2019
The Striatum’s Role in Executing Rational and Irrational Economic Behaviors
Bamford IJ, Bamford NS. The Striatum’s Role in Executing Rational and Irrational Economic Behaviors. The Neuroscientist 2019, 25: 475-490. PMID: 30678530, PMCID: PMC6656632, DOI: 10.1177/1073858418824256.Peer-Reviewed Original ResearchConceptsIrrational economic behaviorExecutive functionStriatum's roleMotor learningMotor movementsSensory stimulationExcitatory glutamatergic activityBehavioral economicsHabit formationNovel stimulationNeural pathwaysReflexive actionDecision makingReflexive movementsRational behaviorEconomic behaviorRational responseRewardDopamine releaseBehaviorStriatumGlutamatergic activityLearningCortexThalamus
2016
Prior Behavior Impacts Human Mimicry of Robots
Suman A, Marvin R, Grigore E, Admoni H, Scassellati B. Prior Behavior Impacts Human Mimicry of Robots. 2016, 1057-1062. DOI: 10.1109/roman.2016.7745239.Peer-Reviewed Original Research
2015
Restricted and Repetitive Behaviors as Predictors of Outcome in Autism Spectrum Disorders
Troyb E, Knoch K, Herlihy L, Stevens MC, Chen CM, Barton M, Treadwell K, Fein D. Restricted and Repetitive Behaviors as Predictors of Outcome in Autism Spectrum Disorders. Journal Of Autism And Developmental Disorders 2015, 46: 1282-1296. PMID: 26676629, PMCID: PMC8054273, DOI: 10.1007/s10803-015-2668-2.Peer-Reviewed Original ResearchConceptsAutism spectrum disorderSpectrum disorderRepetitive behaviorsGreater ASD symptom severityAge 8ASD symptom severityParts of objectsASD symptomatologyCognitive functioningAdaptive skillsSensory interestsStereotyped motor movementsPreschool yearsMotor movementsLate childhoodSymptom severityAdaptive abilityRRBsChildrenPredictors of outcomeOutcome of childrenDisordersFunctioningSkillsSymptomatology
2008
The Corticostriatal Pathway in Parkinson’s Disease
Bamford N, Cepeda C. The Corticostriatal Pathway in Parkinson’s Disease. Contemporary Neuroscience 2008, 87-104. DOI: 10.1007/978-1-60327-252-0_6.Peer-Reviewed Original ResearchParkinson's diseaseCortico-basal gangliaDopamine-deficient stateStriatal synaptic plasticityCorticostriatal synapseMotor dyskinesiasCorticostriatal pathwayMotor functionStriatal adaptationsAbnormal neurotransmissionSynaptic plasticityThalamocortical loopNeurodegenerative disordersDiseaseDopamine availabilityGangliaMotor movementsGoal-directed behaviorBradykinesiaDyskinesiaNeurotransmissionPathway
2005
Chapter G2 Animal Models of Tourette Syndrome
Burke K, Lombroso P. Chapter G2 Animal Models of Tourette Syndrome. 2005, 441-448. DOI: 10.1016/b978-012088382-0/50040-2.Peer-Reviewed Original ResearchAnimal modelsTourette syndromePartial animal modelsTic expressionPsychiatric disordersEntire syndromeSomatic diseasesPathological mechanismsPsychiatric syndromesSyndromeAnatomical locationNeuropsychiatric disordersAnimal preparationsDisease mechanismsDisordersMotor movementsSymptomsDiseaseSpecific human diseasesHuman diseasesTreatmentMedical researchEtiology
2004
Motion-Based Robotic Self-Recognition
Michel P, Gold K, Scassellati B. Motion-Based Robotic Self-Recognition. 2004, 3: 2763-2768. DOI: 10.1109/iros.2004.1389827.Peer-Reviewed Original Research
1999
Stance perturbation-evoked potentials in old people with poor gait and balance
Duckrow RB, Abu-Hasaballah K, Whipple R, Wolfson L. Stance perturbation-evoked potentials in old people with poor gait and balance. Clinical Neurophysiology 1999, 110: 2026-2032. PMID: 10616107, DOI: 10.1016/s1388-2457(99)00195-9.Peer-Reviewed Original ResearchConceptsOlder subjectsOlder peopleStance perturbationsCortical potentialsYoung subjectsWeight-bearing platformRisk of fallsHealthy young subjectsCerebral cortical potentialsEarly positive peakSensory conductionSupraspinal centersPoor gaitFunctional capacityMotor responseMotor movementsNon-parametric testsForward translationSubjectsScalp potentialsNegative peakReduced mobilityInjuryFallMicroV
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