Search results for "Nonhuman primate"

showing 4 items of 4 documents

Hunting for the high-affinity state of G-protein-coupled receptors with agonist tracers: Theoretical and practical considerations for positron emissi…

2019

Abstract The concept of the high‐affinity state postulates that a certain subset of G‐protein‐coupled receptors is primarily responsible for receptor signaling in the living brain. Assessing the abundance of this subset is thus potentially highly relevant for studies concerning the responses of neurotransmission to pharmacological or physiological stimuli and the dysregulation of neurotransmission in neurological or psychiatric disorders. The high‐affinity state is preferentially recognized by agonists in vitro. For this reason, agonist tracers have been developed as tools for the noninvasive imaging of the high‐affinity state with positron emission tomography (PET). This review provides an…

Central Nervous SystemBETA-ADRENERGIC-RECEPTORpositron emission tomographyagonist high-affinity stateD-2/3 AGONISTG-protein-coupled receptorsReview ArticleReceptors G-Protein-Coupledchemistry.chemical_compound0302 clinical medicineDrug DiscoveryReceptorNeurotransmitterReview Articles0303 health sciencesmedicine.diagnostic_testNONHUMAN PRIMATE BRAINEndocytosisTEST-RETEST REPRODUCIBILITYPositron emission tomographyG‐protein‐coupled receptors030220 oncology & carcinogenesisENDOGENOUS OPIOID RELEASEMolecular MedicineIN-VIVO BINDINGSignal TransductionAgonistNoninvasive imagingexperimental designmedicine.drug_classNeurotransmissionRAT-BRAINneurotransmittersagonist high‐affinity state03 medical and health sciencesIn vivomedicineAnimalsHumanshuman brain030304 developmental biologyG protein-coupled receptorPharmacologyDOPAMINE D2(HIGH) RECEPTORS5-HT1A RECEPTORSchemistryPositron-Emission TomographyPET RADIOLIGANDRadiopharmaceuticalsNeuroscienceMedicinal research reviews
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Dynamic Changes in the Neurogenic Potential in the Ventricular–Subventricular Zone of Common Marmoset during Postnatal Brain Development

2020

AbstractEven after birth, neuronal production continues in the ventricular–subventricular zone (V–SVZ) and hippocampus in many mammals. The immature new neurons (“neuroblasts”) migrate and then mature at their final destination. In humans, neuroblast production and migration toward the neocortex and the olfactory bulb (OB) occur actively only for a few months after birth and then sharply decline with age. However, the precise spatiotemporal profiles and fates of postnatally born neurons remain unclear due to methodological limitations. We previously found that common marmosets, small nonhuman primates, share many features of V–SVZ organization with humans. Here, using marmosets injected wit…

Cognitive NeuroscienceNeurogenesisPopulationSubventricular zoneNeocortexnonhuman primateventricular–subventricular zoneBiologyHippocampusCerebral Ventriclescommon marmoset03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineSpatio-Temporal AnalysisNeuroblastNeural Stem CellsCell MovementNeuroblast migrationLateral VentriclesmedicineAnimalsdentate gyruseducation030304 developmental biologyCell Proliferation0303 health scienceseducation.field_of_studyNeocortexDentate gyrusNeurogenesisBrainCallithrixpostnatal neurogenesisOlfactory BulbOlfactory bulbmedicine.anatomical_structurenervous systemNeuroscience030217 neurology & neurosurgery
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Neurobiological roots of language in primate audition : common computational properties

2015

Here, we present a new perspective on an old question: how does the neurobiology of human language relate to brain systems in nonhuman primates? We argue that higher-order language combinatorics, including sentence and discourse processing, can be situated in a unified, cross-species dorsal-ventral streams architecture for higher auditory processing, and that the functions of the dorsal and ventral streams in higher-order language processing can be grounded in their respective computational properties in primate audition. This view challenges an assumption, common in the cognitive sciences, that a nonhuman primate model forms an inherently inadequate basis for modeling higher-level language…

DorsumAuditory perceptionPrimates1.2 Psychological and socioeconomic processesCognitive Neuroscience1.1 Normal biological development and functioningHuman languageExperimental and Cognitive PsychologyBioengineeringauditory objectsBasic Behavioral and Social ScienceMedical and Health SciencesArticleUnderpinning researchsequence processingbiology.animalInformation and Computing SciencesSituatedNeural PathwaysBehavioral and Social ScienceAnimalsHumansPrimateLanguagenonhuman primate modelCognitive sciencelanguagebiologyPerspective (graphical)Psychology and Cognitive SciencesNeurosciencesBrainExperimental PsychologyNonhuman primateNeuropsychology and Physiological Psychologydual pathwaysAuditory PerceptionHIV/AIDSMental healthPsychologySentence
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Response to Skeide and Friederici: The myth of the uniquely human “direct” dorsal pathway

2015

In their comment on our recent article [1], Skeide and Friederici [2] claim ‘that some important data not discussed by Bornkessel-Schlesewsky et al. strongly support the view that there are clear qualitative, and not merely quantitative, differences between [human and nonhuman primate] species with respect to both the intrinsic functional connectivity of frontal and temporal cortices, and their direct structural connection via a dorsal white matter fiber tract.’ This obviously refers to work by Friederici and colleagues [3] emphasizing the functional importance of a direct connection between the posterior superior temporal cortex (pSTC) and Brodmann area (BA) 44 in humans, and its absence i…

Temporal cortexDorsumPrimatesCognitive NeuroscienceFunctional connectivityletterBrainExperimental and Cognitive PsychologyNonhuman primateArticleNeuropsychology and Physiological PsychologyFunctional importanceAuditory PerceptionAnimalsHumansPsychologyNeuroscienceTemporal CorticesBrodmann areaLanguage
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