2026 Gordon W. Arbuthnott: Neuroscience Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Neuroscience	55	4651	4279	140	134	185	14287

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Neuroscience

4651

4279

140

134

185

14287

Overview

Gordon W. Arbuthnott is affiliated with the Okinawa Institute of Science and Technology in Japan. Their research primarily focuses on the field of Neuroscience, with significant contributions in Cellular and Molecular Neuroscience, Cognitive Neuroscience, Neurology, Cell Biology, and Electrical and Electronic Engineering.

The scientist's work covers various topics including:

Neural dynamics and brain function
Photoreceptor and optogenetics research
Neuroscience and Neural Engineering
Neuroscience and Neuropharmacology Research
Neurological disorders and treatments
Parkinson's Disease Mechanisms and Treatments
Zebrafish Biomedical Research Applications

Gordon W. Arbuthnott has co-authored publications frequently with the following researchers:

Violeta G. López-Huerta
Omar Jáidar
Bianca Sieveritz
Hoang-Dai Tran
Min-Kyoung Shin

Common venues for their research publications include:

Journal of Visualized Experiments
Cell Reports
Cerebral Cortex
Brain Structure and Function
SSRN Electronic Journal

Recent notable papers authored or co-authored by Gordon W. Arbuthnott are:

Striatal bilateral control of skilled forelimb movement, 2021, Cell Reports
Long-range monosynaptic inputs targeting apical and basal dendrites of primary motor cortex deep output neurons, 2021, Cerebral Cortex
Prelimbic cortical targets of ventromedial thalamic projections include inhibitory interneurons and corticostriatal pyramidal neurons in the rat, 2020, Brain Structure and Function
An Introspective Approach: A Lifetime of Parkinson's Disease Research and Not Much to Show for It Yet?, 2021, Cells
Generation of Human Striatal-Midbrain Assembloids From Human Pluripotent Stem Cells to Model Alpha-Synuclein Propagation, 2022, SSRN Electronic Journal

Best Publications

Quantitative recording of rotational behavior in rats after 6-hydroxy-dopamine lesions of the nigrostriatal dopamine system.

Urban Ungerstedt;Gordon W. Arbuthnott

2358
Citations
Selective elimination of glutamatergic synapses on striatopallidal neurons in Parkinson disease models

Michelle Day;Zhongfeng Wang;Jun Ding;Xinhai An

816
Citations
Crossed connections of the substantia nigra in the rat.

Charles R. Gerfen;William A. Staines;Hans C. Fibiger;Gordon W. Arbuthnott

519
Citations
Dopamine reverses the depression of rat corticostriatal synapses which normally follows high-frequency stimulation of cortex In vitro

J.R. Wickens;A.J. Begg;G.W. Arbuthnott

436
Citations
Amphetamine-induced dopamine release in the rat striatum: an in vivo microdialysis study.

Steven P. Butcher;Iain S. Fairbrother;John S. Kelly;Gordon W. Arbuthnott

358
Citations
Therapeutic Deep Brain Stimulation in Parkinsonian Rats Directly Influences Motor Cortex

Qian Li;Ya Ke;Danny C.W. Chan;Zhong Ming Qian

349
Citations
Space, time and dopamine

Gordon W. Arbuthnott;Gordon W. Arbuthnott;Gordon W. Arbuthnott;Jeff Wickens;Jeff Wickens

346
Citations
Plasticity of Synapses in the Rat Neostriatum after Unilateral Lesion of the Nigrostriatal Dopaminergic Pathway

C. A. Ingham;S. H. Hood;P. Taggart;G. W. Arbuthnott

346
Citations
Evidence of a breakdown of corticostriatal connections in Parkinson's disease.

B. Stephens;A.J. Mueller;A.F. Shering;S.H. Hood

327
Citations
Resonant Antidromic Cortical Circuit Activation as a Consequence of High-Frequency Subthalamic Deep-Brain Stimulation

Su Li;Gordon W Arbuthnott;Michael J Jutras;Joshua A Goldberg

286
Citations
Spine density on neostriatal neurones changes with 6-hydroxydopamine lesions and with age

C.A. Ingham;S.H. Hood;G.W. Arbuthnott

258
Citations
Intracranial self-stimulation with electrodes in the region of the locus coeruleus

T.J. Crow;P.J. Spear;G.W. Arbuthnott

257
Citations
Striatal contributions to reward and decision making: making sense of regional variations in a reiterated processing matrix.

Jeffery R. Wickens;Jeffery R. Wickens;Christopher S. Budd;Brian I. Hyland;Gordon W. Arbuthnott;Gordon W. Arbuthnott

199
Citations
Graft-derived recovery from 6-OHDA lesions: specificity of ventral mesencephalic graft tissues.

S. B. Dunnett;T. D. Hernandez;A. Summerfield;G. H. Jones

190
Citations
The basic domain of the lentiviral Tat protein is responsible for damages in mouse brain: involvement of cytokines

Valerie Philippon;Christine Vellutini;Danielle Gambarelli;Gordon Harkiss

188
Citations
Dopamine and synaptic plasticity in the neostriatum

Gordon W Arbuthnott;Carolyn A Ingham;J R Wickens

186
Citations
Morphological changes in the rat neostriatum after unilateral 6-hydroxydopamine injections into the nigrostriatal pathway.

C. A. Ingham;S. H. Hood;B. van Maldegem;A. Weenink

185
Citations
Depletion of catecholaminesin vivo induced by electrical stimulation of central monoamine pathways

Gordon W. Arbuthnott;Timothy J. Crow;Kjell Fuxe;Lars Olson

176
Citations
Effects of Selective Monoamine Oxidase Inhibitors on the In Vivo Release and Metabolism of Dopamine in the Rat Striatum

Steven P. Butcher;Iain S. Fairbrother;John S. Kelly;Gordon W. Arbuthnott

173
Citations
Electrophysiological properties of single units in dopamine-rich mesencephalic transplants in rat brain.

Gordon Arbuthnott;Stephen Dunnett;Neil MacLeod

170
Citations
Fundamental Neuroscience: edited by M.J. Zigmond, F.E. Bloom, S.C. Landis, J.L. Roberts and L.R. Squire

Gordon W. Arbuthnott

62
Citations
The mesolimbic dopamine system: From motivation to action P. Willner and J. Scheel-Krüger (eds). John Wiley & Sons, Ltd, Chichester, 1991. £80

Unknown

3
Citations