Scientific Reports (Sep 2022)

Longitudinal analyses of serum neurofilament light and associations with obesity indices and bioelectrical impedance parameters

  • Marco Hermesdorf,
  • David Leppert,
  • Aleksandra Maceski,
  • Pascal Benkert,
  • Jürgen Wellmann,
  • Heinz Wiendl,
  • Jens Kuhle,
  • Klaus Berger

DOI
https://doi.org/10.1038/s41598-022-20398-y
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 8

Abstract

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Abstract Neurofilament light is a constituent of the neuronal cytoskeleton and released into the blood following neuro-axonal damage. It has previously been reported that NfL measured in blood serum is inversely related to body mass index. However, no reports exist with regard to body composition assessed using bioelectrical impedance analysis or other indicators of obesity beyond BMI. We analyzed the relationship between sNfL and body composition according to the three compartment model. Additionally, associations between sNfL, body shape index, waist-to-height ratio, and BMI were examined. The sample consisted of 769 participants assessed during the baseline examination and 693 participants examined in the course of the follow-up of the BiDirect Study. Associations between sNfL, BMI, BSI, and WtHR were separately analyzed using linear mixed models. Body compartments operationalized as fat mass, extracellular cell mass, and body cell mass were derived using BIA and the relationship with sNfL was analyzed with a linear mixed model. Lastly, we also analyzed the association between total body water and sNfL. We found significant inverse associations of sNfL with BMI and WtHR. The analysis of the three compartment model yielded significant inverse associations between sNfL, body cell mass and body fat mass, but not extracellular mass. Furthermore, total body water was also inversely related to sNfL. A potential mechanism could involve body cell mass and body fat mass as highly adaptive body constituents that either directly absorb sNfL, or promote the formation of new vasculature and thereby increase blood volume.