Logo-jcvtr

J Cardiovasc Thorac Res. 2019;11(2): 121-126. doi: 10.15171/jcvtr.2019.21
PMID: 31384406        PMCID: PMC6669428

Original Article

Selenium-L-methionine modulates radiation injury and Duox1 and Duox2 upregulation in rat’s heart tissues

Sedighe Kolivand 1, Peyman Amini 2, Hana Saffar 3, Saeed Rezapoor 2, Masoud Najafi 4 * ORCID, Elahe Motevaseli 5 * , Farzad Nouruzi 6, Dheyauldeen Shabeeb 7, Ahmed Eleojo Musa 8

Cited by CrossRef: 12

1- Panpan T, Yuchen D, Xianyong S, Meng L, Ruijuan H, Ranran D, Pengyan Z, Mingxi L, Rongrong X. Cardiac Remodelling Following Cancer Therapy: A Review. Cardiovasc Toxicol. 2022;22(9):771 [Crossref]
2- Fang J, Huang N, Li X, Yue R, Qin Z, Cheng Q, Wang Y, Li H, Hao X, Cheng Y. Effect of selenium on the dysfunction of rat salivary glands induced by 131 I and expression of insulin-like growth factors and aquaporins. 2025;46(4):304 [Crossref]
3- Wei J, Wang B, Wang H, Meng L, Zhao Q, Li X, Xin Y, Jiang X. Radiation-Induced Normal Tissue Damage: Oxidative Stress and Epigenetic Mechanisms. Oxidative Medicine and Cellular Longevity. 2019;2019:1 [Crossref]
4- Alieva A, Reznik E, Teplova N, Sarakaeva L, Surskaya E, Elmurzaeva D, Shavaeva M, Rakhaev A, Kotikova I, Nikitin I. Interleukin-13 and cardiovascular diseases: literature review. Medical Journal of the Russian Federation. 2022;28(4):291 [Crossref]
5- Wang B, Wang H, Zhang M, Ji R, Wei J, Xin Y, Jiang X. Radiation‐induced myocardial fibrosis: Mechanisms underlying its pathogenesis and therapeutic strategies. J Cellular Molecular Medi. 2020;24(14):7717 [Crossref]
6- Bartolini D, Tew K, Marinelli R, Galli F, Wang G. Nrf2‐modulation by seleno‐hormetic agents and its potential for radiation protection. BioFactors. 2020;46(2):239 [Crossref]
7- Yu Z, Xu C, Song B, Zhang S, Chen C, Li C, Zhang S. Tissue fibrosis induced by radiotherapy: current understanding of the molecular mechanisms, diagnosis and therapeutic advances. J Transl Med. 2023;21(1) [Crossref]
8- Ahmadvand M, Nikzad S, Hashemi S, khoshghadam A, Kalhori F, Mirzaei F. Evaluating the Mitigation Effect of Spirulina Against Radiation-Induced Heart Injury. CRP. 2023;16(1):78 [Crossref]
9- Nogueira C, Barbosa N, Rocha J. Toxicology and pharmacology of synthetic organoselenium compounds: an update. Arch Toxicol. 2021;95(4):1179 [Crossref]
10- Sallam M, Benotmane M, Baatout S, Guns P, Aerts A. Radiation-induced cardiovascular disease: an overlooked role for DNA methylation?. Epigenetics. 2022;17(1):59 [Crossref]
11- Sun Y, Xiao L, Chen L, Wang X. Doxorubicin-Induced Cardiac Remodeling: Mechanisms and Mitigation Strategies. Cardiovasc Drugs Ther. 2025; [Crossref]
12- Xu J, Alameri A, Zabibah R, Gabr G, Ramírez-Coronel A, Bagheri H, Abedi-Firouzjah R, Kouretas D. Protective Potentials of Alpha-Lipoic Acid against Ionizing Radiation-Induced Brain Damage in Rats. Oxidative Medicine and Cellular Longevity. 2023;2023:1 [Crossref]
13- Fu X, Tang J, Wen P, Huang Z, Najafi M. Redox interactions-induced cardiac toxicity in cancer therapy. Archives of Biochemistry and Biophysics. 2021;708:108952 [Crossref]
14- Singh K, A. Alameri A, Ali Hamza A, E. Al-Gazally M, Temurovich Islomov S, Fadhel Obaid R, Alexis Ramírez-Coronel A, Abosaooda M, Yahyapour R, Najafi M. Cardiac Injury Following Chemo/Radiation Therapy: An Updated Review on Mechanisms and Therapeutic Approaches. CRP. 2023;16(3):185 [Crossref]
15- Adhab A, Altalbawy F, Mahdi M, Baldaniya L, Omar T, Ganesan S, Juneja B, Pathak P, Mansoor A, Radi U, Abd N, Kadhim M. NADPH Oxidases in Cancer Therapy-Induced Cardiotoxicity: Mechanisms and Therapeutic Approaches. Cardiovasc Toxicol. 2025;25(4):631 [Crossref]
16- Qian N, Gao Y, Wang J, Wang Y. Emerging role of interleukin‐13 in cardiovascular diseases: A ray of hope. J Cellular Molecular Medi. 2021;25(12):5351 [Crossref]
17- Li Y, Xia J, Chen C, Ren S, He M. Upregulated dual oxidase 1-induced oxidative stress and caspase-1-dependent pyroptosis reflect the etiologies of heart failure. BMC Mol and Cell Biol. 2024;25(1) [Crossref]