Abstract

<p><strong>Objective</strong> &ndash; Stroke-like lesions (SLLs) are pathognomonic for mitochondrial ence&shy;pha&shy;lopathy, lactic acidosis, and stroke-like episodes (MELAS) syndrome but occur in other mitochondrial and non-mitochondrial disorders as well. This mini-review aims at summarising and discussing recent findings to open up future perspectives how to manage this fleeting phenomenon.<br><strong>Results </strong>&ndash;<strong> </strong>Typically, SLLs are dynamic lesions, which increase in size and intensity to regress after a nadir. SLLs are incongruent with a vascular territory, originate frequently from the cortex to spread subcortically, can be monofocal or multifocal, run through an acute (attack) and chronic (remission) stage, and may either completely disappear or end up as laminar cortical necrosis, white matter lesion, subcortical atrophy, cyst, or the toenail sign. On cerebral CT, SLLs are hypodense. SLLs can be best visualized on multimodal MRI showing up as hyperintensity on T2, FLAIR, DWI, and PWI, and as hypointensity on OEF-MRI. On MR-spectroscopy, SLLs typically present with a decreased N-acetyl-aspartate peak and an increased lactate peak. DTI in acute SLLs reveals reduced connectivity, increased global efficiency, and reduced focal efficiency. Tc-HMPAO SPECT of SLLs indicates hyperperfusion and L-iomazenil SPECT reduced tracer uptake. FDG-PET typically shows hypometabolism within a SLL.<br><strong>Conclusion</strong> &ndash; SLLs present with typical findings on various imaging modalities but the combination of cerebral CT, multimodal MRI, MRS, and PET clearly delineate a SLL from other acute or chronic cerebral lesions.&nbsp;</p>.

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