Review
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Year 2022, , 118 - 127, 15.04.2022
https://doi.org/10.31127/tuje.846455

Abstract

References

  • Aguilar F, Autrup H, Barlow S, Castle L, Crebelli R, Dekant W, Engel K-H, Gontard N, Gott D, Grilli S, Gürtler R, Larsen J C, Leclercq C, Leblanc J – C, Malcata F - X, Mennes W, Milana M - R, Pratt I, Rietjens I, Tobback P & Toldrá F (2008). Safety of aluminum from dietary intake” The EFSA Journal, 754, 1-34.
  • Alzheimer’s Association (2020). 2020 Alzheimer’s Disease Facts and Figures. Alzheimers Dement, 16 (3), 94.
  • Alzheimer’s Association Report (2019). 2019 Alzheimer’s disease facts and figures. Alzhemier’s and Dementia, 15, 321-387.
  • Arnich N, Sirot V, Riviere G, Jean J, Noel L, Guerin J & Leblanc T (2012). Dietary exposure to trace elements and health risk assessment in the 2nd French Total Diet Study. Food and Chemical Toxicology, 50, 2432-2449.
  • Bakar C, Karaman H, Baba A & Şengünalp F (2010). Effect of high aluminum concentration in water resources on human health, case study: Biga Peninsula, Northwest part of Turkey. Achieve Environmental Contamination Toxicology, 58, 935-944.
  • Barabasz W, Albinska D, Jaskowska M & Lipiec J (2002). Ecotoxicology of Aluminum. Polish Journal of Environmental Studies, 11, 199-203.
  • Becker L, Boyer I, Bergfeld W, Belsito D, Hill R, Klaassen C, Liebler D, Marks J, Shank R, Slaga T, Snyder P & Andersen A (2016). Safety Assessment of Alumina and Aluminum Hydroxide as Used in Cosmetics. International Journal of Toxicology, 3, 16-33.
  • Bostancıklıoğlu M (2019). An update on the interactions between Alzheimer’s disease, autophagy and inflammation. Gene, 705, 157-166.
  • Bott J, Störmer A & Albers P (2018). Investigation into the release of nanomaterials from can coating into food. Food Packaging and Shelf Life, 16, 112-121.
  • Campbell A (2002). The Potential role of Aluminum in Alzheimer’s disease. Nephrology Dialysis Transportation, 17, 17-20.
  • Carrasco C, Inzunza G, Camurri C, Rodríguez Radovic L, Soldera F, & Suarez S (2014). Optimization of mechanical properties of Al-metal matrix composite produced by direct fusion of beverage cans. Materials Science and Engineering A, 617, 146-155.
  • Chappard D (2016). Effects of aluminum on cells and tissues. Morphologie, 100, 49-50.
  • Chappard D, Bizot P, Mabilleau G & Hubert L (2016). Aluminum and bone: Review of new clinical circumstances associated with Al3+ deposition in the calcified matrix of bone. Morphologie 100, 95-105.
  • Crepeaux G, Eidi H, David M, Amer Y, Giros B, Authier F, Exley C, Shaw C, Cadusseau J & Gherardi R (2017). Non-linear dose-response of aluminum hydroxide adjuvant particles: Selective low dose neurotoxicity. Toxicology, 375, 48-57.
  • Dabre P D (2016). Aluminum and the human breast. Morphologie, 100, 65-74.
  • Domingo J (1995). Reproductive and Developmental Toxicity of Aluminum: A Review. Neurotoxicology and Teratology, 17, 515-521.
  • European Food Safety Authority (2011), On the Evaluation of a new study related to the bioavailability of aluminum in food. EFSA Journal, 9 (5), 2157.
  • Exley C (1998). Does antiperspirant use increase the risk of aluminum-related disease, including Alzheimer’s disease? Molecular Medicine Today, 107-109.
  • FAO/WHO (2011). Evaluation of certain food additives and contaminants. Seventy-fourth report of the joint FAO/WHO Expert Committee on Food Additives. ISBN: 9789241209663
  • Federal Institute for Risk Assessment (2007), No risk of Alzheimer’s disease from aluminium in consumer products. BfR Health Assessment No. 033/2007.
  • Filippini T, Tancredi S, Malagoli C, Cilloni S, Malavolti M, Violi F, Vescovi L, Bargellini A & Vinceti M (2019). Aluminum and tin: Food contamination and dietary intake in an Italian population. Journal of Trace Elements in Medicine and Biology, 52, 293-301.
  • Flaten T P (2001). Aluminium as a risk factor in Alzheimer’s disease, with emphasis on drinking water. Brain Research Bulletin, 55, 187-196.
  • Gardner J D, Sloan S, Miner P & Robinson M (2003). Meal-stimulated gastric acid secretion and integrated gastric acidity in gastro-oesophageal reflux disease. Aliment Pharmacology Therapy, 17, 945-953.
  • Gupta V B, Anitha S, Hegde M L, Zecca L, Garruto R M, Ravid R, Shankar S, Stein R, Shanmugavelu Pm& Rao K (2005). Aluminum in Alzheimer’s disease: are we still at a crossroad?. Cellular and Molecular Life Sciences, 62, 143-158.
  • Hayashi A, Sato F, Imai T & Yoshinaga J (2019). Daily intake of total and inorganic arsenic, lead, and aluminum of the Japanese: Duplicate diet study. Journal of Food Composition and Analysis, 77, 77-83.
  • Jabeen S, Ali B, Khan M A, Khan M B & Hasan S A (2016). Aluminum Intoxication Through Leaching in Food Preparation. Alexandria Science Exchange Journal, 37, 618-626.
  • Kasbe P, Jangra A & Lahkar M (2005). Mangiferin ameliorates aluminum chloride-induced cognitive dysfunction via alleviation of hippocampal oxido-nitrosative stress, proinflammatory cytokines and acetylcholinesterase level. Journal of Trace Elements in Medicine and Biology, 31, 107-112.
  • Klotz K, Weistenhöfer W, Neff F, Hartwig A, Thriel C & Drexler H (2017). The health effect of Aluminum Exposure. Deutsches Ärzteblatt International, 114, 653–659.
  • Kramer M & Heath M (2014). Aluminum in allergen-specific subcutaneous immunotherapy- A German perspective. Vaccine, 32, 4140-4148.
  • Krewski D, Yokel R, Nieboer E, Borchelt D, Cohen J, Harry J, Kacew S, Lindsay J, Mahfouz A & Rondeau V (2007). Human Health Risk Assessment for Aluminum, Aluminum Oxide, And Aluminum Hydroxide. Journal Toxicology Environmental Health B Critical Review, 10(1), 1–269.
  • Krueger G, Morris T, Suskind R & Widner, E (1984). The Health Effect of Aluminum compounds in mammals. Critical Review in Toxicology 13, 1-25.
  • Mailloux R, Lemire J & Appanna V (2011). Hepatic response to aluminum toxicity: Dyslipidemia and liver diseases. Experimental Cell Research, 317, 2231-2238.
  • Mannheim C & Passy N (2009). Internal corrosion and shelf-life of food cans and methods of evaluation. Critical reviews in food science and Nutrition, 17, 371-407.
  • Mathiyazahan D B, Thenmozhi A J, Manivasagam T (2015). Protective effect of black tea extract against aluminium chloride-induced Alzheimer’s disease in rats: A behavioral, biochemical and molecular approach. Journal of Functional Foods, 16, 423-435.
  • Mendecki L, Granados-Focil S, Jendrlin M, Mold M & Radu A (2020). Self-plasticized, lumogallion-based fluorescent optical sensor for the determination of aluminum (III) with ultra-low detection limits. Analytica Chemical Acta, 1101, 141-148.
  • Meyer-Baron M, Schaper M, Knapp G & Thriel C (2007). Occupational aluminum exposure: Evidence in support of its neurobehavioral impact Neuro Toxicology, 28, 1068-1078. Othman M, Abdullah P & Aziz Y F (2010). Removal of aluminium from drinking water. Sains Malaysiana, 39, 51-55.
  • Özbabalık D & Hussein S (2017). Demans Bakım Modeli Raporu. Ankara: Aile ve Sosyal Politikalar Bakanlığı Sosyal İçerme Politikaları alanında Kurumsal Kapasitenin Artırılması Projesi.
  • Paiva E, Medeiros C, Milani R, Morgano M, Pallone J & Bragotto A (2020). Aluminum content and effect of in vitro digestion on bio accessible fraction in cereal-based baby foods. Food Research International, 131, 1-6.
  • Panhwar A, Kazi T, Afridi H I, Shah F, Arain M B & Arain S A (2016). Evaluated the adverse effects of cadmium and aluminum via drinking water to kidney disease patients: Application of a novel solid phase micro-extraction method. Environmental Toxicology and Pharmacology, 43, 242-247.
  • Paolo C, Reverte I, Colomina M, Domingo J, Gomez M (2014). Chronic exposure to aluminum and melatonin through the diet: Neurobehavioral effects in a transgenic mouse model of Alzheimer disease. Food and Chemical Toxicology, 69, 320-329.
  • Ranau R, Oehlenschlager J & Steinhart H (2001). Aluminum content in edible parts of seafood. Europe Food Research Technology, 212, 431-438.
  • Rensburg S J, Potocnik F C V, Kiss T, Hugo F, Zijl P, Mansvelt E, Carstens M E, Theodorou P, Hurly P, Emsley R & Taljaard J (2001). Serum concentrations of some metals and steroids in patients with chronic fatigue syndrome with reference to neurological and cognitive abnormalities Brain Research Bulletin, 55, 319-325.
  • Rogers M & Simon D (1999). A Preliminary study of dietary Aluminum intake and risk of Alzheimer’s Disease. Age and Ageing, 28, 205-209.
  • Rondeau V, Commenges D, Gadda H & Dartigues J (2000). Relation between aluminum concentrations in drinking water and Alzheimer’s disease: an 8-year follow-up study. American Journal of Epidimiol, 152, 59-66.
  • Rondeau V, Gadda H J, Commenges D, Helmer C & Dartigues J F (2008). Aluminum and silica in drinking water and the risk of Alzheimer’s disease or cognitive decline: Findings from 15-year follow-up of the PAQUID Cohort. American J. of Epidemiology, 169, 489-496.
  • Rubinos D A, Arias M, Aymerich C & Fierros F (2005). Aluminum contents in drinking water from public water supplies of Galicia. The Fourth Inter-Celtic Colloquium on Hydrology and Management of Water Resources, 1-10, Guimaraes, Portugal.
  • Samir A M & Rashed L A (2018). Effect of occupational exposure to aluminum on some oxidative stress and DNA damage parameters. Human and Experimental Toxicology, 37, 901-908.
  • Seruga M, Grgic J & Mandic M (1994). Aluminum content of soft drinks from aluminum cans. Z. Lebensm Unters Forsch, 198, 313-316.
  • Seruga M, Grgic J, Gtgic Z & Seruga B (1997). Aluminum content of beers. Z. Lebensm Unters Forsch, 204, 221-226.
  • Soares D, Bolgar G, Dantas S, Augusto P & Soares B (2019). Interaction between aluminum cans and beverages: Influence of catalytic ions, alloy and coating in the corrosion process. Food Packaging and Shelf Life, 19, 56-65.
  • Stahl T, Falk S, Rohrbec A, Georgii S, Herzog C, Wiegand A, Hort S, Boschek B, Zorn H & Brunn H (2017). Migration of aluminum from food contact materials to food- a health risk for consumers? Part I of III: exposure to aluminum, release of aluminum, tolerable weekly intake (TWI), toxicological effects of aluminum, study design, and methods. Environmental Science Europe, 29, 19-27.
  • Stahl T, Taschan H & Brunn H (2011). Aluminum content of selected foods and food products. Environmental Science Europe, 23, 37- 43.
  • Street R, Drabek O, Szakova J & Mladkova L (2007). Total content and speciation of aluminum in tea leaves and tea infusions. Food Chemistry, 104, 1662-1669.
  • Tair K, Kharoubi O, Tair O A, Hellal N, Benyettou I & Aoues A (2016). Aluminum-induced acute neurotoxicity in rats: Treatment with aqueous extract of Arthrophytum. Journal of Acute Disease, 5, 470-482.
  • The Norwegian Scientific Committee for Food and Environment (2013). Risk assessment of the exposure to aluminum through food and the use of cosmetic products in the Norwegian population. Norwegian Scientific Committee for Food Safety, Report No: 2013:20.
  • Tomljenovic L (2011). Aluminum and Alzheimer’s Disease: After a Century of Controversy, Is there a Plausible Link?. Journal of Alzhemier’s Disease, 23, 567-598.
  • Verissimo M I S & Gomes M T S R (2008). Aluminum migration into beverages: Are dented cans safe?. Science of the Total Environmental, 405, 385-388.
  • Walton J (2012). Evidence that Ingested Aluminum Additives Contained in Processed Foods and Alum-Treated Drinking Water are a Major Risk Factor for Alzheimer’s Disease. Current Inorganic Chemistry, 2, 19-39.
  • Walton J R (2006). Aluminum in hippocampal neurons from humans with Alzheimer’s disease. Neuro Toxicology, 27, 385-394.
  • Walton J R (2007). An aluminum-based rat model for Alzheimer’s disease exhibits oxidative damage, inhibition of PP2A activity, hyperphosphorylated tau, and granulovacuolar degeneration. Journal of Inorganic Biochemistry, 101, 1275-1284.
  • Walton J R (2009). Functional impairment in aged rats chronically exposed to human range dietary aluminum equivalents. Neuro Toxicology, 30, 182-193.
  • Wang W, Yang H, Wang X, Jiang J & Zhu W (2010). Factors effecting aluminium speciation in drinking water by laboratory research. Journal of Environmental Science, 22, 47-55.
  • Wang Z, Wei X, Yang J, Suo J, Chen J, Liu X & Zhao X (2016). Chronic exposure to aluminium and risk of Alzheimer’s disease: A meta-analysis. Neuroscience Letters, 610, 200-206.
  • Willhite C, Karyakina N, Yokel R, Yenugadhati N, Wisniewski T, Arnold I, Momoli F & Krewski D (2014). Systematic review of potential health risks posed by pharmaceutical, occupational and consumer exposures to metallic and nanoscale aluminum, aluminum oxides, aluminum hydroxide and its soluble salts. Critical Review in Toxic, 44, 1-80.
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Aluminum in food and potential role on Alzheimer’s disease of aluminum

Year 2022, , 118 - 127, 15.04.2022
https://doi.org/10.31127/tuje.846455

Abstract

Several studies have shown the relationship between the aluminum exposure and the Alzheimer's disease. The gastrointestinal absorption of Aluminum (Al) is low. Also, If the renal filtering system works as needed, generally urine can be enough to eliminate overdose (rational over concentrations) of Al. But Al can be found in kinds of foods and drinks such as processed foods (because of additives, packaging materials, utensils…), fresh vegetables and fruits (because of soil) and even in drinking water therefore, in some cases, the Al level may pose a health risk. Chronic high concentration to Al exposure preferably intakes by oral, intravascular ways with also not having a good condition of Glomerular Filtering System of Kidneys (GFR). Nowadays, although mankind is having more Al by oral ways than past and many studies have been conducted to determine whether there is a relationship between aluminum and Alzheimer’s disease(AD) or not. Therefore, this review is intended to provide a short summary of the works done in the past and it may warn people about Al intake in the next decade, therefore human can change their life to be more natural less industrial. 

References

  • Aguilar F, Autrup H, Barlow S, Castle L, Crebelli R, Dekant W, Engel K-H, Gontard N, Gott D, Grilli S, Gürtler R, Larsen J C, Leclercq C, Leblanc J – C, Malcata F - X, Mennes W, Milana M - R, Pratt I, Rietjens I, Tobback P & Toldrá F (2008). Safety of aluminum from dietary intake” The EFSA Journal, 754, 1-34.
  • Alzheimer’s Association (2020). 2020 Alzheimer’s Disease Facts and Figures. Alzheimers Dement, 16 (3), 94.
  • Alzheimer’s Association Report (2019). 2019 Alzheimer’s disease facts and figures. Alzhemier’s and Dementia, 15, 321-387.
  • Arnich N, Sirot V, Riviere G, Jean J, Noel L, Guerin J & Leblanc T (2012). Dietary exposure to trace elements and health risk assessment in the 2nd French Total Diet Study. Food and Chemical Toxicology, 50, 2432-2449.
  • Bakar C, Karaman H, Baba A & Şengünalp F (2010). Effect of high aluminum concentration in water resources on human health, case study: Biga Peninsula, Northwest part of Turkey. Achieve Environmental Contamination Toxicology, 58, 935-944.
  • Barabasz W, Albinska D, Jaskowska M & Lipiec J (2002). Ecotoxicology of Aluminum. Polish Journal of Environmental Studies, 11, 199-203.
  • Becker L, Boyer I, Bergfeld W, Belsito D, Hill R, Klaassen C, Liebler D, Marks J, Shank R, Slaga T, Snyder P & Andersen A (2016). Safety Assessment of Alumina and Aluminum Hydroxide as Used in Cosmetics. International Journal of Toxicology, 3, 16-33.
  • Bostancıklıoğlu M (2019). An update on the interactions between Alzheimer’s disease, autophagy and inflammation. Gene, 705, 157-166.
  • Bott J, Störmer A & Albers P (2018). Investigation into the release of nanomaterials from can coating into food. Food Packaging and Shelf Life, 16, 112-121.
  • Campbell A (2002). The Potential role of Aluminum in Alzheimer’s disease. Nephrology Dialysis Transportation, 17, 17-20.
  • Carrasco C, Inzunza G, Camurri C, Rodríguez Radovic L, Soldera F, & Suarez S (2014). Optimization of mechanical properties of Al-metal matrix composite produced by direct fusion of beverage cans. Materials Science and Engineering A, 617, 146-155.
  • Chappard D (2016). Effects of aluminum on cells and tissues. Morphologie, 100, 49-50.
  • Chappard D, Bizot P, Mabilleau G & Hubert L (2016). Aluminum and bone: Review of new clinical circumstances associated with Al3+ deposition in the calcified matrix of bone. Morphologie 100, 95-105.
  • Crepeaux G, Eidi H, David M, Amer Y, Giros B, Authier F, Exley C, Shaw C, Cadusseau J & Gherardi R (2017). Non-linear dose-response of aluminum hydroxide adjuvant particles: Selective low dose neurotoxicity. Toxicology, 375, 48-57.
  • Dabre P D (2016). Aluminum and the human breast. Morphologie, 100, 65-74.
  • Domingo J (1995). Reproductive and Developmental Toxicity of Aluminum: A Review. Neurotoxicology and Teratology, 17, 515-521.
  • European Food Safety Authority (2011), On the Evaluation of a new study related to the bioavailability of aluminum in food. EFSA Journal, 9 (5), 2157.
  • Exley C (1998). Does antiperspirant use increase the risk of aluminum-related disease, including Alzheimer’s disease? Molecular Medicine Today, 107-109.
  • FAO/WHO (2011). Evaluation of certain food additives and contaminants. Seventy-fourth report of the joint FAO/WHO Expert Committee on Food Additives. ISBN: 9789241209663
  • Federal Institute for Risk Assessment (2007), No risk of Alzheimer’s disease from aluminium in consumer products. BfR Health Assessment No. 033/2007.
  • Filippini T, Tancredi S, Malagoli C, Cilloni S, Malavolti M, Violi F, Vescovi L, Bargellini A & Vinceti M (2019). Aluminum and tin: Food contamination and dietary intake in an Italian population. Journal of Trace Elements in Medicine and Biology, 52, 293-301.
  • Flaten T P (2001). Aluminium as a risk factor in Alzheimer’s disease, with emphasis on drinking water. Brain Research Bulletin, 55, 187-196.
  • Gardner J D, Sloan S, Miner P & Robinson M (2003). Meal-stimulated gastric acid secretion and integrated gastric acidity in gastro-oesophageal reflux disease. Aliment Pharmacology Therapy, 17, 945-953.
  • Gupta V B, Anitha S, Hegde M L, Zecca L, Garruto R M, Ravid R, Shankar S, Stein R, Shanmugavelu Pm& Rao K (2005). Aluminum in Alzheimer’s disease: are we still at a crossroad?. Cellular and Molecular Life Sciences, 62, 143-158.
  • Hayashi A, Sato F, Imai T & Yoshinaga J (2019). Daily intake of total and inorganic arsenic, lead, and aluminum of the Japanese: Duplicate diet study. Journal of Food Composition and Analysis, 77, 77-83.
  • Jabeen S, Ali B, Khan M A, Khan M B & Hasan S A (2016). Aluminum Intoxication Through Leaching in Food Preparation. Alexandria Science Exchange Journal, 37, 618-626.
  • Kasbe P, Jangra A & Lahkar M (2005). Mangiferin ameliorates aluminum chloride-induced cognitive dysfunction via alleviation of hippocampal oxido-nitrosative stress, proinflammatory cytokines and acetylcholinesterase level. Journal of Trace Elements in Medicine and Biology, 31, 107-112.
  • Klotz K, Weistenhöfer W, Neff F, Hartwig A, Thriel C & Drexler H (2017). The health effect of Aluminum Exposure. Deutsches Ärzteblatt International, 114, 653–659.
  • Kramer M & Heath M (2014). Aluminum in allergen-specific subcutaneous immunotherapy- A German perspective. Vaccine, 32, 4140-4148.
  • Krewski D, Yokel R, Nieboer E, Borchelt D, Cohen J, Harry J, Kacew S, Lindsay J, Mahfouz A & Rondeau V (2007). Human Health Risk Assessment for Aluminum, Aluminum Oxide, And Aluminum Hydroxide. Journal Toxicology Environmental Health B Critical Review, 10(1), 1–269.
  • Krueger G, Morris T, Suskind R & Widner, E (1984). The Health Effect of Aluminum compounds in mammals. Critical Review in Toxicology 13, 1-25.
  • Mailloux R, Lemire J & Appanna V (2011). Hepatic response to aluminum toxicity: Dyslipidemia and liver diseases. Experimental Cell Research, 317, 2231-2238.
  • Mannheim C & Passy N (2009). Internal corrosion and shelf-life of food cans and methods of evaluation. Critical reviews in food science and Nutrition, 17, 371-407.
  • Mathiyazahan D B, Thenmozhi A J, Manivasagam T (2015). Protective effect of black tea extract against aluminium chloride-induced Alzheimer’s disease in rats: A behavioral, biochemical and molecular approach. Journal of Functional Foods, 16, 423-435.
  • Mendecki L, Granados-Focil S, Jendrlin M, Mold M & Radu A (2020). Self-plasticized, lumogallion-based fluorescent optical sensor for the determination of aluminum (III) with ultra-low detection limits. Analytica Chemical Acta, 1101, 141-148.
  • Meyer-Baron M, Schaper M, Knapp G & Thriel C (2007). Occupational aluminum exposure: Evidence in support of its neurobehavioral impact Neuro Toxicology, 28, 1068-1078. Othman M, Abdullah P & Aziz Y F (2010). Removal of aluminium from drinking water. Sains Malaysiana, 39, 51-55.
  • Özbabalık D & Hussein S (2017). Demans Bakım Modeli Raporu. Ankara: Aile ve Sosyal Politikalar Bakanlığı Sosyal İçerme Politikaları alanında Kurumsal Kapasitenin Artırılması Projesi.
  • Paiva E, Medeiros C, Milani R, Morgano M, Pallone J & Bragotto A (2020). Aluminum content and effect of in vitro digestion on bio accessible fraction in cereal-based baby foods. Food Research International, 131, 1-6.
  • Panhwar A, Kazi T, Afridi H I, Shah F, Arain M B & Arain S A (2016). Evaluated the adverse effects of cadmium and aluminum via drinking water to kidney disease patients: Application of a novel solid phase micro-extraction method. Environmental Toxicology and Pharmacology, 43, 242-247.
  • Paolo C, Reverte I, Colomina M, Domingo J, Gomez M (2014). Chronic exposure to aluminum and melatonin through the diet: Neurobehavioral effects in a transgenic mouse model of Alzheimer disease. Food and Chemical Toxicology, 69, 320-329.
  • Ranau R, Oehlenschlager J & Steinhart H (2001). Aluminum content in edible parts of seafood. Europe Food Research Technology, 212, 431-438.
  • Rensburg S J, Potocnik F C V, Kiss T, Hugo F, Zijl P, Mansvelt E, Carstens M E, Theodorou P, Hurly P, Emsley R & Taljaard J (2001). Serum concentrations of some metals and steroids in patients with chronic fatigue syndrome with reference to neurological and cognitive abnormalities Brain Research Bulletin, 55, 319-325.
  • Rogers M & Simon D (1999). A Preliminary study of dietary Aluminum intake and risk of Alzheimer’s Disease. Age and Ageing, 28, 205-209.
  • Rondeau V, Commenges D, Gadda H & Dartigues J (2000). Relation between aluminum concentrations in drinking water and Alzheimer’s disease: an 8-year follow-up study. American Journal of Epidimiol, 152, 59-66.
  • Rondeau V, Gadda H J, Commenges D, Helmer C & Dartigues J F (2008). Aluminum and silica in drinking water and the risk of Alzheimer’s disease or cognitive decline: Findings from 15-year follow-up of the PAQUID Cohort. American J. of Epidemiology, 169, 489-496.
  • Rubinos D A, Arias M, Aymerich C & Fierros F (2005). Aluminum contents in drinking water from public water supplies of Galicia. The Fourth Inter-Celtic Colloquium on Hydrology and Management of Water Resources, 1-10, Guimaraes, Portugal.
  • Samir A M & Rashed L A (2018). Effect of occupational exposure to aluminum on some oxidative stress and DNA damage parameters. Human and Experimental Toxicology, 37, 901-908.
  • Seruga M, Grgic J & Mandic M (1994). Aluminum content of soft drinks from aluminum cans. Z. Lebensm Unters Forsch, 198, 313-316.
  • Seruga M, Grgic J, Gtgic Z & Seruga B (1997). Aluminum content of beers. Z. Lebensm Unters Forsch, 204, 221-226.
  • Soares D, Bolgar G, Dantas S, Augusto P & Soares B (2019). Interaction between aluminum cans and beverages: Influence of catalytic ions, alloy and coating in the corrosion process. Food Packaging and Shelf Life, 19, 56-65.
  • Stahl T, Falk S, Rohrbec A, Georgii S, Herzog C, Wiegand A, Hort S, Boschek B, Zorn H & Brunn H (2017). Migration of aluminum from food contact materials to food- a health risk for consumers? Part I of III: exposure to aluminum, release of aluminum, tolerable weekly intake (TWI), toxicological effects of aluminum, study design, and methods. Environmental Science Europe, 29, 19-27.
  • Stahl T, Taschan H & Brunn H (2011). Aluminum content of selected foods and food products. Environmental Science Europe, 23, 37- 43.
  • Street R, Drabek O, Szakova J & Mladkova L (2007). Total content and speciation of aluminum in tea leaves and tea infusions. Food Chemistry, 104, 1662-1669.
  • Tair K, Kharoubi O, Tair O A, Hellal N, Benyettou I & Aoues A (2016). Aluminum-induced acute neurotoxicity in rats: Treatment with aqueous extract of Arthrophytum. Journal of Acute Disease, 5, 470-482.
  • The Norwegian Scientific Committee for Food and Environment (2013). Risk assessment of the exposure to aluminum through food and the use of cosmetic products in the Norwegian population. Norwegian Scientific Committee for Food Safety, Report No: 2013:20.
  • Tomljenovic L (2011). Aluminum and Alzheimer’s Disease: After a Century of Controversy, Is there a Plausible Link?. Journal of Alzhemier’s Disease, 23, 567-598.
  • Verissimo M I S & Gomes M T S R (2008). Aluminum migration into beverages: Are dented cans safe?. Science of the Total Environmental, 405, 385-388.
  • Walton J (2012). Evidence that Ingested Aluminum Additives Contained in Processed Foods and Alum-Treated Drinking Water are a Major Risk Factor for Alzheimer’s Disease. Current Inorganic Chemistry, 2, 19-39.
  • Walton J R (2006). Aluminum in hippocampal neurons from humans with Alzheimer’s disease. Neuro Toxicology, 27, 385-394.
  • Walton J R (2007). An aluminum-based rat model for Alzheimer’s disease exhibits oxidative damage, inhibition of PP2A activity, hyperphosphorylated tau, and granulovacuolar degeneration. Journal of Inorganic Biochemistry, 101, 1275-1284.
  • Walton J R (2009). Functional impairment in aged rats chronically exposed to human range dietary aluminum equivalents. Neuro Toxicology, 30, 182-193.
  • Wang W, Yang H, Wang X, Jiang J & Zhu W (2010). Factors effecting aluminium speciation in drinking water by laboratory research. Journal of Environmental Science, 22, 47-55.
  • Wang Z, Wei X, Yang J, Suo J, Chen J, Liu X & Zhao X (2016). Chronic exposure to aluminium and risk of Alzheimer’s disease: A meta-analysis. Neuroscience Letters, 610, 200-206.
  • Willhite C, Karyakina N, Yokel R, Yenugadhati N, Wisniewski T, Arnold I, Momoli F & Krewski D (2014). Systematic review of potential health risks posed by pharmaceutical, occupational and consumer exposures to metallic and nanoscale aluminum, aluminum oxides, aluminum hydroxide and its soluble salts. Critical Review in Toxic, 44, 1-80.
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There are 72 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Günseli Bobuş Alkaya 0000-0003-1732-9163

Çağatay Demirci 0000-0002-6482-5007

Hüseyin Şevik 0000-0002-2065-412X

Publication Date April 15, 2022
Published in Issue Year 2022

Cite

APA Bobuş Alkaya, G., Demirci, Ç., & Şevik, H. (2022). Aluminum in food and potential role on Alzheimer’s disease of aluminum. Turkish Journal of Engineering, 6(2), 118-127. https://doi.org/10.31127/tuje.846455
AMA Bobuş Alkaya G, Demirci Ç, Şevik H. Aluminum in food and potential role on Alzheimer’s disease of aluminum. TUJE. April 2022;6(2):118-127. doi:10.31127/tuje.846455
Chicago Bobuş Alkaya, Günseli, Çağatay Demirci, and Hüseyin Şevik. “Aluminum in Food and Potential Role on Alzheimer’s Disease of Aluminum”. Turkish Journal of Engineering 6, no. 2 (April 2022): 118-27. https://doi.org/10.31127/tuje.846455.
EndNote Bobuş Alkaya G, Demirci Ç, Şevik H (April 1, 2022) Aluminum in food and potential role on Alzheimer’s disease of aluminum. Turkish Journal of Engineering 6 2 118–127.
IEEE G. Bobuş Alkaya, Ç. Demirci, and H. Şevik, “Aluminum in food and potential role on Alzheimer’s disease of aluminum”, TUJE, vol. 6, no. 2, pp. 118–127, 2022, doi: 10.31127/tuje.846455.
ISNAD Bobuş Alkaya, Günseli et al. “Aluminum in Food and Potential Role on Alzheimer’s Disease of Aluminum”. Turkish Journal of Engineering 6/2 (April 2022), 118-127. https://doi.org/10.31127/tuje.846455.
JAMA Bobuş Alkaya G, Demirci Ç, Şevik H. Aluminum in food and potential role on Alzheimer’s disease of aluminum. TUJE. 2022;6:118–127.
MLA Bobuş Alkaya, Günseli et al. “Aluminum in Food and Potential Role on Alzheimer’s Disease of Aluminum”. Turkish Journal of Engineering, vol. 6, no. 2, 2022, pp. 118-27, doi:10.31127/tuje.846455.
Vancouver Bobuş Alkaya G, Demirci Ç, Şevik H. Aluminum in food and potential role on Alzheimer’s disease of aluminum. TUJE. 2022;6(2):118-27.
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