Hypoxia Imaging Using PET and SPECT: The Effects of Anesthetic and Carrier Gas on [(64)Cu]-ATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO Tumor Hypoxia Accumulation

BACKGROUND: Preclinical imaging requires anaesthesia to reduce motion-related artefacts. For direct translational relevance, anaesthesia must not significantly alter experimental outcome. This study reports on the effects of both anaesthetic and carrier gas upon the uptake of [(64)Cu]-CuATSM, [(99m)...

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Autores principales: Kersemans, Veerle, Cornelissen, Bart, Hueting, Rebekka, Tredwell, Matthew, Hussien, Kamila, Allen, Philip D., Falzone, Nadia, Hill, Sally A., Dilworth, Jonathan R., Gouverneur, Veronique, Muschel, Ruth J., Smart, Sean C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3216951/
https://www.ncbi.nlm.nih.gov/pubmed/22102855
http://dx.doi.org/10.1371/journal.pone.0025911
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author Kersemans, Veerle
Cornelissen, Bart
Hueting, Rebekka
Tredwell, Matthew
Hussien, Kamila
Allen, Philip D.
Falzone, Nadia
Hill, Sally A.
Dilworth, Jonathan R.
Gouverneur, Veronique
Muschel, Ruth J.
Smart, Sean C.
author_facet Kersemans, Veerle
Cornelissen, Bart
Hueting, Rebekka
Tredwell, Matthew
Hussien, Kamila
Allen, Philip D.
Falzone, Nadia
Hill, Sally A.
Dilworth, Jonathan R.
Gouverneur, Veronique
Muschel, Ruth J.
Smart, Sean C.
author_sort Kersemans, Veerle
collection PubMed
description BACKGROUND: Preclinical imaging requires anaesthesia to reduce motion-related artefacts. For direct translational relevance, anaesthesia must not significantly alter experimental outcome. This study reports on the effects of both anaesthetic and carrier gas upon the uptake of [(64)Cu]-CuATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO in a preclinical model of tumor hypoxia. METHODOLOGY/PRINCIPAL FINDINGS: The effect of carrier gas and anaesthetic was studied in 6 groups of CaNT-bearing CBA mice using [(64)Cu]-CuATSM, [(99m)Tc]-HL91 or [(18)F]-FMISO. Mice were anaesthetised with isoflurane in air, isoflurane in pure oxygen, with ketamine/xylazine or hypnorm/hypnovel whilst breathing air, or in the awake state whilst breathing air or pure oxygen. PET or SPECT imaging was performed after which the mice were killed for organ/tumor tracer quantitation. Tumor hypoxia was confirmed. Arterial blood gas analysis was performed for the different anaesthetic regimes. The results demonstrate marked influences on tumor uptake of both carrier gas and anaesthetic, and show differences between [(99m)Tc]-HL91, [(18)F]-FMISO and [(64)Cu]-CuATSM. [(99m)Tc]-HL91 tumor uptake was only altered significantly by administration of 100% oxygen. The latter was not the case for [(18)F]-FMISO and [(64)Cu]-CuATSM. Tumor-to-muscle ratio (TMR) for both compounds was reduced significantly when either oxygen or anaesthetics (isoflurane in air, ketamine/xylazine or hypnorm/hypnovel) were introduced. For [(18)F]-FMISO no further decrease was measured when both isoflurane and oxygen were administered, [(64)Cu]-CuATSM did show an additional significant decrease in TMR. When using the same anaesthetic regimes, the extent of TMR reduction was less pronounced for [(64)Cu]-CuATSM than for [(18)F]-FMISO (40–60% versus 70% reduction as compared to awake animals breathing air). CONCLUSIONS/SIGNIFICANCE: The use of anaesthesia can have profound effects on the experimental outcome. More importantly, all tested anaesthetics reduced tumor-hypoxia uptake. Anaesthesia cannot be avoided in preclinical studies but great care has to be taken in preclinical models of hypoxia as anaesthesia effects cannot be generalised across applications, nor disease states.
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spelling pubmed-32169512011-11-18 Hypoxia Imaging Using PET and SPECT: The Effects of Anesthetic and Carrier Gas on [(64)Cu]-ATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO Tumor Hypoxia Accumulation Kersemans, Veerle Cornelissen, Bart Hueting, Rebekka Tredwell, Matthew Hussien, Kamila Allen, Philip D. Falzone, Nadia Hill, Sally A. Dilworth, Jonathan R. Gouverneur, Veronique Muschel, Ruth J. Smart, Sean C. PLoS One Research Article BACKGROUND: Preclinical imaging requires anaesthesia to reduce motion-related artefacts. For direct translational relevance, anaesthesia must not significantly alter experimental outcome. This study reports on the effects of both anaesthetic and carrier gas upon the uptake of [(64)Cu]-CuATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO in a preclinical model of tumor hypoxia. METHODOLOGY/PRINCIPAL FINDINGS: The effect of carrier gas and anaesthetic was studied in 6 groups of CaNT-bearing CBA mice using [(64)Cu]-CuATSM, [(99m)Tc]-HL91 or [(18)F]-FMISO. Mice were anaesthetised with isoflurane in air, isoflurane in pure oxygen, with ketamine/xylazine or hypnorm/hypnovel whilst breathing air, or in the awake state whilst breathing air or pure oxygen. PET or SPECT imaging was performed after which the mice were killed for organ/tumor tracer quantitation. Tumor hypoxia was confirmed. Arterial blood gas analysis was performed for the different anaesthetic regimes. The results demonstrate marked influences on tumor uptake of both carrier gas and anaesthetic, and show differences between [(99m)Tc]-HL91, [(18)F]-FMISO and [(64)Cu]-CuATSM. [(99m)Tc]-HL91 tumor uptake was only altered significantly by administration of 100% oxygen. The latter was not the case for [(18)F]-FMISO and [(64)Cu]-CuATSM. Tumor-to-muscle ratio (TMR) for both compounds was reduced significantly when either oxygen or anaesthetics (isoflurane in air, ketamine/xylazine or hypnorm/hypnovel) were introduced. For [(18)F]-FMISO no further decrease was measured when both isoflurane and oxygen were administered, [(64)Cu]-CuATSM did show an additional significant decrease in TMR. When using the same anaesthetic regimes, the extent of TMR reduction was less pronounced for [(64)Cu]-CuATSM than for [(18)F]-FMISO (40–60% versus 70% reduction as compared to awake animals breathing air). CONCLUSIONS/SIGNIFICANCE: The use of anaesthesia can have profound effects on the experimental outcome. More importantly, all tested anaesthetics reduced tumor-hypoxia uptake. Anaesthesia cannot be avoided in preclinical studies but great care has to be taken in preclinical models of hypoxia as anaesthesia effects cannot be generalised across applications, nor disease states. Public Library of Science 2011-11-15 /pmc/articles/PMC3216951/ /pubmed/22102855 http://dx.doi.org/10.1371/journal.pone.0025911 Text en Kersemans et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Kersemans, Veerle
Cornelissen, Bart
Hueting, Rebekka
Tredwell, Matthew
Hussien, Kamila
Allen, Philip D.
Falzone, Nadia
Hill, Sally A.
Dilworth, Jonathan R.
Gouverneur, Veronique
Muschel, Ruth J.
Smart, Sean C.
Hypoxia Imaging Using PET and SPECT: The Effects of Anesthetic and Carrier Gas on [(64)Cu]-ATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO Tumor Hypoxia Accumulation
title Hypoxia Imaging Using PET and SPECT: The Effects of Anesthetic and Carrier Gas on [(64)Cu]-ATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO Tumor Hypoxia Accumulation
title_full Hypoxia Imaging Using PET and SPECT: The Effects of Anesthetic and Carrier Gas on [(64)Cu]-ATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO Tumor Hypoxia Accumulation
title_fullStr Hypoxia Imaging Using PET and SPECT: The Effects of Anesthetic and Carrier Gas on [(64)Cu]-ATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO Tumor Hypoxia Accumulation
title_full_unstemmed Hypoxia Imaging Using PET and SPECT: The Effects of Anesthetic and Carrier Gas on [(64)Cu]-ATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO Tumor Hypoxia Accumulation
title_short Hypoxia Imaging Using PET and SPECT: The Effects of Anesthetic and Carrier Gas on [(64)Cu]-ATSM, [(99m)Tc]-HL91 and [(18)F]-FMISO Tumor Hypoxia Accumulation
title_sort hypoxia imaging using pet and spect: the effects of anesthetic and carrier gas on [(64)cu]-atsm, [(99m)tc]-hl91 and [(18)f]-fmiso tumor hypoxia accumulation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3216951/
https://www.ncbi.nlm.nih.gov/pubmed/22102855
http://dx.doi.org/10.1371/journal.pone.0025911
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