Hereditary hemochromatosis: An update vision of the laboratory diagnosis

Haemochromatosis (HC) is an inherited disorder of iron metabolism. The 85–90% of Hereditary hemochromatosis cases are caused by mutations in HFE gene (HC type 1). The remaining 10–15% of HC cases are caused by mutations in other non-HFE genes (HJV, HAMP, TRF2, SLC40A1, BMP6). The study of patients f...

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Veröffentlicht in:	Journal of trace elements in medicine and biology 2023-07, Vol.78, p.127194-127194, Article 127194
Hauptverfasser:	Molina, Claudia Abadía, Ros, Nuria Goñi, Tarancón, Ricardo González, Varas, Luis Rello, Flores, Valle Recasens, Álvarez, Silvia Izquierdo
Format:	Artikel
Sprache:	eng
Schlagworte:	Clinical Laboratory Techniques Genotype Hemochromatosis Hemochromatosis - diagnosis Hemochromatosis - genetics Hemochromatosis Protein - genetics Histocompatibility Antigens Class I - genetics Humans Hyperferritinemia Iron Overload Mutation - genetics
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container_title	Journal of trace elements in medicine and biology
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creator	Molina, Claudia Abadía Ros, Nuria Goñi Tarancón, Ricardo González Varas, Luis Rello Flores, Valle Recasens Álvarez, Silvia Izquierdo
description	Haemochromatosis (HC) is an inherited disorder of iron metabolism. The 85–90% of Hereditary hemochromatosis cases are caused by mutations in HFE gene (HC type 1). The remaining 10–15% of HC cases are caused by mutations in other non-HFE genes (HJV, HAMP, TRF2, SLC40A1, BMP6). The study of patients for the diagnosis of HC has an important laboratory approached: analysis of biochemical parameters and genetic studies. To confirm a case, it is necessary to carry out a genetic study of the C282Y and H63D mutations. The presence of C282Y mutation in homozygosis is compatible with the diagnosis of HC type 1. Due to the incomplete penetrance of this mutation and the variable phenotypic expression, the severe forms of the disease are relatively rare. The study of variants in non-HFE genes allows more detailed study of both non-classic HC cases and those with more severe clinical expression. The genotype characterization of a patient not always justified the phenotype expression of the symptoms in this disease. All laboratory clinicians must consider recommendation provide by the experts in the Materia. [Display omitted]
doi_str_mv	10.1016/j.jtemb.2023.127194
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The 85–90% of Hereditary hemochromatosis cases are caused by mutations in HFE gene (HC type 1). The remaining 10–15% of HC cases are caused by mutations in other non-HFE genes (HJV, HAMP, TRF2, SLC40A1, BMP6). The study of patients for the diagnosis of HC has an important laboratory approached: analysis of biochemical parameters and genetic studies. To confirm a case, it is necessary to carry out a genetic study of the C282Y and H63D mutations. The presence of C282Y mutation in homozygosis is compatible with the diagnosis of HC type 1. Due to the incomplete penetrance of this mutation and the variable phenotypic expression, the severe forms of the disease are relatively rare. The study of variants in non-HFE genes allows more detailed study of both non-classic HC cases and those with more severe clinical expression. The genotype characterization of a patient not always justified the phenotype expression of the symptoms in this disease. 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The 85–90% of Hereditary hemochromatosis cases are caused by mutations in HFE gene (HC type 1). The remaining 10–15% of HC cases are caused by mutations in other non-HFE genes (HJV, HAMP, TRF2, SLC40A1, BMP6). The study of patients for the diagnosis of HC has an important laboratory approached: analysis of biochemical parameters and genetic studies. To confirm a case, it is necessary to carry out a genetic study of the C282Y and H63D mutations. The presence of C282Y mutation in homozygosis is compatible with the diagnosis of HC type 1. Due to the incomplete penetrance of this mutation and the variable phenotypic expression, the severe forms of the disease are relatively rare. The study of variants in non-HFE genes allows more detailed study of both non-classic HC cases and those with more severe clinical expression. The genotype characterization of a patient not always justified the phenotype expression of the symptoms in this disease. All laboratory clinicians must consider recommendation provide by the experts in the Materia. 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The 85–90% of Hereditary hemochromatosis cases are caused by mutations in HFE gene (HC type 1). The remaining 10–15% of HC cases are caused by mutations in other non-HFE genes (HJV, HAMP, TRF2, SLC40A1, BMP6). The study of patients for the diagnosis of HC has an important laboratory approached: analysis of biochemical parameters and genetic studies. To confirm a case, it is necessary to carry out a genetic study of the C282Y and H63D mutations. The presence of C282Y mutation in homozygosis is compatible with the diagnosis of HC type 1. Due to the incomplete penetrance of this mutation and the variable phenotypic expression, the severe forms of the disease are relatively rare. The study of variants in non-HFE genes allows more detailed study of both non-classic HC cases and those with more severe clinical expression. The genotype characterization of a patient not always justified the phenotype expression of the symptoms in this disease. 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subjects	Clinical Laboratory Techniques Genotype Hemochromatosis Hemochromatosis - diagnosis Hemochromatosis - genetics Hemochromatosis Protein - genetics Histocompatibility Antigens Class I - genetics Humans Hyperferritinemia Iron Overload Mutation - genetics
title	Hereditary hemochromatosis: An update vision of the laboratory diagnosis
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