Study detects ‘hidden consciousness’ in brain injury patients 


When tested for “hidden consciousness,” one in four patients with severe brain injury who appeared unresponsive were able to respond to instructions covertly, according to new research, co-led by experts at Harvard-affiliated Mass General Brigham.

The findings were published Aug. 15 in the New England Journal of Medicine

In the study, 241 participants with severe brain injury who did not respond when given a simple instruction were assessed with functional MRI (fMRI), electroencephalography (EEG), or both tests. During these tests, participants heard instructions, such as “imagine opening and closing your hand,” followed 15-30 seconds later by “stop imagining opening and closing your hand.” The fMRI and EEG brain responses showed that 60 participants (25 percent) repeatedly followed this instruction covertly over minutes.

Yelena Bodien portrait.
Yelena Bodien, assistant professor of physical medicine and rehabilitation at Harvard Medical School.

According to the authors of the study, patients who demonstrate this phenomenon, called cognitive motor dissociation, understand language, remember instructions, and can sustain attention, even though they appear unresponsive. For these patients, cognitive (i.e., thinking) abilities exceed, and are therefore dissociated from, motor abilities.

“Some patients with severe brain injury do not appear to be processing their external world. However, when they are assessed with advanced techniques such as task-based fMRI and EEG, we can detect brain activity that suggests otherwise,” said lead study author Yelena Bodien, an investigator for the Spaulding-Harvard Traumatic Brain Injury Model Systems and Massachusetts General Hospital’s Center for Neurotechnology and Neurorecovery. “These results bring up critical ethical, clinical, and scientific questions — such as how can we harness that unseen cognitive capacity to establish a system of communication and promote further recovery?”

Following a significant brain injury, individuals may have a disorder of consciousness, which can include coma, a vegetative state, or a minimally conscious state. Since the first study demonstrating cognitive motor dissociation in individuals with disorders of consciousness was published nearly two decades ago, centers around the world have found that this condition occurs in approximately 15 to 20 percent of unresponsive patients.  However, the current study suggests it could be present in 25 percent of patients, or even more. Cognitive motor dissociation was most common in participants assessed with fMRI and EEG, suggesting that multiple tests, using different approaches, may be required to ensure consciousness is not missed. 

Patients who demonstrate cognitive motor dissociation understand language, remember instructions, and can sustain attention, even though they appear unresponsive.

This study included participant data from six different sites spanning the U.S., U.K., and Europe collected over approximately 15 years. Each site developed and rigorously tested their methods for detecting cognitive motor dissociation to minimize the possibility that a positive result was obtained spuriously. Some sites recruited participants from the intensive care unit just days after they sustained a severe brain injury, often from a trauma such as a car accident, a stroke, or cardiac arrest. Other sites included participants who were months to years after their injury or illness and were living in nursing facilities or at home. 

In addition to studying the 241 participants who did not respond to simple instructions, the research included 112 participants who did respond to simple instructions at the bedside. This latter group would be expected to perform well on the fMRI and EEG tests, but, in 62 percent of those participants, researchers did not detect brain responses suggesting they were covertly following instructions. The authors note that this finding may reflect the complexity of the fMRI and EEG tasks and underscores the high-level of thinking skills required to perform them. 

Just knowing that somebody is cognitively aware and more capable than is immediately apparent can alter their clinical care substantially. “Families have told us that once a positive test result revealing cognitive motor dissociation is shared with the patient’s clinical team, it can change the way that the team interacts with their loved one,” Bodien said. “Suddenly, the team is paying more attention to subtle behavioral signs that could be under volitional control, or speaking to the patient, or playing music in the room. On the other hand, failing to detect cognitive motor dissociation can have serious consequences, including premature withdrawal of life support, missed signs of awareness, and lack of access to intensive rehabilitation.” 

One limitation of the study was that the testing was not standardized; each of the study sites tested patients in its own way, creating variability within the data. In addition, many participants were enrolled because family members heard about the study and reached out to researchers. This recruitment approach limits the researchers’ ability to determine the global prevalence of cognitive motor dissociation. There are no professional guidelines that stipulate how cognitive motor dissociation should be assessed, and most centers are unable to provide this testing; clinical translation will need to be a focal point for future research. 

“To continue our progress in this field, we need to validate our tools and to develop approaches for systematically and pragmatically assessing unresponsive patients so that the testing is more accessible,” said Bodien. “The Emerging Consciousness Program at Mass General Hospital offers these evaluations clinically, however elsewhere, a patient may have to enroll in a research study to get tested. We know that cognitive motor dissociation is not uncommon, but resources and infrastructure are required to optimize detection of this condition and provide adequate support to patients and their families.” 

The researchers added that the findings may spur research of specific interventions to foster effective communication, including brain-computer interfaces. 

The study was funded by the James S. McDonnell Foundation. Bodien is supported by grants from the National Institute on Disability, Independent Living, and Rehabilitation Research: H133A120085; 90DPTB0011; and 90DPTB0027. 

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