A resting state network in the motor control circuit of the basal ganglia.

BMC Neuroscience
Simon RobinsonEwald Moser

Abstract

In the absence of overt stimuli, the brain shows correlated fluctuations in functionally related brain regions. Approximately ten largely independent resting state networks (RSNs) showing this behaviour have been documented to date. Recent studies have reported the existence of an RSN in the basal ganglia - albeit inconsistently and without the means to interpret its function. Using two large study groups with different resting state conditions and MR protocols, the reproducibility of the network across subjects, behavioural conditions and acquisition parameters is assessed. Independent Component Analysis (ICA), combined with novel analyses of temporal features, is applied to establish the basis of signal fluctuations in the network and its relation to other RSNs. Reference to prior probabilistic diffusion tractography work is used to identify the basal ganglia circuit to which these fluctuations correspond. An RSN is identified in the basal ganglia and thalamus, comprising the pallidum, putamen, subthalamic nucleus and substantia nigra, with a projection also to the supplementary motor area. Participating nuclei and thalamo-cortical connection probabilities allow this network to be identified as the motor control circuit of th...Continue Reading

References

Jan 1, 1986·Annual Review of Neuroscience·G E AlexanderP L Strick
Oct 26, 1973·Brain Research·C W MohlerR H Wurtz
Oct 1, 1995·Magnetic Resonance in Medicine : Official Journal of the Society of Magnetic Resonance in Medicine·B BiswalJ S Hyde
Feb 24, 2001·Proceedings of the National Academy of Sciences of the United States of America·M E RaichleG L Shulman
Oct 5, 2001·Nature Reviews. Neuroscience·D A GusnardM E Raichle
Feb 9, 2002·Human Brain Mapping·Michelle HampsonJohn C Gore
Apr 12, 2002·Movement Disorders : Official Journal of the Movement Disorder Society·J Yelnik
Aug 3, 2002·Nature Reviews. Neuroscience·Richard E PassinghamRolf Kötter
Dec 31, 2002·Proceedings of the National Academy of Sciences of the United States of America·Michael D GreiciusVinod Menon
Feb 18, 2004·IEEE Transactions on Medical Imaging·Christian F Beckmann, Stephen M Smith
Apr 9, 2004·Proceedings of the National Academy of Sciences of the United States of America·Michael D GreiciusVinod Menon
Oct 27, 2004·NeuroImage·Stephen M SmithPaul M Matthews
Oct 28, 2004·Magnetic Resonance in Medicine : Official Journal of the Society of Magnetic Resonance in Medicine·M ZaitsevO Speck
Jun 25, 2005·Proceedings of the National Academy of Sciences of the United States of America·Michael D FoxMarcus E Raichle
Aug 10, 2005·Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences·Christian F BeckmannStephen M Smith
Jan 10, 2006·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Sophie AchardEd Bullmore
Apr 7, 2006·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Nicolas MalletFrançois Gonon
Sep 2, 2006·Proceedings of the National Academy of Sciences of the United States of America·J S DamoiseauxC F Beckmann
Oct 21, 2006·NeuroImage·Alexa M Morcom, Paul C Fletcher
Nov 29, 2007·Human Brain Mapping·Serge A R B RomboutsChristian F Beckmann
Dec 8, 2007·Cerebral Cortex·J S DamoiseauxS A R B Rombouts
Mar 21, 2008·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Elodie LaloPeter Brown
Apr 11, 2008·Cerebral Cortex·A Di MartinoM P Milham

❮ Previous
Next ❯

Citations

Aug 28, 2010·Der Nervenarzt·S BaudrexelR Hilker
Oct 18, 2011·Journal of Neural Transmission·L KrajcovicovaIrena Rektorova
Dec 8, 2010·Magma·Ewald Moser, Jean-Philippe Ranjeva
Feb 13, 2013·Brain Topography·Ivan RektorIrena Rektorová
Jan 14, 2012·Schizophrenia Bulletin·Christian SorgValentin Riedl
Jun 16, 2011·Journal of Cognitive Neuroscience·Angela R LairdPeter T Fox
Nov 26, 2009·BMC Neuroscience·Simon RobinsonEwald Moser
Oct 27, 2011·PloS One·Lino BecerraDavid Borsook
Apr 15, 2014·PloS One·Klaudius KalcherEwald Moser
Sep 28, 2013·Brain : a Journal of Neurology·Christine C GuoWilliam W Seeley
Oct 18, 2013·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Annabelle M BelcherElliot A Stein
May 13, 2015·NeuroImage·Vincent BeliveauPatrick M Fisher
Oct 8, 2014·Brain Structure & Function·Nailin YaoGrainne M McAlonan
Jun 5, 2012·Journal of Neuroscience Methods·Nizhuan WangLei Chen
Nov 3, 2011·International Journal of Developmental Neuroscience : the Official Journal of the International Society for Developmental Neuroscience·V SchöpfD Prayer
Jul 23, 2011·Lancet Neurology·Michela PievaniGiovanni B Frisoni
Mar 5, 2016·Brain Imaging and Behavior·Clara Rodriguez-SabateManuel Rodriguez
Mar 16, 2016·International Psychogeriatrics·Luis R PerazaJohn-Paul Taylor
Apr 13, 2011·Human Brain Mapping·Bahram MohammadiThomas F Münte
Apr 27, 2011·Human Brain Mapping·Cheng LuoDezhong Yao
Feb 22, 2012·Ultrasound in Obstetrics & Gynecology : the Official Journal of the International Society of Ultrasound in Obstetrics and Gynecology·V SchöpfD Prayer
Aug 14, 2015·International Journal of Geriatric Psychiatry·Luis R PerazaJohn-Paul Taylor
Jan 16, 2015·Neurological Sciences : Official Journal of the Italian Neurological Society and of the Italian Society of Clinical Neurophysiology·Rocco Salvatore CalabròDemetrio Milardi
Jun 25, 2015·NeuroImage. Clinical·Michal RolinskiClare E Mackay
Mar 31, 2015·Psychiatry Research·Mingli LiTao Li
Nov 26, 2011·NeuroImage·Sheng Zhang, Chiang-shan R Li

❮ Previous
Next ❯

Methods Mentioned

BETA
SMA

Software Mentioned

SPM5
PICA
FSL
MATLAB
GIFT
MELODIC
Group ICA of FMRI Toolbox ( GIFT )
Siemens Distortion Correction WIP

Related Concepts

Related Feeds

Basal Ganglia

Basal Ganglia are a group of subcortical nuclei in the brain associated with control of voluntary motor movements, procedural and habit learning, emotion, and cognition. Here is the latest research.

Amygdala: Sensory Processes

Amygdalae, nuclei clusters located in the temporal lobe of the brain, play a role in memory, emotional responses, and decision-making. Here is the latest research on sensory processes in the amygdala.

Alzheimer's Disease: Neuroimaging

Neuroimaging can help identify pathological hallmarks of Alzheimer's disease (AD). Here is the latest research on neuroimaging modalities, including magnetic resonance imaging and positron emission tomography, in AD.

Basal ganglia in Parkinson's disease (MDS)

The basal ganglia is comprised of the neostriatum, the external and internal pallidal segments, the subthalamic nucleus, the substantia nigra pars reticulata, and the pars compacta of the substantia nigra. The basal ganglia circuitry is responsible for the correct execution of voluntary movements and is implicated in Parkinson's disease. Here is the latest research investigating the basal ganglia in Parkinson's disease.

Amygdala and Midbrain Dopamine

The midbrain dopamine system is widely studied for its involvement in emotional and motivational behavior. Some of these neurons receive information from the amygdala and project throughout the cortex. When the circuit and transmission of dopamine is disrupted symptoms may present. Here is the latest research on the amygdala and midbrain dopamine.

Cajal Bodies & Gems

Cajal bodies or coiled bodies are dense foci of coilin protein. Gemini of Cajal bodies, or gems, are microscopically similar to Cajal bodies. It is believed that Cajal bodies play important roles in RNA processing while gems assist the Cajal bodies. Find the latest research on Cajal bodies and gems here.

Related Papers

Proceedings of the National Academy of Sciences of the United States of America
J S DamoiseauxChristian F Beckmann
Magnetic Resonance in Medicine : Official Journal of the Society of Magnetic Resonance in Medicine
B B BiswalJ S Hyde
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences
Christian F BeckmannStephen M Smith
© 2022 Meta ULC. All rights reserved