Understanding the Neurochemical Basis of STN and GPi-DBS: A Human Microdialysis Study
Objective: Analyze the extracellular concentrations of GABA and glutamate in response to acute electrical stimulation during DBS surgery using samples obtained from STN, thalamus, GPi…Deposition of phosphorylated TDP-43 around the tip of deep brain stimulation leads
Objective: The objective of this study is to investigate the depositions of abnormal proteins, including phosphorylated tau (p-tau) and phosphorylated transactivation response DNA-binding protein of…Effect of Target Selection on Mood, Pain, and Medications after DBS in PD
Objective: To describe the association between medication adjustments with mood and pain following bilateral deep brain stimulation (DBS) in Parkinson’s disease (PD). Background: Depression, anxiety,…Development of a Beta-sensing Pathway in Deep brain stimulation to optimise utility of Local field potential recordings using the Percept system. (Newcastle Beta-sensing Algorithm – NBA)
Objective: To establish a pathway for utilisation of beta-sensing using the Percept technology which is applicable to real world clinical practice and optimises the utility…Effective Management of Generalized Dystonia with Unilateral Deep Brain Stimulation – Killing Two Birds with One Stone?
Objective: Managing generalized dystonia in adults is challenging despite pharmacological interventions due to suboptimal response or intolerable side effects. While bilateral Globus Pallidus internus Deep…Real-Time Removal of Stimulus Artifact for Closed-Loop Deep Brain Stimulation by Synchronized Sample-And-Hold Artifact Blanking (SSAB): Verification in Animal Model
Objective: To develop and validate a real-time stimulus artifact removal analog front-end (AFE) by synchronized sample-and-hold artifact blanking (SSAB) technique with the Parkinsonian minipig model…Differentiating the Local Field Potential Oscillations in Low and Beta Range in Parkinson`s and Dystonic Movement Disorder
Objective: To framework the novel data of subcortical oscillations in Parkinson`s and dystonic patients for the comparison of local field oscillatory (low, beta) influence amongst…Personality of Parkinson’s disease patients may influence the development and evolution of non-motor fluctuations
Objective: to evaluate the impact of personality on non-motor fluctuations (NMFs) in Parkinson’s disease (PD) and on NMFs evolution after dopaminergic treatments or deep brain…Investigation of the Quantitative Impact of T-type Calcium Channels in Subthalamic Nucleus Neurons on Parkinson’s Disease
Objective: Parkinson's disease (PD) might be seen as a classic manifestation of "brain arrhythmias" from a pathological standpoint. This work aims to examine the impact…Machine Learning Model Comparison for Freezing of Gait Prediction in Advanced Parkinson’s Disease Patients
Objective: This study compares the performance of machine learning classification models in predicting freezing of gait (FoG) from instrumented stand-and-walk trials in advanced Parkinson’s disease…
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