BIOMAT Database Logo BIOMAT Database Logo

Hemochromatosis heterozygotes may have significant iron overload when they also have hereditary spherocytosis. 1986

D N Mohler, and M S Wheby

A family is described in which four of six siblings have both hereditary spherocytosis and evidence of abnormal iron metabolism. Three of the four have significant iron overload. HLA typing, which permits the detection of the gene for hemochromatosis, indicates that all family members with hereditary spherocytosis who have abnormal iron metabolism or significant iron overload are heterozygous for the hemochromatosis gene. Family members having hereditary spherocytosis but not the gene for hemochromatosis have normal iron studies as does a family member heterozygous for hemochromatosis but no hereditary spherocytosis. Based on the findings in this kindred, it appears that the combination of chronic hemolysis and the gene for hemochromatosis results in increased iron absorption that may lead to significant iron overload.

UI MeSH Term Description Entries
D007501 Iron A metallic element with atomic symbol Fe, atomic number 26, and atomic weight 55.85. It is an essential constituent of HEMOGLOBINS; CYTOCHROMES; and IRON-BINDING PROTEINS. It plays a role in cellular redox reactions and in the transport of OXYGEN. Iron-56,Iron 56
D008297 Male Males
D008875 Middle Aged An adult aged 45 - 64 years. Middle Age
D010375 Pedigree The record of descent or ancestry, particularly of a particular condition or trait, indicating individual family members, their relationships, and their status with respect to the trait or condition. Family Tree,Genealogical Tree,Genealogic Tree,Genetic Identity,Identity, Genetic,Family Trees,Genealogic Trees,Genealogical Trees,Genetic Identities,Identities, Genetic,Tree, Family,Tree, Genealogic,Tree, Genealogical,Trees, Family,Trees, Genealogic,Trees, Genealogical
D005260 Female Females
D005293 Ferritins Iron-containing proteins that are widely distributed in animals, plants, and microorganisms. Their major function is to store IRON in a nontoxic bioavailable form. Each ferritin molecule consists of ferric iron in a hollow protein shell (APOFERRITINS) made of 24 subunits of various sequences depending on the species and tissue types. Basic Isoferritin,Ferritin,Isoferritin,Isoferritin, Basic
D006432 Hemochromatosis A disorder of iron metabolism characterized by a triad of HEMOSIDEROSIS; LIVER CIRRHOSIS; and DIABETES MELLITUS. It is caused by massive iron deposits in parenchymal cells that may develop after a prolonged increase of iron absorption. (Jablonski's Dictionary of Syndromes & Eponymic Diseases, 2d ed) Diabetes, Bronze,Bronze Diabetes,Bronzed Cirrhosis,Familial Hemochromatosis,Genetic Hemochromatosis,Haemochromatosis,Hemochromatoses,Iron Storage Disorder,Pigmentary Cirrhosis,Primary Hemochromatosis,Troisier-Hanot-Chauffard Syndrome,Von Recklenhausen-Applebaum Disease,Bronzed Cirrhoses,Cirrhoses, Bronzed,Cirrhoses, Pigmentary,Cirrhosis, Bronzed,Cirrhosis, Pigmentary,Disease, Von Recklenhausen-Applebaum,Diseases, Von Recklenhausen-Applebaum,Disorder, Iron Storage,Disorders, Iron Storage,Familial Hemochromatoses,Genetic Hemochromatoses,Haemochromatoses,Hemochromatose,Hemochromatoses, Familial,Hemochromatoses, Genetic,Hemochromatosis, Familial,Hemochromatosis, Genetic,Iron Storage Disorders,Pigmentary Cirrhoses,Recklenhausen-Applebaum Disease, Von,Recklenhausen-Applebaum Diseases, Von,Storage Disorder, Iron,Storage Disorders, Iron,Syndrome, Troisier-Hanot-Chauffard,Syndromes, Troisier-Hanot-Chauffard,Troisier Hanot Chauffard Syndrome,Troisier-Hanot-Chauffard Syndromes,Von Recklenhausen Applebaum Disease,Von Recklenhausen-Applebaum Diseases
D006579 Heterozygote An individual having different alleles at one or more loci regarding a specific character. Carriers, Genetic,Genetic Carriers,Carrier, Genetic,Genetic Carrier,Heterozygotes
D006650 Histocompatibility Testing Identification of the major histocompatibility antigens of transplant DONORS and potential recipients, usually by serological tests. Donor and recipient pairs should be of identical ABO blood group, and in addition should be matched as closely as possible for HISTOCOMPATIBILITY ANTIGENS in order to minimize the likelihood of allograft rejection. (King, Dictionary of Genetics, 4th ed) Crossmatching, Tissue,HLA Typing,Tissue Typing,Crossmatchings, Tissue,HLA Typings,Histocompatibility Testings,Testing, Histocompatibility,Testings, Histocompatibility,Tissue Crossmatching,Tissue Crossmatchings,Tissue Typings,Typing, HLA,Typing, Tissue,Typings, HLA,Typings, Tissue
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man

Related Publications

D N Mohler, and M S Wheby
Iron overload in hereditary spherocytosis: association with HLA-linked hemochromatosis.
September 1982, American journal of hematology,
D N Mohler, and M S Wheby
Association of hereditary spherocytosis and idiopathic hemochromatosis. A synergistic effect in determining iron overload.
November 1986, American journal of clinical pathology,
D N Mohler, and M S Wheby
[Iron overload. More than hereditary hemochromatosis].
May 2003, Medicina clinica,
D N Mohler, and M S Wheby
Hereditary hemochromatosis and iron overload diseases.
February 2002, Journal of gastroenterology and hepatology,
D N Mohler, and M S Wheby
Clinical consult: iron overload--hereditary hemochromatosis.
September 2004, Primary care,
D N Mohler, and M S Wheby
Hereditary hemochromatosis: Dealing with iron overload.
May 2016, Nursing,
D N Mohler, and M S Wheby
Hereditary hemochromatosis. Detecting and correcting iron overload.
October 1994, Postgraduate medicine,
D N Mohler, and M S Wheby
Hereditary spherocytosis and hemochromatosis.
April 2002, Annals of hematology,
D N Mohler, and M S Wheby
Iron-overload-related disease in HFE hereditary hemochromatosis.
May 2008, The New England journal of medicine,
D N Mohler, and M S Wheby
Iron-overload-related disease in HFE hereditary hemochromatosis.
May 2008, The New England journal of medicine,
Copied contents to your clipboard!