Difference between revisions of "Tips & Tricks"

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(Tips for EEG recording using Enobio or StarStim)
(Tips for EEG recording using Enobio or StarStim)
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In this page we provide some tips and tricks to work with our systems.  Here are some useful resources you should also check:   
 
In this page we provide some tips and tricks to work with our systems.  Here are some useful resources you should also check:   
  
- [http://www.jove.com/video/50426/simultaneous-eeg-monitoring-during-transcranial-direct-current  '''StarStim tCS EEG recording (Jove)''']  
+
[http://www.jove.com/video/50426/simultaneous-eeg-monitoring-during-transcranial-direct-current  '''StarStim tCS EEG recording (Jove)''']  
 
 
- video tutorials
 
  
 
{{#ev:youtube| JdcG1Qdq4h8|500|center|An introduction to NIC}}
 
{{#ev:youtube| JdcG1Qdq4h8|500|center|An introduction to NIC}}

Revision as of 10:33, 9 June 2017

Tips for EEG recording using Enobio or StarStim

In this page we provide some tips and tricks to work with our systems. Here are some useful resources you should also check:

StarStim tCS EEG recording (Jove)

{{#ev:youtube| JdcG1Qdq4h8|500|center|An introduction to NIC}}

{{#ev:youtube|I5uU20ut8Fk|500|center|Configuration of NIC for stimulation: from simple to advanced}}


Plan your session well before starting

You should have a clear plan covering all the details in your recording session. Prepare to be patient. Setting up always takes a bit longer than expected, and when carrying out experiments ... the third time's the charm!

Before starting keep your device charged. It is best to ensure you have more than 50% charge before you start.

Where do you want to place the electrodes? For how long do you want to record? Do you have a good naming scheme for your EEG files? What data formats do you want to save? Do you need accelerometry data? Do you want a line filter applied to the data (if so 50 or 60 Hz)?

Do you have an electrode referencing scheme planned ahead? You should include in your montage construct a solution for data referencing. With our systems, data will be recorded referenced to the device electrical ground (the CMS electrode), but for data analysis you should always reference the data to an electrode or to the electrode average. See as an example this | link of an open discussion for more information on referencing.

Place carefully the CMS and DRL electrodes

CMSDRL.jpg

These two electrodes should go over the left or right mastoid (best to always stick to one side). First clean up the mastoid area where you are going to attach the DRL/CMS electrodes (using Sticktrode adhesive electrodes). You can use a paper napkin with some water or alcohol. Removing grease and dry skin will help you get good signal.

Stick the DRL/CMS electrodes close to each other, with the DRL on the bottom. These two Sticktrode electrodes should be close to each other but not touch. The CMS electrode should be on top and squarely on top of the mastoid bone. This will avoid contamination from blood vessels (ECG like signals).

Avoid loose wires

Try to have a tidy setup with few loose wires. Loose wires are more prone to creating noise from movement.


About EEG signal quality measures in NIC

NIC, EEG signal quality measures for each electrode are provided in real time.

If all the channels are in yellow or red zone, you may have an issue with the CMS/DRL electrodes (they create the ground for measurements, so if they are misplaced all the signals will be affected).

If an electrode is misbehaving, check that it has a good contact and, if possible, add more gel (you can reach the site from another hole in the cap).

Give a few minutes at the start for signals (electrochemistry) to stabilize.

Tips for great Stimulation sessions using StarStim

See the section above on placing well the DRL/CMS electrodes. They are also important for stimulation, as they are used for our impedance check (as well as EEG recording, if any).

Using Sponge electrodes

Sponge electrodes are easy to use. You can place them on the cap and wet them (about 2-4 cubic cm of saline solution will do) prior placing the cap on the subject's head.

If you have impedance issues, rewet them from a side hole using a syringe. Be careful not to wet the cap.

Using Ag/AgCl Pi electrodes

Pi electrodes are also easy to use. You can place them on the cap and gel them (fill the electrode hole space and then some more) prior placing the cap on the subject's head.

If you have impedance issues, regel them from the electrode hole or a side hole using a syringe.

The impedance test

You should carry out an impedance test before launching a stimulation (at least for the first session if you have several on a row with the same subject). If impedance is too high (red values) for some electrode you can follow these steps:

- Check cabling connections and recheck impedance and recheck impedance

- move the hair to ensure the contact between the electrode and the scalp

- make sure the hair is clean and free of sprays, oils, cream and lotions. Shampoo your hair and rinse with clear water the evening before or the morning of the test. Avoid hair conditioner or oil

- add more gel/saline solution (rewet or regel) to the electrodes and check again

- check that the DRL/CMS electrodes are correctly placed

- ensure that you have a reasonable battery charge (>20%)

- impedance depends on skin type and can vary quite a bit across individuals


For safety, impedance is also checked by NIC while stimulation is ongoing. If the impedance is too high, the stimulation session will self-abort.

The impedance bar appears below the icons of the stimulation channels and its color depends on the obtained value:

green: [0 - 10] kOhm

orange: [10 - 15] kOhm

red: [10 - 15] kOhm

Everything about electrodes for EEG and stimulation

Electrodes1.png

Please see the | Electrode User Manual for a description of our electrodes.

Caring for EEG electrodes

Electrodes2.png

It's very important to remove all the gel from the electrodes (and cap!) carefully after a recording session using gel. You can do this with water.

Sunlight exposure or contact with metals might damage the electrodes.

With our wet electrodes some discoloration may occur after a few uses. It is normal and does not affect data quality.

Caring for stimulation electrodes

Electrodes3.png

It's important to rinse stimulation electrodes (sponges and Ag/AgCl alike) with water in order to remove the salts that might remain after drying.

It is also recommended to dry the metal part to avoid salt on the connectors.

In case there salt accumulating at the metallic part, it can be washed with some vinegar to remove it.

Electrode lifetime

The number of uses or hours of recording using our EEG electrodes depends on how are they cleaned or stored. Electrode degradation can be suspected when the electrodes' signals are too noisy. If your electrodes signals are becoming noisy, replace them with new ones.

The lifetime of Ag/AgCl stimulation "Pi"-electrodes depends on their use. The electrodes degrade while passing current, but the process reverses if the direction of currents are reversed. For this reason, it is advisable to swap anode and cathode in tDCS protocols to increase electrode lifetime. Degraded electrodes will produce degraded, noisy EEG, and may give higher impedance values on Impedance Check. A rule of thumb is that a pair of electrodes used for tDCS without swapping Anode and Cathode should last for about 8 h worth of stimulation (about 24 20 minute stimulation sessions). Swapping electrodes will increase their lifetime. The lifetime for these electrodes with tACS or tRNS will be much longer.

The lifetime of sponge electrodes is very long.

Cable instructions

After each use it is important to disconnect the cables from the electrodes in order to avoid contact with both metals (metal of the electrodes and metal of the cable). If it is not disconnected the cables and also the electrodes can be damaged.

Neoprene cap cleaning and disinfecting instructions

After each use the neoprene cap or the neoprene band should be cleaned and disinfected. Use warm tap water to rinse the gel and some ivory soap to clean the cap. Dry the cap consciously using paper towel. Spray the cap with disinfectant and let sit for 10 minutes. Rinse cap thoroughly. Hang up the cap to dry.