Structural brain connectivity predicts pain

In a recent post, I mentioned a study in which researchers using functional MRI (fMRI) were able to link functional connectivity within the default mode network (DMN) and between DMN and executive control network (ECN) with the degree of disability in migraine patients.

In a new study published in the journal Pain, researchers examined the brains of patients with mild traumatic brain injury (mTBI) using fMRI imaging to understand the brain networks associated with early acute pain following a motor vehicle collision. Here are some key findings:

• The properties of the brain’s white matter explained a significant portion of the variation in pain experienced after mTBI. This suggests that certain brain features make patients more likely to report higher levels of pain after the injury.
• These white matter connections are associated with physiological and psychological characteristics related to pain sensitivity. The interactions between these connections and parameters of sensory testing and pain sensitivity can explain about one-third of the variability in pain.
• The connectivity patterns in the brain’s white matter do not change over time, as observed up to a year after the injury. The same connectivity measures collected shortly after the injury and at six months post-injury can predict the level of pain reported by patients at the six-month mark.
• The study further indicates that the strength of white matter connections in the sensorimotor, thalamic-cortical, and default-mode networks is associated with pain severity. These findings highlight the involvement of these brain networks in pain perception and suggest that connections within these networks can influence the experience of pain.

Over the past decade, scientists have been increasingly interested in functional connectivity, which is a way of finding networks in the brain that are related to particular activities, including resting. One of the most prominent networks is the default mode network.

The DMN is most active when the brain is at rest. When the brain is directed towards a task or goal, the default network deactivates. The DMN involves low-frequency oscillations of about one fluctuation per second.

The DMN is thought to be involved in a variety of cognitive functions, including self-awareness, social cognition, memory, thinking about the future, and daydreaming. The DMN is also thought to be involved in some psychiatric disorders, such as depression, post-traumatic stress disorder, obsessive-compulsive disorder, schizophrenia, and others.

The findings of this study suggest that the brain’s white matter networks plays an important role in pain perception, and that understanding these brain-pain relationships may lead to new treatments for pain in individuals with mTBI.

These brain networks are not fixed and we already have tools to improve their function. Meditation is one of the most effective and accessible such tools. Meditation has been shown to increase connectivity between different brain regions, including those involved in pain perception. It has also been shown to reduce the activity of pain-related brain regions. In addition to meditation, other things that people can do to improve the function of their brain networks and reduce pain include exercise and sleep.