Log In Sign up
The largest database of trusted experimental protocols

Mri compatible electrodes

Manufactured by Biopac
Visit Supplier

MRI-compatible electrodes are designed for use in magnetic resonance imaging (MRI) environments. They are constructed with materials that are safe for use within the MRI scanner and do not interfere with the magnetic field. These electrodes are used to record physiological signals, such as electrocardiogram (ECG) or electroencephalogram (EEG), during MRI procedures.

Automatically generated - may contain errors

Lab products found in correlation

Stmisola, by Biopac (3 mentions) Mp160 system, by Biopac (3 mentions) Matlab software, by MathWorks (3 mentions) Paired electrodes, by Biopac (1 mentions)

3 protocols using mri compatible electrodes

1

Multimodal Neurophysiological Assessment of Aversive Stimuli Processing

Check if the same lab product or an alternative is used in the 5 most similar protocols
During the initial in-lab visit, all tasks were completed on a Dell OptiPlex 7040 computer (Dell, Round Rock, TX, USA) equipped with Matlab software (Mathworks, Natick, MA, USA), and Psychophysics Toolbox extensions (Brainard, 1997 ). Stimuli were presented on a Dell P2717H monitor. The participants viewed the monitor from a distance of approximately 70 cm in a dimly lit room. Paired electrodes (BioPac Systems, Inc., Goleta, CA, USA) were attached to the left forearm of each participant, and electric shocks were delivered through an isolated linear stimulator under the constant current setting (STMISOLA, BioPac Systems), which were controlled by custom Matlab scripts.
For the fMRI portion of the experiment, stimulus presentation was controlled by an Invivo SensaVue display system. The eye-to-screen distance was approximately 125 cm. Key responses were entered using two Cedrus Lumina two-button response pads. MRI-compatible electrodes (BioPac Systems) were attached to the left ankle of each participant, and electric shocks were delivered through an STM100C controlled by an MP160 system (BioPac Systems) triggered by custom Matlab scripts via parallel port interface.
Kim A.J, & Anderson B.A. (2020). The effect of concurrent reward on aversive information processing in the brain. NeuroImage, 217, 116890.
+ Open protocol
+ Expand
2

Multimodal Neurophysiological Assessment of Aversive Stimuli Processing

Check if the same lab product or an alternative is used in the 5 most similar protocols
During the initial in-lab visit, all tasks were completed on a Dell OptiPlex 7040 computer (Dell, Round Rock, TX, USA) equipped with Matlab software (Mathworks, Natick, MA, USA), and Psychophysics Toolbox extensions (Brainard, 1997 ). Stimuli were presented on a Dell P2717H monitor. The participants viewed the monitor from a distance of approximately 70 cm in a dimly lit room. Paired electrodes (BioPac Systems, Inc., Goleta, CA, USA) were attached to the left forearm of each participant, and electric shocks were delivered through an isolated linear stimulator under the constant current setting (STMISOLA, BioPac Systems), which were controlled by custom Matlab scripts.
For the fMRI portion of the experiment, stimulus presentation was controlled by an Invivo SensaVue display system. The eye-to-screen distance was approximately 125 cm. Key responses were entered using two Cedrus Lumina two-button response pads. MRI-compatible electrodes (BioPac Systems) were attached to the left ankle of each participant, and electric shocks were delivered through an STM100C controlled by an MP160 system (BioPac Systems) triggered by custom Matlab scripts via parallel port interface.
Kim A.J, & Anderson B.A. (2020). The effect of concurrent reward on aversive information processing in the brain. NeuroImage, 217, 116890.
+ Open protocol
+ Expand
3

Multimodal Neuroimaging and Physiological Monitoring

Check if the same lab product or an alternative is used in the 5 most similar protocols
During the initial in-lab visit, all tasks were completed on a Dell OptiPlex 7040 computer (Dell) equipped with MATLAB software (MathWorks), and Psychophysics Toolbox extensions (Brainard, 1997 (link)). Stimuli were presented on a Dell P2717H monitor. The participants viewed the monitor from a distance of ∼70 cm in a dimly lit room. Paired electrodes (BioPac Systems) were attached to the left forearm of each participant, and electric shocks were delivered through an isolated linear stimulator under the constant current setting (STMISOLA, BioPac Systems), which were controlled by custom MATLAB scripts.
For the fMRI portion of the experiment, stimulus presentation was controlled by an in vivo SensaVue display system. The eye-to-screen distance was ∼125 cm. Key responses were entered using Cedrus Lumina two-button response pads. MRI-compatible electrodes (BioPac Systems) were attached to the left ankle of each participant, and electric shocks was delivered through an STM100C controlled by an MP160 system (BioPac Systems) triggered by custom MATLAB scripts via parallel port interface. An EyeLink 1000 Plus system was used to track eye position (SR Research Ltd.).
Kim A.J, & Anderson B.A. (2020). Arousal-Biased Competition Explains Reduced Distraction by Reward Cues under Threat. eNeuro, 7(4), ENEURO.0099-20.2020.
+ Open protocol
+ Expand

About PubCompare

Our mission is to provide scientists with the largest repository of trustworthy protocols and intelligent analytical tools, thereby offering them extensive information to design robust protocols aimed at minimizing the risk of failures.

We believe that the most crucial aspect is to grant scientists access to a wide range of reliable sources and new useful tools that surpass human capabilities.

However, we trust in allowing scientists to determine how to construct their own protocols based on this information, as they are the experts in their field.

Ready to get started?

Sign up for free.
Registration takes 20 seconds.
Available from any computer
No download required

Sign up now

Revolutionizing how scientists
search and build protocols!