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Publications by Mixia Wang

Real-Time Simultaneous Recording of Electrophysiological Activities and Dopamine Overflow in the Deep Brain Nuclei of a Non-Human Primate With Parkinson’s Disease Using Nano-Based Microelectrode Arrays

Microsystems and Nanoengineering

Electronic Engineering

Industrial

Condensed Matter Physics

Materials Science

Molecular Physics,

Manufacturing Engineering

English

Related publications

Microelectrode Arrays Modified With Nanocomposites for Monitoring Dopamine and Spike Firings Under Deep Brain Stimulation in Rat Models of Parkinsons Disease

English

Nonmotor Outcomes in Parkinson’s Disease: Is Deep Brain Stimulation Better Than Dopamine Replacement Therapy?

Therapeutic Advances in Neurological Disorders

Neurology

Pharmacology

2011

English

High Density Microelectrode Recording Predicts Span of Therapeutic Tissue Activation Volumes in Subthalamic Deep Brain Stimulation for Parkinson Disease

English

Tailoring the Deep Brain Stimulation Indications in Parkinson’s Disease

Arquivos de Neuro-Psiquiatria

Biological Psychiatry

Neurology

2018

English

Propofol Reduces Microelectrode-Recording Artefacts Caused by Parkinsonian Tremor During Deep Brain Stimulation

Journal of Neuroanaesthesiology and Critical Care

2018

English

Real Time Visualization and Real Time Recording of CFD Using PC

Journal of the Visualization Society of Japan

1996

English

Mild Cerebrospinal Fluid Pleocytosis in a Parkinson’s Disease Patient With Deep Brain Stimulation

Advances in Parkinson's Disease

2014

English

Glucocerebrosidase Expression Patterns in the Non-Human Primate Brain

Brain Structure and Function

English

GBA-Associated Parkinson’s Disease: Progression in a Deep Brain Stimulation Cohort

Journal of Parkinson's Disease

Molecular Neuroscience

Neurology

Cellular

2017

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Mixia Wang

Real-Time Simultaneous Recording of Electrophysiological Activities and Dopamine Overflow in the Deep Brain Nuclei of a Non-Human Primate With Parkinson’s Disease Using Nano-Based Microelectrode Arrays

Related publications

Microelectrode Arrays Modified With Nanocomposites for Monitoring Dopamine and Spike Firings Under Deep Brain Stimulation in Rat Models of Parkinsons Disease

Nonmotor Outcomes in Parkinson’s Disease: Is Deep Brain Stimulation Better Than Dopamine Replacement Therapy?

High Density Microelectrode Recording Predicts Span of Therapeutic Tissue Activation Volumes in Subthalamic Deep Brain Stimulation for Parkinson Disease

Tailoring the Deep Brain Stimulation Indications in Parkinson’s Disease

Propofol Reduces Microelectrode-Recording Artefacts Caused by Parkinsonian Tremor During Deep Brain Stimulation

Real Time Visualization and Real Time Recording of CFD Using PC

Mild Cerebrospinal Fluid Pleocytosis in a Parkinson’s Disease Patient With Deep Brain Stimulation

Glucocerebrosidase Expression Patterns in the Non-Human Primate Brain

GBA-Associated Parkinson’s Disease: Progression in a Deep Brain Stimulation Cohort