Striatal circuits, habits, and implications for obsessive–compulsive disorder

[1]  M. Jenike Obsessive compulsive disorder. , 1983, Comprehensive psychiatry.

[2]  J. Cummings,et al.  Obsessive-compulsive disorder in Huntington's disease , 1992, Biological Psychiatry.

[3]  A M Graybiel,et al.  Cortically Driven Immediate-Early Gene Expression Reflects Modular Influence of Sensorimotor Cortex on Identified Striatal Neurons in the Squirrel Monkey , 1997, The Journal of Neuroscience.

[4]  C. I. Connolly,et al.  Building neural representations of habits. , 1999, Science.

[5]  E. Tolosa,et al.  Obsessive-compulsive symptoms in Parkinson's disease , 2001, Journal of neurology, neurosurgery, and psychiatry.

[6]  C. Carmin,et al.  Treatment of late‐onset OCD following basal ganglia infarct , 2002, Depression and anxiety.

[7]  Y. Agid,et al.  Compulsions, Parkinson's disease, and stimulation , 2002, The Lancet.

[8]  Frank H. Burton,et al.  A transgenic model of comorbid Tourette's syndrome and obsessive-compulsive disorder circuitry , 2002, Molecular Psychiatry.

[9]  S. Rachman A cognitive theory of compulsive checking. , 2002, Behaviour research and therapy.

[10]  J. Greer,et al.  Hoxb8 Is Required for Normal Grooming Behavior in Mice , 2002, Neuron.

[11]  J. Gybels,et al.  Long-term Electrical Capsular Stimulation in Patients with Obsessive-Compulsive Disorder , 2003, Neurosurgery.

[12]  V. Sturm,et al.  The nucleus accumbens: a target for deep brain stimulation in obsessive–compulsive- and anxiety-disorders , 2003, Journal of Chemical Neuroanatomy.

[13]  A. Graybiel,et al.  Representation of Action Sequence Boundaries by Macaque Prefrontal Cortical Neurons , 2003, Science.

[14]  S. Whiteside,et al.  A meta–analysis of functional neuroimaging in obsessive–compulsive disorder , 2004, Psychiatry Research: Neuroimaging.

[15]  J. Pujol,et al.  Mapping structural brain alterations in obsessive-compulsive disorder. , 2004, Archives of general psychiatry.

[16]  M. DiFiglia,et al.  Altered parvalbumin-positive neuron distribution in basal ganglia of individuals with Tourette syndrome. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[17]  A. Graybiel,et al.  Activity of striatal neurons reflects dynamic encoding and recoding of procedural memories , 2005, Nature.

[18]  R. Swanson,et al.  Neuronal glutathione deficiency and age-dependent neurodegeneration in the EAAC1 deficient mouse , 2006, Nature Neuroscience.

[19]  H. Uylings,et al.  Reduced orbitofrontal-striatal activity on a reversal learning task in obsessive-compulsive disorder. , 2006, Archives of general psychiatry.

[20]  S. Dudek,et al.  Cortico-striatal synaptic defects and OCD-like behaviours in Sapap3-mutant mice , 2007, Nature.

[21]  Hanefi Yildirim,et al.  Volumetric MRI study of key brain regions implicated in obsessive–compulsive disorder , 2007, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[22]  J. Crystal,et al.  Metacognition in the Rat , 2007, Current Biology.

[23]  B. Aouizerate,et al.  Neuronal Correlates of Obsessions in the Caudate Nucleus , 2008, Biological Psychiatry.

[24]  A. Graybiel Habits, rituals, and the evaluative brain. , 2008, Annual review of neuroscience.

[25]  J. Gybels,et al.  LONG‐TERM ELECTRICAL CAPSULAR STIMULATION IN PATIENTS WITH OBSESSIVE‐COMPULSIVE DISORDER , 2008, Neurosurgery.

[26]  Hatim A. Zariwala,et al.  Neural correlates, computation and behavioural impact of decision confidence , 2008, Nature.

[27]  B. Aouizerate,et al.  A challenging task for assessment of checking behaviors in obsessive–compulsive disorder , 2008, Acta psychiatrica Scandinavica.

[28]  T. Robbins,et al.  Orbitofrontal Dysfunction in Patients with Obsessive-Compulsive Disorder and Their Unaffected Relatives , 2008, Science.

[29]  B. Balleine,et al.  A specific role for posterior dorsolateral striatum in human habit learning , 2009, The European journal of neuroscience.

[30]  B. Aouizerate,et al.  Meta-Analysis of Brain Volume Changes in Obsessive-Compulsive Disorder , 2009, Biological Psychiatry.

[31]  M. Laubach,et al.  Dynamic Encoding of Action Selection by the Medial Striatum , 2009, The Journal of Neuroscience.

[32]  D. Lovinger,et al.  Dynamic reorganization of striatal circuits during the acquisition and consolidation of a skill , 2009, Nature Neuroscience.

[33]  H. Groenewegen,et al.  The major symptom dimensions of obsessive-compulsive disorder are mediated by partially distinct neural systems. , 2008, Brain : a journal of neurology.

[34]  Shailendra Kapoor,et al.  Subthalamic nucleus stimulation in severe obsessive-compulsive disorder. , 2009, The New England journal of medicine.

[35]  T. Robbins,et al.  Cross-species models of OCD spectrum disorders , 2009, Psychiatry Research.

[36]  V. Willour,et al.  Sapap3 and pathological grooming in humans: Results from the OCD collaborative genetics study , 2009, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[37]  M. Roesch,et al.  A new perspective on the role of the orbitofrontal cortex in adaptive behaviour , 2009, Nature Reviews Neuroscience.

[38]  C. Saper,et al.  Decreased number of parvalbumin and cholinergic interneurons in the striatum of individuals with Tourette syndrome , 2010, The Journal of comparative neurology.

[39]  Shahin Rafii,et al.  Slitrk5 deficiency impairs corticostriatal circuitry and leads to obsessive-compulsive–like behaviors in mice , 2010, Nature Medicine.

[40]  Petr Tvrdik,et al.  Hematopoietic Origin of Pathological Grooming in Hoxb8 Mutant Mice , 2010, Cell.

[41]  V. Sturm,et al.  Unilateral deep brain stimulation of the nucleus accumbens in patients with treatment-resistant obsessive-compulsive disorder: Outcomes after one year , 2010, Clinical Neurology and Neurosurgery.

[42]  Xin Jin,et al.  Start/stop signals emerge in nigrostriatal circuits during sequence learning , 2010, Nature.

[43]  G. Friehs,et al.  Deep brain stimulation of the ventral internal capsule/ventral striatum for obsessive-compulsive disorder: worldwide experience , 2010, Molecular Psychiatry.

[44]  L. Mallet,et al.  High‐frequency stimulation of deep brain structures in obsessive‐compulsive disorder: the search for a valid circuit , 2010, The European journal of neuroscience.

[45]  B. Greenberg,et al.  Deep Brain Stimulation for Intractable Obsessive Compulsive Disorder: Pilot Study Using a Blinded, Staggered-Onset Design , 2010, Biological Psychiatry.

[46]  A. Graybiel,et al.  Habit learning is associated with major shifts in frequencies of oscillatory activity and synchronized spike firing in striatum , 2011, Proceedings of the National Academy of Sciences.

[47]  G. Feng,et al.  Neurobiology of obsessive–compulsive disorder: insights into neural circuitry dysfunction through mouse genetics , 2011, Current Opinion in Neurobiology.

[48]  Anatol C. Kreitzer,et al.  Selective Inhibition of Striatal Fast-Spiking Interneurons Causes Dyskinesias , 2011, The Journal of Neuroscience.

[49]  T. Nakamae,et al.  Corticostriatal functional connectivity in non-medicated patients with obsessive-compulsive disorder , 2011, European Psychiatry.

[50]  P. Paschou,et al.  Replication of association between a SLITRK1 haplotype and Tourette Syndrome in a large sample of families , 2012, Molecular Psychiatry.

[51]  M. Craske THE R‐DOC INITIATIVE: SCIENCE AND PRACTICE , 2012, Depression and anxiety.

[52]  L. Schmidt,et al.  When Too Much Is Not Enough: Obsessive-Compulsive Disorder as a Pathology of Stopping, Rather than Starting , 2012, PloS one.

[53]  Ke-min Chen,et al.  Abnormalities of White Matter Microstructure in Unmedicated Obsessive-Compulsive Disorder and Changes after Medication , 2012, PloS one.

[54]  D. Joel,et al.  Animal models of obsessive-compulsive disorder: Exploring pharmacology and neural substrates , 2012, Neuroscience & Biobehavioral Reviews.

[55]  D. Rosenberg,et al.  The role of glutamate signaling in the pathogenesis and treatment of obsessive–compulsive disorder , 2012, Pharmacology Biochemistry and Behavior.

[56]  Janet B W Williams,et al.  Diagnostic and Statistical Manual of Mental Disorders , 2013 .

[57]  K. N’diaye,et al.  Excessive checking for non-anxiogenic stimuli in obsessive-compulsive disorder , 2013, European Psychiatry.

[58]  B. Harrison,et al.  Brain Corticostriatal Systems and the Major Clinical Symptom Dimensions of Obsessive-Compulsive Disorder , 2013, Biological Psychiatry.

[59]  M. Vink,et al.  Deep brain stimulation restores frontostriatal network activity in obsessive-compulsive disorder , 2013, Nature Neuroscience.

[60]  Y Wang,et al.  Genome-wide association study of obsessive-compulsive disorder , 2013, Molecular Psychiatry.

[61]  J. Sepulcre,et al.  Abnormally high degree connectivity of the orbitofrontal cortex in obsessive-compulsive disorder. , 2013, JAMA psychiatry.

[62]  Kyle S. Smith,et al.  A Dual Operator View of Habitual Behavior Reflecting Cortical and Striatal Dynamics , 2013, Neuron.

[63]  J. Yelnik,et al.  Neuronal activity correlated with checking behaviour in the subthalamic nucleus of patients with obsessive-compulsive disorder. , 2013, Brain : a journal of neurology.

[64]  K. Deisseroth,et al.  Repeated Cortico-Striatal Stimulation Generates Persistent OCD-Like Behavior , 2013, Science.

[65]  N. Craddock,et al.  DSM-5 and RDoC: progress in psychiatry research? , 2013, Nature Reviews Neuroscience.

[66]  G. Feng,et al.  Optogenetic Stimulation of Lateral Orbitofronto-Striatal Pathway Suppresses Compulsive Behaviors , 2013, Science.

[67]  A. Auton,et al.  Candidate genes and functional noncoding variants identified in a canine model of obsessive-compulsive disorder , 2014, Genome Biology.

[68]  P. Dayan,et al.  Goals and Habits in the Brain , 2013, Neuron.

[69]  Yong He,et al.  Abnormal topological organization in white matter structural networks revealed by diffusion tensor tractography in unmedicated patients with obsessive–compulsive disorder , 2014, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[70]  Jian Wang,et al.  Resting-state functional connectivity abnormalities in patients with obsessive-compulsive disorder and their healthy first-degree relatives. , 2014, Journal of psychiatry & neuroscience : JPN.

[71]  T. Robbins,et al.  Enhanced Avoidance Habits in Obsessive-Compulsive Disorder , 2014, Biological Psychiatry.

[72]  Sheng Zhang,et al.  Global Resting-State Functional Magnetic Resonance Imaging Analysis Identifies Frontal Cortex, Striatal, and Cerebellar Dysconnectivity in Obsessive-Compulsive Disorder , 2014, Biological Psychiatry.

[73]  S. E. Stewart,et al.  Genome-Wide Association Study in Obsessive-Compulsive Disorder: Results from the OCGAS , 2014, Molecular Psychiatry.