Open Access

Impact of vitamin D receptor gene polymorphisms on blood lead levels in Thai lead exposed workers

Winai Wananukul
Winai Wananukul
, 
Tanyachai Sura
Tanyachai Sura
, 
Krongtong Yoovathaworn
Krongtong Yoovathaworn
, 
Nirada Kasiwut
Nirada Kasiwut
 and 
Boonsong Ongphiphadhanakul
Boonsong Ongphiphadhanakul
   | Feb 04, 2017
Asian Biomedicine's Cover Image
About this article
Previous Article
Next Article
Cite
Article Category: Original article
Published Online: Feb 04, 2017
Page range: 43 - 50
DOI: https://doi.org/10.5372/1905-7415.0601.119
Keywords
© 2017
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

1. Fullmer CS. Intestinal interactions of lead and calcium. Neurotoxicol. 1992; 13:799-807.Search in Google Scholar

2. Godwin HA. The biological chemistry of lead. Curr Opin Chem Biol. 2001; 5:223-7.10.1016/S1367-5931(00)00194-0Open DOISearch in Google Scholar

3. DeLuca HF. Overview of general physiologic features and functions of vitamin D. Am J Clin Nutr. 2004; 80 (6Suppl):1689S-96S.10.1093/ajcn/80.6.1689S15585789Search in Google Scholar

4. Onalaja AO, Claudio L. Genetic susceptibility to lead poisoning. Environ Health Perspect. 2000; 108 (Suppl 1):23-8.10.1289/ehp.00108s123163778210698721Open DOISearch in Google Scholar

5. Rezende VB, Barbosa F, Jr., Montenegro MF, Sandrim VC, Gerlach RF, Tanus-Santos JE. Haplotypes of vitamin D receptor modulate the circulating levels of lead in exposed subjects. Arch Toxicol. 2008; 82:29-36.10.1007/s00204-007-0231-417701399Open DOISearch in Google Scholar

6. Subramanian K, Meranger J. A rapid electrothermal atomic absorption spectrophotometric method for cadmium and lead in human whole blood. Clin Chem. 1981; 27:1866-71.10.1093/clinchem/27.11.1866Search in Google Scholar

7. Kang SH, Shin D. The size of the chi-square test for the Hardy-Weinberg law. Hum Hered. 2004; 58:10-7.10.1159/00008145215604560Open DOISearch in Google Scholar

8. Ongphiphadhanakul B, Rajatanavin R, Chanprasertyothin S, Chailurkit L, Piaseu N, Teerarungsikul K, et al. Vitamin D receptor gene polymorphism is associated with urinary calcium excretion but not with bone mineral density in postmenopausal women. J Endocrinol Invest. 1997; 20: 592-6.10.1007/BF033469159438916Open DOISearch in Google Scholar

9. Arai H, Miyamoto KI, Yoshida M, Yamamoto H, Taketani Y, Morita K, et al. The polymorphism in the caudal-related homeodomain protein Cdx-2 binding element in the human vitamin D receptor gene. J Bone Miner Res. 2001; 16:1256-64.10.1359/jbmr.2001.16.7.125611450701Open DOISearch in Google Scholar

10. Fan L, Tu X, Zhu Y, Zhou L, Pfeiffer T, Feltens R, et al. Genetic association of vitamin D receptor polymorphisms with autoimmune hepatitis and primary biliary cirrhosis in the Chinese. J Gastroenterol Hepatol. 2005; 20:249-55.10.1111/j.1440-1746.2005.03532.x15683428Open DOISearch in Google Scholar

11. Pumala K, Wananukul W, Naiwatanakul T, Koajarern S. Lead level Profile in Workers at a Battery Factory: an Eleven Years Study. Ramathibodi Med J. 1995; 18: 196-201.Search in Google Scholar

12. Wananukul W, Sura T, Salaitanawatwong P. Polymorphism of delta-aminolevulinic acid dehydratase and its effect on blood lead levels in Thai workers. Arch Environ Occup Health. 2006; 61:67-72.10.3200/AEOH.61.2.67-7217649958Open DOISearch in Google Scholar

13. Ooi PL, Goh KT, Heng BH, Sam CT, Kong KH, Rajan U. Biological monitoring of human exposure to environmental lead in Singapore. Rev Environ Health. 1991; 9:207-13.10.1515/REVEH.1991.9.4.207Open DOISearch in Google Scholar

14. Furman A, Laleli M. Analysis of lead body burden in Turkey. Sci Total Environ. 1999; 234:37-42.10.1016/S0048-9697(99)00254-5Search in Google Scholar

15. Szyszko M, Czarnowski W. Smoking influence on cadmium, lead, selenium and zinc level in placenta, cord blood and maternal blood of women at delivery from Gdansk region. Prz Lek. 2006; 63:993-7.Search in Google Scholar

16. Bogunia M, Kwapulinski J, Bogunia E, Brodziak B, Ahnert B, Nogaj E, et al. Lead content in blood of children living near zinc smelter plant exposure on environmental tobacco smoking (ETS). Prz Lek. 2007; 64:723-8.Search in Google Scholar

17. Galazyn-Sidorczuk M, Brzoska MM, Moniuszko- Jakoniuk J. Estimation of Polish cigarettes contamination with cadmium and lead, and exposure to these metals via smoking. Environ Monit Assess. 2008; 137:481-93.10.1007/s10661-007-9783-217508260Search in Google Scholar

18. Chu NF, Liou SH, Wu TN, Ko KN, Chang PY. Risk factors for high blood lead levels among the general population in Taiwan. Eur J Epidemiol. 1998; 14: 775-81.10.1023/A:1007544205378Open DOISearch in Google Scholar

19. Counter SA, Buchanan LH, Ortega F. Gender differences in blood lead and hemoglobin levels in Andean adults with chronic lead exposure. Int J Occup Environ Health. 2001; 7:113-8.10.1179/oeh.2001.7.2.113Open DOISearch in Google Scholar

20. Becker K, Kaus S, Krause C, Lepom P, Schulz C, Seiwert M, et al. German Environmental Survey 1998 (GerES III): environmental pollutants in blood of the German population. Int J Hyg Environ Health. 2002; 205: 297-308.10.1078/1438-4639-0015512068749Search in Google Scholar

21. Eunha O, Lee EI, Lim H, Jang JY. Human multi-route exposure assessment of lead and cadmium for Korean volunteers. Int J Hyg Environ Health. 2006; 39:53-8.Search in Google Scholar

22. Nriagu J, Burt B, Linder A, Ismail A, Sohn W. Lead levels in blood and saliva in a low-income population of Detroit, Michigan. Int J Hyg Environ Health. 2006; 209:109-21.10.1016/j.ijheh.2005.11.005181940216443391Search in Google Scholar

23. Haynes EN, Kalkwarf HJ, Hornung R, Wenstrup R, Dietrich K, Lanphear BP. Vitamin D receptor Fok1 polymorphism and blood lead concentration in children. Environ Health Perspect. 2003; 111:1665-9.10.1289/ehp.6167124169114527848Open DOISearch in Google Scholar

24. Chuang HY, Yu KT, Ho CK, Wu MT, Lin GT, Wu TN. Investigations of vitamin D receptor polymorphism affecting workers’ susceptibility to lead. J Occup Health. 2004; 46:316-22.10.1539/joh.46.31615308833Open DOISearch in Google Scholar

25. Duman BS, Tanakol R, Erensoy N, Ozturk M, Yilmazer S. Vitamin D receptor alleles, bone mineral density and turnover in postmenopausal osteoporotic and healthy women. Med Princ Pract. 2004; 13:260-6.10.1159/00007952415316258Open DOISearch in Google Scholar

26. Schwartz BS, Lee BK, Lee GS, Stewart WF, Simon D, Kelsey K, et al. Associations of blood lead, dimercaptosuccinic acid-chelatable lead, and tibia lead with polymorphisms in the vitamin D receptor and [delta]-aminolevulinic acid dehydratase genes. Environ Health Perspect. 2000; 108:949-54.10.1289/ehp.00108949124012711049814Search in Google Scholar

27. Dawson-Hughes B, Harris SS, Finneran S. Calcium absorption on high and low calcium intakes in relation to vitamin D receptor genotype. J Clin Endocrinol Metab. 1995; 80:3657-61.Search in Google Scholar

28. Tokita A, Matsumoto H, Morrison NA, Tawa T, Miura Y, Fukamauchi K, et al. Vitamin D receptor alleles, bone mineral density and turnover in premenopausal Japanese women. J Bone Miner Res. 1996; 11:1003-9.10.1002/jbmr.56501107188797122Open DOISearch in Google Scholar

29. Riggs BL, Nguyen TV, Melton LJ, 3rd, Morrison NA, O’Fallon WM, Kelly PJ, et al. The contribution of vitamin D receptor gene alleles to the determination of bone mineral density in normal and osteoporotic women. J Bone Miner Res. 1995; 10:991-6.10.1002/jbmr.56501006227572325Search in Google Scholar

30. Wright RO, Shannon MW, Wright RJ, Hu H. Association between iron deficiency and low-level lead poisoning in an urban primary care clinic. Am J Public Health. 1999; 89:1049-53.10.2105/AJPH.89.7.1049Open DOISearch in Google Scholar

eISSN:
1875-855X
Language:
English
Publication timeframe:
6 times per year
Journal Subjects:
Medicine, Assistive Professions, Nursing, Basic Medical Science, other, Clinical Medicine
Journal RSS Feed