Amygdala sign, a FDG-PET signature of dementia with Lewy Bodies

Abstract Background Biomarkers are being used increasingly to support the diagnosis of dementia with Lewy bodies (DLB). Novel biomarkers that increase diagnostic specificity of DLB are needed. We assessed previously known FDG-PET occipital cortex hypometabolism, and cingulate island sign biomarkers of DLB against a novel amygdala signature. Methods Retrospective analysis of 49 patients evaluated at one tertiary memory clinic. All had a FDG-PET brain scan performed as part of their diagnostic work up evaluating three common neurodegenerative etiologies: Alzheimer dementia (AD), Frontotemporal dementia (FTD) and DLB. A consensus diagnosis of dementia was made based on accepted clinical criteria for AD, FTD and DLB. FDG-PET regional metabolism was delineated by automatic segmentation as well as manual tracing of amygdala and posterior cingulate volumes of interest. Mean normalized values calculated for regional FDG-PET signatures of DLB: occipital cortex hypometabolism and preservation of posterior cingulate and amygdala metabolism relative to whole brain metabolism were evaluated. Results Significant overlap between DLB and AD patients (occipital, parietal, temporal and frontal hypometabolism) and between DLB and FTD (frontal hypometabolism and the posterior cingulate sign) were identified. Right amygdala (p = 0.028) and right posterior cingulate (p = 0.035) mean normalized regional metabolism levels were preserved in DLB compared to AD. Among subjects at less advanced stages of dementia (MoCA>10), relative preservation of regional metabolism was notable across both left (p = 0.006) and right (p = 0.020) amygdala. Conclusion Relative preservation of amygdala metabolism could complement previously described FDG-PET findings in earlier stages of DLB.