Best Practice Magazine publishes an article (in Danish) based on recent findings in PLOS One journal by CFIN researchers.

18.05.2018 | Henriette Blæsild Vuust

Ahmad Raza Khan, Brian Hansen, Sune Nørhøj Jespersen, Ove Wiborg:

Depression ændrer hjernens mikrostruktur

I dag erkendes depression som en af hovedårsagerne til lavere livskvalitet og produktivitet på verdensplan. Diagnostisering af sygdommen er interviewbaseret, idet der hidtil ikke er identificeret sikre biomarkører for sygdommen. Den meget individuelle, og ofte modsatrettede, natur af depressionssymptomer vanskeliggør diagnostiseringen, hvilket også gør det nærliggende at antage, at der findes forskellige subtyper af depression med hver sin underliggende psykopatologi. 

Read more (in Danish):

https://bestprac.dk/2018/04/12/depression-aendrer-hjernens-mikrostruktur/

The Best Practice Magazine article is based on a recently published article in PLOS ONE by:

Ahmad Raza Khan, Christopher D. Kroenke, Ove Wiborg, Andrey Chuhutin, Jens R. Nyengaard, Brian Hansen, Sune Nørhøj Jespersen:

Differential microstructural alterations in rat cerebral cortex in a model of chronic mild stress depression

Abstract

Chronic mild stress leads to depression in many cases and is linked to several debilitating diseases including mental disorders. Recently, neuronal tracing techniques, stereology, and immunohistochemistry have revealed persistent and significant microstructural alterations in the hippocampus, hypothalamus, prefrontal cortex, and amygdala, which form an interconnected system known as the stress circuit. Most studies have focused only on this circuit, however, some studies indicate that manipulation of sensory and motor systems may impact genesis and therapy of mood disorders and therefore these areas should not be neglected in the study of brain microstructure alterations in response to stress and depression. For this reason, we explore the microstructural alterations in different cortical regions in a chronic mild stress model of depression. The study employs ex-vivo diffusion MRI (d-MRI) to assess cortical microstructure in stressed (anhedonic and resilient) and control animals. MRI is followed by immunohistochemistry to substantiate the d-MRI findings. We find significantly lower extracellular diffusivity in auditory cortex (AC) of stress groups and a significantly higher fractional anisotropy in the resilient group. Neurite density was not found to be significantly higher in any cortical ROIs in the stress group compared to control, although axonal density is higher in the stress groups. We also report significant thinning of motor cortex (MC) in both stress groups. This is in agreement with recent clinical and preclinical studies on depression and similar disorders where significant microstructural and metabolic alterations were found in AC and MC. Our findings provide further evidence that the AC and MC are sensitive towards stress exposure and may extend our understanding of the microstructural effects of stress beyond the stress circuit of the brain. Progress in this field may provide new avenues of research to help in diagnosis and treatment intervention for depression and related disorders.

Read more at:

http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0192329