NeuroImage: Clinical (Jan 2024)

Multi-tracer PET correlation analysis reveals disease-specific patterns in Parkinson’s disease and asymptomatic LRRK2 pathogenic variant carriers compared to healthy controls

  • Julia G. Mannheim,
  • Jessie Fanglu Fu,
  • Tilman Wegener,
  • Ivan S. Klyuzhin,
  • Nasim Vafai,
  • Elham Shahinfard,
  • Jessamyn McKenzie,
  • Audrey Strongosky,
  • Zbigniew K. Wszolek,
  • A. Jon Stoessl,
  • Vesna Sossi

Journal volume & issue
Vol. 42
p. 103600

Abstract

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Several genetic pathogenic variants increase the risk of Parkinson’s disease (PD) with pathogenic variants in the leucine-rich repeat kinase 2 (LRRK2) gene being among the most common. A joint pattern analysis based on multi-set canonical correlation analysis (MCCA) was utilized to extract PD and LRRK2 pathogenic variant-specific spatial patterns in relation to healthy controls (HCs) from multi-tracer Positron Emission Tomography (PET) data. Spatial patterns were extracted for individual subject cohorts, as well as for pooled subject cohorts, to explore whether complementary spatial patterns of dopaminergic denervation are different in the asymptomatic and symptomatic stages of PD. The MCCA results are also compared to the traditional univariate analysis, which serves as a reference.We identified PD-induced spatial distribution alterations common to DAT and VMAT2 in both asymptomatic LRRK2 pathogenic variant carriers and PD subjects. The inclusion of HCs in the analysis demonstrated that the dominant common PD-induced pattern is related to an overall dopaminergic terminal density denervation, followed by asymmetry and rostro-caudal gradient with deficits in the less affected side still being the best marker of disease progression.The analysis was able to capture a trend towards PD-related patterns in the LRRK2 pathogenic variant carrier cohort with increasing age in line with the known increased risk of this patient cohort to develop PD as they age. The advantage of this method thus resides in its ability to identify not only regional differences in tracer binding between groups, but also common disease-related alterations in the spatial distribution patterns of tracer binding, thus potentially capturing more complex aspects of disease induced alterations.

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