Rapid-Presentation Event-Related Design for fMRI - PowerPoint PPT Presentation

About This Presentation

Title:

Rapid-Presentation Event-Related Design for fMRI

Description:

Rapid-Presentation Event-Related ... (http://surfer.nmr.mgh.harvard.edu/optseq) ... http://surfer.nmr.mgh.harvard.edu/optseq. To come: contrasts and non-FIR ... – PowerPoint PPT presentation

Number of Views:120

Avg rating:3.0/5.0

Slides: 18

Provided by: Douglas262

Learn more at: http://surfer.nmr.mgh.harvard.edu

Category:

more less

Transcript and Presenter's Notes

Title: Rapid-Presentation Event-Related Design for fMRI

1
Rapid-Presentation Event-Related Design for fMRI

Douglas N. Greve

2
Outline

What is Event-Related Design?
Fixed-Interval Event-Related
Rapid-Presentation (Jittered) Event-Related
Efficiency and Event Scheduling
Mathematical Basis
optseq a tool for RPER design
(http//surfer.nmr.mgh.harvard.edu/optseq)

3
Dispersion

Dispersion is the spreading out of the response
over time, usually far beyond the end of the
stimulus
How closely can one event follow another?

4
Event-Related fMRI

Estimate response from a single event type
cf Blocked Design (Habituation, Expectation, Set,
Power)
Randomize Schedule (Order and Timing)
Post-Hoc Event Sorting
Multimodal Integration (EEG/MEG,Behavioral)
Fixed Interval and Rapid Presentation
(Jittered/Stochastic)

5
Event vs Event Type

Three Event Types (yellow, red, green)
Number of Events (Repetitions) per Event Type
Yellow 2
Red 2
Green 3
Two events belong to the same Event Type if, by
hypothesis, they have the same response
(violations are treated as noise).
Event Type Condition Trial Type
Explanatory Variable
Event Stimulus Trial

6
Event Schedule

Description of which event is presented when

time code duration label 4.0
2 4 yellow 20.0 1
2 red 36.0 1
2 red 52.0 3
6 green

Time is the accumulated time since onset of
scanning run
Code unique numeric id
Output of optseq

7
Fixed-Interval Event-Related

Push trials apart enough to prevent overlap.
Interval fixed at minimum is most efficient.
Random Sequence (Counter-balanced)
Allows Post-Hoc Stimulus Definition
Mitigates Habituation, Expectation (?), and Set
Inflexible/Inefficient/Boring
Good if limited by number of stimuli (not
scanning time)

8
Rapid-Presentation Event-Related

Closely Spaced Trials (Overlap!)
Raw signal uninterpretable
Random Sequence and Schedule
Highly resistant to habituation, set, and
expectation
Jitter Random Inter-Stimulus Interval
(ISI/SOA)

9
Scheduling and Efficiency
C N10

Efficiency is statistical power/SNR/CNR per
acquisition
Efficiency increases with N (number of
observations)
Efficiency decreases with overlap
Efficiency increases with differential overlap
Choose schedule with optimum efficiency before
scanning

10
Mathematical Concepts
Forward Model (X design matrix)
Inverse Model
Residual Error
11

Contrast, Contrast Vector (or Matrix), Contrast
Effect Size, COPE (FSL)
t-Ratio
Efficiency
Variance Reduction Factor
12
Where does jitter come from?(Whats a Null
Condition?)

Null condition fixation cross or dot
By hypothesis, no response to null
Insert random amounts of null between task
conditions
Differential ISI Differential Overlap

A

B
A
A
A
A

B
B
B
Time
13
Design Parameters (optseq)

TR time between volume acquisition (temporal
resolution).
Ntp number of time points (TRs, frames,
volumes, )
Nc number of event types (conditions)
Npc number of events/repetitions of each event
type (can vary across event types)
Tpc duration of each event type (can vary
across event types)
Schedule event onset time and identity
Event Response Model FIR Post-Stimulus Delay
Window (needed for optimization)

14
Time Constraints
Total Scan Time Ntp TR
A
B
C

Null Time
Ta NaTpa
Tc NcTpc
Tb NbTpb
Total Stimulation Time

Total Stimulation Time Cannot Exceed Total Scan
Time
How much Null Time is needed? Rule of thumb
same as any other task condition (or the average
of the task conditions).

15
Event Response Model (FIR)