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   <p style="margin-left:10%>List of most common warnings and error messages both on 3T and 7T.</p>
 
   <p style="margin-left:10%>List of most common warnings and error messages both on 3T and 7T.</p>
  
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  <p style="margin-left:5%><b>[[Media:3T-stim_display_settings_v1.0.pdf| Editting screen properties of the stimulus computer ]]
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  <p style="margin-left:10%>Setting the correct screen layout, resolution and refresh rate on the 3T-stimulus computer.</p>
 
   <p style="margin-left:5%><b>[[Patching 3T| Patching the 3T MRI scanners]]*</b></p>
 
   <p style="margin-left:5%><b>[[Patching 3T| Patching the 3T MRI scanners]]*</b></p>
 
   <p style="margin-left:10%>Well... just that. How to patch the 3T.</p>
 
   <p style="margin-left:10%>Well... just that. How to patch the 3T.</p>

Revision as of 15:03, 14 February 2022


General information

About the Spinoza wiki

This site provides technical and procedural information for the Spinoza Centre community.

All users are invited to contribute their knowledge by editing content here. Obviously, it is important that you verify the accuracy of any information that you post.

Some parts of the wiki are only accessible by logging in (indicated with a "*"). You can login using your Spinoza account, if you don't have one please request the login information by sending an email to [email protected].

About the Spinoza Centre

The Spinoza Centre for Neuroimaging supports fundamental and clinical research programs in the fields of neuroscience and cognition but also facilitates academic and industrial research programs in areas other than the brain. The Centre houses a variety of techniques designed to visualize and study the brain. Central to the infrastructure are the 3 Tesla and 7 Tesla human Magnetic Resonance Imaging scanners (MRI). Ultra-high field MR (≥ 7 Tesla) allows human brain function, structure and metabolism to be visualized at unprecedented detail. The peripheral equipment installed at the scanners includes material for visual, auditory and sensory stimulation, eye tracking and electroencephalography (EEG) recordings, all of which can be performed simultaneously with the MRI acquisitions. Several testing rooms are available in the suite to help people who are collecting surveys, patient briefing or for obtaining behavioural and EEG measures. This allows for a wide range of possible experimental manipulation and physiological measurements to complement the MRI data. In addition to the MRI equipment the Spinoza Centre houses a 'mock' MRI scanner for training humans, and several groups share their setups for Transcranial Magnetic Stimulation (TMS) and Transcranial Direct Current Stimulation (tDCS) with the facility.

The facilities

Route description

How to get to Spinoza via public transportation or car.

Opening hours*

Of Spinoza and when support staff are present.

How to get access

How to get into the building and reach the facilities.

Available facilities

These include research equipment but also desks, internet and meeting room.

User etiquette

Please help us maintain a safe and productive environment for everyone.

Buttons and displays at SC*

What is that button for?

Contact information

Spinoza staff

How to contact Spinoza staff.

General communication

How to join general communication lists of Spinoza.

Spinoza User Meetings

Weekly presentations of staff, partners and other scientists about their research. Every Tuesday from 16:00-17:00, everyone is welcome!

MR support

How to get support for your specific MR questions.

Logos*

Spinoza Centre Logos. Strictly speaking this has nothing to do with contact information but may be useful for some.


Starting a new project

Below please find the information you need, if you would like to start a new MRI project at Spinoza. This information is primarily intended for researchers who are new to Spinoza. You typically only have to go through these procedures once.

Starting to use the facilities

New lab members*

Checklist for new lab members and guests.

Compulsory actions

Checklist on how to start a project at Spinoza. These include compulsory actions that are required far in advance and just prior to scanning.

Training and safety

MR training and certification*

Prior to using the MR facilities please follow the MR safety training. If you want perform the scanning yourself, you need to be trained as an MR operator.

Safety training schedule*

Instructions on safety and evacuation training.

List of certified users*

If you want to start already you may enlist help of those who are already trained.

Metal detectors

How to use the metal detectors at Spinoza.


Basic procedures

Below please find the basic procedures most MRI scientists will encounter sooner or later during their project.

Participant procedures

Participant recruitment (Sona)

How to use of the Spinoza Sona participant registration system to recruit participants for your study.

Incidental finding protocol*

How to use our incidental finding protocol (if this was also so specified in your ethical approval).

Public data sharing*

Some notes on public data sharing which is part of the open science movement.


Basic MRI procedures

MRI costs *

Hourly billing rate and contacts for applying for (free) partner hours.

Booking the scanner and cancellation policy

Well... just that. How to book and how to cancel scanner time.

Piloting MRI projects

About developing new protocols and trying out new things (and not necessarily getting billed ).

Best practices

Set of guidelines for MRI data-analyses, strongly recommended by Spinoza staff.

Getting data of the scanner through the FlyWheel platform*

Our new way of getting the data from the scanner and a variety of other things, including automatic QA and automatic preprocessing and allowing for data-sharing.

Data deletion policy*

When data is deleted from the scanners.

Standard sequences @ 3T*

Tried and tested sequences easily adaptable to your needs.



Advanced procedures and troubleshooting

Here we gather information for the adventurous MRI scientist using peripheral equipment and the most advanced procedures. This section also contains usage and troubleshooting information for the MRI scientists and MR operators.

Peripheral MRI equipment

Stimulus computer

How to control your stimulus from outside the scanner.

MRI compatible LCD screen (BOLDscreen)

How to use the screen in the scanner.

MRI compatible button boxes (fORP)

How to use the response buttons in the the scanner.

MRI compatible audio system (MRConfon)

How to use the audio setup in the scanner.

MRI compatible eye trackers

How to track the participants eye-movements in the scanner.

Auxilliary EMG, ECG and GSR recordings (BrainAmp)

How to record EMG, ECG and GSR in the scanner. (under development)

EEG-fMRI recordings (EGI)

How to record EEG in the scanner.

Electrical stimulator

How to use the electrical stimulator in the scanner.

Physiology

How to measure various physiological measures in the scanner, such as heart rate and respiration.

Advanced MRI procedures

Common warnings and error messages*

List of most common warnings and error messages both on 3T and 7T.

Editting screen properties of the stimulus computer

Setting the correct screen layout, resolution and refresh rate on the 3T-stimulus computer.

Patching the 3T MRI scanners*

Well... just that. How to patch the 3T.

7T MRI procedures*

Documentation on 7T MRI procedures.

Hoist the 7T BOLD screen*

How to move the BOLD screen in the 7T setup.

7T MRI Hardware*

List of available coils on the 7T.

7T MRI Phantoms*

List of available phantoms for the 7T.

7T MRI Quality assurance*

How to run and evaluate the QA on the 7T.

FAQs on (f)MRI preprocessing*

BIDS, distortion correction, MP2RAGE(ME) etc.