Oxygenation measurement by multi-wavelength oxygen-dependent phosphorescence and delayed fluorescence: catchment depth and application in intact heart

Gianmarco M. Balestra; Maurice C. G. Aalders; Patricia A. C. Specht; Can Ince; Egbert G. Mik

doi:10.1002/jbio.201400054

Oxygenation measurement by multi-wavelength oxygen-dependent phosphorescence and delayed fluorescence: catchment depth and application in intact heart

Gianmarco M. Balestra
, Maurice C. G. Aalders
, Patricia A. C. Specht
, Can Ince
, Egbert G. Mik

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Oxygen delivery and metabolism represent key factors for organ function in health and disease. We describe the optical key characteristics of a technique to comprehensively measure oxygen tension (PO(2)) in myocardium, using oxygen-dependent quenching of phosphorescence and delayed fluorescence of porphyrins, by means of Monte Carlo simulations and ex vivo experiments. Oxyphor G2 (microvascular PO(2)) was excited at 442 nm and 632 nm and protoporphyrin IX (mitochondrial PO(2)) at 510 nm. This resulted in catchment depths of 161 (86) µm, 350 (307) µm and 262 (255) µm respectively, as estimated by Monte Carlo simulations and ex vivo experiments (brackets). The feasibility to detect changes in oxygenation within separate anatomical compartments is demonstrated in rat heart in vivo. Schematic of ex vivo measurements

Original language	English
Pages (from-to)	615-628
Journal	Journal of biophotonics
Volume	8
Issue number	8
DOIs	https://doi.org/10.1002/jbio.201400054
Publication status	Published - 2015

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@article{1f8e9370bde74e708fb4003a786fa219,

title = "Oxygenation measurement by multi-wavelength oxygen-dependent phosphorescence and delayed fluorescence: catchment depth and application in intact heart",

abstract = "Oxygen delivery and metabolism represent key factors for organ function in health and disease. We describe the optical key characteristics of a technique to comprehensively measure oxygen tension (PO(2)) in myocardium, using oxygen-dependent quenching of phosphorescence and delayed fluorescence of porphyrins, by means of Monte Carlo simulations and ex vivo experiments. Oxyphor G2 (microvascular PO(2)) was excited at 442 nm and 632 nm and protoporphyrin IX (mitochondrial PO(2)) at 510 nm. This resulted in catchment depths of 161 (86) µm, 350 (307) µm and 262 (255) µm respectively, as estimated by Monte Carlo simulations and ex vivo experiments (brackets). The feasibility to detect changes in oxygenation within separate anatomical compartments is demonstrated in rat heart in vivo. Schematic of ex vivo measurements",

author = "Balestra, \{Gianmarco M.\} and Aalders, \{Maurice C. G.\} and Specht, \{Patricia A. C.\} and Can Ince and Mik, \{Egbert G.\}",

year = "2015",

doi = "10.1002/jbio.201400054",

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volume = "8",

pages = "615--628",

journal = "Journal of biophotonics",

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publisher = "Wiley-VCH Verlag",

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Oxygenation measurement by multi-wavelength oxygen-dependent phosphorescence and delayed fluorescence: catchment depth and application in intact heart. / Balestra, Gianmarco M.; Aalders, Maurice C. G.; Specht, Patricia A. C. et al.
In: Journal of biophotonics, Vol. 8, No. 8, 2015, p. 615-628.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Oxygenation measurement by multi-wavelength oxygen-dependent phosphorescence and delayed fluorescence: catchment depth and application in intact heart

AU - Balestra, Gianmarco M.

AU - Aalders, Maurice C. G.

AU - Specht, Patricia A. C.

AU - Ince, Can

AU - Mik, Egbert G.

PY - 2015

Y1 - 2015

N2 - Oxygen delivery and metabolism represent key factors for organ function in health and disease. We describe the optical key characteristics of a technique to comprehensively measure oxygen tension (PO(2)) in myocardium, using oxygen-dependent quenching of phosphorescence and delayed fluorescence of porphyrins, by means of Monte Carlo simulations and ex vivo experiments. Oxyphor G2 (microvascular PO(2)) was excited at 442 nm and 632 nm and protoporphyrin IX (mitochondrial PO(2)) at 510 nm. This resulted in catchment depths of 161 (86) µm, 350 (307) µm and 262 (255) µm respectively, as estimated by Monte Carlo simulations and ex vivo experiments (brackets). The feasibility to detect changes in oxygenation within separate anatomical compartments is demonstrated in rat heart in vivo. Schematic of ex vivo measurements

AB - Oxygen delivery and metabolism represent key factors for organ function in health and disease. We describe the optical key characteristics of a technique to comprehensively measure oxygen tension (PO(2)) in myocardium, using oxygen-dependent quenching of phosphorescence and delayed fluorescence of porphyrins, by means of Monte Carlo simulations and ex vivo experiments. Oxyphor G2 (microvascular PO(2)) was excited at 442 nm and 632 nm and protoporphyrin IX (mitochondrial PO(2)) at 510 nm. This resulted in catchment depths of 161 (86) µm, 350 (307) µm and 262 (255) µm respectively, as estimated by Monte Carlo simulations and ex vivo experiments (brackets). The feasibility to detect changes in oxygenation within separate anatomical compartments is demonstrated in rat heart in vivo. Schematic of ex vivo measurements

U2 - 10.1002/jbio.201400054

DO - 10.1002/jbio.201400054

M3 - Article

C2 - 25250821

SN - 1864-063X

VL - 8

SP - 615

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JO - Journal of biophotonics

JF - Journal of biophotonics

IS - 8

ER -

Oxygenation measurement by multi-wavelength oxygen-dependent phosphorescence and delayed fluorescence: catchment depth and application in intact heart

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