Scientific Reports (Mar 2021)

Position sensitive measurement of trace lithium in the brain with NIK (neutron-induced coincidence method) in suicide

  • J. Schoepfer,
  • R. Gernhäuser,
  • S. Lichtinger,
  • A. Stöver,
  • M. Bendel,
  • C. Delbridge,
  • T. Widmann,
  • S. Winkler,
  • M. Graw

DOI
https://doi.org/10.1038/s41598-021-86377-x
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 13

Abstract

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Abstract Mood disorder is the leading intrinsic risk factor for suicidal ideation. Questioning any potency of mood-stabilizers, the monovalent cation lithium still holds the throne in medical psychiatric treatment. Furthermore, lithium`s anti-aggressive and suicide-preventive capacity in clinical practice is well established. But little is still known about trace lithium distribution and any associated metabolic effects in the human body. We applied a new technique (neutron-induced coincidence method “NIK”) utilizing the 6Li(n,α)3H reaction for the position sensitive, 3D spatially resolved detection of lithium traces in post-mortem human brain tissue in suicide versus control. NIK allowed, for the first time in lithium research, to collect a three dimensional high resolution map of the regional trace lithium content in the non lithium-medicated human brain. The results show an anisotropic distribution of lithium, thus indicating a homeostatic regulation under physiological conditions as a remarkable link to essentiality. In contrast to suicide we could empirically prove significantly higher endogenous lithium concentrations in white compared to gray matter as a general trend in non-suicidal individuals and lower lithium concentrations in emotion-modulating regions in suicide.