[Chromium: physiologic role and implications in human pathology].

Reported values for total body stores of chromium vary between 0.4 mg and 6 mg. Chromium stores may be higher in neonates than in adults, relative to body size, whereas tissular chromium may be depleted in the elderly. The recommended daily allowance for chromium is 50 to 200 micrograms/day but actual needs are poorly known. Digestive absorption is better for organic chromium, which is part of the "glucose tolerance factor" (GTF), than for inorganic chromium. Furthermore, chromium (VI) is better absorbed than chromium (III). In the body, chromium (VI) is rapidly reduced to chromium (III) by a number of metabolic pathways. Absorbed chromium binds to proteins, mainly to transferrin which exhibits a high affinity for chromium (III). Most absorbed chromium is eliminated through the kidneys. Renal excretion occurs according to a two or more-compartment model. Current methods used to assay chromium, i.e., atomic absorption spectrometry using a graphite furnace or neutron activation, are sufficiently sensitive and specific to evaluate chromium levels in blood, urine or hair. However, none of these levels accurately reflects chromium body stores. Chromium is part of the GTF molecule. This factor has no effect per se but may facilitate binding of insulin to insulin receptors and amplify the effects of insulin on carbohydrate and lipid metabolism. Chromium deficiency may play a role in a development of some forms of adult diabetes mellitus and of arteriosclerosis. Partial chromium deficiencies seem to be common, especially in individuals with high intakes of refined foods. Acute chromium poisoning is usually due to an excess of chromium (VI) and is sometimes seen in the chromium industry.(ABSTRACT TRUNCATED AT 250 WORDS)