Establishing connectivity through microdissections of midbrain stimulation-related neural circuits.
Georgios P SkandalakisClemens NeudorferCaitlin A PayneEvalina BondArmin D TavakkoliJessica Barrios-MartinezAnne C TruttiChristos KoutsarnakisVolker A CoenenSpyridon KomaitisConstantinos G HadjipanayisGeorge StranjalisFang-Cheng YehLayla BanihashemiJennifer HongAndres M LozanoMichael KoganAndreas HornLinton T EvansAristotelis KalyvasPublished in: Brain : a journal of neurology (2024)
Comprehensive understanding of the neural circuits involving the ventral tegmental area is essential for elucidating the anatomo-functional mechanisms governing human behaviour as well as the therapeutic and adverse effects of deep brain stimulation for neuropsychiatric diseases. While the ventral tegmental area has been successfully targeted with deep brain stimulation for different neuropsychiatric diseases, the axonal connectivity of the region has not been fully understood. Here using fiber micro-dissections in human cadaveric hemispheres, population-based high-definition fiber tractography, and previously reported deep brain stimulation hotspots, we find that the ventral tegmental area participates in an intricate network involving the serotonergic pontine nuclei, basal ganglia, limbic system, basal forebrain, and prefrontal cortex, which is implicated in the treatment of obsessive-compulsive disorder, major depressive disorder, Alzheimer's disease, cluster headaches, and aggressive behaviors.
Keyphrases
- deep brain stimulation
- obsessive compulsive disorder
- parkinson disease
- major depressive disorder
- prefrontal cortex
- endothelial cells
- white matter
- bipolar disorder
- induced pluripotent stem cells
- resting state
- functional connectivity
- spinal cord injury
- emergency department
- cognitive decline
- spinal cord
- multiple sclerosis
- ultrasound guided
- drug delivery
- mild cognitive impairment
- network analysis