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In vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of FOLFOX

In vivo lung perfusion (IVLP) is a novel isolated lung technique developed to enable the local, in situ administration of high-dose chemotherapy to treat metastatic lung cancer. Combination therapy using folinic acid (FOL), 5-fluorouracil (F), and oxaliplatin (OX) (FOLFOX) is routinely employed to t...

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Autores principales: Looby, Nikita, Roszkowska, Anna, Yu, Miao, Rios-Gomez, German, Pipkin, Mauricio, Bojko, Barbara, Cypel, Marcelo, Pawliszyn, Janusz
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Xi'an Jiaotong University 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10657970/
https://www.ncbi.nlm.nih.gov/pubmed/38024854
http://dx.doi.org/10.1016/j.jpha.2023.04.005
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author Looby, Nikita
Roszkowska, Anna
Yu, Miao
Rios-Gomez, German
Pipkin, Mauricio
Bojko, Barbara
Cypel, Marcelo
Pawliszyn, Janusz
author_facet Looby, Nikita
Roszkowska, Anna
Yu, Miao
Rios-Gomez, German
Pipkin, Mauricio
Bojko, Barbara
Cypel, Marcelo
Pawliszyn, Janusz
author_sort Looby, Nikita
collection PubMed
description In vivo lung perfusion (IVLP) is a novel isolated lung technique developed to enable the local, in situ administration of high-dose chemotherapy to treat metastatic lung cancer. Combination therapy using folinic acid (FOL), 5-fluorouracil (F), and oxaliplatin (OX) (FOLFOX) is routinely employed to treat several types of solid tumours in various tissues. However, F is characterized by large interpatient variability with respect to plasma concentration, which necessitates close monitoring during treatments using of this compound. Since plasma drug concentrations often do not reflect tissue drug concentrations, it is essential to utilize sample-preparation methods specifically suited to monitoring drug levels in target organs. In this work, in vivo solid-phase microextraction (in vivo SPME) is proposed as an effective tool for quantitative therapeutic drug monitoring of FOLFOX in porcine lungs during pre-clinical IVLP and intravenous (IV) trials. The concomitant extraction of other endogenous and exogenous small molecules from the lung and their detection via liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS) enabled an assessment of FOLFOX's impact on the metabolomic profile of the lung and revealed the metabolic pathways associated with the route of administration (IVLP vs. IV) and the therapy itself. This study also shows that the immediate instrumental analysis of metabolomic samples is ideal, as long-term storage at −80 °C results in changes in the metabolite content in the sample extracts.
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spelling pubmed-106579702023-04-12 In vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of FOLFOX Looby, Nikita Roszkowska, Anna Yu, Miao Rios-Gomez, German Pipkin, Mauricio Bojko, Barbara Cypel, Marcelo Pawliszyn, Janusz J Pharm Anal Original Article In vivo lung perfusion (IVLP) is a novel isolated lung technique developed to enable the local, in situ administration of high-dose chemotherapy to treat metastatic lung cancer. Combination therapy using folinic acid (FOL), 5-fluorouracil (F), and oxaliplatin (OX) (FOLFOX) is routinely employed to treat several types of solid tumours in various tissues. However, F is characterized by large interpatient variability with respect to plasma concentration, which necessitates close monitoring during treatments using of this compound. Since plasma drug concentrations often do not reflect tissue drug concentrations, it is essential to utilize sample-preparation methods specifically suited to monitoring drug levels in target organs. In this work, in vivo solid-phase microextraction (in vivo SPME) is proposed as an effective tool for quantitative therapeutic drug monitoring of FOLFOX in porcine lungs during pre-clinical IVLP and intravenous (IV) trials. The concomitant extraction of other endogenous and exogenous small molecules from the lung and their detection via liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS) enabled an assessment of FOLFOX's impact on the metabolomic profile of the lung and revealed the metabolic pathways associated with the route of administration (IVLP vs. IV) and the therapy itself. This study also shows that the immediate instrumental analysis of metabolomic samples is ideal, as long-term storage at −80 °C results in changes in the metabolite content in the sample extracts. Xi'an Jiaotong University 2023-10 2023-04-12 /pmc/articles/PMC10657970/ /pubmed/38024854 http://dx.doi.org/10.1016/j.jpha.2023.04.005 Text en © 2023 The Author(s) https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Original Article
Looby, Nikita
Roszkowska, Anna
Yu, Miao
Rios-Gomez, German
Pipkin, Mauricio
Bojko, Barbara
Cypel, Marcelo
Pawliszyn, Janusz
In vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of FOLFOX
title In vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of FOLFOX
title_full In vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of FOLFOX
title_fullStr In vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of FOLFOX
title_full_unstemmed In vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of FOLFOX
title_short In vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of FOLFOX
title_sort in vivo solid phase microextraction for therapeutic monitoring and pharmacometabolomic fingerprinting of lung during in vivo lung perfusion of folfox
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10657970/
https://www.ncbi.nlm.nih.gov/pubmed/38024854
http://dx.doi.org/10.1016/j.jpha.2023.04.005
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