Bilateral Contributions of the Cerebellum to the Complex Motor Tasks on EPI fMRI.
- Author:
Eun Chul CHUNG
1
;
Eun Kyung YOUN
;
Young Rae LEE
;
Yoo Kyung KIM
;
Kee Duk PARK
Author Information
- Publication Type:Original Article
- Keywords: Brain, MR; Brain, function
- MeSH: Cerebellar Cortex; Cerebellum*; Fingers; Hand; Magnetic Resonance Imaging*; Motor Cortex
- From:Journal of the Korean Radiological Society 1999;40(1):1-6
- CountryRepublic of Korea
- Language:Korean
- Abstract: PURPOSE: To demonstrate activation signals within the cerebellar cortex and to determine the side of thecerebellar cortex eliciting activation signals in response to complex motor tasks, as seen on EPI fMRI MATERIALS AND METHODS: Seven right-handed subjects (M:F=3:4;mean age, 30.3 years) underwent repetitive finger appositionwith the dominant right hand. Using a 1.5T MRI scanner, EPI fMR images were obtained. MR parameters used for EPIfMRI were TR/TE/Flip angle : 0.96 msec/64 msec/90 degree, FOV 22cm, 128 X 128 matrix, 10 slices, 10mm thickness whilethose for SE T1 weighted localized images were TR/TE : 450/16, FOV 23cm, 256 X 256 matrix. The paradigm was threesets of alternate resting and moving fingers for six cycles, resulting in times of 360 seconds (10 slices X 15 EPIX 6 cycles = 900 images). Image processing involoved the use of a 200mHz Dual Pentium PC with homemade software.T-testing (p<0.005) and time series analysis were performed, and to verify the locations of activated regions,resulting images were analyzed in a color-coded overlay to reference T1-weighted spin echo coronal images.percentage change in signal intensity (PCSI) was calculated from the processed data. RESULTS: All normal subjectsshowed significant activation signals in both the contralateral (left) primary motor cortex (PCSI=3.12%+/-0.96) andipsilateral (right) cerebellar cortex (PCSI=3.09%+/-1.14). Signal activation was detected in the contralateralsupplemental motor area (2.91%+/-0.82), and motor activation in the anterior upper half of the contralateralcerebellum (PCSI=2.91%+/-0.69). The difference in activation signals between both sides of the cerebellar cortexwas not statistically significant. All data were matched with time-series analysis. CONCLUSION: Bilateralcerebellar activation is associated with unilateral complex finger movements, as seen on fMRI. This result maysupport the recent neurological observation that the cerebellum may exert bilateral effects on motor performance.
