Quantification of liver fat in the presence of iron overload
Purpose To evaluate the accuracy of R2* models (1/T2* = R2*) for chemical shift‐encoded magnetic resonance imaging (CSE‐MRI)‐based proton density fat‐fraction (PDFF) quantification in patients with fatty liver and iron overload, using MR spectroscopy (MRS) as the reference standard. Materials and Me...
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| Veröffentlicht in: | Journal of magnetic resonance imaging 2017-02, Vol.45 (2), p.428-439 |
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| creator | Horng, Debra E. Hernando, Diego Reeder, Scott B. |
| description | Purpose
To evaluate the accuracy of R2* models (1/T2* = R2*) for chemical shift‐encoded magnetic resonance imaging (CSE‐MRI)‐based proton density fat‐fraction (PDFF) quantification in patients with fatty liver and iron overload, using MR spectroscopy (MRS) as the reference standard.
Materials and Methods
Two Monte Carlo simulations were implemented to compare the root‐mean‐squared‐error (RMSE) performance of single‐R2* and dual‐R2* correction in a theoretical liver environment with high iron. Fatty liver was defined as hepatic PDFF >5.6% based on MRS; only subjects with fatty liver were considered for analyses involving fat. From a group of 40 patients with known/suspected iron overload, nine patients were identified at 1.5T, and 13 at 3.0T with fatty liver. MRS linewidth measurements were used to estimate R2* values for water and fat peaks. PDFF was measured from CSE‐MRI data using single‐R2* and dual‐R2* correction with magnitude and complex fitting.
Results
Spectroscopy‐based R2* analysis demonstrated that the R2* of water and fat remain close in value, both increasing as iron overload increases: linear regression between R2*W and R2*F resulted in slope = 0.95 [0.79–1.12] (95% limits of agreement) at 1.5T and slope = 0.76 [0.49–1.03] at 3.0T. MRI‐PDFF using dual‐R2* correction had severe artifacts. MRI‐PDFF using single‐R2* correction had good agreement with MRS‐PDFF: Bland–Altman analysis resulted in –0.7% (bias) ± 2.9% (95% limits of agreement) for magnitude‐fit and –1.3% ± 4.3% for complex‐fit at 1.5T, and –1.5% ± 8.4% for magnitude‐fit and –2.2% ± 9.6% for complex‐fit at 3.0T.
Conclusion
Single‐R2* modeling enables accurate PDFF quantification, even in patients with iron overload.
Level of Evidence: 1
J. Magn. Reson. Imaging 2017;45:428–439. |
| doi_str_mv | 10.1002/jmri.25382 |
| format | Article |
| fullrecord | <record><control><sourceid>proquest_pubme</sourceid><recordid>TN_cdi_pubmedcentral_primary_oai_pubmedcentral_nih_gov_5420327</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>1859472554</sourcerecordid><originalsourceid>FETCH-LOGICAL-c5122-da89dad5f53c847e1c0ce4812dd7e610cf2ddb2d56e23fa275376c35d6220c7f3</originalsourceid><addsrcrecordid>eNqNkUtLxDAUhYMovjf-ACm4cTOa3OQ2KYgg4hNFFF2HmKSaodOOaav4701nVNSVq3vgfBwO9xCyxegeoxT2x5MY9gC5ggWyyhBgBKjyxaQp8hFTVK6QtbYdU0qLQuAyWQEpKErKV8nBbW_qLpTBmi40ddaUWRVefcxK02Whzrpnn02jb31t_WCGOEAJqBrjNshSaarWb37edfJwenJ_fD66ujm7OD66GllkqY0zqnDGYYncKiE9s9R6oRg4J33OqC2TegSHuQdeGpDIZW45uhyAWlnydXI4z532jxPvrK-7aCo9jWFi4rtuTNC_nTo866fmVaMAykGmgN3PgNi89L7t9CS01leVqX3Tt5opLIQERPEPFHLJpJIqoTt_0HHTxzp9YgjMhUBRYKK2f5b_bv21QQLYHHgLlX__9hnVw7p6WFfP1tWX13cXM8U_AEUclxc</addsrcrecordid><sourcetype>Open Access Repository</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype><pqid>1856445495</pqid></control><display><type>article</type><title>Quantification of liver fat in the presence of iron overload</title><source>MEDLINE</source><source>Access via Wiley Online Library</source><source>Wiley Online Library (Open Access Collection)</source><creator>Horng, Debra E. ; Hernando, Diego ; Reeder, Scott B.</creator><creatorcontrib>Horng, Debra E. ; Hernando, Diego ; Reeder, Scott B.</creatorcontrib><description>Purpose
To evaluate the accuracy of R2* models (1/T2* = R2*) for chemical shift‐encoded magnetic resonance imaging (CSE‐MRI)‐based proton density fat‐fraction (PDFF) quantification in patients with fatty liver and iron overload, using MR spectroscopy (MRS) as the reference standard.
Materials and Methods
Two Monte Carlo simulations were implemented to compare the root‐mean‐squared‐error (RMSE) performance of single‐R2* and dual‐R2* correction in a theoretical liver environment with high iron. Fatty liver was defined as hepatic PDFF >5.6% based on MRS; only subjects with fatty liver were considered for analyses involving fat. From a group of 40 patients with known/suspected iron overload, nine patients were identified at 1.5T, and 13 at 3.0T with fatty liver. MRS linewidth measurements were used to estimate R2* values for water and fat peaks. PDFF was measured from CSE‐MRI data using single‐R2* and dual‐R2* correction with magnitude and complex fitting.
Results
Spectroscopy‐based R2* analysis demonstrated that the R2* of water and fat remain close in value, both increasing as iron overload increases: linear regression between R2*W and R2*F resulted in slope = 0.95 [0.79–1.12] (95% limits of agreement) at 1.5T and slope = 0.76 [0.49–1.03] at 3.0T. MRI‐PDFF using dual‐R2* correction had severe artifacts. MRI‐PDFF using single‐R2* correction had good agreement with MRS‐PDFF: Bland–Altman analysis resulted in –0.7% (bias) ± 2.9% (95% limits of agreement) for magnitude‐fit and –1.3% ± 4.3% for complex‐fit at 1.5T, and –1.5% ± 8.4% for magnitude‐fit and –2.2% ± 9.6% for complex‐fit at 3.0T.
Conclusion
Single‐R2* modeling enables accurate PDFF quantification, even in patients with iron overload.
Level of Evidence: 1
J. Magn. Reson. Imaging 2017;45:428–439.</description><identifier>ISSN: 1053-1807</identifier><identifier>EISSN: 1522-2586</identifier><identifier>DOI: 10.1002/jmri.25382</identifier><identifier>PMID: 27405703</identifier><language>eng</language><publisher>United States: Wiley Subscription Services, Inc</publisher><subject>Adipose Tissue - diagnostic imaging ; Adipose Tissue - pathology ; Adiposity ; Adult ; chemical shift‐encoded magnetic resonance imaging ; Child ; Fatty Liver - diagnostic imaging ; Fatty Liver - etiology ; Fatty Liver - pathology ; Female ; Humans ; Image Enhancement - methods ; Image Interpretation, Computer-Assisted - methods ; iron overload ; Iron Overload - complications ; Iron Overload - diagnostic imaging ; Iron Overload - pathology ; liver fat ; Magnetic resonance imaging ; Magnetic Resonance Imaging - methods ; Male ; Proton Magnetic Resonance Spectroscopy - methods ; Reproducibility of Results ; Sensitivity and Specificity</subject><ispartof>Journal of magnetic resonance imaging, 2017-02, Vol.45 (2), p.428-439</ispartof><rights>2016 International Society for Magnetic Resonance in Medicine</rights><rights>2016 International Society for Magnetic Resonance in Medicine.</rights><rights>2017 International Society for Magnetic Resonance in Medicine</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c5122-da89dad5f53c847e1c0ce4812dd7e610cf2ddb2d56e23fa275376c35d6220c7f3</citedby><orcidid>0000-0001-7146-0838</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://onlinelibrary.wiley.com/doi/pdf/10.1002%2Fjmri.25382$$EPDF$$P50$$Gwiley$$H</linktopdf><linktohtml>$$Uhttps://onlinelibrary.wiley.com/doi/full/10.1002%2Fjmri.25382$$EHTML$$P50$$Gwiley$$H</linktohtml><link.rule.ids>230,314,780,784,885,1417,1433,27924,27925,45574,45575,46409,46833</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/27405703$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Horng, Debra E.</creatorcontrib><creatorcontrib>Hernando, Diego</creatorcontrib><creatorcontrib>Reeder, Scott B.</creatorcontrib><title>Quantification of liver fat in the presence of iron overload</title><title>Journal of magnetic resonance imaging</title><addtitle>J Magn Reson Imaging</addtitle><description>Purpose
To evaluate the accuracy of R2* models (1/T2* = R2*) for chemical shift‐encoded magnetic resonance imaging (CSE‐MRI)‐based proton density fat‐fraction (PDFF) quantification in patients with fatty liver and iron overload, using MR spectroscopy (MRS) as the reference standard.
Materials and Methods
Two Monte Carlo simulations were implemented to compare the root‐mean‐squared‐error (RMSE) performance of single‐R2* and dual‐R2* correction in a theoretical liver environment with high iron. Fatty liver was defined as hepatic PDFF >5.6% based on MRS; only subjects with fatty liver were considered for analyses involving fat. From a group of 40 patients with known/suspected iron overload, nine patients were identified at 1.5T, and 13 at 3.0T with fatty liver. MRS linewidth measurements were used to estimate R2* values for water and fat peaks. PDFF was measured from CSE‐MRI data using single‐R2* and dual‐R2* correction with magnitude and complex fitting.
Results
Spectroscopy‐based R2* analysis demonstrated that the R2* of water and fat remain close in value, both increasing as iron overload increases: linear regression between R2*W and R2*F resulted in slope = 0.95 [0.79–1.12] (95% limits of agreement) at 1.5T and slope = 0.76 [0.49–1.03] at 3.0T. MRI‐PDFF using dual‐R2* correction had severe artifacts. MRI‐PDFF using single‐R2* correction had good agreement with MRS‐PDFF: Bland–Altman analysis resulted in –0.7% (bias) ± 2.9% (95% limits of agreement) for magnitude‐fit and –1.3% ± 4.3% for complex‐fit at 1.5T, and –1.5% ± 8.4% for magnitude‐fit and –2.2% ± 9.6% for complex‐fit at 3.0T.
Conclusion
Single‐R2* modeling enables accurate PDFF quantification, even in patients with iron overload.
Level of Evidence: 1
J. Magn. Reson. Imaging 2017;45:428–439.</description><subject>Adipose Tissue - diagnostic imaging</subject><subject>Adipose Tissue - pathology</subject><subject>Adiposity</subject><subject>Adult</subject><subject>chemical shift‐encoded magnetic resonance imaging</subject><subject>Child</subject><subject>Fatty Liver - diagnostic imaging</subject><subject>Fatty Liver - etiology</subject><subject>Fatty Liver - pathology</subject><subject>Female</subject><subject>Humans</subject><subject>Image Enhancement - methods</subject><subject>Image Interpretation, Computer-Assisted - methods</subject><subject>iron overload</subject><subject>Iron Overload - complications</subject><subject>Iron Overload - diagnostic imaging</subject><subject>Iron Overload - pathology</subject><subject>liver fat</subject><subject>Magnetic resonance imaging</subject><subject>Magnetic Resonance Imaging - methods</subject><subject>Male</subject><subject>Proton Magnetic Resonance Spectroscopy - methods</subject><subject>Reproducibility of Results</subject><subject>Sensitivity and Specificity</subject><issn>1053-1807</issn><issn>1522-2586</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNkUtLxDAUhYMovjf-ACm4cTOa3OQ2KYgg4hNFFF2HmKSaodOOaav4701nVNSVq3vgfBwO9xCyxegeoxT2x5MY9gC5ggWyyhBgBKjyxaQp8hFTVK6QtbYdU0qLQuAyWQEpKErKV8nBbW_qLpTBmi40ddaUWRVefcxK02Whzrpnn02jb31t_WCGOEAJqBrjNshSaarWb37edfJwenJ_fD66ujm7OD66GllkqY0zqnDGYYncKiE9s9R6oRg4J33OqC2TegSHuQdeGpDIZW45uhyAWlnydXI4z532jxPvrK-7aCo9jWFi4rtuTNC_nTo866fmVaMAykGmgN3PgNi89L7t9CS01leVqX3Tt5opLIQERPEPFHLJpJIqoTt_0HHTxzp9YgjMhUBRYKK2f5b_bv21QQLYHHgLlX__9hnVw7p6WFfP1tWX13cXM8U_AEUclxc</recordid><startdate>201702</startdate><enddate>201702</enddate><creator>Horng, Debra E.</creator><creator>Hernando, Diego</creator><creator>Reeder, Scott B.</creator><general>Wiley Subscription Services, Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>7QO</scope><scope>7TK</scope><scope>8FD</scope><scope>FR3</scope><scope>K9.</scope><scope>P64</scope><scope>7X8</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0001-7146-0838</orcidid></search><sort><creationdate>201702</creationdate><title>Quantification of liver fat in the presence of iron overload</title><author>Horng, Debra E. ; Hernando, Diego ; Reeder, Scott B.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c5122-da89dad5f53c847e1c0ce4812dd7e610cf2ddb2d56e23fa275376c35d6220c7f3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2017</creationdate><topic>Adipose Tissue - diagnostic imaging</topic><topic>Adipose Tissue - pathology</topic><topic>Adiposity</topic><topic>Adult</topic><topic>chemical shift‐encoded magnetic resonance imaging</topic><topic>Child</topic><topic>Fatty Liver - diagnostic imaging</topic><topic>Fatty Liver - etiology</topic><topic>Fatty Liver - pathology</topic><topic>Female</topic><topic>Humans</topic><topic>Image Enhancement - methods</topic><topic>Image Interpretation, Computer-Assisted - methods</topic><topic>iron overload</topic><topic>Iron Overload - complications</topic><topic>Iron Overload - diagnostic imaging</topic><topic>Iron Overload - pathology</topic><topic>liver fat</topic><topic>Magnetic resonance imaging</topic><topic>Magnetic Resonance Imaging - methods</topic><topic>Male</topic><topic>Proton Magnetic Resonance Spectroscopy - methods</topic><topic>Reproducibility of Results</topic><topic>Sensitivity and Specificity</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Horng, Debra E.</creatorcontrib><creatorcontrib>Hernando, Diego</creatorcontrib><creatorcontrib>Reeder, Scott B.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>Biotechnology Research Abstracts</collection><collection>Neurosciences Abstracts</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Journal of magnetic resonance imaging</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Horng, Debra E.</au><au>Hernando, Diego</au><au>Reeder, Scott B.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Quantification of liver fat in the presence of iron overload</atitle><jtitle>Journal of magnetic resonance imaging</jtitle><addtitle>J Magn Reson Imaging</addtitle><date>2017-02</date><risdate>2017</risdate><volume>45</volume><issue>2</issue><spage>428</spage><epage>439</epage><pages>428-439</pages><issn>1053-1807</issn><eissn>1522-2586</eissn><abstract>Purpose
To evaluate the accuracy of R2* models (1/T2* = R2*) for chemical shift‐encoded magnetic resonance imaging (CSE‐MRI)‐based proton density fat‐fraction (PDFF) quantification in patients with fatty liver and iron overload, using MR spectroscopy (MRS) as the reference standard.
Materials and Methods
Two Monte Carlo simulations were implemented to compare the root‐mean‐squared‐error (RMSE) performance of single‐R2* and dual‐R2* correction in a theoretical liver environment with high iron. Fatty liver was defined as hepatic PDFF >5.6% based on MRS; only subjects with fatty liver were considered for analyses involving fat. From a group of 40 patients with known/suspected iron overload, nine patients were identified at 1.5T, and 13 at 3.0T with fatty liver. MRS linewidth measurements were used to estimate R2* values for water and fat peaks. PDFF was measured from CSE‐MRI data using single‐R2* and dual‐R2* correction with magnitude and complex fitting.
Results
Spectroscopy‐based R2* analysis demonstrated that the R2* of water and fat remain close in value, both increasing as iron overload increases: linear regression between R2*W and R2*F resulted in slope = 0.95 [0.79–1.12] (95% limits of agreement) at 1.5T and slope = 0.76 [0.49–1.03] at 3.0T. MRI‐PDFF using dual‐R2* correction had severe artifacts. MRI‐PDFF using single‐R2* correction had good agreement with MRS‐PDFF: Bland–Altman analysis resulted in –0.7% (bias) ± 2.9% (95% limits of agreement) for magnitude‐fit and –1.3% ± 4.3% for complex‐fit at 1.5T, and –1.5% ± 8.4% for magnitude‐fit and –2.2% ± 9.6% for complex‐fit at 3.0T.
Conclusion
Single‐R2* modeling enables accurate PDFF quantification, even in patients with iron overload.
Level of Evidence: 1
J. Magn. Reson. Imaging 2017;45:428–439.</abstract><cop>United States</cop><pub>Wiley Subscription Services, Inc</pub><pmid>27405703</pmid><doi>10.1002/jmri.25382</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0001-7146-0838</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Adipose Tissue - diagnostic imaging Adipose Tissue - pathology Adiposity Adult chemical shift‐encoded magnetic resonance imaging Child Fatty Liver - diagnostic imaging Fatty Liver - etiology Fatty Liver - pathology Female Humans Image Enhancement - methods Image Interpretation, Computer-Assisted - methods iron overload Iron Overload - complications Iron Overload - diagnostic imaging Iron Overload - pathology liver fat Magnetic resonance imaging Magnetic Resonance Imaging - methods Male Proton Magnetic Resonance Spectroscopy - methods Reproducibility of Results Sensitivity and Specificity |
| title | Quantification of liver fat in the presence of iron overload |
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