Role of Vitamin D and E as Antioxidants Against Cerebral Endothelial Dysfunction: An In Vivo Study in White Rats (Rattus norvegicus) Sepsis Model
Downloads
Sepsis is a life-threatening condition caused by the body's response to an infection, leading to organ dysfunction. A antioxidants can help neutralize harmful free radicals that cause cellular and tissue damage through oxidative stress. Vitamin D and E are two antioxidants that have been extensively studied for their potential effectiveness. This study aims to evaluate the effectiveness of vitamins D and E in reducing oxidative stress in the cerebral vascular endothelial cells of Wistar mice in a sepsis model. The study follows an experimental design and uses a posttest with a control group. The levels of NO and SOD in 24 sepsis model mice were measured using ELISA, and the cerebral endothelial tissues were examined histopathologically. An ANOVA test was performed, followed by the Post Hoc LSD test. NO and SOD levels decreased in sepsis rats from 66.88 ± 16.59 to 88.77 ± 12.83µmol/L. Sepsis mice given vitamin D and E showed significant results on changes in NO and SOD levels (p<0.05). Based on the histopathological results of necrosis, inflammation, and hemorrhagic cell damage in sepsis rats reached over 50% of the field of view, significantly different from sepsis mice that had been given vitamin D and E. Sepsis mice were given vitamin D and E influenced 96.2% and 98.7% on changes in NO, SOD, and cerebral endothelial dysfunction (p<0.05). These findings imply that vitamins D and E may be beneficial in managing sepsis-induced cerebral endothelial dysfunction, potentially impacting the treatment and outcomes of sepsis patients.
Atterton B, Paulino MC, Povoa P, & Martin-Loeches I. 2020. Sepsis associated delirium. Medicina; 56.
Bhat M, Ismail A. 2015. Vitamin D treatment protects against and reverses oxidative stress induced muscle proteolysis. Journal of Steroid Biochemistry & Molecular Biology; 152:171-179.
Bertozzi G, Ferrara M, Fazio AD, Maiese A, Delogu G, Fazio ND, Tortorella V, Russa RL, & Fineschi V. 2024. Oxidative stress in sepsis: A focus on cardiac pathology. International Journal of Molecular Sciences; 5(5):1-11.
Darwin E, Elvi EF, & Elvira D. 2018. Endotel, fungsi dan disfungsi. Cetakan ke1. Andalas University press; 38-52.
Dolmatova EV, Wang K, Mandavilli R, & Griendling KK. 2021. The efeect of sepsis on endothelium and clinical implications. Cardiovascular Research. 117(1):60-73.
Goodson CM, Rosenblatt K, Rivera-Lara L, Nyquist P, & Hogue CW. 2018. Cerebral blood flow autoregulation in sepsis for the intensivist: Why its monitoring may be the future of individualized care. Journal Intensive Care Medicine, 33:63–73.
Godbout JP, Berg BM, Kelley KW, & Johnson RW. 2004. α-tocopherol reduces lipopolysaccharide-induced peroxide radical formation and interleukin-6 secretion in primary murine microglia and in brain. Journal of Neuroimmunology, 149:101–109.
Jimenez MTB, Hadad O, Kuntic M, Daiber A, & Munzel T. 2023. Noise, air, and heacy metal pollution as risk factors for endothelial dysfunction. European Cardiology Review, 18:e09.
Joffre, J., & Hellman, J. 2021. Oxidative stress and endothelial dysfunction in sepsis and acute inflammation. Critical Care, 25(1), 389-391.
Keputusan Menteri Kesehatan Republik Indonesia. Pedoman nasional pelayanan kedokteran tata laksana sepsis pada anak. 2021.
Khan M. 2019. Vitamin D protects against sepsis-induced blood-brain barrier dysfunction in mice. Journal of Neuroinflammation.
Kheir-Eldin AA, Motawi TK, Gad MZ, & Abd-ElGawad HM. 2021. Protective effect of vitamin E, beta-carotene and N-acetylcysteine from the brain oxidative stress induced in rats by lipopolysaccharide. International Journal of Biochemistry & Cell Biology, 33: 475–482.
Mehvari J, Motlagh FG, Najafi, Ghazvini MRA, Naeni AA, Zare M. 2016. Effects of Vitamin E on seizure frequency, electroencephalogram findings, and oxidative stress status of refractory epileptic patients. Advanced Biomedical Research, 36.
Minter BE, Lowes DA, Webster NR, & Galley HF. 2020. Diferential efects of Mito vitE, α-tocopherol and trolox on oxidative stress, mitochondrial function and inflammatory signalling pathways in endothelial cells cultured under conditions mimicking sepsis. Antioxidants,9;195-9
Nurkhasanah, Bahri MS, & Yuliani S. 2023. Analisis antioksidan secara in vivo. Sabila GA, editor. Dalam: Antioksidan dan stres oksidatif. Yogya: UAD Press. h811-82
Olejarova M, Dobisova A, Suchankova M, Tibenska E, Szaboova K, & Koutun J. 2019. Vitamin D deficiency - A potential risk factor for sepsis development, correlation with inflammatory markers, SOFA score and higher early mortality risk in sepsis. Bratislav Medical Journal, 120:284–290.
Prabhu A. 2017. Oxidative stress and antioxidant status in sepsis: A review. Journal of Critical Care, 38: 113-118.
Sovira N, Ismi J, Trisnawati Y, Lubis M, & Yusuf S. 2020. Profil penyakit kritis di Ruang Rawat Intensif Anak RSUD Dr. Zainoel Abidin Banda Aceh. Sari Pediatri, 22:92-7
Taccone FS, Su F, Pierrakos C, He X, James S, Dewitte O, Vincent JL, & De Backer D. 2019. Cerebral microcirculation is impaired during sepsis: an experimental study. Critical Care,23:87.
Tan B, Wong JJ, Sultana R, Koh JCJW, Jit M, Mok YH, & Lee JG. 2019. Global case-fatality rates in pediatric severe sepsis and septic shock: a systematic review and meta-analysis. JAMA Pediatri, 173(4);352–362.
Thompson MA, Zuniga K, Sousse L, Christy R, & Gurney CJ. 2022. The role of vitamin E in thermal burn injuries, infection, and sepsis: a review. Journal of Burn Care & Research, 1:1260–1270.
Touskova S. 2019. Vitamin D and Nitric Oxide Production: A Review. Current Medical Chemistry, 26(33),5985-5993.
Villa P, & Ghezzi P. 1995. Effect of N-acetyl-L-cysteine on sepsis in mice. European Journal of Pharmacology, 292:341–344.
Zhang Y, Chen Y, & Liu Y. 2014. Sepsis-induced blood-brain barrier dysfunction: Mechanisms and therapeutic strategies. Frontiers in Cellular Neuroscience.
Copyright (c) 2024 Fauzan Fajri, Sukmawan Fajar, Denny Irmawati Hasan, Herlina Dimiati, Eka Yunita Amna, Nora Sovira, Anidar Anidar, Mulya Safri, Aris Gunawan
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Journal of Basic Medical Veterinary (JBMV) by Unair is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
1. The journal allows the author to hold the copyright of the article without restrictions.
2. The journal allows the author(s) to retain publishing rights without restrictions
3. The legal formal aspect of journal publication accessibility refers to Creative Commons Attribution Share-Alike (CC BY-SA).
4. The Creative Commons Attribution Share-Alike (CC BY-SA) license allows re-distribution and re-use of a licensed work on the conditions that the creator is appropriately credited and that any derivative work is made available under "the same, similar or a compatible license”. Other than the conditions mentioned above, the editorial board is not responsible for copyright violation.
Perhimpunan Dokter Hewan Indonesia
