Journal article
Renal microvascular oxygen tension during hyperoxia and acute hemodilution assessed by phosphorescence quenching and excitation with blue and red light
K Chin, MP Cazorla-Bak, E Liu, L Nghiem, Y Zhang, J Yu, DF Wilson, SA Vinogradov, RE Gilbert, KA Connelly, RG Evans, AJ Baker, C David Mazer, GMT Hare
Canadian Journal of Anesthesia | SPRINGER | Published : 2021
Abstract
Purpose: The kidney plays a central physiologic role as an oxygen sensor. Nevertheless, the direct mechanism by which this occurs is incompletely understood. We measured renal microvascular partial pressure of oxygen (PkO2) to determine the impact of clinically relevant conditions that acutely change PkO2 including hyperoxia and hemodilution. Methods: We utilized two-wavelength excitation (red and blue spectrum) of the intravascular phosphorescent oxygen sensitive probe Oxyphor PdG4 to measure renal tissue PO2 in anesthetized rats (2% isoflurane, n = 6) under two conditions of altered arterial blood oxygen content (CaO2): 1) hyperoxia (fractional inspired oxygen 21%, 30%, and 50%) and 2) acu..
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Funding Acknowledgements
Support for this study was provided by the Innovation Fund, St. Michael's Hospital (to G.M.T. Hare), University of Toronto Merit Awards (to A.J. Baker, C.D. Mazer, K.A. Connelly and G.M.T. Hare). R.E. Gilbert holds a Canada Research Chair and this study was made possible by the Canada Research Chair's fund.