Role Of Placenta To Combat Fluorosis (In Fetus) In Endemic Fluorosis Area

Role Of Placenta To Combat Fluorosis

Authors

  • Gurumurthy Sastry M
  • Shruti Mohanty
  • Pragna Rao

DOI:

https://doi.org/10.70284/njirm.v1i4.1880

Keywords:

Cord fluoride; Endemic Fluorosis; Fluoride transport; Human placental fluoride; Serum Fluoride

Abstract

Fluoride (F) is known to cross the placenta from the maternal blood to the growing fetus. However, there are few studies on the role of placenta in conditions of high F intake in fluorosis endemic area. The present study is the first of its kind carried out in Nalgonda district, an endemic fluorosis area of Andhra Pradesh, India with an average ground and drinking water F of 10.94+2.09 ppm and 4.4+1.6 ppm respectively. The aim of the study is to determine the role of placenta in the transport of F from the maternal blood to the fetus in fluorosis endemic area. 200 healthy pregnant women aged 17-36 years were inducted in the study. All the women had normal and uneventful delivery. Samples collected were maternal blood, cord blood & placenta. The placenta was divided into three parts- peripheral, maternal and fetal surfaces. Placental extracts were obtained and stored at -20° C until processed. F concentrations of the newborn were well within the normal reference range despite high maternal F concentrations (1.62±0.78 ppm). Placental F concentration on the peripheral side (2.54±1.55 ppm) was two fold higher than the maternal serum F (1.62±0.78 ppm; p< 0.001) and six fold higher than the cord F (0.45±0.35 ppm; p< 0.001). Placental F on the maternal (1.62±0.78 ppm) and fetal surfaces (1.41±0.77 ppm) were three fold higher than that of cord blood (p<0.001). On the peripheral part of placenta F was found to be 1.5 times higher than maternal and fetal surfaces. Thus, it can be deduced that placenta does accumulate F especially in the peripheral part when women are exposed to relatively high F concentrations in water and food. The study also suggests that placenta can act as a backstop or guard for the passage of F to the fetus; thus protecting the developing fetus against neonatal fluoride complications.

References

1. WHO Guidelines for Drinking Water Equality, World Health Organisation, Geneva, 1984, 2:249
2. BIS: 10500, “Indian Standard code for drinking water”, BIS, INDIA, 1983.
3. Caldera R, Chavinie J, Fermanian J, Tortrat D, Laurent A M. Maternal- Fetal transfer of fluoride in pregnant women. Bio Neonate 1988; 54(5):263-9.
4. Forestier F, Daffos F, Said R, Brunet CM, Guillaume PN. The passage of fluoride across placenta. An intra-uterine study. J. Gynecol Obstet Biol Reprod 1990; 19(2): 171-5.
5. Shimonovitz S, Patz D, Ever- Hadani P, Singer L, Zacut D, Kidroni G, et al. Umbilical cord fluoride serum levels may not reflect fetal fluoride status. J Perinat Med 1995; 23(4): 279-82.
6. Procedures for the collection of diagnostic blood specimens by venipuncture: Approved standard. 4th ed. Wayne PA: National committee for Clinical Laboratory Standards, 1998.
7. Procedures for handling and transport of domestic diagnostic specimens and etiologic agents: Approved standard. 3rd ed. Wayne PA: National committee for Clinical Laboratory Standards, 1994.
8. McArdle HJ, Douglas AJ & Morgan EH 1984 Transferrin binding by microvillar vesicles isolated from rat placenta. Placenta 5 131–138.
9. Angela M Finch, Li G Yang, Margaret O Nwagwu, Kenneth R Page, Harry J McArdle and Cheryl J Ashworth. Placental transport of leucine in a porcine model of low birth weight. Reproduction 2004; 128: 229-35.
10. Itaik, Tsunoda H. Highly sensitive and rapid method for determination of fluoride ion concentrations in serum and urine using flow injection analysis with a fluoride ion selective electrode. Clin Chim Acta 2001; 308:163-71.
11. Feltman, R., and Kossel, G.: Prenatal Ingestion of Fluorides and Their Transfer to the Fetus. Science 1955; 122:560.
12. Li XS, Zhi JL, Gao RO, Effect of fluoride exposure on intelligence in children. Fluoride 1995. 28:189-192.
13. Gupta S, Seth AK, Gupta A, Gavane AG. Transplacental passage of fluorides. J Pediatr 1993; 1233(1):139-41.
14. Shen YW, Taves DR. Fluoride concentrations in the human placenta and maternal and cord blood. Am J Obstet Gynecol 1974; 119 (2): 205-7.
15. Opydo-Szymack, Borysewicz-Lewicka. Transplacental passage of Fluoride in pregnant Polish women assessed on the basis of Fluoride concentrations in maternal and cord blood plasma. Fluoride 2007; 40 (1): 46-50
16. Malhotra A, Tewar A, Chawla HS, Gauba K, Dhall K. Placental transfer of Fluoride in pregnant women consuming optimum Fluoride in drinking water. J Indian Soc Pedod Prev Dent 1993; 11 (1): 1-3.
17. Committee on Toxicology, National Research Council of the National Academies. Health effects of Ingested Fluoride. Washington, DC: National Academy of Sciences Press; 1993.

Downloads

Published

2010-12-31

How to Cite

M, G. S., Mohanty, S., & Rao, P. (2010). Role Of Placenta To Combat Fluorosis (In Fetus) In Endemic Fluorosis Area: Role Of Placenta To Combat Fluorosis. National Journal of Integrated Research in Medicine, 1(4), 16–19. https://doi.org/10.70284/njirm.v1i4.1880

Issue

Section

Original Articles

Most read articles by the same author(s)