The Evaluation of Melatonin Effect Against The Early Effect of Ionizing Radiation Induced Lung Injury

Background & Objective: Lung is a radiosensitive organ. Patients who are undergoing radiation therapy in their chest are subjected to radiation pneumonitis in the early phase and pulmonary fibrosis in the late one. Melatonin scavenges free radicals directly and acts as an indirect antioxidant th...

Full description

Bibliographic Details
Main Authors: raziyeh tahamtan, gholam hassan haddadi, ali reza tavassoli
Format: Article
Language:English
Published: Fasa University of Medical Sciences 2014-05-01
Series:Journal of Advanced Biomedical Sciences
Subjects:
Online Access:http://jabs.fums.ac.ir/article-1-351-en.pdf
_version_ 1797679710864408576
author raziyeh tahamtan
gholam hassan haddadi
ali reza tavassoli
author_facet raziyeh tahamtan
gholam hassan haddadi
ali reza tavassoli
author_sort raziyeh tahamtan
collection DOAJ
description Background & Objective: Lung is a radiosensitive organ. Patients who are undergoing radiation therapy in their chest are subjected to radiation pneumonitis in the early phase and pulmonary fibrosis in the late one. Melatonin scavenges free radicals directly and acts as an indirect antioxidant through the activation of major antioxidant enzymes as well. The aim of the study thus is to investigate the effect of melatonin against the early damages in irradiated lungs. Materials & methods: Male wistar rats were divided into five groups: the first group was considered as the control group. Both the second and the third group received 100 mg/kg melatonin intraorally however, the latter one underwent through 18Gy radiotherapy as well. The fourth group underwent through 18Gy radiotherapy in their chests. After 48 hours, all of the rats were killed for histhopathological evaluation. Results: the results indicated that radiation increases the collapse and fibrosis and cause the abundance of macrophage compared to control group (p<0.05). Oral administration of melatonin before radiation therapy significantly increased the lymphocyte and macrophage frequency (p<0.001) and decreased the RBC (p<0.05) frequency compared to the radiation group. Conclusion: According to the results, melatonin can prevent early damages in irradiated lungs. Free radicals cause cytotoxicity and melatonin can directly decrease the radiation induced cell damages by converting the free radicals to non- toxic compounds and also through the activation of the major antioxidant enzymes.
first_indexed 2024-03-11T23:18:50Z
format Article
id doaj.art-ad79dd01c5864f9ab2ad643c86fff3f8
institution Directory Open Access Journal
issn 2228-5105
2783-1523
language English
last_indexed 2024-03-11T23:18:50Z
publishDate 2014-05-01
publisher Fasa University of Medical Sciences
record_format Article
series Journal of Advanced Biomedical Sciences
spelling doaj.art-ad79dd01c5864f9ab2ad643c86fff3f82023-09-20T21:17:19ZengFasa University of Medical SciencesJournal of Advanced Biomedical Sciences2228-51052783-15232014-05-0141120126The Evaluation of Melatonin Effect Against The Early Effect of Ionizing Radiation Induced Lung Injuryraziyeh tahamtan0gholam hassan haddadi1ali reza tavassoli2 Babol University of Medical Sciences Fasa University of Medical sciences Fasa University of Medical sciences Background & Objective: Lung is a radiosensitive organ. Patients who are undergoing radiation therapy in their chest are subjected to radiation pneumonitis in the early phase and pulmonary fibrosis in the late one. Melatonin scavenges free radicals directly and acts as an indirect antioxidant through the activation of major antioxidant enzymes as well. The aim of the study thus is to investigate the effect of melatonin against the early damages in irradiated lungs. Materials & methods: Male wistar rats were divided into five groups: the first group was considered as the control group. Both the second and the third group received 100 mg/kg melatonin intraorally however, the latter one underwent through 18Gy radiotherapy as well. The fourth group underwent through 18Gy radiotherapy in their chests. After 48 hours, all of the rats were killed for histhopathological evaluation. Results: the results indicated that radiation increases the collapse and fibrosis and cause the abundance of macrophage compared to control group (p<0.05). Oral administration of melatonin before radiation therapy significantly increased the lymphocyte and macrophage frequency (p<0.001) and decreased the RBC (p<0.05) frequency compared to the radiation group. Conclusion: According to the results, melatonin can prevent early damages in irradiated lungs. Free radicals cause cytotoxicity and melatonin can directly decrease the radiation induced cell damages by converting the free radicals to non- toxic compounds and also through the activation of the major antioxidant enzymes.http://jabs.fums.ac.ir/article-1-351-en.pdfmelatoninionizing radiationradiation pneumonia.
spellingShingle raziyeh tahamtan
gholam hassan haddadi
ali reza tavassoli
The Evaluation of Melatonin Effect Against The Early Effect of Ionizing Radiation Induced Lung Injury
Journal of Advanced Biomedical Sciences
melatonin
ionizing radiation
radiation pneumonia.
title The Evaluation of Melatonin Effect Against The Early Effect of Ionizing Radiation Induced Lung Injury
title_full The Evaluation of Melatonin Effect Against The Early Effect of Ionizing Radiation Induced Lung Injury
title_fullStr The Evaluation of Melatonin Effect Against The Early Effect of Ionizing Radiation Induced Lung Injury
title_full_unstemmed The Evaluation of Melatonin Effect Against The Early Effect of Ionizing Radiation Induced Lung Injury
title_short The Evaluation of Melatonin Effect Against The Early Effect of Ionizing Radiation Induced Lung Injury
title_sort evaluation of melatonin effect against the early effect of ionizing radiation induced lung injury
topic melatonin
ionizing radiation
radiation pneumonia.
url http://jabs.fums.ac.ir/article-1-351-en.pdf
work_keys_str_mv AT raziyehtahamtan theevaluationofmelatonineffectagainsttheearlyeffectofionizingradiationinducedlunginjury
AT gholamhassanhaddadi theevaluationofmelatonineffectagainsttheearlyeffectofionizingradiationinducedlunginjury
AT alirezatavassoli theevaluationofmelatonineffectagainsttheearlyeffectofionizingradiationinducedlunginjury
AT raziyehtahamtan evaluationofmelatonineffectagainsttheearlyeffectofionizingradiationinducedlunginjury
AT gholamhassanhaddadi evaluationofmelatonineffectagainsttheearlyeffectofionizingradiationinducedlunginjury
AT alirezatavassoli evaluationofmelatonineffectagainsttheearlyeffectofionizingradiationinducedlunginjury