Environmental tobacco smoke exposure is associated with increased levels of metals in children’s saliva

Best D. From the American academy of pediatrics: technical report—secondhand and prenatal tobacco smoke exposure. Pediatrics. 2009;124:e1017–44.

Article  PubMed  Google Scholar 

Carlsen KH, Carlsen KC. Respiratory effects of tobacco smoking on infants and young children. Paediatr Respir Rev. 2008;9:11–9.

Article  PubMed  Google Scholar 

Hwang SH, Hwang JH, Moon JS, Lee DH. Environmental tobacco smoke and children’s health. Korean J Pediatr. 2012;55:35–41.

Article  CAS  PubMed  PubMed Central  Google Scholar 

Gatzke-Kopp L, Willoughby MT, Warkentien S, Petrie D, Mills-Koonce R, Blair C. Association between environmental tobacco smoke exposure across the first four years of life and manifestation of externalizing behavior problems in school-aged children. J Child Psychol Psychiatry. 2020;61:1243–52.

Article  PubMed  Google Scholar 

Brody DJ, Lu Z, Tsai J. Secondhand smoke exposure among nonsmoking youth: United States, 2013–2016. NCHS Data Brief 2019:1–8.

Talhout R, Schulz T, Florek E, van Benthem J, Wester P, Opperhuizen A. Hazardous compounds in tobacco smoke. Int J Environ Res Public Health. 2011;8:613–28.

Article  PubMed  PubMed Central  Google Scholar 

Kim YJ, Kim YK, Kho HS. Effects of smoking on trace metal levels in saliva. Oral Dis. 2010;16:823–30.

Article  PubMed  Google Scholar 

Chiba M, Masironi R. Toxic and trace elements in tobacco and tobacco smoke. Bull World Health Organ. 1992;70:269–75.

CAS  PubMed  PubMed Central  Google Scholar 

Kim SW, Jung SW, Lee JG, Joo JH, Lee JH, Lee KJ. The exposure level of environmental harmful substances related to the secondhand smoke in Korean non-smoker adults: data from the second Korean National Environmental Health Survey (KoNEHS 2012-2014): a cross-sectional study. Ann Occup Environ Med. 2019;31:e30.

Article  PubMed  PubMed Central  Google Scholar 

Bush D, Goniewicz ML. A pilot study on nicotine residues in houses of electronic cigarette users, tobacco smokers, and non-users of nicotine-containing products. Int J Drug Policy. 2015;26:609–11.

Article  PubMed  PubMed Central  Google Scholar 

Gatzke-Kopp LM, Willoughby MT, Warkentien SM, O’Connor T, Granger DA, Blair C. Magnitude and chronicity of environmental smoke exposure across infancy and early childhood in a sample of low-income children. Nicotine Tob Res. 2019;21:1665–72.

Article  CAS  PubMed  Google Scholar 

Aschner JL, Aschner M. Nutritional aspects of manganese homeostasis. Mol Asp Med. 2005;26:353–62.

Article  CAS  Google Scholar 

Vincent JB. Chromium: is it essential, pharmacologically relevant, or toxic? Met Ions Life Sci. 2013;13:171–98.

Article  PubMed  Google Scholar 

O W. What are trace elements? Their deficiency and excess states. JMAJ. 2004;47:351–8.

Google Scholar 

Bauer JA, Devick KL, Bobb JF, Coull BA, Bellinger D, Benedetti C, et al. Associations of a metal mixture measured in multiple biomarkers with IQ: evidence from Italian adolescents living near ferroalloy industry. Environ Health Perspect. 2020;128:97002.

Article  PubMed  Google Scholar 

Chasapis CT, Ntoupa PA, Spiliopoulou CA, Stefanidou ME. Recent aspects of the effects of zinc on human health. Arch Toxicol. 2020;94:1443–60.

Article  CAS  PubMed  Google Scholar 

Guilarte TR. Manganese neurotoxicity: new perspectives from behavioral, neuroimaging, and neuropathological studies in humans and non-human primates. Front Aging Neurosci. 2013;5:23.

Article  CAS  PubMed  PubMed Central  Google Scholar 

Menezes-Filho JA, Carvalho CF, Rodrigues JLG, Araújo CFS, Dos Santos NR, Lima CS, et al. Environmental co-exposure to lead and manganese and intellectual deficit in school-aged children. Int J Environ Res Public Health. 2018;15:2418.

Article  CAS  PubMed  PubMed Central  Google Scholar 

Rechtman E, Curtin P, Papazaharias DM, Renzetti S, Cagna G, Peli M, et al. Sex-specific associations between co-exposure to multiple metals and visuospatial learning in early adolescence. Transl Psychiatry. 2020;10:358.

Article  CAS  PubMed  PubMed Central  Google Scholar 

Zoni S, Lucchini RG. Manganese exposure: cognitive, motor and behavioral effects on children: a review of recent findings. Curr Opin Pediatr. 2013;25:255–60.

Article  CAS  PubMed  PubMed Central  Google Scholar 

Rodrigues JLG, Araújo CFS, Dos Santos NR, Bandeira MJ, Anjos ALS, Carvalho CF, et al. Airborne manganese exposure and neurobehavior in school-aged children living near a ferro-manganese alloy plant. Environ Res. 2018;167:66–77.

Article  CAS  PubMed  Google Scholar 

Carvalho CF, Oulhote Y, Martorelli M, Carvalho CO, Menezes-Filho JA, Argollo N, et al. Environmental manganese exposure and associations with memory, executive functions, and hyperactivity in Brazilian children. Neurotoxicology. 2018;69:253–9.

Article  PubMed  Google Scholar 

Al Osman M, Yang F, Massey IY. Exposure routes and health effects of heavy metals on children. Biometals. 2019;32:563–73.

Article  CAS  PubMed  Google Scholar 

Froehlich TE, Anixt JS, Loe IM, Chirdkiatgumchai V, Kuan L, Gilman RC. Update on environmental risk factors for attention-deficit/hyperactivity disorder. Curr Psychiatry Rep. 2011;13:333–44.

Article  PubMed  PubMed Central  Google Scholar 

Daneshparvar M, Mostafavi SA, Zare Jeddi M, Yunesian M, Mesdaghinia A, Mahvi AH, et al. The role of lead exposure on attention-deficit/ hyperactivity disorder in children: a systematic review. Iran J Psychiatry. 2016;11:1–14.

PubMed  PubMed Central  Google Scholar 

Chen CJ, Shih TS, Chang HY, Yu HS, Wu JD, Sheu SC, et al. The total body burden of chromium associated with skin disease and smoking among cement workers. Sci Total Environ. 2008;391:76–81.

Article  CAS  PubMed  Google Scholar 

Kromhout D, Wibowo AA, Herber RF, Dalderup LM, Heerdink H, de Lezenne Coulander C, et al. Trace metals and coronary heart disease risk indicators in 152 elderly men (the Zutphen study). Am J Epidemiol. 1985;122:378–85.

Article  CAS  PubMed  Google Scholar 

Khabour OF, Alzoubi KH, Al-Sheyab NA, Azab MA, Massadeh AM, Alomary AA, et al. Plasma and saliva levels of three metals in waterpipe smokers: a case control study. Inhal Toxicol. 2018;30:224–8.

Article  CAS  PubMed  PubMed Central  Google Scholar 

Mannino DM, Homa DM, Matte T, Hernandez-Avila M. Active and passive smoking and blood lead levels in U.S. adults: data from the third national health and nutrition examination survey. Nicotine Tob Res. 2005;7:557–64.

Article  CAS  PubMed  Google Scholar 

Nizamani P, Afridi HI, Kazi TG, Talpur FN, Baig JA. Essential trace elemental levels (zinc, iron and copper) in the biological samples of smoker referent and pulmonary tuberculosis patients. Toxicol Rep. 2019;6:1230–9.

Article  CAS  PubMed  PubMed Central  Google Scholar 

Jarvis MJ, Primatesta P, Erens B, Feyerabend C, Bryant A. Measuring nicotine intake in population surveys: comparability of saliva cotinine and plasma cotinine estimates. Nicotine Tob Res. 2003;5:349–55.

Article  CAS  PubMed  Google Scholar 

Parzynski CS, Jaszyna-Gasior M, Franken FH, Moolchan ET. Measuring nicotine intake among highly-dependent adolescent smokers: comparability of saliva and plasma cotinine concentrations. Pharm Biochem Behav. 2008;89:145–9.

Article  CAS  Google Scholar 

Vernon-Feagans L, Cox M. The family life project: an epidemiological and developmental study of young children living in poor rural communities. Monogr Soc Res Child Dev. 2013;78:1–150.

Article  PubMed  Google Scholar 

Granger DA, Fortunato CK, Beltzer EK, Virag M, Bright MA, Out D. Focus on methodology: salivary bioscience and research on adolescence: an integrated perspective. J Adolesc. 2012;35:1081–95.

Article  PubMed  Google Scholar 

Nowak S, Künnemeyer J, Terborg L, Trümpler S, Günsel A, Wiesmüller GA, et al. Analysis of whole blood samples with low gas flow inductively coupled plasma-optical emission spectrometry. Anal Bioanal Chem. 2015;407:1023–6.

Article  CAS  PubMed  Google Scholar 

Stragierowicz J, Mikołajewska K, Zawadzka-Stolarz M, Polańska K, Ligocka D. Estimation of cutoff values of cotinine in urine and saliva for pregnant women in Poland. Biomed Res Int. 2013;2013:386784.

Article  PubMed  PubMed Central  Google Scholar 

Avila-Tang E, Al-Delaimy WK, Ashley DL, Benowitz N, Bernert JT, Kim S, et al. Assessing secondhand smoke using biological markers. Tob Control. 2013;22:164–71.

Article  PubMed  Google Scholar 

Butler L, Gennings C, Peli M, Borgese L, Placidi D, Zimmerman N, et al. Assessing the contributions of metals in environmental media to exposure biomarkers in a region of ferroalloy industry. J Expo Sci Environ Epidemiol. 2019;29:674–87.

Article  CAS  PubMed 

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