Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI
Resumen:
Quantitative approaches in clinical Magnetic Resonance Imaging (MRI) benefit from the availability of adequate phantoms. Ideally, the phantom material should reflect the complexity of signals encountered in vivo. In the present study we validate and characterize clusters consisting of sodium-polyacrylate embedded in an alginate matrix that are unloaded or loaded with iron for Quantitative Susceptibility Mapping (QSM), yielding a non-uniform iron distribution and tissue-mimicking MRI properties. Vibrating sample magnetometry (VSM) was used to characterize the phantom material and verify the accuracy of previous MRI-based observations of the QSM based molar susceptibility (χM). MRI at 14.1 T with high resolution acquisitions was used to determine the size of hydrogel clusters and to further investigate the suitability of the phantom material as a model system for QSM at high field. VSM demonstrated that the iron-solution used for manufacturing the phantoms consisted of ferric iron. The χM of clusters with a constant iron-to-polyacrylate-ratio (8.3 μg/mg) observed with VSM was 50.7 ± 8.0 ppb mM−1 but showed a tendency towards saturation at total iron concentrations >1 mM. On unwrapped and background corrected phase-images obtained with gradient-echo MRI and an isotropic voxel size of 37 μm at 14.1T, the iron-free clusters had a roundish shape and blurry border with an equivalent sphere diameter of 276 ± 230 µm and a QSM of 7 ± 7 ppb. Iron-loading led to strong phase wrapping, necessitating the use of short echo times, or short inter-echo delays below 10 ms at 14.1 T. The equivalent sphere diameter of the iron-loaded clusters was estimated to 400–500 µm as verified using different MRI modalities (spin-echo, inversion recovery, and gradient echo MRI). With a constant iron-to-polyacrylate ratio, the cluster density was 10 mm−3 mM−1 iron. In agreement with previous observations, χM of samples with a constant amount of polyacrylate was 50.6 ± 11.4 ppb mM−1 at 3 T while samples containing clusters with a constant iron-to polyacrylate-ratio yielded χM = 56.1 ± 6.3 ppb mM−1 at 3T and 55.6 ± 0.7 ppb mM−1 at 14.1 T. In conclusion we found that the molar susceptibility of the proposed model system corresponds to that predicted for ferritin in vivo loaded with 3000 iron atoms. The reproducibility was within 12% across MR scanners, batches, and phantom types and compared well with results obtained with vibrating sample magnetometry.
| 2023 | |
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Magnetic susceptibility Iron–oxide Phantom Quantitative MRI Quality control |
|
| Inglés | |
| Universidad de la República | |
| COLIBRI | |
| https://hdl.handle.net/20.500.12008/42259 | |
| Acceso abierto | |
| Licencia Creative Commons Atribución (CC - By 4.0) |
| _version_ | 1807522805671002112 |
|---|---|
| author | Hagberg, Gisela E. |
| author2 | Jörn, Engelmann Göring, Eberhard Cuña Rodríguez, Enrique Gustavo Scheffler, Klaus |
| author2_role | author author author author |
| author_facet | Hagberg, Gisela E. Jörn, Engelmann Göring, Eberhard Cuña Rodríguez, Enrique Gustavo Scheffler, Klaus |
| author_role | author |
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| collection | COLIBRI |
| dc.contributor.filiacion.none.fl_str_mv | Hagberg Gisela E. Jörn Engelmann Göring Eberhard Cuña Rodríguez Enrique Gustavo, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física. Scheffler Klaus |
| dc.creator.none.fl_str_mv | Hagberg, Gisela E. Jörn, Engelmann Göring, Eberhard Cuña Rodríguez, Enrique Gustavo Scheffler, Klaus |
| dc.date.accessioned.none.fl_str_mv | 2024-01-26T15:42:04Z |
| dc.date.available.none.fl_str_mv | 2024-01-26T15:42:04Z |
| dc.date.issued.none.fl_str_mv | 2023 |
| dc.description.abstract.none.fl_txt_mv | Quantitative approaches in clinical Magnetic Resonance Imaging (MRI) benefit from the availability of adequate phantoms. Ideally, the phantom material should reflect the complexity of signals encountered in vivo. In the present study we validate and characterize clusters consisting of sodium-polyacrylate embedded in an alginate matrix that are unloaded or loaded with iron for Quantitative Susceptibility Mapping (QSM), yielding a non-uniform iron distribution and tissue-mimicking MRI properties. Vibrating sample magnetometry (VSM) was used to characterize the phantom material and verify the accuracy of previous MRI-based observations of the QSM based molar susceptibility (χM). MRI at 14.1 T with high resolution acquisitions was used to determine the size of hydrogel clusters and to further investigate the suitability of the phantom material as a model system for QSM at high field. VSM demonstrated that the iron-solution used for manufacturing the phantoms consisted of ferric iron. The χM of clusters with a constant iron-to-polyacrylate-ratio (8.3 μg/mg) observed with VSM was 50.7 ± 8.0 ppb mM−1 but showed a tendency towards saturation at total iron concentrations >1 mM. On unwrapped and background corrected phase-images obtained with gradient-echo MRI and an isotropic voxel size of 37 μm at 14.1T, the iron-free clusters had a roundish shape and blurry border with an equivalent sphere diameter of 276 ± 230 µm and a QSM of 7 ± 7 ppb. Iron-loading led to strong phase wrapping, necessitating the use of short echo times, or short inter-echo delays below 10 ms at 14.1 T. The equivalent sphere diameter of the iron-loaded clusters was estimated to 400–500 µm as verified using different MRI modalities (spin-echo, inversion recovery, and gradient echo MRI). With a constant iron-to-polyacrylate ratio, the cluster density was 10 mm−3 mM−1 iron. In agreement with previous observations, χM of samples with a constant amount of polyacrylate was 50.6 ± 11.4 ppb mM−1 at 3 T while samples containing clusters with a constant iron-to polyacrylate-ratio yielded χM = 56.1 ± 6.3 ppb mM−1 at 3T and 55.6 ± 0.7 ppb mM−1 at 14.1 T. In conclusion we found that the molar susceptibility of the proposed model system corresponds to that predicted for ferritin in vivo loaded with 3000 iron atoms. The reproducibility was within 12% across MR scanners, batches, and phantom types and compared well with results obtained with vibrating sample magnetometry. |
| dc.format.extent.es.fl_str_mv | 18 h. |
| dc.format.mimetype.es.fl_str_mv | application/pdf |
| dc.identifier.citation.es.fl_str_mv | Hagberg, G, Jörn, E, Göring, E y otros. "Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI". Frontiers in Physics. [en línea] 2023, 11. 18 h. DOI: 10.3389/fphy.2023.1209505 |
| dc.identifier.doi.none.fl_str_mv | 10.3389/fphy.2023.1209505 |
| dc.identifier.issn.none.fl_str_mv | 2296-424X |
| dc.identifier.uri.none.fl_str_mv | https://hdl.handle.net/20.500.12008/42259 |
| dc.language.iso.none.fl_str_mv | en eng |
| dc.publisher.es.fl_str_mv | Frontiers |
| dc.relation.ispartof.es.fl_str_mv | Frontiers in Physics, 2023, 11 |
| dc.rights.license.none.fl_str_mv | Licencia Creative Commons Atribución (CC - By 4.0) |
| dc.rights.none.fl_str_mv | info:eu-repo/semantics/openAccess |
| dc.rights.uri.*.fl_str_mv | An error occurred getting the license - uri. |
| dc.source.none.fl_str_mv | reponame:COLIBRI instname:Universidad de la República instacron:Universidad de la República |
| dc.subject.es.fl_str_mv | Magnetic susceptibility Iron–oxide Phantom Quantitative MRI Quality control |
| dc.title.none.fl_str_mv | Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI |
| dc.type.es.fl_str_mv | Artículo |
| dc.type.none.fl_str_mv | info:eu-repo/semantics/article |
| dc.type.version.none.fl_str_mv | info:eu-repo/semantics/publishedVersion |
| description | Quantitative approaches in clinical Magnetic Resonance Imaging (MRI) benefit from the availability of adequate phantoms. Ideally, the phantom material should reflect the complexity of signals encountered in vivo. In the present study we validate and characterize clusters consisting of sodium-polyacrylate embedded in an alginate matrix that are unloaded or loaded with iron for Quantitative Susceptibility Mapping (QSM), yielding a non-uniform iron distribution and tissue-mimicking MRI properties. Vibrating sample magnetometry (VSM) was used to characterize the phantom material and verify the accuracy of previous MRI-based observations of the QSM based molar susceptibility (χM). MRI at 14.1 T with high resolution acquisitions was used to determine the size of hydrogel clusters and to further investigate the suitability of the phantom material as a model system for QSM at high field. VSM demonstrated that the iron-solution used for manufacturing the phantoms consisted of ferric iron. The χM of clusters with a constant iron-to-polyacrylate-ratio (8.3 μg/mg) observed with VSM was 50.7 ± 8.0 ppb mM−1 but showed a tendency towards saturation at total iron concentrations >1 mM. On unwrapped and background corrected phase-images obtained with gradient-echo MRI and an isotropic voxel size of 37 μm at 14.1T, the iron-free clusters had a roundish shape and blurry border with an equivalent sphere diameter of 276 ± 230 µm and a QSM of 7 ± 7 ppb. Iron-loading led to strong phase wrapping, necessitating the use of short echo times, or short inter-echo delays below 10 ms at 14.1 T. The equivalent sphere diameter of the iron-loaded clusters was estimated to 400–500 µm as verified using different MRI modalities (spin-echo, inversion recovery, and gradient echo MRI). With a constant iron-to-polyacrylate ratio, the cluster density was 10 mm−3 mM−1 iron. In agreement with previous observations, χM of samples with a constant amount of polyacrylate was 50.6 ± 11.4 ppb mM−1 at 3 T while samples containing clusters with a constant iron-to polyacrylate-ratio yielded χM = 56.1 ± 6.3 ppb mM−1 at 3T and 55.6 ± 0.7 ppb mM−1 at 14.1 T. In conclusion we found that the molar susceptibility of the proposed model system corresponds to that predicted for ferritin in vivo loaded with 3000 iron atoms. The reproducibility was within 12% across MR scanners, batches, and phantom types and compared well with results obtained with vibrating sample magnetometry. |
| eu_rights_str_mv | openAccess |
| format | article |
| id | COLIBRI_557634a807d1373277fff1552d52bfc3 |
| identifier_str_mv | Hagberg, G, Jörn, E, Göring, E y otros. "Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI". Frontiers in Physics. [en línea] 2023, 11. 18 h. DOI: 10.3389/fphy.2023.1209505 2296-424X 10.3389/fphy.2023.1209505 |
| instacron_str | Universidad de la República |
| institution | Universidad de la República |
| instname_str | Universidad de la República |
| language | eng |
| language_invalid_str_mv | en |
| network_acronym_str | COLIBRI |
| network_name_str | COLIBRI |
| oai_identifier_str | oai:colibri.udelar.edu.uy:20.500.12008/42259 |
| publishDate | 2023 |
| reponame_str | COLIBRI |
| repository.mail.fl_str_mv | mabel.seroubian@seciu.edu.uy |
| repository.name.fl_str_mv | COLIBRI - Universidad de la República |
| repository_id_str | 4771 |
| rights_invalid_str_mv | An error occurred getting the license - uri. Licencia Creative Commons Atribución (CC - By 4.0) |
| spelling | Hagberg Gisela E.Jörn EngelmannGöring EberhardCuña Rodríguez Enrique Gustavo, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física.Scheffler Klaus2024-01-26T15:42:04Z2024-01-26T15:42:04Z2023Hagberg, G, Jörn, E, Göring, E y otros. "Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI". Frontiers in Physics. [en línea] 2023, 11. 18 h. DOI: 10.3389/fphy.2023.12095052296-424Xhttps://hdl.handle.net/20.500.12008/4225910.3389/fphy.2023.1209505Quantitative approaches in clinical Magnetic Resonance Imaging (MRI) benefit from the availability of adequate phantoms. Ideally, the phantom material should reflect the complexity of signals encountered in vivo. In the present study we validate and characterize clusters consisting of sodium-polyacrylate embedded in an alginate matrix that are unloaded or loaded with iron for Quantitative Susceptibility Mapping (QSM), yielding a non-uniform iron distribution and tissue-mimicking MRI properties. Vibrating sample magnetometry (VSM) was used to characterize the phantom material and verify the accuracy of previous MRI-based observations of the QSM based molar susceptibility (χM). MRI at 14.1 T with high resolution acquisitions was used to determine the size of hydrogel clusters and to further investigate the suitability of the phantom material as a model system for QSM at high field. VSM demonstrated that the iron-solution used for manufacturing the phantoms consisted of ferric iron. The χM of clusters with a constant iron-to-polyacrylate-ratio (8.3 μg/mg) observed with VSM was 50.7 ± 8.0 ppb mM−1 but showed a tendency towards saturation at total iron concentrations >1 mM. On unwrapped and background corrected phase-images obtained with gradient-echo MRI and an isotropic voxel size of 37 μm at 14.1T, the iron-free clusters had a roundish shape and blurry border with an equivalent sphere diameter of 276 ± 230 µm and a QSM of 7 ± 7 ppb. Iron-loading led to strong phase wrapping, necessitating the use of short echo times, or short inter-echo delays below 10 ms at 14.1 T. The equivalent sphere diameter of the iron-loaded clusters was estimated to 400–500 µm as verified using different MRI modalities (spin-echo, inversion recovery, and gradient echo MRI). With a constant iron-to-polyacrylate ratio, the cluster density was 10 mm−3 mM−1 iron. In agreement with previous observations, χM of samples with a constant amount of polyacrylate was 50.6 ± 11.4 ppb mM−1 at 3 T while samples containing clusters with a constant iron-to polyacrylate-ratio yielded χM = 56.1 ± 6.3 ppb mM−1 at 3T and 55.6 ± 0.7 ppb mM−1 at 14.1 T. In conclusion we found that the molar susceptibility of the proposed model system corresponds to that predicted for ferritin in vivo loaded with 3000 iron atoms. The reproducibility was within 12% across MR scanners, batches, and phantom types and compared well with results obtained with vibrating sample magnetometry.Submitted by Pintos Natalia (nataliapintosmvd@gmail.com) on 2024-01-25T15:19:46Z No. of bitstreams: 2 license_rdf: 24251 bytes, checksum: 71ed42ef0a0b648670f707320be37b90 (MD5) 10.3389fphy.2023.1209505 .pdf: 7166831 bytes, checksum: 54aaa770595086a19f846a21710aa0a2 (MD5)Approved for entry into archive by Faget Cecilia (lfaget@fcien.edu.uy) on 2024-01-26T13:25:10Z (GMT) No. of bitstreams: 2 license_rdf: 24251 bytes, checksum: 71ed42ef0a0b648670f707320be37b90 (MD5) 10.3389fphy.2023.1209505 .pdf: 7166831 bytes, checksum: 54aaa770595086a19f846a21710aa0a2 (MD5)Made available in DSpace by Seroubian Mabel (mabel.seroubian@seciu.edu.uy) on 2024-01-26T15:42:04Z (GMT). No. of bitstreams: 2 license_rdf: 24251 bytes, checksum: 71ed42ef0a0b648670f707320be37b90 (MD5) 10.3389fphy.2023.1209505 .pdf: 7166831 bytes, checksum: 54aaa770595086a19f846a21710aa0a2 (MD5) Previous issue date: 202318 h.application/pdfenengFrontiersFrontiers in Physics, 2023, 11Las obras depositadas en el Repositorio se rigen por la Ordenanza de los Derechos de la Propiedad Intelectual de la Universidad de la República.(Res. Nº 91 de C.D.C. de 8/III/1994 – D.O. 7/IV/1994) y por la Ordenanza del Repositorio Abierto de la Universidad de la República (Res. Nº 16 de C.D.C. de 07/10/2014)An error occurred getting the license - uri.info:eu-repo/semantics/openAccessLicencia Creative Commons Atribución (CC - By 4.0)Magnetic susceptibilityIron–oxidePhantomQuantitative MRIQuality controlMagnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRIArtículoinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionreponame:COLIBRIinstname:Universidad de la Repúblicainstacron:Universidad de la RepúblicaHagberg, Gisela E.Jörn, EngelmannGöring, EberhardCuña Rodríguez, Enrique GustavoScheffler, KlausLICENSElicense.txtlicense.txttext/plain; charset=utf-84267http://localhost:8080/xmlui/bitstream/20.500.12008/42259/5/license.txt6429389a7df7277b72b7924fdc7d47a9MD55CC-LICENSElicense_urllicense_urltext/plain; charset=utf-844http://localhost:8080/xmlui/bitstream/20.500.12008/42259/2/license_urla0ebbeafb9d2ec7cbb19d7137ebc392cMD52license_textlicense_texttext/html; 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- Universidad de la Repúblicafalse |
| spellingShingle | Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI Hagberg, Gisela E. Magnetic susceptibility Iron–oxide Phantom Quantitative MRI Quality control |
| status_str | publishedVersion |
| title | Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI |
| title_full | Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI |
| title_fullStr | Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI |
| title_full_unstemmed | Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI |
| title_short | Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI |
| title_sort | Magnetic properties of iron-filled hydrogel clusters: a model system for quantitative susceptibility mapping with MRI |
| topic | Magnetic susceptibility Iron–oxide Phantom Quantitative MRI Quality control |
| url | https://hdl.handle.net/20.500.12008/42259 |
