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11 - Intestinal iron absorption and hemochromatosis
- from Part III - Metal absorption and metabolism in hemochromatosis
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- By Marcel E. Conrad, University of South Alabama Cancer Center, Alabama USA, Jay N. Umbreit, University of South Alabama Cancer Center, Alabama USA, Elizabeth G. Moore, University of South Alabama Cancer Center, Alabama USA, Richard T. Parmley, University of South Alabama Cancer Center, Alabama USA
- Edited by James C. Barton, Southern Iron Disorders Center, Alabama, Corwin Q. Edwards, University of Utah
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- Book:
- Hemochromatosis
- Published online:
- 05 August 2011
- Print publication:
- 13 January 2000, pp 118-130
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- Chapter
- Export citation
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Summary
Introduction
Idiopathic hemochromatosis is a familial genetic disorder in which iron absorption consistently exceeds losses of body iron. This leads to accumulation of iron in multiple body organs.When iron concentrations become sufficiently excessive, cellular damage and destruction occur with organ dysfunction and failure. This may become manifest as either cirrhosis of the liver, hepatocellular carcinoma, diabetes mellitus, cardiomyopathy, hypogonadism, or arthritis, or a combination of these disorders. Because hemochromatosis usually becomes clinically manifest during the fifth and sixth decades of life, it usually takes many years of iron accumulation before a homozygote seeks medical attention. Presumably, this long delay occurs because body organs possess a capability to store iron far in excess of body needs. Once the iron-binding capacity of tissues are exceeded, ionic iron becomes available to produce ‘free radical’ formation and cellular damage. An enigma that remains unexplained is that studies of the prevalence of homozygous hemochromatosis in Caucasians (∼0.6%) indicate that genotypic hemochromatosis is at least ten times more commonplace than clinically manifested phenotypic hemochromatosis (1 in 20000 hospitalizations). This suggests that factors in addition to a single genetic mutation are necessary to produce massive iron overloading with organ damage.
Although the genetic defect for about 85% of Caucasian hemochromatotics was recently identified (HLA-H, C282Y), the method by which it enhances iron accumulation by the body remains unknown. One possibility is that the genetic abnormality acts directly upon the intestinal absorptive cell to enhance the absorption of iron.