Lebanese children are iodine deficient and urinary sodium and fluoride excretion are weak positive predictors of urinary iodine.
References
Andersson M, Karumbunathan V, Zimmermann MB (2012) Global iodine status in 2011 and trends over the past decade. J Nutr 142:744–750CrossRefGoogle Scholar
World Health Organization (2007) Assessment of iodine deficiency disorders and monitoring their elimination: a guide for programme managers. World Health Organization, United Nations Children’s Fund, International Council for Control of Iodine Deficiency definition, GenevaGoogle Scholar
Abstract PURPOSE: To assess iodine and fluoride status among Lebanese children.
METHODS: A nationally representative cross-sectional study of 6- to 10-year-old schoolchildren was conducted using multistage cluster sampling. Spot urine samples were collected from 1403 children, and urinary iodine, fluoride , creatinine and sodium levels were measured. Salt samples from markets (n = 30) were tested for iodine concentration by titration.
RESULTS: Median urinary iodine concentration was 66.0 µg/l, indicating mild deficiency, and almost 75 % of Lebanese children had a urinary iodine concentration (UIC) <100 µg/l. UIC was higher among children from private schools and in areas of higher socioeconomic status. Most salt samples were fortified at levels far below the legislated requirement, and 56 % of samples contained less than 15 ppm iodine. Fluoride -to-creatinine ratio (F/Cr) was 0.250 (0.159-0.448) mg/g. There were weak positive correlations between UIC and urinary sodium (r 2 = 0.039, P value <0.001) and UIC and urinary fluoride (r 2 = 0.009, P value <0.001).
CONCLUSIONS: Lebanese elementary school children are iodine deficient due to inadequately iodized salt. The weak correlation between UIC and urinary sodium suggests most dietary iodine does not come from iodized salt. The poor correlation between UIC and urinary fluoride suggests that fluoride intake is not affecting iodine metabolism. Efforts are needed in Lebanon to improve industry compliance with salt fortification through improved monitoring and enforcement of legislation.
References
Andersson M, Karumbunathan V, Zimmermann MB (2012) Global iodine status in 2011 and trends over the past decade. J Nutr 142:744–750
CrossRef Google Scholar
World Health Organization (2007) Assessment of iodine deficiency disorders and monitoring their elimination: a guide for programme managers. World Health Organization, United Nations Children’s Fund, International Council for Control of Iodine Deficiency definition, Geneva
Google Scholar
Aburto N, Abudou M, Candeias V, Wu T, World Health Organization (2014) Effect and safety of salt iodisation to prevent iodine deficiency disorders: a systematic review with meta-analyses. World Health Organization, Geneva
Google Scholar
Bougma K, Aboud FE, Harding KB, Marquis GS (2013) Iodine and mental development of children 5 years old and under: a systematic review and meta-analysis. Nutrients 5:1384–1416
CrossRef Google Scholar
Zimmermann MB, Boelaert K (2015) Iodine deficiency and thyroid disorders. Lancet Diabetes Endocrinol 3:286–295
CrossRef Google Scholar
Herter-Aeberli I, Cherkaoui M, El Ansari N, Rohner R, Stinca S, Chabaa L, Von Eckardstein A, Aboussad A, Zimmermann MB (2015) Iodine supplementation decreases hypercholesterolemia in iodine-deficient, overweight women: a randomized controlled trial. J Nutr 145:2067–2075
CrossRef Google Scholar
World Health Organization (2004) Iodine status worldwide: WHO global database on iodine deficiency. World Health Organization, Geneva
Google Scholar
Cowan J, Najjar S, Sabry Z, Tannous R, Simaan F (1965) Some further observations on goiter in Lebanon. Am J Clin Nutr 17:164–170
Google Scholar
Cowan J, Kassab G, Silahian A, Shadarevian S (1966) Iodine intake and excretion in three different areas of Lebanon. J Med Liban 19:213–223
Google Scholar
Najjar SS, Woodruff CW (1963) Some observations on goiter in Lebanon. Am J Clin Nutr 13:46–54
Google Scholar
Ministry of Public Health of Lebanon (1997) UNICEF. Evaluation studies of the IDD programme in Lebanon. Ministry of Public Health, Beirut
(Ref 3222) Google Scholar
Ministry of Health of Lebanon, UNICEF, WHO, American University of Beirut (1994) IDD survey in Lebanon, 1993-final report. Ministry of Health, Beirut
(Ref 485) Google Scholar
Doumit M, Doughan B (2002) La santé bucco-dentaire des écoliers au Liban. Cahiers d’études et de recherches francophones. Santé 12:223–228
Google Scholar
Ge Y, Ning H, Wang S, Wang J (2005) Comet assay of DNA damage in brain cells of adult rats exposed to high fluoride and low iodine. Fluoride 38:209
Google Scholar
Jooste P, Weight M, Kriek J, Louw A (1999) Endemic goitre in the absence of iodine deficiency in schoolchildren of the Northern Cape Province of South Africa. Eur J Clin Nutr 53:8–12
CrossRef Google Scholar
Trivedi M, Verma R, Chinoy N, Patel R, Sathawara N (2007) Effect of high fluoride water on intelligence of school children in India. Fluoride 40:178–183
Google Scholar
El Mallah C, Ghattas H, Shatila D, Francis S, Merhi K, Hlais S, Toufeili I, Obeid O (2015) Urinary magnesium, calcium, and phosphorus to creatinine ratios of healthy elementary school Lebanese children. Biol Trace Elem Res 1–7. doi:
10.1007/s12011-015-0484-3
Wang G, Zhou R, Wang Z, Shi L, Sun M (1999) Effects of storage and cooking on the iodine content in iodized salt and study on monitoring iodine content in iodized salt. Biomed Environ Sci 12:1–9
Google Scholar
Skeaff S, Thomson C, Gibson R (2002) Mild iodine deficiency in a sample of New Zealand school children. Eur J Clin Nutr 56:1169–1175
CrossRef Google Scholar
Lee J, Kim JH, Lee S-Y, Lee JH (2014) Iodine status in Korean preschool children as determined by urinary iodine excretion. Eur J Nutr 53:683–688
CrossRef Google Scholar
Pardede LV, Hardjowasito W, Gross R, Dillon DH, Totoprajogo OS, Yosoprawoto M, Waskito L, Untoro J (1998) Urinary iodine excretion is the most appropriate outcome indicator for iodine deficiency at field conditions at district level. J Nutr 128:1122–1126
Google Scholar
Andersen S, Karmisholt J, Pedersen KM, Laurberg P (2008) Reliability of studies of iodine intake and recommendations for number of samples in groups and in individuals. Br J Nutr 99:813–818
Google Scholar
Fuge R (2013) Soils and iodine deficiency. Essentials of Medical Geology. Springer, Berlin, pp 417–432
CrossRef Google Scholar
Knudsen N, Bülow I, Laurberg P, Ovesen L, Perrild H, Jørgensen T (2003) Low socio-economic status and familial occurrence of goitre are associated with a high prevalence of goitre. Eur J Epidemiol 18:175–181
CrossRef Google Scholar
Hynes KL, Blizzard CL, Venn AJ, Dwyer T, Burgess JR (2004) Persistent iodine deficiency in a cohort of Tasmanian school children: associations with socio-economic status, geographical location and dietary factors. Aust N Z J Public Health 28:476–481
CrossRef Google Scholar
Poland PAII (1999) Issues of IDD Newsletter. Young 15(4):105
Google Scholar
Section UN, Division UP, Communications UDo (2008) Sustainable elimination of iodine deficiency: progress since the 1990 World summit for children. UNICEF
Google Scholar
Zimmermann MB, Wegmüller R, Zeder C, Torresani T, Chaouki N (2004) Rapid relapse of thyroid dysfunction and goiter in school-age children after discontinuation of salt iodization. Am J Clin Nutr 79:642–645
Google Scholar
Azizi F, Mehran L, Sheikholeslam R, Ordookhani A, Naghavi M, Hedayati M, Padyab M, Mirmiran P (2008) Sustainability of a well-monitored salt iodization program in Iran: marked reduction in goiter prevalence and eventual normalization of urinary iodine concentrations without alteration in iodine content of salt. J Endocrinol Invest 31:422–431
CrossRef Google Scholar
Alsanosy RMA, Gaffar AM, Khalafalla HE, Mahfouz MS, Zaid AN, Bani IA (2012) Current iodine nutrition status and progress toward elimination of iodine deficiency disorders in Jazan, Saudi Arabia. BMC Public Health 12:1006
CrossRef Google Scholar
Carvalho AL, de Souza Meirelles CJC, Oliveira LA, Costa TMB, Navarro AM (2012) Excessive iodine intake in school children. Eur J Nutr 51:557–562
CrossRef Google Scholar
Andersson M, de Benoist B, Rogers L (2010) Epidemiology of iodine deficiency: salt iodisation and iodine status. Best Pract Res Clin Endocrinol Metab 24:1–11
CrossRef Google Scholar
Bürgi H, Siebenhüner L, Miloni E (1984) Fluorine and thyroid gland function: a review of the literature. Klin Wochenschr 62:564–569
CrossRef Google Scholar
Zohouri F, Swinbank C, Maguire A, Moynihan P (2006) Is the fluoride/creatinine ratio of a spot urine sample indicative of 24-h urinary fluoride? Community Dent Oral Epidemiol 34:130–138
CrossRef Google Scholar
Petersen PE, Baez R, Marthaler T (2014) Basic methods for assessment of renal fluoride excretion in community prevention programmes for oral health. World Health Organization, Geneva
Google Scholar
Rugg-Gunn A, Villa A, Buzalaf M (2011) Contemporary biological markers of exposure to fluoride. Monogr Oral Sci 22:37–51
CrossRef Google Scholar
Villa A, Anabalon M, Zohouri V, Maguire A, Franco A, Rugg-Gunn A (2010) Relationships between fluoride intake, urinary fluoride excretion and fluoride retention in children and adults: an analysis of available data. Caries Res 44:60–68
CrossRef Google Scholar
Akpata ES, Behbehani J, Akbar J, Thalib L, Mojiminiyi O (2014) Fluoride intake from fluids and urinary fluoride excretion by young children in Kuwait: a non-fluoridated community. Community Dent Oral Epidemiol 42:224–233
CrossRef Google Scholar
García-Hoyos F, Cardososilva C, Barbería E (2014) Renal excretion of fluoride after fluoride mouth rinses in children. Eur J Paediatr Dent 15:35–38
Google Scholar
Day T, Powell-Jackson P (1972) Fluoride, water hardness, and endemic goitre. Lancet 299:1135–1138
CrossRef Google Scholar
Doumit M, Doughan B, Baez R (2004) Oral health programme in Lebanon: technical resistance provided for development of baseline studies for salt fluoridation. Ministry of Public Health, Lebanese University, World Health Organization, Beirut
Google Scholar
Hector F, Maria AA, Margaret P, Anthony V, Fatima R-S (2009) Fluoride intake and urinary fluoride excretion in children attending a daycare center in Maracay, Aragua state, Venezuela. J Dent Oral Hyg 1:027–035
Google Scholar
Republic of Lebanon, Ministry of Foreign Affairs (2001) National report on follow-up to the world summit for children. Beirut
Google Scholar