2024

Mandali A
Torrecillos F
Wiest C
Pogosyan A
He S
Coutinho Soriano D
Tan H
Stagg C
Cagnan H
10.5287/ora-qqd05nv46

2023

Diagram of a human torso with two deep brain electrodes, showing No-direction Boston Vercise leads in close-up
Wiest C
Torrecillos F
Morgante F
Pereira E
Tan H
10.5287/bodleian:QRNQjNpV7

2022

plots of termor recordings
Rodriguez F
He S
Tan H
10.5287/bodleian:ZVNyvrw7R
diagram of the deep brain stimulation recording electrode with four contacts and the output to TMSi Porti/Saga
Wiest C
Torrecillos F
Pogosyan A
Baig F
Pereira E
Morgante F
Ashkan K
Tan H
10.5287/bodleian:mzJ7YwXvo
diagram of the back of a participant in the study, showing the stimulus display with moving points, and the electrode arrange ment- an electrode in each side of the brain, and two recording sites per electrode, with a stimulating contact in between the two. The participant holds grasping measuring apparatus in each hand.
Herz DM
Groppa S
Brown P
10.5287/bodleian:1R9KzGXxM

2020

A sequential neurofeedback-behaviour task, with the neurofeedback reflecting the occurrence of beta bursts quantified in real-time based on EEG measurements over sensorimotor cortex, was used to evaluate the relationship between cortical beta bursts and movement initialisation.
He S
Everest-Phillips C
Brown P
Tan H
10.5287/bodleian:9gM209oXo

2019

stepping figure
Fischer P
Brown P
Tan H
10.5287/bodleian:M81wpxae8
Bursts of beta activity (beta LFP) in the subthalamic nucleus (STN) approximately half a second before the movement onset (MO) are associated with lower speeds (velocity; red arrows) of the forthcoming reaching movements.
Torrecillos F
Brown P
Tan H
10.5287/bodleian:rbR9ARpjB

2018

Dopamine (DA) signals in Nucleus Accumbens with and without movement. Top panel shows a behavioural trial where movement is initiated to collect reward. Bottom panel shows a trial where movement is withheld until after reward delivery.
Syed EC
Grima LL
Magill PJ
Bogacz R
Brown P
Walton ME
10.5287/bodleian:14EQmxj1P