a fmri approach to probe cns interaction wei chen, md, ms. modality : animal mri mentor : professor...
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A fMRI approach to probe CNS interaction
Wei Chen, MD, MS.
Modality : Animal MRIMentor : Professor Seong-Gi Kim
Kim’s Lab Faculty : Seong-Gi Kim , Tae Kim , Tao Jin, Hiro Fukuda , Alberto Vazquez.Lab Manager: Ping Wang
Functional MR imaging has been widely used to map brain functions. Due to slow hemodynamic responses, neural interaction between brain areas has not been easily investigated by fMRI.
This study was designed to examine neural interaction between two hemispheres by using bilateral somatosensory stimuli based on Ogawa et al. works (2000).
Background
In 2000, Ogawa et al. monitored rats’ brain BOLD response to left and right forepaw stimulation with the different interstimulus interval (ISI).
Seiji Ogawa, et al ,PNAS, 2000.
0 msec
ROI
Left Right
Right Hemisphere Simultaneously stimulate both sides’ forepaw
Seiji Ogawa, et al ,PNAS, 2000.
~40 msec
ROI
Left Right
Right -> Left forepaw stimulation
40 ms
75 ms
Right Hemisphere
Interaction between left and right hemisphere occurs when time interval between two stimuli is ~40 ms.
Based on the Ogawa et al. studies, this animal study was conducted to Reproduce the bilateral forepaw stimuli approach at 9.4 T.
Test the changed protocol Change anesthetic from alpha-chloralose (for terminal
studies) to isoflurane (for survival studies)
Use contrast agent, monocrystalline iron oxide nanoparticle (MION) to enhance the MRI sensitivity.
Task
Pulse width = 1.0ms, current = 1.2-1.5mA
R RLISI
LISI
1 sec
1 Hz
Left forepaw stimulation was given by following the right forepaw stimulation with the ISI = 0, 40 and 83ms.
Design (fMRI approach )
Right Left
Pulse generator Constant current isolator
fMRI measurement• 9.4-T MR system (Varian, Palo Alto, CA). • fMRI experiments: • Gradient EPI , TE =20 ms (11ms with MION), TR=500 ms• Data matrix = 64 x 32 (readout direction x phase-encoding
direction) • FOV= 32 x 16 mm (right--left hemisphere x dorsal--ventral
directions).• The power of the radio frequency pulse was adjusted to
maximize the signals at the targeted somatosensory cortex. • Number of slices: 3• Each run: Total 60-80 images with the following diagram
0
10-20 s10 s10 s
30-40 s
Common approaches: parametric statistical methods such as the t test or cross-correlation (CC) . Use CC > 0.35 as a threshold.
1. Generate a BOLD map from a fMRI data set.
Image # (x 0.5 s)
2. Check ROI time courses of Scan #1
Left S1FL Right S1FL L R
Image # (x 0.5 s) Image # (x 0.5 s)
Inte
nsity
3. Check three scans’ Left S1FL baseline fluctuations
The reproducibility of fMRI signals is hampered because of trial-by-trial variations in baseline physiology (and in evoked responses).
Nor
mal
ized
In
tens
ity
Image # (x 0.5 s)
4. BOLD fMRI with ISI = 40 ms
1%
10%Scan #1
Scan #2
Scan #3
Left S1FL Right S1FL
The three scans’ average time course
Inte
nsity
Image # (x 0.5 s) Image # (x 0.5 s)
L R
5. Cerebral Blood Volume (CBV) weighted fMRI
In typical fMRI studies, neural activity induces BOLD signal increases. After the injection of contrast agents, negative signal changes were observed, mainly in tissue area. These changes are directly related to blood volume changes.
6. Representative average maps of seven scans
-10%
-1%
Left S1FL Right S1FL
ISI = 0ms
ISI = 40ms
ISI = 80ms
L R
Inte
nsi
ty
Image # (x 0.5 s)
Conclusions
1. The reproducible BOLD activation in S1 areas in this animal was not seen clearly. The reason can be that isoflurane reduces BOLD signal changes (T. Kim et al. 2010) at 1 Hz stimulation, which may not be detectable due to limited signal averaging.
T. Kim et al. / NeuroImage 52 (2010) 224–233
2. Subject physiology condition is very important for reproducible fMRI studies.
3. It is very important to understand the effect of anesthetic on hemodynamic responses for animal fMRI studies.
4. Contrast agents are very helpful for enhancing the MRI sensitivity.
Conclusions
What I have learned Rigorous examinations of fMRI data are essential.
It is very important to have a proper choice of the statistical methods.
Maintaining good physiological condition is very important for animal fMRI studies.
An active voxel may not necessarily mean that neuronal activity is present in that region, but may be due to artifacts including hemodynamic signals that do not exactly colocalize with the neuronal activity sites.
It is necessary to make more scans or more number of subjects to get the repeatable fMRI data.
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