2023 - Research.com Neuroscience in United Kingdom Leader Award
Neuroscience, Basal ganglia, Subthalamic nucleus, Parkinson's disease and Deep brain stimulation are his primary areas of study. His work in Local field potential, Electroencephalography, Motor cortex, Stimulation and Cerebral cortex are all subfields of Neuroscience research. His Basal ganglia study incorporates themes from Dopaminergic, Dopamine and Cortex.
His research in Subthalamic nucleus intersects with topics in Beta Rhythm and Neuron. His research investigates the connection with Parkinson's disease and areas like Cortical Synchronization which intersect with concerns in Parkinsonism. His research integrates issues of Gait, Pedunculopontine Tegmental Nucleus and Movement disorders in his study of Deep brain stimulation.
Peter Brown focuses on Neuroscience, Subthalamic nucleus, Deep brain stimulation, Parkinson's disease and Basal ganglia. His Neuroscience study frequently links to adjacent areas such as Beta. Peter Brown combines subjects such as Electrophysiology, Cerebral cortex, Premovement neuronal activity, Dopamine and Beta Rhythm with his study of Subthalamic nucleus.
The Deep brain stimulation study combines topics in areas such as Essential tremor and Physical medicine and rehabilitation. Levodopa is the focus of his Parkinson's disease research. His work on Dopaminergic expands to the thematically related Basal ganglia.
Peter Brown spends much of his time researching Neuroscience, Deep brain stimulation, Subthalamic nucleus, Parkinson's disease and Local field potential. The concepts of his Neuroscience study are interwoven with issues in Beta and Coupling. The study incorporates disciplines such as Essential tremor, Physical medicine and rehabilitation, Stimulation, Artificial intelligence and Movement disorders in addition to Deep brain stimulation.
While the research belongs to areas of Subthalamic nucleus, Peter Brown spends his time largely on the problem of Gait, intersecting his research to questions surrounding Gait Disturbance. His research in the fields of Lewy body overlaps with other disciplines such as In patient. His research investigates the connection between Local field potential and topics such as Basal ganglia that intersect with problems in Striatum.
His primary scientific interests are in Deep brain stimulation, Neuroscience, Subthalamic nucleus, Parkinson's disease and Stimulation. His Deep brain stimulation research is multidisciplinary, relying on both Essential tremor, Physical medicine and rehabilitation, Resting tremor, Neuromodulation and Movement disorders. His Neuroscience study focuses on Brain activity and meditation in particular.
Peter Brown has included themes like Beta Rhythm, Beta, Electroencephalography, Modulation and Local field potential in his Subthalamic nucleus study. His biological study deals with issues like Basal ganglia, which deal with fields such as Motor cortex, Parkinsonism and Striatum. His studies deal with areas such as Impaired Balance, Balance, Pelvic inflammatory disease, Intra operative and Cortex as well as Parkinson's disease.
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Fatty acids and eicosanoids regulate gene expression through direct interactions with peroxisome proliferator-activated receptors α and γ
Steven A. Kliewer;Scott S. Sundseth;Stacey A. Jones;Peter J. Brown.
Proceedings of the National Academy of Sciences of the United States of America (1997)
The PPARs: from orphan receptors to drug discovery.
Timothy M. Willson;Peter J. Brown;Daniel D. Sternbach;Brad R. Henke.
Journal of Medicinal Chemistry (2000)
SUNDIALS: Suite of nonlinear and differential/algebraic equation solvers
Alan C. Hindmarsh;Peter N. Brown;Keith E. Grant;Steven L. Lee.
ACM Transactions on Mathematical Software (2005)
VODE: a variable-coefficient ODE solver
Peter N. Brown;G. D. Byrne;A. C. Hindmarsh.
Siam Journal on Scientific and Statistical Computing (1989)
Pathological synchronization in Parkinson's disease: networks, models and treatments
Constance Hammond;Hagai Bergman;Peter Brown.
Trends in Neurosciences (2007)
Molecular Recognition of Fatty Acids by Peroxisome Proliferator–Activated Receptors
H.Eric Xu;Millard H Lambert;Valerie G Montana;Derek J Parks.
Molecular Cell (2000)
Design and therapeutic application of matrix metalloproteinase inhibitors.
Mark Whittaker;Christopher D. Floyd;Peter Brown;Andrew J. H. Gearing.
Chemical Reviews (1999)
Dopamine dependency of oscillations between subthalamic nucleus and pallidum in Parkinson's disease
P Brown;A Oliviero;P Mazzone;A Insola.
The Journal of Neuroscience (2001)
Hybrid Krylov methods for nonlinear systems of equations
Peter N. Brown;Youcef Saad.
Siam Journal on Scientific and Statistical Computing (1990)
Oscillatory nature of human basal ganglia activity: Relationship to the pathophysiology of Parkinson's disease
Movement Disorders (2003)
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