Methods for Noninvasive Measurement of Tissue Iron in Cooley's Anemia

: To examine the relationship between myocardial storage iron and body iron burden, as assessed by hepatic storage iron measurements, we studied 22 patients with transfusion‐dependent thalassemia syndromes, all being treated with subcutaneous deferoxamine, and 6 healthy subjects. Study participants...

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Veröffentlicht in:	Annals of the New York Academy of Sciences 2005-01, Vol.1054 (1), p.358-372
Hauptverfasser:	SHETH, SUJIT, TANG, HAIYING, JENSEN, JENS H., ALTMANN, KAREN, PRAKASH, ASHWIN, PRINTZ, BETH F., HORDOF, ALAN J., TOSTI, CHRISTINA L., AZABAGIC, ANDJELA, SWAMINATHAN, SRIRAMA, BROWN, TRUMAN R., OLIVIERI, NANCY F., BRITTENHAM, GARY M.
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Sprache:	eng
Schlagworte:	Adult beta-Thalassemia - complications beta-Thalassemia - drug therapy beta-Thalassemia - metabolism beta-Thalassemia - pathology beta-Thalassemia - therapy Chelation Therapy Combined Modality Therapy Deferoxamine - therapeutic use Female Ferritins - analysis Hemoglobin E Hemosiderin - analysis Humans iron Iron - analysis Iron Chelating Agents - therapeutic use Iron Overload - etiology Iron Overload - metabolism Iron Overload - pathology Liver - chemistry Liver - pathology magnetic resonance Magnetic Resonance Imaging - methods magnetic susceptibility Male Middle Aged Models, Biological Myocardium - chemistry Myocardium - pathology thalassemia Transfusion Reaction
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creator	SHETH, SUJIT TANG, HAIYING JENSEN, JENS H. ALTMANN, KAREN PRAKASH, ASHWIN PRINTZ, BETH F. HORDOF, ALAN J. TOSTI, CHRISTINA L. AZABAGIC, ANDJELA SWAMINATHAN, SRIRAMA BROWN, TRUMAN R. OLIVIERI, NANCY F. BRITTENHAM, GARY M.
description	: To examine the relationship between myocardial storage iron and body iron burden, as assessed by hepatic storage iron measurements, we studied 22 patients with transfusion‐dependent thalassemia syndromes, all being treated with subcutaneous deferoxamine, and 6 healthy subjects. Study participants were examined with a Philips 1.5‐T Intera scanner using three multiecho spin echo sequences with electrocardiographic triggering and respiratory navigator gating. Myocardial and hepatic storage iron concentrations were determined using a new magnetic resonance method that estimates total tissue iron stores by separately measuring the two principal forms of storage iron, ferritin and hemosiderin. In a subset of 10 patients with β‐thalassemia major, the hepatic storage iron concentration had been monitored repeatedly for 12‐14 years by chemical analysis of tissue obtained by liver biopsy and by magnetic susceptometry. In this subset, we examine the relationship between hepatic iron concentration over time and our current magnetic resonance estimates of myocardial iron stores. No significant relationship was found between simultaneous estimates of myocardial and hepatic storage iron concentrations. By contrast, in the subset of 10 patients with β‐thalassemia major, the correlation between the 5‐year average of hepatic iron concentration and the current myocardial storage iron was significant (R= .67, P= .03). In these patients, myocardial storage iron concentrations seem to reflect the control of body iron over a period of years. Magnetic resonance methods promise to provide more effective monitoring of iron deposition in vulnerable tissues, including the liver, heart, and endocrine organs, and could contribute to the development of iron‐chelating regimens that more effectively prevent iron toxicity.
doi_str_mv	10.1196/annals.1345.044
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Study participants were examined with a Philips 1.5‐T Intera scanner using three multiecho spin echo sequences with electrocardiographic triggering and respiratory navigator gating. Myocardial and hepatic storage iron concentrations were determined using a new magnetic resonance method that estimates total tissue iron stores by separately measuring the two principal forms of storage iron, ferritin and hemosiderin. In a subset of 10 patients with β‐thalassemia major, the hepatic storage iron concentration had been monitored repeatedly for 12‐14 years by chemical analysis of tissue obtained by liver biopsy and by magnetic susceptometry. In this subset, we examine the relationship between hepatic iron concentration over time and our current magnetic resonance estimates of myocardial iron stores. No significant relationship was found between simultaneous estimates of myocardial and hepatic storage iron concentrations. By contrast, in the subset of 10 patients with β‐thalassemia major, the correlation between the 5‐year average of hepatic iron concentration and the current myocardial storage iron was significant (R= .67, P= .03). In these patients, myocardial storage iron concentrations seem to reflect the control of body iron over a period of years. 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Study participants were examined with a Philips 1.5‐T Intera scanner using three multiecho spin echo sequences with electrocardiographic triggering and respiratory navigator gating. Myocardial and hepatic storage iron concentrations were determined using a new magnetic resonance method that estimates total tissue iron stores by separately measuring the two principal forms of storage iron, ferritin and hemosiderin. In a subset of 10 patients with β‐thalassemia major, the hepatic storage iron concentration had been monitored repeatedly for 12‐14 years by chemical analysis of tissue obtained by liver biopsy and by magnetic susceptometry. In this subset, we examine the relationship between hepatic iron concentration over time and our current magnetic resonance estimates of myocardial iron stores. No significant relationship was found between simultaneous estimates of myocardial and hepatic storage iron concentrations. By contrast, in the subset of 10 patients with β‐thalassemia major, the correlation between the 5‐year average of hepatic iron concentration and the current myocardial storage iron was significant (R= .67, P= .03). In these patients, myocardial storage iron concentrations seem to reflect the control of body iron over a period of years. Magnetic resonance methods promise to provide more effective monitoring of iron deposition in vulnerable tissues, including the liver, heart, and endocrine organs, and could contribute to the development of iron‐chelating regimens that more effectively prevent iron toxicity.</description><subject>Adult</subject><subject>beta-Thalassemia - complications</subject><subject>beta-Thalassemia - drug therapy</subject><subject>beta-Thalassemia - metabolism</subject><subject>beta-Thalassemia - pathology</subject><subject>beta-Thalassemia - therapy</subject><subject>Chelation Therapy</subject><subject>Combined Modality Therapy</subject><subject>Deferoxamine - therapeutic use</subject><subject>Female</subject><subject>Ferritins - analysis</subject><subject>Hemoglobin E</subject><subject>Hemosiderin - analysis</subject><subject>Humans</subject><subject>iron</subject><subject>Iron - analysis</subject><subject>Iron Chelating Agents - therapeutic use</subject><subject>Iron Overload - etiology</subject><subject>Iron Overload - metabolism</subject><subject>Iron Overload - pathology</subject><subject>Liver - chemistry</subject><subject>Liver - pathology</subject><subject>magnetic resonance</subject><subject>Magnetic Resonance Imaging - methods</subject><subject>magnetic susceptibility</subject><subject>Male</subject><subject>Middle Aged</subject><subject>Models, Biological</subject><subject>Myocardium - chemistry</subject><subject>Myocardium - pathology</subject><subject>thalassemia</subject><subject>Transfusion Reaction</subject><issn>0077-8923</issn><issn>1749-6632</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2005</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkMFPwjAUhxujEUTP3kxvngbt2rXdEQkOIuDBGeOp6bo2VtlGWkD57x2Z0aPv8i6_75f3PgCuMRpinLKRqmu1DkNMaDJElJ6APuY0jRgj8SnoI8R5JNKY9MBFCO8I4VhQfg56mBGSMkH7YLo027emDNA2Hq6a2tV7FdzewKVRYedNZeotbCzMXQg7A-e-qaGr4aRp1uZwG-C4NpVTl-DMtneYq589AM_303wyixaP2XwyXkSacCEiylHJEku1we2whCicGp7oQmlaFKliQnEtREl1ibhFVthSa0uRiilOhS3IAIy6Xu2bELyxcuNdpfxBYiSPQmQnRB6FyFZIS9x0xGZXVKb8y_8YaAO0C3y69qP_-uTqdfxEEtFiUYe5sDVfv5jyH5JxwhP5ssrkwyxb3uUikzn5BuMpfZE</recordid><startdate>20050101</startdate><enddate>20050101</enddate><creator>SHETH, SUJIT</creator><creator>TANG, HAIYING</creator><creator>JENSEN, JENS H.</creator><creator>ALTMANN, KAREN</creator><creator>PRAKASH, ASHWIN</creator><creator>PRINTZ, BETH F.</creator><creator>HORDOF, ALAN J.</creator><creator>TOSTI, CHRISTINA L.</creator><creator>AZABAGIC, ANDJELA</creator><creator>SWAMINATHAN, SRIRAMA</creator><creator>BROWN, TRUMAN R.</creator><creator>OLIVIERI, NANCY F.</creator><creator>BRITTENHAM, GARY M.</creator><general>Blackwell Publishing Ltd</general><scope>BSCLL</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20050101</creationdate><title>Methods for Noninvasive Measurement of Tissue Iron in Cooley's Anemia</title><author>SHETH, SUJIT ; TANG, HAIYING ; JENSEN, JENS H. ; ALTMANN, KAREN ; PRAKASH, ASHWIN ; PRINTZ, BETH F. ; HORDOF, ALAN J. ; TOSTI, CHRISTINA L. ; AZABAGIC, ANDJELA ; SWAMINATHAN, SRIRAMA ; BROWN, TRUMAN R. ; OLIVIERI, NANCY F. ; BRITTENHAM, GARY M.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3788-470d65f4ce1111653a19e75cbac4bb9a68a7c88d4cd07f0f8fdccf40a24198fb3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2005</creationdate><topic>Adult</topic><topic>beta-Thalassemia - complications</topic><topic>beta-Thalassemia - drug therapy</topic><topic>beta-Thalassemia - metabolism</topic><topic>beta-Thalassemia - pathology</topic><topic>beta-Thalassemia - therapy</topic><topic>Chelation Therapy</topic><topic>Combined Modality Therapy</topic><topic>Deferoxamine - therapeutic use</topic><topic>Female</topic><topic>Ferritins - analysis</topic><topic>Hemoglobin E</topic><topic>Hemosiderin - analysis</topic><topic>Humans</topic><topic>iron</topic><topic>Iron - analysis</topic><topic>Iron Chelating Agents - therapeutic use</topic><topic>Iron Overload - etiology</topic><topic>Iron Overload - metabolism</topic><topic>Iron Overload - pathology</topic><topic>Liver - chemistry</topic><topic>Liver - pathology</topic><topic>magnetic resonance</topic><topic>Magnetic Resonance Imaging - methods</topic><topic>magnetic susceptibility</topic><topic>Male</topic><topic>Middle Aged</topic><topic>Models, Biological</topic><topic>Myocardium - chemistry</topic><topic>Myocardium - pathology</topic><topic>thalassemia</topic><topic>Transfusion Reaction</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>SHETH, SUJIT</creatorcontrib><creatorcontrib>TANG, HAIYING</creatorcontrib><creatorcontrib>JENSEN, JENS H.</creatorcontrib><creatorcontrib>ALTMANN, KAREN</creatorcontrib><creatorcontrib>PRAKASH, ASHWIN</creatorcontrib><creatorcontrib>PRINTZ, BETH F.</creatorcontrib><creatorcontrib>HORDOF, ALAN J.</creatorcontrib><creatorcontrib>TOSTI, CHRISTINA L.</creatorcontrib><creatorcontrib>AZABAGIC, ANDJELA</creatorcontrib><creatorcontrib>SWAMINATHAN, SRIRAMA</creatorcontrib><creatorcontrib>BROWN, TRUMAN R.</creatorcontrib><creatorcontrib>OLIVIERI, NANCY F.</creatorcontrib><creatorcontrib>BRITTENHAM, GARY M.</creatorcontrib><collection>Istex</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><jtitle>Annals of the New York Academy of Sciences</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>SHETH, SUJIT</au><au>TANG, HAIYING</au><au>JENSEN, JENS H.</au><au>ALTMANN, KAREN</au><au>PRAKASH, ASHWIN</au><au>PRINTZ, BETH F.</au><au>HORDOF, ALAN J.</au><au>TOSTI, CHRISTINA L.</au><au>AZABAGIC, ANDJELA</au><au>SWAMINATHAN, SRIRAMA</au><au>BROWN, TRUMAN R.</au><au>OLIVIERI, NANCY F.</au><au>BRITTENHAM, GARY M.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Methods for Noninvasive Measurement of Tissue Iron in Cooley's Anemia</atitle><jtitle>Annals of the New York Academy of Sciences</jtitle><addtitle>Ann N Y Acad Sci</addtitle><date>2005-01-01</date><risdate>2005</risdate><volume>1054</volume><issue>1</issue><spage>358</spage><epage>372</epage><pages>358-372</pages><issn>0077-8923</issn><eissn>1749-6632</eissn><abstract>: To examine the relationship between myocardial storage iron and body iron burden, as assessed by hepatic storage iron measurements, we studied 22 patients with transfusion‐dependent thalassemia syndromes, all being treated with subcutaneous deferoxamine, and 6 healthy subjects. Study participants were examined with a Philips 1.5‐T Intera scanner using three multiecho spin echo sequences with electrocardiographic triggering and respiratory navigator gating. Myocardial and hepatic storage iron concentrations were determined using a new magnetic resonance method that estimates total tissue iron stores by separately measuring the two principal forms of storage iron, ferritin and hemosiderin. In a subset of 10 patients with β‐thalassemia major, the hepatic storage iron concentration had been monitored repeatedly for 12‐14 years by chemical analysis of tissue obtained by liver biopsy and by magnetic susceptometry. In this subset, we examine the relationship between hepatic iron concentration over time and our current magnetic resonance estimates of myocardial iron stores. No significant relationship was found between simultaneous estimates of myocardial and hepatic storage iron concentrations. By contrast, in the subset of 10 patients with β‐thalassemia major, the correlation between the 5‐year average of hepatic iron concentration and the current myocardial storage iron was significant (R= .67, P= .03). In these patients, myocardial storage iron concentrations seem to reflect the control of body iron over a period of years. Magnetic resonance methods promise to provide more effective monitoring of iron deposition in vulnerable tissues, including the liver, heart, and endocrine organs, and could contribute to the development of iron‐chelating regimens that more effectively prevent iron toxicity.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><pmid>16339684</pmid><doi>10.1196/annals.1345.044</doi><tpages>15</tpages></addata></record>
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subjects	Adult beta-Thalassemia - complications beta-Thalassemia - drug therapy beta-Thalassemia - metabolism beta-Thalassemia - pathology beta-Thalassemia - therapy Chelation Therapy Combined Modality Therapy Deferoxamine - therapeutic use Female Ferritins - analysis Hemoglobin E Hemosiderin - analysis Humans iron Iron - analysis Iron Chelating Agents - therapeutic use Iron Overload - etiology Iron Overload - metabolism Iron Overload - pathology Liver - chemistry Liver - pathology magnetic resonance Magnetic Resonance Imaging - methods magnetic susceptibility Male Middle Aged Models, Biological Myocardium - chemistry Myocardium - pathology thalassemia Transfusion Reaction
title	Methods for Noninvasive Measurement of Tissue Iron in Cooley's Anemia
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