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J Dent Res Dent Clin Dent Prospects. 2015;9(4): 281-284. doi: 10.15171/joddd.2015.049
PMID: 26889367        PMCID: PMC4753039

Original Research

Effect of Cigarette Smoke on Salivary Total Antioxidant Capacity

Sedigheh Bakhtiari 1, Somayyeh Azimi 2,3 * , Masoumeh Mehdipour 1, Somayyeh Amini 4, Zahra Elmi 5, Zahra Namazi 6

Cited by CrossRef: 14

1- Zięba S, Maciejczyk M, Zalewska A. Ethanol- and Cigarette Smoke-Related Alternations in Oral Redox Homeostasis. Front Physiol. 2022;12 [Crossref]
2- Wang Y, Andrukhov O, Rausch-Fan X. Oxidative Stress and Antioxidant System in Periodontitis. Front Physiol. 2017;8 [Crossref]
3- Tobore T. On the potential harmful effects of E‐Cigarettes (EC) on the developing brain: The relationship between vaping‐induced oxidative stress and adolescent/young adults social maladjustment.. Journal of Adolescence. 2019;76(1):202 [Crossref]
4- Azimi S, Mansouri Z, Bakhtiari S, Tennant M, Kruger E, Rajabibazl M, Daraei A. Does green tea consumption improve the salivary antioxidant status of smokers?. Archives of Oral Biology. 2017;78:1 [Crossref]
5- Bakhtiari S, Azimi S, Mansouri Z, Kruger E, Tennant M, Namdari M. Periodontal Status and Relation with Salivary Total Antioxidant Capacity after Green Tea Consumption in Smokers. 2017;6(2):61 [Crossref]
6- Cichońska D, Król O, Słomińska E, Kochańska B, Świetlik D, Ochocińska J, Kusiak A. Influence of Electronic Cigarettes on Antioxidant Capacity and Nucleotide Metabolites in Saliva. Toxics. 2021;9(10):263 [Crossref]
7- Munther S. The effects of cigarette smoking and exercise on total salivary antioxidant activity. The Saudi Dental Journal. 2019;31(1):31 [Crossref]
8- Aghila Rani K, Soares N, Rahman B, Al-Hroub H, Semreen M, Al Kawas S. Effects of medwakh smoking on salivary metabolomics and its association with altered oral redox homeostasis among youth. Sci Rep. 2023;13(1) [Crossref]
9- Liang Y, Liu K, Yeung S, Li X, Ip M, Mak J. (-)-Epigallocatechin-3-gallate Reduces Cigarette Smoke-Induced Airway Neutrophilic Inflammation and Mucin Hypersecretion in Rats. Front Pharmacol. 2017;8 [Crossref]
10- Porto Puerta I, Porto Puerta S, Meñaca Guerrero L, Porto Cortés I, Díaz Caballero A, Vásquez Viana M. Uso del té verde como coadyuvante en tratamientos odontológicos : revisión narrativa.. Rev Cienc Biomed. 2019;8(2):95 [Crossref]
11- Farhat Z, Browne R, Bonner M, Tian L, Deng F, Swanson M, Mu L. How do glutathione antioxidant enzymes and total antioxidant status respond to air pollution exposure?. Environment International. 2018;112:287 [Crossref]
12- Badea M, Gaman L, Delia C, Ilea A, Leașu F, Henríquez-Hernández L, Luzardo O, Rădoi M, Rogozea L. Trends of Lipophilic, Antioxidant and Hematological Parameters Associated with Conventional and Electronic Smoking Habits in Middle-Age Romanians. JCM. 2019;8(5):665 [Crossref]
13- Ściskalska M, Ołdakowska M, Milnerowicz H. Importance of Genetic Polymorphisms in MT1 and MT2 Genes in Metals Homeostasis and Their Relationship with the Risk of Acute Pancreatitis Occurrence in Smokers—Preliminary Findings. IJMS. 2021;22(11):5725 [Crossref]
14- Mahrous M, El-Barrany U, Ismail M, Gaballah I, Rashed L. Blood biomarkers of nicotine-induced toxicity in healthy males. Egypt J Forensic Sci. 2019;9(1) [Crossref]

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