A. Assi, A. Kostandy, and B. B. , Rivastigmine reverses aluminum-induced behavioral changes in rats, Eur J Pharmacol, vol.659, pp.169-76, 2011.

A. Adamcakova-dodd, L. V. Stebounova, J. S. Kim, S. U. Vorrink, A. P. Ault et al., Toxicity assessment of zinc oxide nanoparticles using sub-acute and sub-chronic murine inhalation models, Part Fibre Toxicol, vol.11, p.15, 2014.

H. Aebi, Oxygen radicals in biological systems, Methods Enzymol, vol.05, pp.121-127, 1984.

M. E. Åkerman, W. Chan, P. Laakkonen, S. N. Bhatia, and E. Ruoslahti, Nanocrystal targeting in vivo, Proc Natl Acad Sci U S A, vol.99, pp.12617-12638, 2002.

S. Amara, I. Ben-slama, I. Mrad, N. Rihane, M. Jeljeli et al., Acute exposure to zinc oxide nanoparticles does not affect the cognitive capacity and neurotransmitters levels in adult rats, Nanotoxicology, vol.8, issue.1, pp.208-223, 2014.
URL : https://hal.archives-ouvertes.fr/hal-02013112

A. Balasubramanyam, N. Sailaja, M. Mahboob, M. F. Rahman, S. Misra et al., Evaluation of genotoxic effects of oral exposure to Aluminum oxide nanomaterials in rat bone marrow, Mutat Res, vol.676, pp.41-48, 2009.

B. Ballou, B. C. Lagerholm, L. A. Ernst, M. P. Bruchez, and A. S. Waggoner, Noninvasive imaging of quantum dots in mice, Bioconjug Chem, vol.15, pp.79-86, 2004.

W. A. Banks, M. L. Niehoff, D. Drago, and P. Zatta, Aluminum complexing enhances amyloid ? protein penetration of blood-brain barrier, Brain Res, vol.1116, pp.215-236, 2006.

P. J. Borm, D. Robbins, S. Haubold, T. Kuhlbusch, H. Fissan et al., The potential risks of nanomaterials: a review carried out for ECETOC, Part Fibre Toxicol, vol.14, pp.3-11, 2006.

J. J. Canales, R. Corbalán, C. Montoliu, M. Llansola, P. Monfort et al., Aluminium impairs the glutamate-nitric oxide-cGMP pathway in cultured neurons and in rat brain in vivo: Molecular mechanisms and implications for neuropathology, J Inorg Biochem, vol.87, pp.63-72, 2001.

L. Chen, R. A. Yokel, B. Hennig, and M. Toborek, Manufactured aluminum oxide nanoparticles decrease expression of tight junction proteins in brain vasculature, J Neuroimmune Pharmacol, vol.3, pp.286-95, 2008.

F. A. Cupaioli, F. A. Zucca, D. Boraschi, and L. Zecca, Engineered nanoparticles. How brain friendly is this new guest?, Prog Neurobiol, vol.119, issue.120, pp.20-38, 2014.

D. Jong, W. H. Hagens, W. I. Krystek, P. Burger, and M. C. , Particle size-dependent organ distribution of gold nanoparticles after intravenous administration, Biomaterials, vol.29, pp.1912-1921, 2008.

J. Deguil, F. Chavant, C. Lafay-chebassier, P. Mc, B. Fauconneau et al., Neuroprotective effect of PACAP on translational control alteration and cognitive decline in MPTP parkinsonian mice, Neurotox Res, vol.17, pp.142-55, 2010.

G. L. Ellman, Tissue sulfhydryl groups, Arch Biochem Biophys, vol.82, pp.70-77, 1959.

G. L. Ellman, K. D. Courtney, V. Andres, and R. M. Featherstone, A new and rapid colorimetric of acetylcholinesterase determination, Biochim Pharmacol, vol.7, pp.88-95, 1961.

L. Flohé and W. A. Günzler, Assays of glutathione peroxidase, Meth Enzymol, vol.105, pp.114-134, 1984.

S. Flora, M. Mittal, and A. Mehta, Heavy metal induced oxidative stress & its possible reversal by chelation therapy, Indian J Med Res, vol.128, pp.501-524, 2008.

E. Gauthier, I. Fortier, F. Courchesne, P. Pepin, J. Mortimer et al., Aluminum forms in drinking water and risk of Alzheimer's disease, Environ Res, vol.84, pp.234-280, 2000.

S. R. Ghanta and K. Muralidharan, Chemical synthesis of aluminum nanoparticles, J Nanoparticle Res, vol.15, p.1715, 2013.

E. F. Hartree, Determination of protein: a modification of the Lowry method that gives a linear photometric response, Anal Biochem, vol.48, pp.422-429, 1972.

R. R. Kaizer, M. C. Corrêa, L. Gris, D. Rosa, C. S. Bohrer et al., Effect of long-term exposure to aluminum on the acetylcholinesterase activity in the central nervous system and erythrocytes, Neurochem Res, vol.33, pp.2294-301, 2008.

A. Karmakar, Q. Zhang, and Y. Zhang, Neurotoxicity of nanoscale materials, J Food Drug Anal, vol.22, pp.147-60, 2014.

A. Kumar, S. Dogra, and A. Prakash, Protective effect of curcumin (Curcuma longa), against aluminium toxicity: Possible behavioral and biochemical alterations in rats, Behav Brain Res, vol.205, pp.384-90, 2009.

A. Kumar, A. Prakash, and S. Dogra, Neuroprotective effect of carvedilol against aluminium induced toxicity: possible behavioral and biochemical alterations in rats, Pharmacol Rep, vol.63, pp.915-938, 2011.

A. Leardi, M. Caraglia, C. Selleri, S. F. Pepe, C. Pizzi et al., Desferioxamine increases iron depletion and apoptosis induced by ara-C of human myeloid leukaemic cells, Brit J Haematol, vol.102, pp.746-52, 1998.

X. B. Li, H. Zheng, Z. R. Zhang, M. Li, Z. Y. Huang et al., Glia activation induced by peripheral administration of aluminum oxide nanoparticles in rat brains, Nanomedicine, vol.5, pp.473-482, 2009.

P. R. Lockman, J. M. Koziara, R. J. Mumper, and D. D. Allen, Nanoparticle surface charges alter blood-brain barrier integrity and permeability, J Drug Target, vol.12, pp.635-676, 2004.

L. Ma, J. Liu, N. Li, J. Wang, Y. Duan et al., Oxidative stress in the brain of mice caused by translocated nanoparticulate TiO2 delivered to the abdominal cavity, Biomaterials, vol.31, pp.99-105, 2010.

H. P. Misra and I. Fridovich, The role of superoxide anion in the autoxidation of epinephrine and a simple assay for superoxide dismutase, J Biol Chem, vol.247, pp.3170-3175, 1972.

A. W. Miziolek, Nanoenergetics: an emerging technology area of national importance, Amptiac Q, vol.6, pp.43-51, 2002.

N. A. Monteiro-riviere, S. J. Oldenburg, and A. O. Inman, Interactions of aluminum nanoparticles with human epidermal keratinocytes, J Appl Toxicol, vol.30, pp.275-85, 2010.

R. Morris, Developments of a water-maze procedure for studying spatial learning in the rat, J. Neurosci Methods, vol.11, pp.47-60, 1984.

G. M. Morsy, A. El-ala, K. S. Ali, and A. A. , Studies on fate and toxicity of nanoalumina in male albino rats: lethality, bioaccumulation and genotoxicity, Toxicol Ind Health, vol.32, pp.200-214, 2013.

G. Oberdörster, E. Oberdörster, and J. Oberdörster, Nanotoxicology: An emerging discipline evolving from studies of ultrafine particles, Environ Health Perspect, vol.113, pp.823-862, 2005.

H. Ohkawa, N. Ohishi, and K. Yagi, Assay for lipid peroxides in animal tissues by thiobarbituric acid reaction, Anal Biochem, vol.95, pp.351-359, 1979.

S. Pakrashi, S. Dalai, A. Humayun, S. Chakravarty, N. Chandrasekaran et al., Ceriodaphnia dubia as a potential bio-indicator for assessing acute aluminum oxide nanoparticle toxicity in fresh water environment, Plos One, vol.8, pp.1-13, 2013.

D. G. Piercey and T. M. Klapoetke, Nanoscale aluminummetal oxide (thermite) reactions for application in energetic materials, Cent Eur J Energ Mater, vol.7, pp.115-144, 2010.

B. Platt, G. Fiddler, G. Riedel, and Z. Henderson, Aluminium toxicity in the rat brain: histochemical and immunocytochemical evidence, Brain Res Bull, vol.55, pp.257-67, 2001.

P. Prabhakar, U. Reddy, S. Singh, A. Balasubramanyam, M. Rahman et al., Oxidative stress induced by aluminum oxide nanomaterials after acute oral treatment in Wistar rats, J Appl Toxicol, vol.32, pp.436-481, 2012.

A. Rabe, M. H. Lee, J. Shek, and H. M. Wisniewski, Learning note deficit in immature rabbits with aluminuminduced neurofibrillary changes, Exp Neurol, vol.72, pp.441-447, 1982.

O. Rebai and N. E. Djebli, Chronic exposure to aluminum chloride in mice: exploratory behaviors and spatial learning, Adv Biol Res, vol.2, pp.26-33, 2008.

M. Sajid, M. Ilyas, C. Basheer, M. Tariq, M. Daud et al., Impact of nanoparticles on human and environment: review of toxicity factors, exposures, control strategies, and future prospects, Environ Sci Pollut Res, vol.22, pp.4122-4165, 2015.

P. Sethi, J. A. Singh, R. Hussain, E. Sharma, and D. , Aluminium-induced electrophysiological, biochemical and cognitive modifications in the hippocampus of aging rats, Neurotoxicology, vol.29, pp.1069-79, 2008.

S. A. Shah, G. H. Yoon, A. Ahmad, F. Ullah, F. U. Amin et al., Nanoscale-alumina induces oxidative stress and accelerates amyloid beta (A?) production in ICR female mice, Nanoscale, vol.7, pp.15225-15262, 2015.

H. S. Sharma and A. Sharma, Nanoparticles aggravate heat stress induced cognitive deficits, blood-brain barrier disruption, edema formation and brain pathology, Prog Brain Re, vol.162, pp.245-73, 2007.

V. Sharma, P. Singh, A. K. Pandey, and A. Dhawan, Induction of oxidative stress, DNA damage and apoptosis in mouse liver after sub-acute oral exposure to zinc oxide nanoparticles, Mutat Res, vol.745, pp.84-91, 2012.

R. Shrivastava, S. Raza, A. Yadav, P. Kushwaha, and S. Flora, Effects of sub-acute exposure to TiO2, ZnO and Al2O3 nanoparticles on oxidative stress and histological changes in mouse liver and brain, Drug Chem Toxicol, vol.37, pp.336-383, 2014.

S. Tripathi, A. A. Mahdi, A. Nawab, R. Chander, M. Hasan et al., Influence of age on aluminum induced lipid peroxidation and neurolipofuscin in frontal cortex of rat brain: A behavioral, biochemical and ultrastructural study, Brain Res, vol.1253, pp.107-123, 2009.

K. M. Tyner, S. R. Schiffman, and E. P. Giannelis, Nanobiohybrids as delivery vehicles for camptothecin, J Control Release, vol.95, pp.501-515, 2004.

A. J. Wagner, C. A. Bleckmann, R. C. Murdock, A. M. Schrand, J. J. Schlager et al., Cellular interaction of different forms of aluminum nanoparticles in rat alveolar macrophages, J Phys Chem B, vol.111, pp.7353-7362, 2007.

L. Wang, J. Hu, and Y. Zhao, Effects of aluminium on ?amyloid (1-42) and secretases (APP-cleaving enzymes) in rat brain, Neurochem Res, vol.39, pp.1338-1383, 2014.

H. Yang, C. Liu, D. Yang, H. Zhang, and Z. Xi, Comparative study of cytotoxicity, oxidative stress and genotoxicity induced by four typical nanomaterials: The role of particle size, shape and composition, J Appl Toxicol, vol.29, pp.69-78, 2009.

R. A. Yokel, The toxicology of aluminium in the brain: a review, Neurotoxicology, vol.21, pp.813-841, 2000.

P. Zatta, P. Zambenedetti, M. Kilyen, and T. Kiss, In vivo and in vitro effects of aluminum on the activity of mouse brain acetylcholinesterase, Brain Res Bull, vol.59, pp.41-45, 2002.