Cameron Woodard, PhD
Postdoctoral Scholar
Neurology
School of Medicine

Publications (9)

Top publication keywords:
EndocannabinoidsDrinkingConditioning, OperantMotor ActivityHuntington DiseaseGlutamic AcidRewardMotor Skills DisordersBiomechanical PhenomenaBehavior, AnimalAdministration, OralCorpus StriatumMice, TransgenicSoftwareBenzodioxoles

• Upregulation of endocannabinoid signaling in vivo restores striatal synaptic plasticity and motor performance in Huntington's disease mice.
  Journal of Huntington's disease 2025 Sepers MD, Woodard CL, Ramandi D, Vecchiarelli HA, Hill MN, Raymond LA
• Home cage-based insights into motor learning and strategy adaptation in a Huntington disease mouse model.
  PloS one 2025 Ramandi D, Sepers MD, Wang Z, Han B, Woodard CL, Murphy TH, Raymond LA
• Impaired Refinement of Kinematic Variability in Huntington Disease Mice on an Automated Home Cage Forelimb Motor Task.
  The Journal of neuroscience : the official journal of the Society for Neuroscience 2021 Woodard CL, Sepers MD, Raymond LA
• PiDose: an open-source system for accurate and automated oral drug administration to group-housed mice.
  Scientific reports 2020 Woodard CL, Nasrallah WB, Samiei BV, Murphy TH, Raymond LA
• The Protein Tyrosine Phosphatase Receptor Delta Regulates Developmental Neurogenesis.
  Cell reports 2020 Tomita H, Cornejo F, Aranda-Pino B, Woodard CL, Rioseco CC, Neel BG, Alvarez AR, Kaplan DR, Miller FD, Cancino GI

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• Direct assessment of presynaptic modulation of cortico-striatal glutamate release in a Huntington's disease mouse model.
  Journal of neurophysiology 2018 Koch ET, Woodard CL, Raymond LA
• An Automated Home-Cage System to Assess Learning and Performance of a Skilled Motor Task in a Mouse Model of Huntington's Disease.
  eNeuro 2017 Woodard CL, Bolaños F, Boyd JD, Silasi G, Murphy TH, Raymond LA
• Real-time imaging of glutamate clearance reveals normal striatal uptake in Huntington disease mouse models.
  Nature communications 2016 Parsons MP, Vanni MP, Woodard CL, Kang R, Murphy TH, Raymond LA
• Transient maternal IL-6 mediates long-lasting changes in neural stem cell pools by deregulating an endogenous self-renewal pathway.
  Cell stem cell 2013 Gallagher D, Norman AA, Woodard CL, Yang G, Gauthier-Fisher A, Fujitani M, Vessey JP, Cancino GI, Sachewsky N, Woltjen K, Fatt MP, Morshead CM, Kaplan DR, Miller FD