realize it's not the one time that the guy got knocked out on the field. It's the 200 times that he got hit hard enough to have an injury, but not symptomatic enough where he had to be removed from play."

Despite what the blast gauge program turned up, the military considers it a disappointment. That's because the Department of Defense had a very specific goal: identifying troops with brain injuries caused by the blast wave from a bomb.

And the military soon realized that an exposure high enough to cause a concussion in one person might have no effect on someone else, Borkholder says. "Their objective was to have this device basically predict if the person had a concussion, and it wasn't able to do that," he says.

So a few months ago, the Army quietly warehoused the blast gauges.

Chiarelli hopes the military will reconsider that decision and treat blast exposure like other potentially dangerous environmental factors, like radiation.

"It's absolutely essential that we collect data in all instances where soldiers receive overpressure from whatever the blast is. If it's in training or combat or anything," Chiarelli says.

That way, the military would know the total dose of overpressure each service member received during their time in service. And decades from now it might be possible to correlate that exposure to problems ranging from PTSD to Alzheimer's.

A clear link between overpressure and brain diseases like Alzheimer's could prove costly to the military and veterans health systems. But Chiarelli doesn't believe that was a factor in the military's decision to stop using the blast gauges.

"I'm not going to go that far," he says. "I would hope not."

The Department of Defense says it's committed to determining the risks from overpressure exposure, both in combat and in training. It's also testing a new generation of blast gauges that are more sensitive and easier to maintain.

But the military has made no commitment to deploying those gauges.

Copyright 2017 NPR. To see more, visit http://www.npr.org/.

RACHEL MARTIN, HOST:

We have news this morning about the struggle against brain injuries in the U.S. military. A high-tech program was designed to detect those injuries. Now NPR has learned that the Pentagon has suspended that program. Here's NPR's Jon Hamilton.

JON HAMILTON, BYLINE: In 2011, the Army began outfitting thousands of combat troops with devices known as blast gauges. Soldiers wore three of them, each slightly larger than a quarter. Kyle Sims was a Special Forces medic who helped deploy the gauges in Afghanistan. He remembers the first time he saw the gauges help a soldier.

KYLE SIMS: He comes in post-mission, he's complaining of a headache. The medic checks his gauges, sees that he's got an exposure, takes him over to the hospital, gets a good neuro exam. He gets diagnosed with a concussion.

HAMILTON: Sims, who now works with the company that makes the gauges, says that's just how they were supposed to work.

SIMS: And I thought that that was going to be the start of great things, you know, that we were really on the right path.

HAMILTON: Blast gauges measure the sudden increase in air pressure caused by an explosion. It's called overpressure and it's measured in pounds per square inch. A five psi overpressure can burst an eardrum, 100 psi can be fatal. Somewhere in between is probably where most concussions occur. Right away the gauges turned up something interesting. That soldier who came back with a concussion? He didn't encounter a bomb. Sims says he'd been operating a shoulder-fired rocket.

SIMS: And that shoulder-fired rocket actually gave him a pretty significant overpressure exposure just because he was firing it from a bit of a confined space.

HAMILTON: The pressure wave from the weapon probably got amplified, so this soldier's brain took a hit just from firing his own weapon. David Borkholder is an engineering professor at the Rochester Institute of Technology and the founder of BlackBox Biometrics, which makes the gauges. He says blast gauge data from Afghanistan showed a clear pattern.

DAVID BORKHOLDER: The majority of exposures were not from IEDs, improvised explosive devices, as you might expect. They were actually from blast-intensive weapon systems, so things like recoilless rifles, shoulder-fired rockets, artillery and mortars.

HAMILTON: Firing something like a large recoilless rifle generates a powerful pressure wave both in front of and behind the weapon.

(SOUNDBITE OF EXPLOSION)

HAMILTON: Borkholder says the pressure waves are usually less intense than the ones from a bomb, but exposures are far more common.

BORKHOLDER: A service member on the training range may experience 30 to 300 exposures per day, multiple days per week.

HAMILTON: In other words, many troops are routinely exposed to overpressure as part of their job. And research in the past few years suggests that lots of small exposures can add up. Despite what the blast gauge program turned up, the military considers it a disappointment. That's because the Department of Defense had a very specific goal - identifying troops with brain injuries caused by the blast wave from a bomb. And Borkholder says the military soon realized that an exposure high enough to cause a concussion in one person might have no effect on someone else.

BORKHOLDER: Their objective was to have this device basically predict if the person had a concussion and it wasn't able to do that.

HAMILTON: So the Army quietly warehoused the gauges. When NPR contacted the Army, a spokesman said it would be early next year before they could respond to an interview request. But in a November letter to Representative Louise Slaughter of New York, the secretary of the Army said it stopped using the gauges because they did not provide, quote, "consistent or reliable data."

PETER CHIARELLI: I think it's a mistake. I think it's a huge mistake.

HAMILTON: Retired Gen. Peter Chiarelli was the Army's vice chief of staff before retiring in 2012. He says the military should treat overpressure much the way it treats other dangerous environmental factors like radiation.

CHIARELLI: It's absolutely essential that we collect data in all instances where soldiers receive overpressure from whatever the blast, if it's in training or combat or anything.

HAMILTON: Then, Chiarelli says, the military would know the total dose of overpressure each service member received during their time in service.

CHIARELLI: Those numbers could play a very, very important role in helping us understand why an individual has negative effects from a concussion or why an individual develops one or the other neurodegenerative diseases that seem connected with concussion.

HAMILTON: A clear link between overpressure and brain diseases like Alzheimer's could prove costly to the military and veterans' health systems. So I asked Chiarelli whether he thinks that might be a factor in the military's decision not to gather more blast gauge data.

CHIARELLI: I'm not going to go that far. I would hope not. I would hope not.

HAMILTON: The Department of Defense says it's testing a new generation of blast gauges that are more sensitive and easier to maintain, but it has made no commitment to deploying them. Jon Hamilton, NPR News. Transcript provided by NPR, Copyright NPR.