This break between understanding and responding is called cognitive motor dissociation (CMD), a disorder of consciousness following brain injury.
About 15 percent of patients believed to be unresponsive are predicted to be experiencing CMD, but most do not get a diagnosis because that requires both advanced equipment and training.
Now, researchers have used structural magnetic resonance imaging (MRI) — a technique that is already part of routine clinical care — to identify brain lesion patterns specific to patients with CMD. These MRI scans could be used as a screening tool to identify patients likely to have CMD, improving their chance of not being removed from life support too soon and recovering.
CMD diagnosis is possible only in a few labs
Today, if someone arrives at an emergency room with a brain injury, medical staff will often use CT scans or structural MRI — a technique that generates pictures of the person’s brain — to identify issues, including swelling, fluid leaks or hemorrhaging, that need to be dealt with immediately.
An EEG (electroencephalogram) will often also be performed, where electrodes are attached to a person’s scalp and used to look for electrical activity, a good indicator of overall brain health. Depending on the results of those tests, patients will be given medication, to prevent seizures for example, and will possibly be placed on life support.
“Right now, diagnosis for CMD requires access to a handful of labs around the world,” said Shah, who was not involved in the study. To diagnose CMD, there are two main options: functional EEG, a far more advanced approach than traditional EEG, and functional magnetic resonance imaging (fMRI), which measures changes in blood flow throughout the brain.
Over the course of about 30 minutes, the patients are repeatedly asked to respond to carefully chosen questions or commands — for instance, “Open and close your hand,” and “Imagine opening and closing your hand.” Scientists and physicians need extensive training to analyze and interpret the patients’ brain activity data collected during questioning.
Making CMD diagnosis accessible
Jan Claassen, who is a neurocritical care physician and the director of Critical Care Neurology at Columbia University/New York-Presbyterian Hospital, and whose laboratory led the recent study, was determined to make CMD diagnosis simpler by incorporating equipment already available in most hospitals.
He and his colleagues turned to structural MRI to look for brain lesions — a classic approach to understanding brain function — in patients with CMD, Claassen said.
But before bringing structural MRI data into the equation, the team used the current functional EEG approach to confidently identify 21 CMD patients within a group of 107 brain injury patients. Then they compared EEG and structural MRI data among and between the two groups and were able to identify two patterns of brain lesions only seen in CMD patients.
Those lesion patterns were, not surprisingly, in areas of the brain important for motor output but not in regions important for command comprehension or arousal, indicating that patients with CMD would be able to process information but be unable to physically respond.
Replicating and refining these results in a larger group of patients is essential, Claassen said, but knowing which lesion patterns are more likely in patients with CMD could ultimately be used as a screening tool when someone enters a hospital with a brain injury.
Some of those patients are children.
Even less is known about pediatric CMD
Aidan Galaska suffered a severe brain injury in a car accident, in 2013, at age 9. His older brother Cole died at the scene.
In the months following the accident, Aidan underwent a battery of tests, including those where he was asked to respond to questions. “After a brief five-minute assessment, they would decide that he was in a persistent vegetative state,” said Laura Galaska, Aidan’s mother. But, Galaska said, she had a gut feeling that “Aidan was in there.”
On a few occasions, Galaska had seen Aidan move or laugh in a way that she felt indicated he was aware of his surroundings, even if the doctors thought it was a random bodily reflex. “On paper, it looked very, very grim,” Galaska admitted.
After years, Galaska found scientists and physicians who listened, and who would introduce her to Shah, in 2018. Aidan was enrolled in studies, including one with Shah, to learn what might be happening in his brain. Finally, they received news: Aidan had CMD. He was the first child to receive that diagnosis.
“That’s five years,” Shah said. “Five years of that family trying to find an answer to what should be a basic question: Is my child hearing or understanding what I’m saying?”
And for Galaska, those five years of waiting were also filled with doctors who she said treated her son not just like he was unconscious but subhuman. “It is never appropriate to talk about a patient in front of him as if his future doesn’t matter, as if there is no hope,” Galaska said.
Claassen agreed, and said he tells every doctor he trains, “When you’re at the bedside, in the room of a patient that is apparently unresponsive, assume that they are actually conscious,” he said. “When you have a meeting with a family at the bedside, integrate the patient even though they can’t actually take part in the discussion.”
Aidan died last year of covid-19 following a lung infection.
CMD diagnosis could be lifesaving and life-changing
A study last year, also led by Claassen, showed that patients with CMD have a higher chance of recovery than unresponsive patients without CMD, and so being able to identify patients with CMD would reduce the risk that life-sustaining therapies are withdrawn prematurely.
Knowing if a loved one has CMD will also allow families to make better decisions about care: for instance, whether they should put their resources toward a rehabilitation program, said Jose Suarez, director of the Neurocritical Care Division at Johns Hopkins University.
For CMD patients, “we want to be aggressive and continue with care,” said Suarez, who was not involved in the study.
Knowing which patients have CMD could lead to CMD-specific clinical trials to evaluate the effectiveness of different brain stimulation techniques or therapeutics such as the drug amantadine, Suarez said.
Amantadine has been shown to help with recovery in patients in a vegetative or minimally conscious state. “We could replicate the trial in CMD patients,” Suarez said, “and see whether those who received amantadine had a more accelerated pace of recovery.”
CMD patients may one day also be able to use technologies such as brain-computer interfaces (BCI), Claassen said, which take signals from a person’s brain and translate them into commands that allow the person to control an external device.
Claassen and his colleagues are hoping to adapt a BCI for patients with CMD “to build a communication bridge,” he said.
“There are people potentially locked in for decades,” Shah said, “with none of their family members and the rest of the world knowing what’s going on.”
Being able to more easily identify people with CMD is crucial, she said, but “that doesn’t mean anything if we don’t then go and try to get them out.”
Do you have a question about human behavior or neuroscience? Email BrainMatters@washpost.com and we may answer it in a future column.