2025
Chapter 53 Tourette syndrome
Abdallah S, Fasching L, Brady M, Bloch M, Lombroso P, Vaccarino F, Fernandez T. Chapter 53 Tourette syndrome. 2025, 951-962. DOI: 10.1016/b978-0-443-19176-3.00044-3.Peer-Reviewed Original ResearchTourette syndromeCortico-striatal-thalamo-cortical circuitryStriatal volume lossAdult TS patientsNeuroimaging studiesNeuropsychiatric disordersDopaminergic receptorsVocal ticsStriatal interneuronsClasses of striatal interneuronsBasal gangliaMetabolic hypofunctionEnvironmental risk factorsTS patientsAmeliorate symptomsGenetic contributionMolecular abnormalitiesPharmacological strategiesCircuitryAffecting 1Animal modelsRisk factorsInterneuronal circuitryVolume lossAbnormalities
2020
Chapter 40 Tourette syndrome
Fasching L, Brady M, Bloch M, Lombroso P, Vaccarino F. Chapter 40 Tourette syndrome. 2020, 675-686. DOI: 10.1016/b978-0-12-813866-3.00040-0.ChaptersTourette syndromeThalamic-cortical circuitryHuman postmortem brain tissueThalamo-cortical circuitryAdult TS patientsStriatal volume lossPostmortem brain tissueEnvironmental risk factorsStriatal interneuronsDopaminergic receptorsRecurrence rateAmeliorate symptomsBasal gangliaRisk factorsFamilial recurrence ratePharmacological strategiesVocal ticsTS patientsAnimal modelsMetabolic hypofunctionComplex neuropsychiatric disorderBrain tissueMolecular abnormalitiesNeuropsychiatric disordersGenetic alterations
2015
How Animal Models Inform Child and Adolescent Psychiatry
Stevens HE, Vaccarino FM. How Animal Models Inform Child and Adolescent Psychiatry. Journal Of The American Academy Of Child & Adolescent Psychiatry 2015, 54: 352-359. PMID: 25901771, PMCID: PMC4407022, DOI: 10.1016/j.jaac.2015.01.019.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsRisk factorsPsychiatric disordersAnimal modelsImportance of doseChildhood psychiatric disordersAdolescent psychiatryAnimal model systemsAnimal model workChild psychiatryPsychiatric pathophysiologyBrain developmentChildhood disordersChild psychiatristsBrain functioningBasis of recoveryDisordersBehavioral problemsChildrenClinical workPsychiatryField of childPathophysiologyFactorsDoseNeurochemistry
2008
Regulation of Cerebral Cortical Size and Neuron Number by Fibroblast Growth Factors: Implications for Autism
Vaccarino FM, Grigorenko EL, Smith KM, Stevens HE. Regulation of Cerebral Cortical Size and Neuron Number by Fibroblast Growth Factors: Implications for Autism. Journal Of Autism And Developmental Disorders 2008, 39: 511-520. PMID: 18850329, PMCID: PMC2847619, DOI: 10.1007/s10803-008-0653-8.Peer-Reviewed Original ResearchConceptsFibroblast growth factorCortical sizeNeuron numberExcitatory/inhibitory balanceGrowth factorCortical excitatory neuronsCortical neuron numberCerebral cortical sizeAutism spectrum disorderNetwork excitabilityInhibitory balanceRisk factorsCortical volumePathogenetic pathwaysExcitatory neuronsSpectrum disorderAnimal modelsBrain volumeDevelopmental alterationsPathologyDisordersSocial deficitsBrain sizeFGF genesSeizures