Combined Perfusion and Diffusion-Weighted Magnetic Resonance Imaging in a Rat Model of Reversible Middle Cerebral Artery Occlusion

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Stroke. 1995;26:451-458

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MRI Scans
Transient Ischemic Attack

Combined Perfusion and Diffusion-Weighted Magnetic Resonance Imaging in a Rat Model of Reversible Middle Cerebral Artery Occlusion

Tomm B. Müller, MD; Olav Haraldseth, MD, PhD; Richard A. Jones, PhD; Giovanni Sebastiani, MSc; Fred Godtliebsen, PhD; Christian F. Lindboe, MD, PhD Geirmund Unsgård, MD, PhD

From the MR–Center, SINTEF/UNIMED (T.B.M., O.H., R.A.J.); the Department of Mathematical Sciences, The Norwegian Institute of Technology (G.S., F.G.); and the Departments of Pathology (C.F.L.) and Neurosurgery (G.U.), University Hospital of Trondheim, Trondheim, Norway.

Correspondence to Tomm B. Müller, MR–Center, SINTEF/UNIMED, N–7034 Trondheim, Norway.

Background and Purpose Diffusion-weighted imaging and dynamic first-passbolus tracking of susceptibility contrast agents (perfusion imaging)are two new magnetic resonance imaging techniques that offer thepossibility of early diagnosis of stroke. The present studywas performed to evaluate the diagnostic information derivedfrom these two methods in a rat model of temporary focal ischemia.

Methods Fifteen male Wistar rats were assigned to 45 (n=7) or120 minutes (n=8) of middle cerebral artery occlusion followedby reperfusion using the intraluminal filament technique. The diffusion-weightedimages were collected, and areas of hyperintensity were comparedwith histologically assessed areas of ischemic injury. The magneticresonance perfusion image series were postprocessed to producetopographic maps reflecting the maximum reduction in the signal obtainedduring the first passage of the contrast agent and the time delaybetween the arrival of the bolus and the point of maximum contrast-agenteffect.

Results Hyperintensity in diffusion-weighted images was demonstratedafter 30 minutes of middle cerebral artery occlusion and wasmainly expressed in the lateral caudoputamen and parts of thelower frontoparietal cortex. Reperfusion after 45 minutes of occlusionreduced the area of hyperintensity from 24.2% to 9.9% of hemisphericarea. In the group with 120 minutes of occlusion, the hyperintensearea increased from 24.4% to 29.1%. Relative to the nonischemichemisphere, the changes in the topographic maps of maximum signalreduction occurred in the lateral caudoputamen and adjacentlower neocortical areas. Increased time delay to maximum effect,however, was seen also in the upper frontoparietal cortex.

Conclusions Hyperintensity in diffusion-weighted images was reversibleafter 45 minutes but not after 120 minutes of middle cerebralartery occlusion. Analysis of the signal-reduction and time-delayparametric maps demonstrated regions of different perfusion changesin the ischemic hemisphere.

Key Words: cerebral ischemia, focal • magnetic resonance imaging • middle cerebral artery • rats

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