Concentration of Aluminum in Drinking Water of Pakistan and Its Implications on Human Health
Aluminum in Drinking Water of Pakistan
Abstract
Aluminum (Al), is the third most abundant element in the earth's crust but it is “excluded from biology” as development of all biota has taken place without it and there are no known biological functions linked to it. Currently anthropogenic activities have resulted in great exposure of this non-essential metal to human beings. The intake of Al has implications on human health and increases risk of various diseases. Major sources of Al include occupational exposure, food and water. Water is of greatest concern because Al is commonly bioavailable in water. The alarming situation in Pakistan about Al concentration in drinking water calls for an immediate need to design policies and legislations to ensure below average risk of this metal's effects. Limiting human exposure to Al is the only way to reduce the risk of developing neurodegenerative disorders like Alzheimer's disease (AD). In view of the extensive literature review, we propose development of public health surveillance programs for AI at the policy level.
References
Jalbani N, Kazi TG, Jamali MK, Arain BM, Afridi HI, Baloch A. Evaluation of aluminum contents in different bakery foods by electrothermal atomic absorption spectrometer. J. Food Compos. Anal. 2007; 20: 226-31.
Ferreira PC, Piai KdA, Takayanagui AMM, Segura-Muñoz SI. Aluminum as a risk factor for Alzheimer's disease. Rev Lat Am Enfermagem. 2008; 16: 151-7.
Exley C. Human exposure to aluminium. Environmental Science: Processes & Impacts. 2013; 15: 1807-16.
Cabrera-Vique C, Mesías M. Content and bioaccessibility of aluminium in duplicate diets from Southern Spain. J Food Sci. 2013; 78: T1307-T12.
Rao KS, Rao GV. Aluminium leaching from utensils--a kinetic study. Int J Food Sci Nutr. 1995; 46: 31-8.
Jalbani N, Kazi TG, Jamali MK, Arain BM, Afridi HI, Baloch A. Evaluation of aluminum contents in different bakery foods by electrothermal atomic absorption spectrometer. J Food Compos Anal. 2007; 20: 226-31.
Jalbani N, Kazi TG, Arain BM, Jamali MK, Afridi HI, Sarfraz RA. Application of factorial design in optimization of ultrasonic- assisted extraction of aluminum in juices and soft drinks. Talanta. 2006; 70: 307-14.
Exley C. Why industry propaganda and political interference cannot disguise the inevitable role played by human exposure to aluminum in neurodegenerative diseases, including Alzheimer's disease. Frontiers neurol. 2014; 5: 212.
Kaizer R, Correa M, Gris L, Da Rosa C, Bohrer D, Morsch V, et al. Effect of long-term exposure to aluminum on the acetylcholinesterase activity in the central nervous system and erythrocytes. Neurochem Res. 2008; 33: 2294-301.
Meira RDM, Carbonara CEM, Quadros KRDS, Santos CUD, Schincariol P, Pêssoa GDS, et al. The enigma of aluminum deposition in bone tissue from a patient with chronic kidney disease: a case report. Braz J Nephrol. 2018; 40: 201-5.
Chappard D, Bizot P, Mabilleau G, Hubert L. Aluminum and bone: Review of new clinical circumstances associated with Al3+ deposition in the calcified matrix of bone. Morphologie. 2016; 100: 95-105.
Mandriota SJ, Tenan M, Ferrari P, Sappino AP. Aluminium chloride promotes tumorigenesis and metastasis in normal murine mammary gland epithelial cells. Int J Cancer. 2016; 139: 2781-90.
Sappino AP, Buser R, Lesne L, Gimelli S, Béna F, Belin D, et al. Aluminium chloride promotes anchorage-independent growth in human mammary epithelial cells. J Appl Toxicol. 2012; 32: 233-43.
Mannello F, Tonti GA, Darbre PD. Concentration of aluminium in breast cyst fluids collected from women affected by gross cystic breast disease. J Appl Toxicol. 2009; 29: 1-6.
Allam MF. Breast cancer and deodorants/antiperspirants: a systematic review. Cent Eur J Public Health. 2016; 24: 245.
Campdelacreu J. Parkinson's disease and Alzheimer disease: environmental risk factors. Neurología (English Edition). 2014; 29: 541-9.
Fulgenzi A, Vietti D, Ferrero ME. Aluminium involvement in neurotoxicity. BioMed Res Intl. 2014; 2014.
Mardini J, Lavergne V, Ghannoum M. Aluminum transfer during dialysis: a systematic review. Int Urol Nephrol. 2014; 46: 1361-5.
Inan-Eroglu E, Ayaz A. Is aluminum exposure a risk factor for neurological disorders? Journal of research in medical sciences: The official journal of Isfahan University of Medical Sciences. 2018; 23.
Yokel RA, McNamara PJ. Aluminium toxicokinetics: an updated minireview. Pharmacol Toxicol. 2001; 88: 159-67.
Elinder CG, Ahrengart L, Lidums V, Pettersson E, Sjögren B. Evidence of aluminium accumulation in aluminium welders. Br J Ind Med. 1991; 48: 735-8.
Alfrey AC, LeGendre GR, Kaehny WD. The dialysis encephalopathy syndrome: possible aluminum intoxication. N Engl J Med. 1976; 294: 184-8.
Yokel RA, Hicks CL, Florence RL. Aluminum bioavailability from basic sodium aluminum phosphate, an approved food additive emulsifying agent, incorporated in cheese. Food Chem Toxicol. 2008; 46: 2261-6.
Walton J. A longitudinal study of rats chronically exposed to aluminum at human dietary levels. Neurosci Lett. 2007; 412: 29-33.
Gura KM. Aluminum contamination in parenteral products. Curr Opin Clin Nutr Metab Care. 2014; 17: 551-7.
Hall AR, Arnold CJ, Miller GG, Zello GA. Infant parenteral nutrition remains a significant source for aluminum toxicity. J Parenter Enteral Nutr. 2017; 41: 1228-33.
Redgrove J, Rodriguez I, Mahadevan-Bava S, Exley C. Prescription Infant Formulas Are Contaminated with Aluminium. Int. J. Environ. Res. Public Health. 2019; 16: 899.
Brus R, Szkilnik R, Popieluch I, Kostrzewa RM, Mengel K. Effect of aluminium exposure on central serotonine and muscarine receptors reactivity in rats. Med Sci Monit. 1997; 3: BR631-BR6.
Turhan S. Aluminium contents in baked meats wrapped in aluminium foil. Meat Sci. 2006; 74: 644-7.
Bassioni G, Mohammed FS, Al Zubaidy E, Kobrsi I. Risk assessment of using aluminum foil in food preparation. Int J Electrochem Sci. 2012; 7: 4498-509.
Rajwanshi P, Singh V, Gupta MK, Kumari V, Shrivastav R, Ramanamurthy M, et al. Studies on aluminium leaching from cookware in tea and coffee and estimation of aluminium content in toothpaste, baking powder and paan masala. Sci Total Environ. 1997; 193: 243-9.
Saiyed SM, Yokel RA. Aluminium content of some foods and food products in the USA, with aluminium food additives. Food Addit Contam. 2005; 22: 234-44.
Pennington JA, Schoen SA. Estimates of dietary exposure to aluminium. Food Addit Contam. 1995; 12: 119-28.
Krewski D, Yokel RA, Nieboer E, Borchelt D, Cohen J, Harry J, et al. Human health risk assessment for aluminium, aluminium oxide, and aluminium hydroxide J. Toxicol. Environ. Health., Part B. 2007; 10: 1-269.
Aziz J. Management of source and drinking-water quality in Pakistan. 2005.
Kahlown M, Tahir M, Ashraf M, editors. Water quality issues and status in Pakistan. Proceedings of the seminar on strategies to address the present and future water quality issues; 2005.
Ullah R, Malik RN, Qadir A. Assessment of groundwater contamination in an industrial city, Sialkot, Pakistan. Afr J Environ Sci Technol. 2009; 3: 429-46.
Panhwar AH, Kazi TG, Afridi HI, Shah F, Arain MB, Arain SA. Evaluated the adverse effects of cadmium and aluminum via drinking water to kidney disease patients: application of a novel solid phase microextraction method. Environ Toxicol and Phar. 2016; 43: 242-7.
Tariq M, Ali M, Shah Z. Characteristics of industrial effluents and their possible impacts on quality of underground water. Soil Environ. 2006; 25: 64-9.
Bhutta M, Chaudhry M, Chaudhry A, editors. Groundwater quality and availability in Pakistan. Proceedings of the seminar on strategies to address the present and future water quality issues; 2005.
Tahir MA, Chandio BA, Abdullah M, Rashid A, editors. Drinking water quality monitoring in the rural areas of Rawalpindi. National Workshop on Quality of Drinking Water; 1998.
Memon M, Soomro MS, Akhtar MS, Memon KS. Drinking water quality assessment in Southern Sindh (Pakistan). Environ Monit Assess. 2011; 177: 39-50.
Aziz JA, editor. Drinking water quality in Punjab. Proceedings of the 68th annual session of the Pakistan Engineering Congress; 2001: 241-9.
Khan N, Hussain T, Hussain J, Jamila N, Ahmed S, Ullah R, et al. Physiochemical evaluation of the drinking water sources from district Kohat, Khyber Pakhtunkhwa, Pakistan. Afr J Pharm Phamacol (Accepted for Publication). 2012.
Sehar S, Naz I, Ali N, Ahmed S. Analysis of elemental concentration using ICP-AES and pathogen indicator in drinking water of Qasim Abad, District Rawalpindi, Pakistan. Environ Monit Assess. 2013; 185: 1129-35.
Tareen AK, Sultan IN, Parakulsuksatid P, Shafi M, Khan A, Khan MW, et al. Detection of heavy metals (Pb, Sb, Al, As) through atomic absorption spectroscopy from drinking water of District Pishin, Balochistan, Pakistan. Int J Curr Microbiol App Sci. 2014; 3: 299-308.
Panhwar AH, Kazi TG, Afridi HI, Arain SA, Arain MS, Brahaman KD, et al. Correlation of cadmium and aluminum in blood samples of kidney disorder patients with drinking water and tobacco smoking: related health risk. Environ Geochem Health. 2016; 38: 265-74.
Takassi MA, Hamoule T. Removal of aluminum from water and industrial waste water. Orient J Chem. 2014; 30: 1365-9. 49. Cecen F, Aktaş Ö. Water and wastewater treatment: Historical perspective of activated carbon adsorption and its integration with biological processes. Activated Carbon for Water and Wastewater Treatment: Integration of Adsorption and Biological Treatment. 2011: 1-11.
Aeppli J, Dyer-Smith P. Ozonation and granular activated carbon filtration: The solution to many problems. International Ozone Association, Pymble Nsw 2073 (Australia). 1996.
Sinha R, Mathur S, Brighu U. Aluminium removal from water after defluoridation with the electrocoagulation process. Environ Technol. 2015; 36: 2724-31.
Hu C, Lo S, Kuan W. Effects of co-existing anions on fluoride removal in electrocoagulation (EC) process using aluminum electrodes. Water Res. 2003; 37: 4513-23.
Nanseu-Njiki CP, Tchamango SR, Ngom PC, Darchen A, Ngameni E. Mercury (II) removal from water by electrocoagulation using aluminium and iron electrodes. J Hazard Mater. 2009; 168: 1430-6.
Wood R, McAtamney C. Constructed wetlands for waste water treatment: the use of laterite in the bed medium in phosphorus and heavy metal removal. Hydrobiologia. 1996; 340: 323-31.
Jayaweera MW, Kasturiarachchi JC, Kularatne RK, Wijeyekoon SL. Removal of aluminium by constructed wetlands with water hyacinth (Eichhornia crassipes (Mart.) Solms) grown under different nutritional conditions. J Environ Sci Health Part A. 2007; 42: 185-93.
