Hill, David L. - Department of Psychology, University of Virginia

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Hill, David L. - Department of Psychology, University of Virginia

AGE-RELATED DECREASE OF THE CHORDA TYMPANI NERVE TERMINAL FIELD IN THE NUCLEUS OF THE SOLITARY
Neuron/Target Plasticity in the Peripheral Gustatory System
Development of Rat Chorda Tympani Sodium Responses: Evidence for Age-Dependent Changes in Global Amiloride-Sensitive Na
Ultrastructure of Primary Afferent Terminals and Synapses in the Rat
Modifications of Gustatory Nerve Synapses onto Nucleus of the Solitary
BehavioralNeuroscience Copyright 1998 by the American PsychologicalAssociation,Inc. 1998, Vol. 112, No. 4, 991-1000 0735-7044/98/$3.00
Gustatory Terminal Field Organization and Developmental Plasticity in the
Early Dietary Sodium Restriction Disrupts the Peripheral Anatomical Development of the
Sensitive periods for the effect of dietary sodium restriction on intact and denervated taste receptor cells
doi:10.1152/ajpregu.00219.2009 297:1103-1110, 2009. First published Aug 12, 2009;Am J Physiol Regulatory Integrative Comp Physiol
David L. Hill Curriculum Vita
Time Course of Morphological Alterations of Fungiform Papillae and Taste Buds Following
Each Sensory Nerve Arising From the Geniculate Ganglion Expresses a Unique
THE EFFECTS OF DIETARY PROTEIN RESTRICTION ON CHORDA TYMPANI NERVE TASTE RESPONSES AND TERMINAL FIELD
Development/Plasticity/Repair Extensive Reorganization of Primary Afferent Projections
Taste Bud Cell Dynamics during Normal and Sodium-Restricted Development
Injury-Induced Functional Plasticity in the Peripheral Gustatory System
Neuron/Target Matching Between Chorda Tympani Neurons and Taste Buds During Postnatal
Innervation of Single Fungiform Taste Buds During Development in Rat
Early Prenatal Critical Period for Chorda Tympani Nerve Terminal Field