| scholarly article | Q13442814 |
| P50 | author | Elise Demeter | Q84471002 |
| P2093 | author name string | Martin Sarter | |
| John P Bruno | |||
| Cindy Lustig | |||
| Megan St Peters | |||
| P2860 | cites work | D2-like receptors in nucleus accumbens negatively modulate acetylcholine release in prefrontal cortex | Q24564769 |
| Neuronal nicotinic receptor agonists for the treatment of attention-deficit/hyperactivity disorder: focus on cognition | Q24614080 | ||
| Prefrontal acetylcholine release controls cue detection on multiple timescales | Q24674069 | ||
| The nucleus accumbens: a switchboard for goal-directed behaviors | Q27349971 | ||
| Dopamine controls persistence of long-term memory storage | Q28255867 | ||
| Anticipation of increasing monetary reward selectively recruits nucleus accumbens | Q29619743 | ||
| Projections from the nucleus accumbens to cholinergic neurons of the ventral pallidum: a correlated light and electron microscopic double-immunolabeling study in rat | Q30438096 | ||
| Goal representations and motivational drive in schizophrenia: the role of prefrontal-striatal interactions | Q30474409 | ||
| Imaging the spread of reversible brain inactivations using fluorescent muscimol | Q30488951 | ||
| Comparing the neural basis of monetary reward and cognitive feedback during information-integration category learning. | Q33522363 | ||
| Desire and dread from the nucleus accumbens: cortical glutamate and subcortical GABA differentially generate motivation and hedonic impact in the rat. | Q33619004 | ||
| What does distractibility in ADHD reveal about mechanisms for top-down attentional control? | Q33695603 | ||
| Imaging brain fatigue from sustained mental workload: an ASL perfusion study of the time-on-task effect. | Q33697287 | ||
| Prefrontal beta2 subunit-containing and alpha7 nicotinic acetylcholine receptors differentially control glutamatergic and cholinergic signaling | Q33830056 | ||
| Impulsive choice induced in rats by lesions of the nucleus accumbens core. | Q33948388 | ||
| Motivated cognitive control: reward incentives modulate preparatory neural activity during task-switching. | Q34111257 | ||
| The dorsal attention network mediates orienting toward behaviorally relevant stimuli in spatial neglect. | Q34139524 | ||
| Modes and models of forebrain cholinergic neuromodulation of cognition. | Q34355481 | ||
| Challenges to attention: A continuous arterial spin labeling (ASL) study of the effects of distraction on sustained attention | Q34380640 | ||
| Motivation deficit in ADHD is associated with dysfunction of the dopamine reward pathway. | Q34440987 | ||
| Neuronal correlates of signal detection in the posterior parietal cortex of rats performing a sustained attention task | Q34543828 | ||
| Sustained visual attention performance-associated prefrontal neuronal activity: evidence for cholinergic modulation. | Q52167689 | ||
| Behavioral vigilance in rats: task validation and effects of age, amphetamine, and benzodiazepine receptor ligands. | Q52210282 | ||
| Quantitative analysis of the choline acetyltransferase-immunoreactive axonal network in the cat primary visual cortex: I. Adult cats | Q70175573 | ||
| Dissociation between the attentional effects of infusions of a benzodiazepine receptor agonist and an inverse agonist into the basal forebrain | Q71539033 | ||
| Effect sizes and p values: what should be reported and what should be replicated? | Q71640170 | ||
| Cortical cholinergic deafferentation following the intracortical infusion of 192 IgG-saporin: a quantitative histochemical study | Q72587698 | ||
| Effects of intra-accumbens infusions of amphetamine or cis-flupenthixol on sustained attention performance in rats | Q73195297 | ||
| Pleasure rather than salience activates human nucleus accumbens and medial prefrontal cortex. | Q34642477 | ||
| Understanding the Effects of Stimulant Medications on Cognition in Individuals with Attention-Deficit Hyperactivity Disorder: A Decade of Progress | Q34661181 | ||
| Motivational views of reinforcement: implications for understanding the behavioral functions of nucleus accumbens dopamine. | Q35006214 | ||
| Roles of nucleus accumbens core and shell in incentive-cue responding and behavioral inhibition | Q35133383 | ||
| Valence and salience contribute to nucleus accumbens activation | Q36316153 | ||
| More attention must be paid: the neurobiology of attentional effort | Q36418831 | ||
| Environmental enrichment increases amphetamine-induced glutamate neurotransmission in the nucleus accumbens: a neurochemical study | Q36540866 | ||
| Cocaine and amphetamine-like psychostimulants: neurocircuitry and glutamate neuroplasticity | Q37089255 | ||
| Rats and humans paying attention: cross-species task development for translational research | Q37249653 | ||
| CNTRICS final task selection: control of attention | Q37346822 | ||
| Disruption of mesolimbic regulation of prefrontal cholinergic transmission in an animal model of schizophrenia and normalization by chronic clozapine treatment | Q37437840 | ||
| Treating the cognitive deficits of schizophrenia with alpha4beta2 neuronal nicotinic receptor agonists | Q37682940 | ||
| Opposing roles of nucleus accumbens core and shell dopamine in the modulation of limbic information processing | Q38255980 | ||
| Enhancement of attentional performance by selective stimulation of alpha4beta2(*) nAChRs: underlying cholinergic mechanisms. | Q40056642 | ||
| From motivation to action: functional interface between the limbic system and the motor system. | Q40291930 | ||
| Neuroimaging studies of shifting attention: a meta-analysis | Q40493397 | ||
| Differential roles of dopamine D1 and D2 receptors in the nucleus accumbens in attentional performance on the five-choice serial reaction time task | Q41775062 | ||
| Acetylcholine in the orbitofrontal cortex is necessary for the acquisition of a socially transmitted food preference. | Q42071453 | ||
| Cholinergic deafferentation of the neocortex using 192 IgG-saporin impairs feature binding in rats. | Q42451702 | ||
| Cholinergic optimization of cue-evoked parietal activity during challenged attentional performance | Q42453264 | ||
| Removal of cholinergic input to rat posterior parietal cortex disrupts incremental processing of conditioned stimuli. | Q42461265 | ||
| Prefrontal cortical modulation of acetylcholine release in posterior parietal cortex | Q42476300 | ||
| Cortical choline transporter function measured in vivo using choline-sensitive microelectrodes: clearance of endogenous and exogenous choline and effects of removal of cholinergic terminals | Q42492127 | ||
| Complete and selective cholinergic denervation of rat neocortex and hippocampus but not amygdala by an immunotoxin against the p75 NGF receptor | Q42498523 | ||
| Glutamate receptors in nucleus accumbens mediate regionally selective increases in cortical acetylcholine release | Q42505071 | ||
| Functional characterization of intrinsic cholinergic interneurons in the cortex | Q42513076 | ||
| Selective behavioral and neurochemical effects of cholinergic lesions produced by intrabasalis infusions of 192 IgG-saporin on attentional performance in a five-choice serial reaction time task. | Q42518287 | ||
| GABA-immunoreactive synaptic boutons in the rat basal forebrain: comparison of neurons that project to the neocortex with pallidosubthalamic neurons | Q42519718 | ||
| Use of an acute challenge with d-amphetamine to model cognitive improvement in chronic schizophrenia | Q43045517 | ||
| D2 receptor blockade by risperidone correlates with attention deficits in late-life schizophrenia | Q43243094 | ||
| Excitatory amino acid receptor subtype agonists induce feeding in the nucleus accumbens shell in rats: opioid antagonist actions and interactions with mu-opioid agonists | Q43807419 | ||
| Neuronal activity in the nucleus accumbens is necessary for performance-related increases in cortical acetylcholine release | Q44714715 | ||
| Reward-motivated learning: mesolimbic activation precedes memory formation. | Q45987353 | ||
| Augmented prefrontal acetylcholine release during challenged attentional performance | Q46402603 | ||
| Glutamatergic contributions to nicotinic acetylcholine receptor agonist-evoked cholinergic transients in the prefrontal cortex | Q46667136 | ||
| Cholinergic deafferentation of prefrontal cortex increases sensitivity to cross-modal distractors during a sustained attention task. | Q46717124 | ||
| NMDA and dopamine interactions in the nucleus accumbens modulate cortical acetylcholine release | Q46730066 | ||
| Specific changes in food intake elicited by blockade or activation of glutamate receptors in the nucleus accumbens shell | Q47862631 | ||
| GABAergic input to cholinergic forebrain neurons: an ultrastructural study using retrograde tracing of HRP and double immunolabeling | Q48310674 | ||
| Effects of excitotoxic lesions of the rat ventral striatum on the perception of reward cost | Q48319553 | ||
| Motivation sharpens exogenous spatial attention | Q48389872 | ||
| Attentional modulation of stimulus representation in human fronto-parietal cortex | Q48536955 | ||
| Operant performance and cortical acetylcholine release: role of response rate, reward density, and non-contingent stimuli | Q48662046 | ||
| Schedule-induced polydipsia and the nucleus accumbens: electrochemical measurements of dopamine efflux and effects of excitotoxic lesions in the core | Q49132901 | ||
| Prefrontal cortical-ventral striatal interactions involved in affective modulation of attentional performance: implications for corticostriatal circuit function. | Q51009579 | ||
| P433 | issue | 26 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | attention | Q6501338 |
| P304 | page(s) | 9760-9771 | |
| P577 | publication date | 2011-06-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Enhanced control of attention by stimulating mesolimbic-corticopetal cholinergic circuitry | |
| P478 | volume | 31 |
| Q48168512 | 'Hot' vs. 'cold' behavioural-cognitive styles: motivational-dopaminergic vs. cognitive-cholinergic processing of a Pavlovian cocaine cue in sign- and goal-tracking rats |
| Q38954586 | Acetylcholine Release in Prefrontal Cortex Promotes Gamma Oscillations and Theta-Gamma Coupling during Cue Detection |
| Q95261443 | Acetylcholine acts on songbird premotor circuitry to invigorate vocal output |
| Q90252559 | Activation of alpha7 nicotinic and NMDA receptors is necessary for performance in a working memory task |
| Q38897372 | Attention and the Cholinergic System: Relevance to Schizophrenia |
| Q36881389 | Attentional Control of Gait and Falls: Is Cholinergic Dysfunction a Common Substrate in the Elderly and Parkinson's Disease? |
| Q58698052 | Basal Forebrain Mediates Motivational Recruitment of Attention by Reward-Associated Cues |
| Q42185566 | Behavioral-Cognitive Targets for Cholinergic Enhancement |
| Q41990740 | Bidirectional interactions between circadian entrainment and cognitive performance |
| Q30527964 | CNTRICS final animal model task selection: control of attention |
| Q92289042 | Cholinergic Modulation Promotes Attentional Modulation in Primary Visual Cortex- A Modeling Study |
| Q27307053 | Cholinergic capacity mediates prefrontal engagement during challenges to attention: evidence from imaging genetics. |
| Q36949159 | Cholinergic control over attention in rats prone to attribute incentive salience to reward cues |
| Q37107399 | Cholinergic enhancement of functional networks in older adults with mild cognitive impairment |
| Q38893910 | Cholinergic genetics of visual attention: Human and mouse choline transporter capacity variants influence distractibility |
| Q36576152 | Cholinergic modulation of response gain in the rat primary visual cortex |
| Q26991451 | Cholinergic modulation of the medial prefrontal cortex: the role of nicotinic receptors in attention and regulation of neuronal activity |
| Q27314930 | Cognitive performance as a zeitgeber: cognitive oscillators and cholinergic modulation of the SCN entrain circadian rhythms |
| Q47654564 | Compensatory dopaminergic-cholinergic interactions in conflict processing: Evidence from patients with Parkinson's disease |
| Q30448388 | Cortical cholinergic input is required for normal auditory perception and experience-dependent plasticity in adult ferrets |
| Q36646559 | Cortical cholinergic signaling controls the detection of cues. |
| Q24629686 | Deficits in attentional control: cholinergic mechanisms and circuitry-based treatment approaches |
| Q35211418 | Deterministic functions of cortical acetylcholine. |
| Q38627113 | Developmental suppression of forebrain trkA receptors and attentional capacities in aging rats: A longitudinal study |
| Q37598158 | Diminished trkA receptor signaling reveals cholinergic-attentional vulnerability of aging |
| Q35652472 | Disposed to distraction: genetic variation in the cholinergic system influences distractibility but not time-on-task effects. |
| Q38933355 | Distinct Frontoparietal Networks Underlying Attentional Effort and Cognitive Control |
| Q42511657 | Diverse Roads to Relapse: A Discriminative Cue Signaling Cocaine Availability Is More Effective in Renewing Cocaine Seeking in Goal Trackers Than Sign Trackers and Depends on Basal Forebrain Cholinergic Activity |
| Q37623754 | Effects of sustained proNGF blockade on attentional capacities in aged rats with compromised cholinergic system |
| Q42444642 | Forebrain deletion of the vesicular acetylcholine transporter results in deficits in executive function, metabolic, and RNA splicing abnormalities in the prefrontal cortex. |
| Q36278461 | In vivo functional neurochemistry of human cortical cholinergic function during visuospatial attention |
| Q30451282 | Interaction of genotype and environment: effect of strain and housing conditions on cognitive behavior in rodent models of schizophrenia |
| Q27331407 | Interactions between Aβ oligomers and presynaptic cholinergic signaling: age-dependent effects on attentional capacities |
| Q24598925 | Leveraging the cortical cholinergic system to enhance attention |
| Q47968145 | Local and global effects of motivation on cognitive control |
| Q39277083 | MAM (E17) rodent developmental model of neuropsychiatric disease: disruptions in learning and dysregulation of nucleus accumbens dopamine release, but spared executive function |
| Q42446739 | Modeling fall propensity in Parkinson's disease: deficits in the attentional control of complex movements in rats with cortical-cholinergic and striatal-dopaminergic deafferentation |
| Q48346084 | Modulation of nicotine effects on selective attention by DRD2 and CHRNA4 gene polymorphisms |
| Q31123030 | Modulation-specific and laminar-dependent effects of acetylcholine on visual responses in the rat primary visual cortex |
| Q37397067 | Monitoring cholinergic activity during attentional performance in mice heterozygous for the choline transporter: a model of cholinergic capacity limits |
| Q53449644 | Neuromodulation of Attention. |
| Q38049844 | Neuromodulation of brain states |
| Q85751434 | Nicotine reduces distraction under low perceptual load |
| Q30465509 | Nicotinic filtering of sensory processing in auditory cortex |
| Q50331698 | Oral administration of a specific kynurenic acid synthesis (KAT II) inhibitor attenuates evoked glutamate release in rat prefrontal cortex |
| Q30466547 | Posterior parietal cortex dynamically ranks topographic signals via cholinergic influence |
| Q36950075 | Prefrontal cholinergic mechanisms instigating shifts from monitoring for cues to cue-guided performance: converging electrochemical and fMRI evidence from rats and humans |
| Q50633165 | Reducing falls in Parkinson's disease: interactions between donepezil and the 5-HT6 receptor antagonist idalopirdine on falls in a rat model of impaired cognitive control of complex movements. |
| Q42463552 | Reduction of brain kynurenic acid improves cognitive function. |
| Q41921130 | Selective potentiation of (α4)3(β2)2 nicotinic acetylcholine receptors augments amplitudes of prefrontal acetylcholine- and nicotine-evoked glutamatergic transients in rats |
| Q35231692 | Sustained attention in mice: expanding the translational utility of the SAT by incorporating the Michigan Controlled Access Response Port (MICARP). |
| Q39123187 | Thalamic cholinergic innervation makes a specific bottom-up contribution to signal detection: Evidence from Parkinson's disease patients with defined cholinergic losses |
| Q52688732 | The Effects of Cariprazine and Aripiprazole on PCP-Induced Deficits on Attention Assessed in the 5-Choice Serial Reaction Time Task. |
| Q48506194 | The Neuroscience of Cognitive-Motivational Styles: Sign- and Goal-Trackers as Animal Models |
| Q47668918 | The cortical cholinergic system contributes to the top-down control of distraction: Evidence from patients with Parkinson's disease |
| Q39631896 | The effects of ongoing distraction on the neural processes underlying signal detection |
| Q37012325 | The presynaptic choline transporter imposes limits on sustained cortical acetylcholine release and attention |
| Q38855515 | The role of basal forebrain cholinergic neurons in fear and extinction memory |
| Q42324773 | Time to pay attention: attentional performance time-stamped prefrontal cholinergic activation, diurnality, and performance. |
| Q30436783 | Too little and too much: hypoactivation and disinhibition of medial prefrontal cortex cause attentional deficits. |
| Q47615324 | Touchscreen Sustained Attention Task (SAT) for Rats |
| Q30373274 | Transient Distraction and Attentional Control during a Sustained Selective Attention Task. |
| Q36234254 | Transient inactivation of the neonatal ventral hippocampus impairs attentional set-shifting behavior: reversal with an α7 nicotinic agonist |
| Q35356707 | Transient inactivation of the neonatal ventral hippocampus permanently disrupts the mesolimbic regulation of prefrontal cholinergic transmission: implications for schizophrenia |
| Q36759312 | What do phasic cholinergic signals do? |
| Q38209988 | Where attention falls: Increased risk of falls from the converging impact of cortical cholinergic and midbrain dopamine loss on striatal function |
| Q47211543 | α5 nAChR modulation of the prefrontal cortex makes attention resilient |
Search more.