What is he best known for?
The fields of study he is best known for:
- Neuroscience
- Internal medicine
- Cerebral cortex
Preston E. Garraghty mainly focuses on Cortex, Somatosensory system, Anatomy, Neuroscience and Receptive field.
His Cortex research is multidisciplinary, incorporating elements of Tonotopy and Macaque.
His work deals with themes such as Electrophysiology, Central nervous system, Somatosensory evoked potential, Peripheral nerve injury and Neuroplasticity, which intersect with Somatosensory system.
The various areas that Preston E. Garraghty examines in his Anatomy study include Cerebral cortex and Sensory system.
The Sensory system study which covers Auditory cortex that intersects with Visual system, Topographic map and Binocular neurons.
He is studying Thalamus, which is a component of Neuroscience.
His most cited work include:
- Massive cortical reorganization after sensory deafferentation in adult macaques (906 citations)
- Tonotopic organization, architectonic fields, and connections of auditory cortex in macaque monkeys. (426 citations)
- Experimentally induced visual projections into auditory thalamus and cortex (389 citations)
What are the main themes of his work throughout his whole career to date?
His primary areas of study are Neuroscience, Anatomy, Somatosensory system, Cortex and Neuroplasticity.
He focuses mostly in the field of Neuroscience, narrowing it down to topics relating to CATS and, in certain cases, Carnivora.
His Anatomy study combines topics in areas such as Lateral geniculate nucleus, Receptive field, Brain mapping and Macaque.
His Somatosensory system study integrates concerns from other disciplines, such as Electrophysiology, Nerve injury, Sensory system, Primate and Somatosensory evoked potential.
His Cortex study incorporates themes from AMPA receptor, Postsynaptic potential and Denervation.
His Neuroplasticity research includes elements of NMDA receptor, Peripheral nerve injury and Synaptic scaling.
He most often published in these fields:
- Neuroscience (83.72%)
- Anatomy (54.65%)
- Somatosensory system (46.51%)
What were the highlights of his more recent work (between 2012-2021)?
- Neuroscience (83.72%)
- Valproic Acid (4.65%)
- Developmental psychology (6.98%)
In recent papers he was focusing on the following fields of study:
His primary scientific interests are in Neuroscience, Valproic Acid, Developmental psychology, Neuroplasticity and Avoidance response.
Cortex, Somatosensory system and Nucleus are the subjects of his Neuroscience studies.
His study looks at the relationship between Cortex and topics such as Nerve injury, which overlap with Receptor expression.
His research investigates the connection with Nucleus and areas like Visual field which intersect with concerns in Anatomy.
His work on Embryology as part of general Anatomy research is often related to Rhombomere, thus linking different fields of science.
His Neuroplasticity study deals with Cuneate nucleus intersecting with Brainstem.
Between 2012 and 2021, his most popular works were:
- Embryological exposure to valproic acid disrupts morphology of the deep cerebellar nuclei in a sexually dimorphic way (14 citations)
- AMPA and GABAA/B receptor subunit expression in the cortex of adult squirrel monkeys during peripheral nerve regeneration (7 citations)
- Differences in AMPA and GABAA/B receptor subunit expression between the chronically reorganized cortex and brainstem of adult squirrel monkeys. (6 citations)
In his most recent research, the most cited papers focused on:
- Neuroscience
- Internal medicine
- Cerebral cortex
Postsynaptic potential, Protein subunit, GABAA receptor, AMPA receptor and Cortex are his primary areas of study.
His Postsynaptic potential research includes themes of Cuneate nucleus, Neuroplasticity, Neuroscience, Brainstem and Receptor expression.
His studies deal with areas such as Somatosensory system, Nerve injury and Cell biology as well as Protein subunit.
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