[Adepoju-Bello AA, Alabi OM. (2005). Heavy metals: A review. The Nigerian J Pharm37: 41–45.]Search in Google Scholar
[Al-Modhefer AJ, Bradbury MW, Simons TJ. (1991). Observations on the chemical nature of lead in human blood serum. Clin Sci81: 823–829.]Search in Google Scholar
[Aungst BJ, Fung HL. (1981). Kinetic characterization of in vitro lead transport across the rat small intestine: mechanism of intestinal lead transport. Toxicol Appl Pharmacol61: 39–47.]Search in Google Scholar
[Bainy ADC, de Medeiros MDH, Di Mascio P, de Almeida EA. (2006). In vivo effects of metals on the acetylcholinesterase activity of the Perna perna mussel’s digestive gland. Biotemas19(1): 35–39.]Search in Google Scholar
[Bandopadhyay U, Dipak D, Banerjee RK. (1999). Reactive oxygen species: oxidative damage and pathogenesis. Curr Sci77: 658–666.]Search in Google Scholar
[Bannon DI, Abounader R, Lees PS, Bressler JP. (2003). Effect of DMT1 knockdown on iron, cadmium, and lead uptake in Caco-2 cells. Am J Physiol Cell Physiol284: 44–50.]Search in Google Scholar
[Barton JC, Conrad ME, Nuby S, Harrison L. (1978). Effects of iron on the absorption and retention of lead. J Lab Clin Med92: 536–547.]Search in Google Scholar
[Blockland A. (1995). Acetylcholine: a neurotransmitter for learning and memory? Brain Res Rev21: 285–300.10.1016/0165-0173(95)00016-X]Search in Google Scholar
[Belle NAV, Dalmolin GD, Fonini G, Rubim MA, Rocha JBT. (2004). Polyamines reduces lipid peroxidation induced by different pro-oxidant agents. Brain Res1008: 245–251.]Search in Google Scholar
[Bouchard MF, Sauvé S, Barbeau B, Legrand M, Brodeur, MÈ. (2011). Intellectual impairment in school-age children exposed to manganese from drinking water. Environ Health Perspect119: 138–143.]Search in Google Scholar
[Ellman GL, Courtney KD, Andres V, Featherstone RM. (1961). A new and rapid colorimetric determination of acetylcholinesterase activity. Biochem Pharmacol7: 88–95.]Search in Google Scholar
[Fullmer CS. (1990). Intestinal lead and calcium absorption: effect of 1,25-dihydroxycholecalciferol and lead status. Proc Soc Exp Biol Med194: 258–264.]Search in Google Scholar
[Gallegos MEH, Zannatha MMI, Osornio EG, Sanches AS, Rio FAP. (2001). Immediate and delayed effects of lead on AChE, GSH-T and thiols in the substantia nigra, neostriatum and cortex of the rat brain. J Appl Toxicol21: 397–401.]Search in Google Scholar
[Gill TS, Teware H, Pande J. (1991). In vivo and in vitro effects of cadmium on selected enzymes in different organs of the fish Barbus conchonius Ham. (Rosy barb). Comp Biochem Physiol Part C100: 501–505.]Search in Google Scholar
[Gornall AG, Bardawill CJ, David MM. (1949). Determination of serum proteins by means of the biuret reaction. J Biol Chem177: 751.]Search in Google Scholar
[Guilarte TR. (2010). Manganese and Parkinson’s disease: a critical review and new findings. Environ Health Perspect118: 1071–1080.]Search in Google Scholar
[Halliwell B, Gutteridge JMC. (1981). Free radicals in biology and medicine. 2nd ed., pp. 416. Oxford: Clarendon Press, New York, NY.]Search in Google Scholar
[Halliwell B, Gutteridge JMC. (1989). Free Radicals in Biology and Medicine, 2nd ed., Oxford University Press, New York, NY.]Search in Google Scholar
[Kilani AM, Oyelade O, Adeleke OE. (2007). Antimicrobial activity of a decoction used by South Western Nigeria traditional healers on selected dermatophytes. African J Biotechnol6(22): 2431–2529.]Search in Google Scholar
[Marchetti C. (2003). Molecular targets of lead in brain neurotoxicity. Neurotox Res5: 221–236.]Search in Google Scholar
[Martel B, Cassidy K. (2004). Chemical Risk Analysis: A Practical Handbook. pp. 369. Butterworth-Heinemann, London.]Search in Google Scholar
[Morris RG, Anderson E, Lynch GS, Baudry M. (1986). Selective impairment of learning and blockade of long-term potentiation by an N-methyl-D-aspartate receptor antagonist, AP5. Nature319: 774–776.]Search in Google Scholar
[Neal AP, Guilarte TR. (2012). Mechanisms of Heavy Metal Neurotoxicity: Lead and Manganese. J Drug Metab ToxicolS5: 002.]Search in Google Scholar
[Oboh G, Akinyemi AJ, Ademiluyi AO, Akinrinmade AR. (2012). Effect of dietary inclusion of salt substitutes ‘‘Obu-Otoyo’’ on some biochemical indices in rat. Food Chem Toxicol50: 2873–2877.]Search in Google Scholar
[Oboh G, Puntel RL, Rocha JBT. (2007). Hot pepper (Capsicum annuum Tepin and Capsicum chinese Habanero) prevents Fe2+-induced lipid peroxidation in brain – in vitro. Food Chem102(1): 178–85.]Search in Google Scholar
[Ohkawa H, Ohishi N, Yagi K. (1979). Assay for lipid peroxides in animal tissues by thiobarbituric acid reaction. Anal Biochem95: 351–358.]Search in Google Scholar
[Orhan I, Sener B, Choudhary MI, Khalid A. (2004). Acetylcholinesterase and butyrylcholinesterase inhibitory activity of some Turkish medicinal plants. J Ethnopharmacol91: 57–60.]Search in Google Scholar
[Romani R, Antognelli C, Baldracchini F, De Santis A, Isani G, Giovannini E. (2003). Increased acetylcholinesterase activities in specimens of Sparus auratus exposed to sub lethal copper concentrations. Chemico-Biol Inter145: 321–329.]Search in Google Scholar
[Stohs SJ, Bagchi A. (1995). Oxidative mechanisms in the toxicity of metal ions. Free Rad Biol Med18: 321–336.]Search in Google Scholar
[Taylor P. (1996). Anticholinesterase agents. In: Hardman JG, Gilman AG, Limbird LE (eds.): Goodman & Gilman’s the Pharmacological Basis of Therapeutics. 9th ed., pp 161–76. New York: McGraw-Hill Companies.]Search in Google Scholar
[Toscano CD, Guilarte TR. (2005). Lead neurotoxicity: from exposure to molecular effects. Brain Res Rev49: 529–554.]Search in Google Scholar
[Tsien JZ, Huerta PT, Tonegawa S. (1996). The essential role of hippocampal A1 NMDA receptor-dependent synaptic plasticity in spatial memory. Cell87: 1327–1338.]Search in Google Scholar
[Valko M, Morris H, Cronin MTD. (2005). Metals, Toxicity and Oxidative Stress. Curr Med Chem12: 1161–1208.]Search in Google Scholar
[Wacker P, Nunes PV, Forlenza OV. (2005). Delirium e demência no idoso: existem fatores de risco comuns? Ver Psiq Clín32: 113–8.10.1590/S0101-60832005000300003]Search in Google Scholar
[Wang Q, Luo W, Zhang W, Liu M, Song H, Chen J. (2011). Involvement of DMT1 +IRE in the transport of lead in an in vitro BBB model. Toxicol In Vitro25: 991–998.]Search in Google Scholar
[Williams K, Wilson MA, Bressler J. (2000). Regulation and developmental expression of the divalent metal-ion transporter in the rat brain. Cell Mol Biol46: 563–571.]Search in Google Scholar
[Yokel RA. (2006). Blood-brain barrier flux of aluminum, manganese, iron and other metals suspected to contribute to metal-induced neurodegeneration. J Alzheimers Dis10: 223–253.]Search in Google Scholar
[Zago MP, Verstraeten SV, Oteiza PI. (2000). Zinc in the prevention of Fe2+ initiated lipid and protein oxidation. Biol Res33: 143–150.]Search in Google Scholar
[Zar JH. (1984). Biostatistical Analysis. pp. 620. Prentice-hall inc. USA.]Search in Google Scholar
