Summary: Researchers discover common white matter abnormalities in multiple emotional disorders.
Researchers have long known that emotional disorders have a lot in common. Many often occur together, like depression and social anxiety disorder. Treatments also tend to work across multiple disorders, suggesting shared underlying elements. But perhaps the most common shared characteristic is that almost all emotional disorders involve persistent negative thinking.
In an analysis of existing studies that used MRI images to study the brain’s white matter, researchers from the University of Illinois at Chicago describe common brain abnormalities found in multiple emotional disorders. Their findings are published in the journal NeuroImage: Clinical.
“This study provides important insights into mechanisms shared across multiple emotional disorders, and could provide us with biomarkers that can be used to more rapidly diagnose these disorders,” says Dr. Scott Langenecker, associate professor of psychiatry and psychology in the UIC College of Medicine and senior author of the paper. Those disorders, he said, can sometimes take many years to be diagnosed accurately.
The most common difference in white matter structure that Langenecker’s group found — present in every emotional disorder they looked at — was disruption in a region of the brain that connects different parts of the “default-mode network,” which is responsible for passive thoughts not focused on a particular task. That area is the left superior longitudinal fasciculus. The superior longitudinal fasciculus, or SLF, also connects the default-mode network and the cognitive control network, which is important in task-based thinking and planning and tends to work in alternation with the default-mode network.
The constant negative thoughts or ruminations associated with most emotional disorders appear to be due to a hyperactive default-mode network, Langenecker said.
“If the part of the brain that helps rein in the default-mode network isn’t as well-connected through the SLF, this could explain why people with emotional disorders have such a hard time modulating or gaining control of their negative thoughts,” he said.
The researchers systematically searched the scientific literature for studies that performed whole-brain “diffusion tensor” imaging on adults with major depressive disorder, bipolar disorder, social anxiety disorder, obsessive-compulsive disorder, or posttraumatic stress disorder, as well as healthy control participants. Thirty-seven studies met those criteria and included a combined 962 participants with emotional disorders and 892 healthy control subjects.
The researchers then performed a meta-analysis to determine which white-matter alterations may be common across multiple mood disorders and which are unique for a particular mood disorder. White matter includes the long nerve fibers called axons that transmit electrical signals.
Diffusion tensor imaging, or DTI, measures the degree to which water molecules move in one direction rather than randomly diffusing in all directions. It provides “an indirect measurement of the microstructure of white matter, and can give information about connectivity of different parts of the brain,” said Lisanne Jenkins, postdoctoral research fellow in psychiatry in the UIC College of Medicine and first author on the paper.
“If you think of white matter as the highways of the brain, connecting all the different regions and networks,” Jenkins said, an area with highly directional water movement “could be a major superhighway where all the cars are moving along quickly with little traffic.” An area with less-directed water movement could be “a two-lane road, with several exits and stop signs, maybe even some potholes, which slow down traffic.”
Brain regions connected by these slower pathways “may not communicate as well as they would in someone where this road looks more like a superhighway,” said Dr. Olusola Ajilore, associate professor of psychiatry in the UIC College of Medicine and a co-author on the paper.
In the 37 studies the researchers looked at, participants with emotional disorders had less directed water movement in their white matter compared to participants who did not have emotional disorders.
One of the most surprising findings to Langenecker was that people with obsessive-compulsive disorder shared the most brain abnormalities with people with other emotional disorders.
“We would have expected … OCD to look very different from other emotional disorders, because the symptoms are so unique and distinct,” Langenecker said. “But this kind of flips how we see OCD, which clearly has more in common with other emotional disorders than we think.”
The traditional diagnosis for OCD, he said, is repetitive thoughts about specific objects or tasks — thoughts that pertain to the world outside the self. The thoughts can also be internally-directed.
“Other emotional disorders, like depression, social anxiety, and panic disorder — the repetitive thoughts are directed at the self,” Ajilore said. “So our finding that OCD is more like the other emotional disorders makes sense, and we may now be able to further examine commonalities between these disorders that could improve our treatment of them individually.”
The disorder that stood out and shared the fewest white-matter characteristics with the others was post-traumatic stress disorder.
PTSD is triggered by a traumatic event and involves being reminded of that event at unwelcome times, not unlike the repetitive negative thinking in other emotional disorders. But people with PTSD had several areas of low white-matter connectivity that weren’t seen in the other emotional disorders, Langenecker said.
“While milder forms of trauma is common in other conditions, like major depression or generalized anxiety, it is possible that the brain regions we saw that were distinctly affected in PTSD participants are related to the experience of severe trauma or the re-experiencing of that trauma,” he said.
In bipolar disorder, characterized by periods of both depression and mania, the researchers saw generally decreased water-directionality in the right side of the brain, including the right SLF, the area that connects the default-mode network and the cognitive control network.
“All emotional disorders had disruptions more so in the left hemisphere, but for bipolar disorder, we saw disruptions in white matter in both the right and left sides of the brain,” Langenecker said.
Older studies of stroke patients have shown that abnormalities in the right hemisphere are associated with externally-focused symptoms, like mania, while left hemisphere involvement — which the current study found in most emotional disorders — was more often associated with inwardly-focused symptoms, like depression. Langenecker said the bilateral changes his team observed in bipolar disorder may reflect vulnerability to mania and to depression and anxiety.
Alyssa Barba, Miranda Campbell, Melissa Lamar, Stewart Shankman and Dr. Alex Leow, all of UIC, are the remaining co-authors on the paper.
Funding: This work was supported by grants MH101487, MH081911 from the National Institute of Mental Health
Source: Sharon Parmet – UIC
Image Source: NeuroscienceNews.com image is credited to Vibhu Rangavasan.
Original Research: Abstract for “Shared white matter alterations across emotional disorders: A voxel-based meta-analysis of fractional anisotropy” by Lisanne Michelle Jenkins, Alyssa Barba, Miranda Campbell, Melissa Lamar, Stewart A. Shankman, Alex D. Leow, Olusola Ajilore, and Scott Aaron Langenecker in NeuroImage: Clinical. Published online September 28 2016 doi:10.1016/j.nicl.2016.09.001
Shared white matter alterations across emotional disorders: A voxel-based meta-analysis of fractional anisotropy
White matter (WM) integrity may represent a shared biomarker for emotional disorders (ED). Aims: To identify transdiagnostic biomarkers of reduced WM by meta-analysis of findings across multiple EDs.
Web of Science was searched systematically for studies of whole brain analysis of fractional anisotropy (FA) in adults with major depressive disorder, bipolar disorder, social anxiety disorder, obsessive-compulsive disorder or posttraumatic stress disorder compared with a healthy control (HC) group. Peak MNI coordinates were extracted from 37 studies of voxel-based analysis (892 HC and 962 with ED) and meta-analyzed using seed-based d Mapping (SDM) Version 4.31. Separate meta-analyses were also conducted for each disorder.
In the transdiagnostic meta-analysis, reduced FA was identified in ED studies compared to HCs in the left inferior fronto-occipital fasciculus, forceps minor, uncinate fasciculus, anterior thalamic radiation, superior corona radiata, bilateral superior longitudinal fasciculi, and cerebellum. Disorder-specific meta-analyses revealed the OCD group had the most similarities in reduced FA to other EDs, with every cluster of reduced FA overlapping with at least one other diagnosis. The PTSD group was the most distinct, with no clusters of reduced FA overlapping with any other diagnosis. The BD group were the only disorder to show increased FA in any region, and showed a more bilateral pattern of WM changes, compared to the other groups which tended to demonstrate a left lateralized pattern of FA reductions.
Distinct diagnostic categories of ED show commonalities in WM tracts with reduced FA when compared to HC, which links brain networks involved in cognitive and affective processing. This meta-analysis facilitates an increased understanding of the biological markers that are shared by these ED.
“Shared white matter alterations across emotional disorders: A voxel-based meta-analysis of fractional anisotropy” by Lisanne Michelle Jenkins, Alyssa Barba, Miranda Campbell, Melissa Lamar, Stewart A. Shankman, Alex D. Leow, Olusola Ajilore, and Scott Aaron Langenecker in NeuroImage: Clinical. Published online September 28 2016 doi:10.1016/j.nicl.2016.09.001