Steroid concentrations in plasma, whole blood and brain: Effects of saline perfusion to remove blood contamination from brain

Taves, Matthew D.; Schmidt, Kim L.; Ruhr, Ilan M.; Kapusta, Katarzyna; Prior, Nora H.; Soma, Kiran K.

doi:10.1371/journal.pone.0015727

Steroid concentrations in plasma, whole blood and brain: Effects of saline perfusion to remove blood contamination from brain

Taves, Matthew D.; Schmidt, Kim L.; Ruhr, Ilan M.; Kapusta, Katarzyna; Prior, Nora H.; Soma, Kiran K.

Authors

Matthew D. Taves

Kim L. Schmidt

Dr Ilan Ruhr I.M.Ruhr@salford.ac.uk
University Fellow

Katarzyna Kapusta

Nora H. Prior

Kiran K. Soma

Contributors

Ryan L. Earley
Editor

M.D. Taves
Other

K.L. Schmidt
Other

I.M. Ruhr
Other

K. Kapusta
Other

N.H. Prior
Other

K.K. Soma
Other

Abstract

The brain and other organs locally synthesize steroids. Local synthesis is suggested when steroid levels are higher in tissue than in the circulation. However, measurement of both circulating and tissue steroid levels are subject to methodological considerations. For example, plasma samples are commonly used to estimate circulating steroid levels in whole blood, but steroid levels in plasma and whole blood could differ. In addition, tissue steroid measurements might be affected by blood contamination, which can be addressed experimentally by using saline perfusion to remove blood. In Study 1, we measured corticosterone and testosterone (T) levels in zebra finch (Taeniopygia guttata) plasma, whole blood, and red blood cells (RBC). We also compared corticosterone in plasma, whole blood, and RBC at baseline and after 60 min restraint stress. In Study 2, we quantified corticosterone, dehydroepiandrosterone (DHEA), T, and 17β-estradiol (E2) levels in the brains of sham-perfused or saline-perfused subjects. In Study 1, corticosterone and T concentrations were highest in plasma, significantly lower in whole blood, and lowest in RBC. In Study 2, saline perfusion unexpectedly increased corticosterone levels in the rostral telencephalon but not other regions. In contrast, saline perfusion decreased DHEA levels in caudal telencephalon and diencephalon. Saline perfusion also increased E2 levels in caudal telencephalon. In summary, when comparing local and systemic steroid levels, the inclusion of whole blood samples should prove useful. Moreover, blood contamination has little or no effect on measurement of brain steroid levels, suggesting that saline perfusion is not necessary prior to brain collection. Indeed, saline perfusion itself may elevate and lower steroid concentrations in a rapid, region-specific manner.

Journal Article Type	Article
Acceptance Date	Nov 21, 2010
Online Publication Date	Dec 29, 2010
Publication Date	2010
Deposit Date	Jun 11, 2025
Publicly Available Date	Jun 12, 2025
Journal	PLoS ONE
Electronic ISSN	1932-6203
Publisher	Public Library of Science
Peer Reviewed	Peer Reviewed
Volume	5
Issue	12
Article Number	e15727
DOI	https://doi.org/10.1371/journal.pone.0015727