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Connectivity within the brainstem is impaired in chronic fatigue syndrome

pattismith

Senior Member
Messages
3,932
"abstract:
Here we analyse fMRI correlations to directly test connectivity within and from the brainstem. Resting and task functional MRI (fMRI) were acquired for 45 ME/CFS (Fukuda criteria) and 27 healthy controls (HC).

We selected limited brainstem reticular activation system (RAS) regions-of-interest (ROIs) based on previous structural MRI findings in a different ME/CFS cohort (bilateral rostral medulla and midbrain cuneiform nucleus), the dorsal Raphe nucleus, and two subcortical ROIs (hippocampus subiculum and thalamus intralaminar nucleus) reported to have rich brainstem connections.

When HC and ME/CFS were analysed separately, significant correlations were detected for both groups during both rest and task, with stronger correlations during task than rest.

In ME/CFS, connections were absent between medulla and midbrain nuclei, although hippocampal connections with these nuclei were enhanced.
When corresponding correlations from HC and ME/CFS were compared, ME/CFS connectivity deficits were detected within the brainstem between the medulla and cuneiform nucleus and between the brainstem and hippocampus and intralaminar thalamus, but only during task.

In CFS/ME, weaker connectivity between some RAS nuclei was associated with increased symptom severity. RAS neuron oscillatory signals facilitate coherence in thalamo-cortical oscillations. Brainstem RAS connectivity deficits can explain autonomic changes and diminish cortical oscillatory coherence which can impair attention, memory, cognitive function, sleep quality and muscle tone, all symptoms of ME/CFS."

We can compare this study to the Brainstem connectivity study in Temporal Lobe Epilepsy:

"Research reveals underappreciated role of brainstem in epilepsy

May. 31, 2018, 8:31 AM

Dario J. Englot, MD, PhD, assistant professor of Neurological Surgery. (Vanderbilt University & Medical Center / Steve Green)

New research from Vanderbilt suggests that repeated seizures reduce brainstem connectivity, a possible contributor to unexplained neurocognitive problems in epilepsy patients.

The brainstem has been rarely studied in epilepsy because seizures typically originate in the temporal lobe or other areas of the cortex.

Noting that people with temporal lobe epilepsy often lose consciousness even though the temporal lobe does not control wakefulness, Dario Englot, MD, PhD, surgical director of epilepsy at Vanderbilt University Medical Center, said he decided to focus on the region that does control wakefulness — the brainstem.

He hypothesized that connectivity disruptions with the brainstem resulting from a history of seizures might play a role in diminished cognitive functions that are not related to the temporal lobe.

The research, published online May 30 in Neurology, is the first to investigate how epilepsy affects the ascending reticular activating system (ARAS) — circuitry that is responsible for regulating wakefulness — within the brainstem.

Functional magnetic resonance imaging revealed that ARAS disruptions occurred, with decreases in circuitry being quantitatively associated with disease severity.
….
The temporal lobe is responsible for memory and verbal skills. Some neurocognitive problems that epilepsy patients experience after a history of repeated seizures, such as trouble maintaining attention and concentrating on tasks, as well as executive function, are not associated with the temporal lobe.

“More and more, we’re learning that epilepsy is a disease affecting widespread brain networks, not just the temporal lobe,” Englot said. “There are a lot of other networks. There have been other studies that show that connectivity in the brain is abnormal in epilepsy. But when researchers look at connectivity, typically they are looking in the temporal lobe and areas of the cortex, and they rarely look at the brainstem.”


The study compared 26 patients with temporal lobe epilepsy to 26 people without an epilepsy diagnosis. They were matched according to age, sex and left or right handedness for comparisons. The tests were conducted at the Vanderbilt University Institute for Imaging Science.

The results revealed specific connections between individual ARAS nuclei and other brain regions that were altered in patients.
These alterations were closely related to neuropsychological and disease-related factors.
The research is important because many epilepsy patients whose seizures cannot be controlled by medication or established surgical interventions suffer repeated debilitating episodes and decreased quality of life.

A relatively new treatment, responsive neurostimulation that was approved by the U.S. Food and Drug Administration in 2013, is another alternative that has benefited epilepsy patients.

“This study offers clues about clinical problems suffered in epilepsy that are often difficult to explain,” Englot said. “It’s an impetus to get treated sooner rather than let seizures continue to damage brain networks.
Many patients can be candidates for surgery to stop seizures, and there are also new technologies coming out that involve stimulation of the brain or laser ablation that are minimally invasive. If we can understand the networks that go awry in epilepsy, we could potentially identify new targets for treatment to improve patients’ function and quality of life.”
…"
 

Pyrrhus

Senior Member
Messages
4,172
Location
U.S., Earth
Here is Dr Leighton Barnden talking about his study at the Emerge Australian ME Conference in March 2019 : Brain stem myelination and MRI changes in CFS/ME.

And here is a more recent talk by him:

CAI Seminar Series: Detection of brain dysfunction in CFS using multimodal brain MRI
Presented by Dr Leighton Barnden, Imaging Consultant, National Centre for Neuroimmunology and Emerging Diseases, Menzies Health Institute Queensland, Griffith University.
Presented 20 October 2020
 

perrier

Senior Member
Messages
1,254
Thanks Pyrrhus for posting this. However, the sound is really poor for some reason. Is there any other way of watching this with improved sound. Or can someone summarise the thesis presented. Thanks.