2009
DOI: 10.1007/s00204-009-0455-6
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Aluminium neurotoxicity: neurobehavioural and oxidative aspects

Abstract: Aluminium is the most widely distributed metal in the environment and is extensively used in daily life that provides easy exposure to human beings. The exposure to this toxic metal occurs through air, food and water. However, there is no known physiological role for aluminium within the body and hence this metal may produce adverse physiological effects. Chronic exposure of animals to aluminium is associated with behavioural, neuropathological and neurochemical changes. Among them, deficits of learning and be… Show more

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Cited by 249 publications
(119 citation statements)
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“…Unfortunately, some are hepatotoxic in humans. The present study shows that some amphetamine-derived drugs cause mitotoxicity and DNA damage in primary hepatocytes 11 Kumar and Gill (2009) Aluminum is the most widely distributed metal in the environment. This review describes mechanisms of aluminum-induced neurotoxicity, including mitochondrial stress and the accumulation of oxidized proteins …”
mentioning
confidence: 66%
“…Unfortunately, some are hepatotoxic in humans. The present study shows that some amphetamine-derived drugs cause mitotoxicity and DNA damage in primary hepatocytes 11 Kumar and Gill (2009) Aluminum is the most widely distributed metal in the environment. This review describes mechanisms of aluminum-induced neurotoxicity, including mitochondrial stress and the accumulation of oxidized proteins …”
mentioning
confidence: 66%
“…Accumulation of aluminium in neurons that affects mitochondria integrity and functionality of neuron cells [51]. Apoptosis is a prominent form of cell death in many human neurodegenerative diseases like AD and Parkinson [52].…”
Section: Discussionmentioning
confidence: 99%
“…Furthermore, the molar Ca to P ratio in a stoichiometric apatite crystal is 10 to 6 (1.67); therefore, GC systems containing a stoichiometric Ca to P ratio, or in other words, glass formulations with smaller compositional differences between the glass and the crystal phase preferentially crystallize in bulk, which is unfortunately not the case in the A-W system. On the other hand, the A-W system is inherently aluminum free; thus, risks associated with aluminum neurotoxicity, summarized by Kumar and Gill (2009) and reported by Reusche et al (2001), are completely absent. It could be argued as to why the original A-W system developed by Kokubo et al (1982) contains magnesium and a non-stoichiometric Ca:P:F ratio that could otherwise aid bulk nucleation and crystallization of apatite phases.…”
Section: Biomedical Applications Of Apatite Glass-ceramics Orthopedicsmentioning
confidence: 99%