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Science and technology
22 Jun 2022

How EBRAINS is used to investigate disorders of consciousness

How EBRAINS is used to investigate disorders of consciousness

Each year, about a million patients worldwide are sent to emergency services after a brain injury, with levels of consciousness that are difficult to assess. Medical doctors need to ensure that they will identify when a person is minimally conscious and potentially able to recover. That’s why detecting the fundamental mechanisms of consciousness is crucial, not only for better diagnosis, but also to guide recovery in the best way possible.

Measuring consciousness levels

Clinical scientists of the HBP (in Italy and Belgium) have established methods to assess levels of consciousness directly from brain activity. Marcello Massimini, a medical doctor and Professor at the University of Milan, and his team have devised a method for an objective brain-based measure of consciousness levels, called Perturbational Complexity Index (PCI).

Steven Laureys, MD neurologist, founded the Coma Science Group at the University Hospital of Liège to translate these novel technologies to improve the clinical care in both intensive care and chronic neuro-rehabilitation settings. With his team they have cross-validated PCI against neuro-imaging technologies such as functional MRI and metabolic PET (positron emission tomography) measures.

The approach consists of non-invasively applying a magnetic pulse to a small brain region, which makes the neurons fire, and simultaneously recording the overall brain response. The complexity of the brain waves is then calculated. As the scientists have shown in awake, sleeping, anaesthetised subjects, as well as in patient studies, the resulting values are suitable to assess the consciousness level of a person.

VIDEO – Brain Complexity and Consciousness

Simulations of the complexity of evoked brain responses in different states of consciousness

Watch the video “Simulations of the complexity of evoked brain responses in different states of consciousness” to learn the results obtained in the three species

Bottom-up construction of a whole-brain model

The pattern of brain response to external stimuli in many ways depends on the state of the brain. To better understand this relation, Massimini collaborates with theoretical neuroscientists in the HBP led by Alain Destexhe, research director at CNRS in Paris-Saclay University, to model and simulate these brain states in the computer.

To understand the PCI data, Destexhe and his team construct models of the brain networks associated with different states of consciousness. These computational models allow to integrate data across different scales on the brain – from the levels of neurons up to the whole brain, and to simulate the dynamics. The HBP scientists used a bottom-up approach, going from the cellular level up to the whole-brain level. For that, they used mean-field models integrated in The Virtual Brain, an EBRAINS-powered tool that allows to model and predict activity in the whole brain, and can be adapted to the brain of an individual patient.

For the clinicians, this brings new insight into what’s behind the data they can measure: "Such a thorough multiscale exploration is unique and provides a solid mechanistic background”, says Marcello Massimini.

Last year, the HBP researchers investigated brain responsiveness in the wake-sleep cycle in humans. Now, they extended these simulations of full brain activity in anaesthetised states, during spontaneous activity and after magnetic stimulation, with data from other labs. These simulations were made for three species: human, macaque monkey and mouse, using the same procedure of matching models to experimental data.

“So far, we have investigated wakefulness and either sleep or anaesthesia”, says Alain Destexhe. "For the future of this work, we would like to extend to various other states of consciousness, including intermediate states, such as some pathological states of coma or patients suffering from brain lesions”.

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