Rudi Dierckx scite author profile

Brain-derived neurotrophic factor (BDNF) is one of the most studied neurotrophins in the healthy and diseased brain. As a result, there is a large body of evidence that associates BDNF with neuronal maintenance, neuronal survival, plasticity, and neurotransmitter regulation. Patients with psychiatric and neurodegenerative disorders often have reduced BDNF concentrations in their blood and brain. A current hypothesis suggests that these abnormal BDNF levels might be due to the chronic inflammatory state of the brain in certain disorders, as neuroinflammation is known to affect several BDNF-related signaling pathways. Activation of glia cells can induce an increase in the levels of pro- and antiinflammatory cytokines and reactive oxygen species, which can lead to the modulation of neuronal function and neurotoxicity observed in several brain pathologies. Understanding how neuroinflammation is involved in disorders of the brain, especially in the disease onset and progression, can be crucial for the development of new strategies of treatment. Despite the increasing evidence for the involvement of BDNF and neuroinflammation in brain disorders, there is scarce evidence that addresses the interaction between the neurotrophin and neuroinflammation in psychiatric and neurodegenerative diseases. This review focuses on the effect of acute and chronic inflammation on BDNF levels in the most common psychiatric and neurodegenerative disorders and aims to shed some light on the possible biological mechanisms that may influence this effect. In addition, this review will address the effect of behavior and pharmacological interventions on BDNF levels in these disorders.

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PET imaging of oestrogen receptors in patients with breast cancer

Kruchten¹,

Vries²,

Brown³

et al. 2013

The Lancet Oncology

182

226

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PET visualization of microglia in multiple sclerosis patients using [¹¹C]PK11195

Debruyne

Versijpt

Laere

et al. 2003

Euro J of Neurology

206

173

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Activated microglia are involved in the immune response of multiple sclerosis (MS). The peripheral benzodiazepine receptor (PBR) is expressed on microglia and up-regulated after neuronal injury. [11C]PK11195 is a positron emission tomography (PET) radioligand for the PBR. The objective of the present study was to investigate [11C]PK11195 imaging in MS patients and its additional value over magnetic resonance imaging (MRI) concerning the immuno-pathophysiological process. Seven healthy and 22 MS subjects were included. Semiquantitative [11C]PK11195 uptake values were assessed with normalization on cortical grey matter. Uptake in Gadolinium-lesions was significantly increased compared with normal white matter. Uptake in T2-lesions was generally decreased, suggesting a PBR down-regulation. However, uptake values increased whenever a clinical or MR-relapse was present, suggestive for a dynamic process with a transient PBR up-regulation. During disease progression, an increase of normal-appearing white matter (NAWM) uptake was found, propagating NAWM as the possible real burden of disease. In conclusion, [11C]PK11195 and PET are able to demonstrate inflammatory processes with microglial involvement in MS.

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Rudi Dierckx

Neuroinflammation in Schizophrenia-Related Psychosis: A PET Study

Brain-Derived Neurotrophic Factor in Brain Disorders: Focus on Neuroinflammation

PET imaging of oestrogen receptors in patients with breast cancer

PET visualization of microglia in multiple sclerosis patients using [¹¹C]PK11195

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Resources

About

Rudi Dierckx

Neuroinflammation in Schizophrenia-Related Psychosis: A PET Study

Brain-Derived Neurotrophic Factor in Brain Disorders: Focus on Neuroinflammation

PET imaging of oestrogen receptors in patients with breast cancer

PET visualization of microglia in multiple sclerosis patients using [11C]PK11195

Contact Info

Product

Resources

About

PET visualization of microglia in multiple sclerosis patients using [¹¹C]PK11195