Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in Rats

Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in Rats

Background: Hyperthermia (HT) therapy still remains relatively unknown, in terms of both its biological and therapeutic effects. This work aims to analyze the effects of exposure to HT, such as that required in anti-tumor magnetic hyperthermia therapies, using metabolomic and serum parameters routin...

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Main Authors: Borja Herrero de la Parte, Mireia Irazola, Jorge Pérez-Muñoz, Irati Rodrigo, Sira Iturrizaga Correcher, Carmen Mar Medina, Kepa Castro, Nestor Etxebarria, Fernando Plazaola, Jose Ángel García, Ignacio García-Alonso, Jose Javier Echevarría-Uraga
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Nanomaterials
Subjects:
hyperthermia
liver function
metabolomics
animal model
liver metastases
Online Access:https://www.mdpi.com/2079-4991/11/5/1318
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spelling doaj-f4028e2ba8394241bd79ac0a97b579502021-06-01T00:16:14ZengMDPI AGNanomaterials2079-49912021-05-01111318131810.3390/nano11051318Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in RatsBorja Herrero de la Parte0Mireia Irazola1Jorge Pérez-Muñoz2Irati Rodrigo3Sira Iturrizaga Correcher4Carmen Mar Medina5Kepa Castro6Nestor Etxebarria7Fernando Plazaola8Jose Ángel García9Ignacio García-Alonso10Jose Javier Echevarría-Uraga11Department of Surgery and Radiology and Physical Medicine, University of The Basque Country, ES48940 Leioa, Biscay, SpainBiocruces Bizkaia Health Research Institute, ES48903 Barakaldo, Biscay, SpainBiocruces Bizkaia Health Research Institute, ES48903 Barakaldo, Biscay, SpainDepartment of Electricity and Electronics, University of The Basque Country, ES48940 Leioa, Biscay, SpainDepartment of Clinical Analyses, Osakidetza Basque Health Service, Galdakao-Usansolo Hospital, ES48960 Galdakao, Biscay, SpainDepartment of Clinical Analyses, Osakidetza Basque Health Service, Galdakao-Usansolo Hospital, ES48960 Galdakao, Biscay, SpainBiocruces Bizkaia Health Research Institute, ES48903 Barakaldo, Biscay, SpainBiocruces Bizkaia Health Research Institute, ES48903 Barakaldo, Biscay, SpainBiocruces Bizkaia Health Research Institute, ES48903 Barakaldo, Biscay, SpainBiocruces Bizkaia Health Research Institute, ES48903 Barakaldo, Biscay, SpainDepartment of Surgery and Radiology and Physical Medicine, University of The Basque Country, ES48940 Leioa, Biscay, SpainBiocruces Bizkaia Health Research Institute, ES48903 Barakaldo, Biscay, SpainBackground: Hyperthermia (HT) therapy still remains relatively unknown, in terms of both its biological and therapeutic effects. This work aims to analyze the effects of exposure to HT, such as that required in anti-tumor magnetic hyperthermia therapies, using metabolomic and serum parameters routinely analyzed in clinical practice. Methods: WAG/RigHsd rats were assigned to the different experimental groups needed to emulate all of the procedures involved in the treatment of liver metastases by HT. Twelve hours or ten days after the electromagnetic HT (606 kHz and 14 kA/m during 21 min), blood samples were retrieved and liver samples were obtained. 1H-nuclear-magnetic-resonance spectroscopy (1H-NMR) was used to search for possible diagnostic biomarkers of HT effects on the rat liver tissue. All of the data obtained from the hydrophilic fraction of the tissues were analyzed and modeled using chemometric tools. Results: Hepatic enzyme levels were significantly increased in animals that underwent hyperthermia after 12 h, but 10 d later they could not be detected anymore. The metabolomic profile (main metabolic differences were found in phosphatidylcholine, taurine, glucose, lactate and pyruvate, among others) also showed that the therapy significantly altered metabolism in the liver within 12 h (with two different patterns); however, those changes reverted to a control-profile pattern after 10 days. Conclusions: Magnetic hyperthermia could be considered as a safe therapy to treat liver metastases, since it does not induce irreversible physiological changes after application.https://www.mdpi.com/2079-4991/11/5/1318hyperthermialiver functionmetabolomicsanimal modelliver metastases
collection DOAJ
language English
format Article
sources DOAJ
author Borja Herrero de la Parte
Mireia Irazola
Jorge Pérez-Muñoz
Irati Rodrigo
Sira Iturrizaga Correcher
Carmen Mar Medina
Kepa Castro
Nestor Etxebarria
Fernando Plazaola
Jose Ángel García
Ignacio García-Alonso
Jose Javier Echevarría-Uraga
spellingShingle Borja Herrero de la Parte
Mireia Irazola
Jorge Pérez-Muñoz
Irati Rodrigo
Sira Iturrizaga Correcher
Carmen Mar Medina
Kepa Castro
Nestor Etxebarria
Fernando Plazaola
Jose Ángel García
Ignacio García-Alonso
Jose Javier Echevarría-Uraga
Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in Rats
Nanomaterials
hyperthermia
liver function
metabolomics
animal model
liver metastases
author_facet Borja Herrero de la Parte
Mireia Irazola
Jorge Pérez-Muñoz
Irati Rodrigo
Sira Iturrizaga Correcher
Carmen Mar Medina
Kepa Castro
Nestor Etxebarria
Fernando Plazaola
Jose Ángel García
Ignacio García-Alonso
Jose Javier Echevarría-Uraga
author_sort Borja Herrero de la Parte
title Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in Rats
title_short Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in Rats
title_full Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in Rats
title_fullStr Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in Rats
title_full_unstemmed Biochemical and Metabolomic Changes after Electromagnetic Hyperthermia Exposure to Treat Colorectal Cancer Liver Implants in Rats
title_sort biochemical and metabolomic changes after electromagnetic hyperthermia exposure to treat colorectal cancer liver implants in rats
publisher MDPI AG
series Nanomaterials
issn 2079-4991
publishDate 2021-05-01
description Background: Hyperthermia (HT) therapy still remains relatively unknown, in terms of both its biological and therapeutic effects. This work aims to analyze the effects of exposure to HT, such as that required in anti-tumor magnetic hyperthermia therapies, using metabolomic and serum parameters routinely analyzed in clinical practice. Methods: WAG/RigHsd rats were assigned to the different experimental groups needed to emulate all of the procedures involved in the treatment of liver metastases by HT. Twelve hours or ten days after the electromagnetic HT (606 kHz and 14 kA/m during 21 min), blood samples were retrieved and liver samples were obtained. 1H-nuclear-magnetic-resonance spectroscopy (1H-NMR) was used to search for possible diagnostic biomarkers of HT effects on the rat liver tissue. All of the data obtained from the hydrophilic fraction of the tissues were analyzed and modeled using chemometric tools. Results: Hepatic enzyme levels were significantly increased in animals that underwent hyperthermia after 12 h, but 10 d later they could not be detected anymore. The metabolomic profile (main metabolic differences were found in phosphatidylcholine, taurine, glucose, lactate and pyruvate, among others) also showed that the therapy significantly altered metabolism in the liver within 12 h (with two different patterns); however, those changes reverted to a control-profile pattern after 10 days. Conclusions: Magnetic hyperthermia could be considered as a safe therapy to treat liver metastases, since it does not induce irreversible physiological changes after application.
topic hyperthermia
liver function
metabolomics
animal model
liver metastases
url https://www.mdpi.com/2079-4991/11/5/1318
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