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Chinese Journal of Neuromedicine ; (12): 128-132, 2010.
Artículo en Chino | WPRIM | ID: wpr-1032937

RESUMEN

Objective To map the vision cortex of rats by dynamic manganese-enhanced functional magnetic resonance imaging and provide a method for researching the nervous function. Methods Six adult male Wistar rats were chosen and the process was divided into 4 continuous phases. No agent was injected into the rats in the first phase (5 min). Disrupting the BBB with marmitol and injecting manganese chloride were performed in the fight internal carotid artery (ICA) in the second phase (10 min). In the third phase (15 min), manganese chloride was administrated into theright ICA and vision stimulation was performed before the imaging process. The mixed liquor of manganese chloride and glutamate was injected into the rats in the forth phase (5 min). MRI was performed instantly after the handles in each phase. SPM and Matlab software were employed to help analyze the imaging data. Region-of-interest (ROI) was recorded to observe the stimulated regions and compare the signal intensity in the visual cortex. Results No specific enhanced region was found in the rat brain in the first and second phases. The right visual cortex was enhanced specifically on T1WI in the third phase. Many brain regions of the right hemisphere, the sites that agents was injected, were obviously enhanced in the forth 2008A1-E4011)phase. ROI analysis showed that the signal intensity in the third phrase (1.897±0.172) was significantly stronger as compared with that in the second phrase(1.549±0.163)(P<0.05). Conclusion The dynamic manganese-enhanced functional magnetic resonance imaging can analyze the functional activities of the vision cortex in rats and provide a new method for researching the function of the nervous system.

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