IDENTIFICATION: Aluminum is a silve

IDENTIFICATION: Aluminum is a silvery-white, ductile and malleable metal. It is released to the environment both by natural processes and from anthropogenic sources. It is highly concentrated in soil-derived dusts from such activities as mining and agriculture, and in particulate matter from coal combustion. Aluminum occurs ubiquitously in the environment in the form of silicates, oxides and hydroxides, combined with other elements such as sodium and fluorine and as complexes with organic matter. It is not found as a free metal because of its reactivity. Aluminum metal has a wide variety of uses, including structural materials in construction, automobiles and aircraft, and the production of metal alloys. Aluminum compounds and materials also have a wide variety of uses, including production of glass, ceramics, rubber, wood preservatives, pharmaceuticals and waterproofing textiles. Natural aluminum minerals, especially bentonite and zeolite, are used in water purification, sugar refining, brewing and paper industries. HUMAN EXPOSURE: Non-occupational human exposure to aluminum in the environment is primarily through ingestion of food and water. No acute pathogenic effects in the general population have been described after exposure to aluminum. Although it has been hypothesized that aluminum is a risk factor for Alzheimer's disease, present epidemiological evidence does not support a causal association between Alzheimer's disease and aluminum in drinking-water. Neurological syndromes including impairment of cognitive function, motor dysfunction and peripheral neuropathy have been reported in limited studies of workers exposed to aluminum fume. Iatrogenic exposure in patients with chronic renal failure, exposed to aluminum-containing dialysis fluids and pharmaceutical products, may cause encephalopathy, vitamin-D-resistant osteomalacia and microcytic anemia. Premature infants may develop increased tissue loading of aluminum, particularly in bone, when exposed to iatrogenic sources of aluminum. Although human exposure to aluminum is widespread, in only a few cases has hypersensitivity been reported following exposure to some aluminum compounds after dermal application or parenteral administration. There is insufficient information to allow for classification of the cancer risk from human exposures to aluminum and its compounds. Aluminum and its compounds appear to be poorly absorbed in humans. The mechanism of gastrointestinal absorption of aluminum has not yet been fully elucidated. The highest levels of aluminum may be found in the lungs, where it may be present as inhaled insoluble particles. The urine is the most important route of aluminum excretion. ANIMAL STUDIES: The acute toxicity of metallic aluminum and aluminum compounds is low. In short-term studies using rats, mice or dogs to various aluminum compounds in the diet or drinking-water, only minimal effects were observed at the highest administered doses. Adequate inhalation studies were not identified. Following intratracheal administration of aluminum oxide, particle-associated fibrosis was observed. No overt fetotoxicity was noted, nore were general reproductive parameters noted after gavage treatment of rats. There is no indication that aluminum is carcinogenic. It can form complexes with DNA and cross-link chromosomal proteins and DNA, but it has not been shown to be mutagenic in bacteria or induce mutation or transformation in mammalian cells in vitro. Chromosomal aberrations have been observed in bone marrow cells of exposed mice and rats. There is considerable evidence that aluminum is neurotoxic in experimental animals, although there is considerable variation among species. In susceptible species, toxicity following parenteral administration is characterized by progressive neurological impairment, resulting in death with status epilepticus. Osteomalacia, as it presents in man, is observed consistently in larger species (e.g. dogs and pigs) exposed to aluminum; a similar condition is observed in rodents. Absorption via the gastrointestinal tract is usually less than one percent. Aluminum is distributed in most organs within the body with accumulation occurring mainly in bone at high dose levels. To a limited extent, aluminum passes the blood-brain barrier and is also distributed to the fetus. Aluminum is eliminated effectively by urine.