Design and application of a four-channel transmit/receive surface coil for functional cardiac imaging at 7T

Purpose To design and evaluate a four‐channel cardiac transceiver coil array for functional cardiac imaging at 7T. Materials and Methods A four‐element cardiac transceiver surface coil array was developed with two rectangular loops mounted on an anterior former and two rectangular loops on a posteri...

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Published in	Journal of magnetic resonance imaging Vol. 33; no. 3; pp. 736 - 741
Main Authors	Dieringer, Matthias A., Renz, Wolfgang, Lindel, Tomasz, Seifert, Frank, Frauenrath, Tobias, von Knobelsdorff-Brenkenhoff, Florian, Waiczies, Helmar, Hoffmann, Werner, Rieger, Jan, Pfeiffer, Harald, Ittermann, Bernd, Schulz-Menger, Jeanette, Niendorf, Thoralf
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.03.2011
Subjects	7.0 Tesla 7T cardiac imaging Absorption Adult Calibration Contrast Media - pharmacology Diagnostic Imaging - instrumentation Diagnostic Imaging - methods Equipment Design Female Heart - physiology Humans left ventricular function Magnetic Resonance Imaging - instrumentation Magnetic Resonance Imaging - methods Male Middle Aged Myocardium - pathology Reproducibility of Results RF coil design ultrahigh field cardiovascular MRI
Online Access	Get full text
ISSN	1053-1807 1522-2586 1522-2586
DOI	10.1002/jmri.22451

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Abstract	Purpose To design and evaluate a four‐channel cardiac transceiver coil array for functional cardiac imaging at 7T. Materials and Methods A four‐element cardiac transceiver surface coil array was developed with two rectangular loops mounted on an anterior former and two rectangular loops on a posterior former. specific absorption rate (SAR) simulations were performed and a B 1+ calibration method was applied prior to obtain 2D FLASH CINE (mSENSE, R = 2) images from nine healthy volunteers with a spatial resolution of up to 1 × 1 × 2.5 mm3. Results Tuning and matching was found to be better than 10 dB for all subjects. The decoupling (S21) was measured to be >18 dB between neighboring loops, >20 dB for opposite loops, and >30 dB for other loop combinations. SAR values were well within the limits provided by the IEC. Imaging provided clinically acceptable signal homogeneity with an excellent blood‐myocardium contrast applying the B 1+ calibration approach. Conclusion A four‐channel cardiac transceiver coil array for 7T was built, allowing for cardiac imaging with clinically acceptable signal homogeneity and an excellent blood‐myocardium contrast. Minor anatomic structures, such as pericardium, mitral, and tricuspid valves and their apparatus, as well as trabeculae, were accurately delineated. J. Magn. Reson. Imaging 2011;. © 2011 Wiley‐Liss, Inc.
AbstractList	To design and evaluate a four-channel cardiac transceiver coil array for functional cardiac imaging at 7T. A four-element cardiac transceiver surface coil array was developed with two rectangular loops mounted on an anterior former and two rectangular loops on a posterior former. specific absorption rate (SAR) simulations were performed and a B 1+ calibration method was applied prior to obtain 2D FLASH CINE (mSENSE, R = 2) images from nine healthy volunteers with a spatial resolution of up to 1 × 1 × 2.5 mm(3). Tuning and matching was found to be better than 10 dB for all subjects. The decoupling (S(21)) was measured to be >18 dB between neighboring loops, >20 dB for opposite loops, and >30 dB for other loop combinations. SAR values were well within the limits provided by the IEC. Imaging provided clinically acceptable signal homogeneity with an excellent blood-myocardium contrast applying the B 1+ calibration approach. A four-channel cardiac transceiver coil array for 7T was built, allowing for cardiac imaging with clinically acceptable signal homogeneity and an excellent blood-myocardium contrast. Minor anatomic structures, such as pericardium, mitral, and tricuspid valves and their apparatus, as well as trabeculae, were accurately delineated. To design and evaluate a four-channel cardiac transceiver coil array for functional cardiac imaging at 7T.PURPOSETo design and evaluate a four-channel cardiac transceiver coil array for functional cardiac imaging at 7T.A four-element cardiac transceiver surface coil array was developed with two rectangular loops mounted on an anterior former and two rectangular loops on a posterior former. specific absorption rate (SAR) simulations were performed and a B 1+ calibration method was applied prior to obtain 2D FLASH CINE (mSENSE, R = 2) images from nine healthy volunteers with a spatial resolution of up to 1 × 1 × 2.5 mm(3).MATERIALS AND METHODSA four-element cardiac transceiver surface coil array was developed with two rectangular loops mounted on an anterior former and two rectangular loops on a posterior former. specific absorption rate (SAR) simulations were performed and a B 1+ calibration method was applied prior to obtain 2D FLASH CINE (mSENSE, R = 2) images from nine healthy volunteers with a spatial resolution of up to 1 × 1 × 2.5 mm(3).Tuning and matching was found to be better than 10 dB for all subjects. The decoupling (S(21)) was measured to be >18 dB between neighboring loops, >20 dB for opposite loops, and >30 dB for other loop combinations. SAR values were well within the limits provided by the IEC. Imaging provided clinically acceptable signal homogeneity with an excellent blood-myocardium contrast applying the B 1+ calibration approach.RESULTSTuning and matching was found to be better than 10 dB for all subjects. The decoupling (S(21)) was measured to be >18 dB between neighboring loops, >20 dB for opposite loops, and >30 dB for other loop combinations. SAR values were well within the limits provided by the IEC. Imaging provided clinically acceptable signal homogeneity with an excellent blood-myocardium contrast applying the B 1+ calibration approach.A four-channel cardiac transceiver coil array for 7T was built, allowing for cardiac imaging with clinically acceptable signal homogeneity and an excellent blood-myocardium contrast. Minor anatomic structures, such as pericardium, mitral, and tricuspid valves and their apparatus, as well as trabeculae, were accurately delineated.CONCLUSIONA four-channel cardiac transceiver coil array for 7T was built, allowing for cardiac imaging with clinically acceptable signal homogeneity and an excellent blood-myocardium contrast. Minor anatomic structures, such as pericardium, mitral, and tricuspid valves and their apparatus, as well as trabeculae, were accurately delineated. Purpose To design and evaluate a four‐channel cardiac transceiver coil array for functional cardiac imaging at 7T. Materials and Methods A four‐element cardiac transceiver surface coil array was developed with two rectangular loops mounted on an anterior former and two rectangular loops on a posterior former. specific absorption rate (SAR) simulations were performed and a B 1+ calibration method was applied prior to obtain 2D FLASH CINE (mSENSE, R = 2) images from nine healthy volunteers with a spatial resolution of up to 1 × 1 × 2.5 mm3. Results Tuning and matching was found to be better than 10 dB for all subjects. The decoupling (S21) was measured to be >18 dB between neighboring loops, >20 dB for opposite loops, and >30 dB for other loop combinations. SAR values were well within the limits provided by the IEC. Imaging provided clinically acceptable signal homogeneity with an excellent blood‐myocardium contrast applying the B 1+ calibration approach. Conclusion A four‐channel cardiac transceiver coil array for 7T was built, allowing for cardiac imaging with clinically acceptable signal homogeneity and an excellent blood‐myocardium contrast. Minor anatomic structures, such as pericardium, mitral, and tricuspid valves and their apparatus, as well as trabeculae, were accurately delineated. J. Magn. Reson. Imaging 2011;. © 2011 Wiley‐Liss, Inc.
Author	Frauenrath, Tobias Dieringer, Matthias A. Waiczies, Helmar Pfeiffer, Harald Seifert, Frank von Knobelsdorff-Brenkenhoff, Florian Ittermann, Bernd Niendorf, Thoralf Rieger, Jan Hoffmann, Werner Schulz-Menger, Jeanette Renz, Wolfgang Lindel, Tomasz
Author_xml	– sequence: 1 givenname: Matthias A. surname: Dieringer fullname: Dieringer, Matthias A. email: Matthias.Dieringer@mdc-berlin.de organization: Experimental and Clinical Research Center (ECRC), Charite' University Medicine Campus Berlin Buch, Berlin, Germany – sequence: 2 givenname: Wolfgang surname: Renz fullname: Renz, Wolfgang organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 3 givenname: Tomasz surname: Lindel fullname: Lindel, Tomasz organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 4 givenname: Frank surname: Seifert fullname: Seifert, Frank organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 5 givenname: Tobias surname: Frauenrath fullname: Frauenrath, Tobias organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 6 givenname: Florian surname: von Knobelsdorff-Brenkenhoff fullname: von Knobelsdorff-Brenkenhoff, Florian organization: Experimental and Clinical Research Center (ECRC), Charite' University Medicine Campus Berlin Buch, Berlin, Germany – sequence: 7 givenname: Helmar surname: Waiczies fullname: Waiczies, Helmar organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 8 givenname: Werner surname: Hoffmann fullname: Hoffmann, Werner organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 9 givenname: Jan surname: Rieger fullname: Rieger, Jan organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 10 givenname: Harald surname: Pfeiffer fullname: Pfeiffer, Harald organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 11 givenname: Bernd surname: Ittermann fullname: Ittermann, Bernd organization: Berlin Ultrahigh Field Facility (B.U.F.F.), Max-Delbrueck-Center for Molecular Medicine, Berlin, Germany – sequence: 12 givenname: Jeanette surname: Schulz-Menger fullname: Schulz-Menger, Jeanette organization: Experimental and Clinical Research Center (ECRC), Charite' University Medicine Campus Berlin Buch, Berlin, Germany – sequence: 13 givenname: Thoralf surname: Niendorf fullname: Niendorf, Thoralf organization: Experimental and Clinical Research Center (ECRC), Charite' University Medicine Campus Berlin Buch, Berlin, Germany
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/21438067$$D View this record in MEDLINE/PubMed
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References	Brandts A, Westenberg JJ, Versluis MJ, et al. Quantitative assessment of left ventricular function in humans at 7 T. Magn Reson Med 2010; 64: 1471-1477. Ullmann P, Junge S, Seifert F, Wick M, Ruhm W, Henning J. Experimental analysis of parallel excitation using dedicated coil setups and simultaneous RF transmission on multiple channels. Magn Reson Med 2005; 54: 994-1001. Versluis MJ, Tsekos N, Smith NB, Webb AG. Simple RF design for human functional and morphological cardiac imaging at 7tesla. J Magn Reson 2009; 200: 161-166. Seifert F, Wubbeler G, Junge S, Ittermann B, Rinneberg H. Patient safety concept for multichannel transmit coils. J Magn Reson Imaging 2007; 26: 1315-1321. Brunner DO, Pruessmann KP. B1(+) interferometry for the calibration of RF transmitter arrays. Magn Reson Med 2009; 61: 1480-1488. Pennell DJ, Sechtem UP, Higgins CB, et al. Clinical indications for cardiovascular magnetic resonance (CMR): consensus panel report. Eur Heart J 2004; 25: 1940-1965. Vaughan JT, Snyder CJ, DelaBarre LJ, et al. Whole-body imaging at 7T: preliminary results. Magn Reson Med 2009; 61: 244-248. Frauenrath T, Niendorf T, Kob M. Acoustic method for synchronization of magnetic resonance imaging (MRI). Acta Acustica united with Acustica 2008: 148-155. van Elderen SG, Versluis MJ, Webb AG, et al. Initial results on in vivo human coronary MR angiography at 7 T. Magn Reson Med 2009; 62: 1379-1384. Van de Moortele PF, Akgun C, Adriany G, et al. B(1) destructive interferences and spatial phase patterns at 7 T with a head transceiver array coil. Magn Reson Med 2005; 54: 1503-1518. Christ A, Kainz W, Hahn EG, et al. The Virtual Family-development of surface-based anatomical models of two adults and two children for dosimetric simulations. Phys Med Biol 2010; 55: N23-38. Vaughan JT, DelaBarre L, Snyder CJ, et al. 9.4T human MRI: preliminary results. Magn Reson Med 2006; 56: 1274-1282. Frauenrath T, Hezel F, Heinrichs U, et al. Feasibility of cardiac gating free of interference with electro-magnetic fields at 1.5 Tesla, 3.0 Tesla and 7.0 Tesla using an MR-stethoscope. Invest Radiol 2009; 44: 539-547. Ishimori Y, Yamada K, Kimura H, et al. Correction of inhomogeneous RF field using multiple SPGR signals for high-field spin-echo MRI. Magn Reson Med 2007; 6: 67-73. Snyder CJ, DelaBarre L, Metzger GJ, et al. Initial results of cardiac imaging at 7 Tesla. Magn Reson Med 2009; 61: 517-524. von Knobelsdorff-Brenkenhoff F, Frauenrath T, Prothmann M, et al. Cardiac chamber quantification using magnetic resonance imaging at 7 Tesla-a pilot study. Eur Radiol 2010; 20: 2844-2852. 2010; 55 2009; 44 2010; 64 2010; 20 2009; 62 2006; 56 2009; 61 2010 2004; 25 2009 2008 2009; 200 2007 1996 2007; 6 2005; 54 2007; 26 e_1_2_5_14_2 e_1_2_5_13_2 e_1_2_5_9_2 e_1_2_5_16_2 e_1_2_5_8_2 e_1_2_5_15_2 e_1_2_5_7_2 e_1_2_5_10_2 e_1_2_5_6_2 e_1_2_5_5_2 e_1_2_5_12_2 e_1_2_5_20_2 e_1_2_5_4_2 e_1_2_5_11_2 e_1_2_5_21_2 e_1_2_5_3_2 e_1_2_5_2_2 e_1_2_5_18_2 e_1_2_5_17_2 e_1_2_5_19_2
References_xml	– reference: Brandts A, Westenberg JJ, Versluis MJ, et al. Quantitative assessment of left ventricular function in humans at 7 T. Magn Reson Med 2010; 64: 1471-1477. – reference: Vaughan JT, Snyder CJ, DelaBarre LJ, et al. Whole-body imaging at 7T: preliminary results. Magn Reson Med 2009; 61: 244-248. – reference: von Knobelsdorff-Brenkenhoff F, Frauenrath T, Prothmann M, et al. Cardiac chamber quantification using magnetic resonance imaging at 7 Tesla-a pilot study. Eur Radiol 2010; 20: 2844-2852. – reference: Vaughan JT, DelaBarre L, Snyder CJ, et al. 9.4T human MRI: preliminary results. Magn Reson Med 2006; 56: 1274-1282. – reference: Versluis MJ, Tsekos N, Smith NB, Webb AG. Simple RF design for human functional and morphological cardiac imaging at 7tesla. J Magn Reson 2009; 200: 161-166. – reference: Christ A, Kainz W, Hahn EG, et al. The Virtual Family-development of surface-based anatomical models of two adults and two children for dosimetric simulations. 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Patient safety concept for multichannel transmit coils. J Magn Reson Imaging 2007; 26: 1315-1321. – reference: Ishimori Y, Yamada K, Kimura H, et al. Correction of inhomogeneous RF field using multiple SPGR signals for high-field spin-echo MRI. Magn Reson Med 2007; 6: 67-73. – reference: Ullmann P, Junge S, Seifert F, Wick M, Ruhm W, Henning J. Experimental analysis of parallel excitation using dedicated coil setups and simultaneous RF transmission on multiple channels. Magn Reson Med 2005; 54: 994-1001. – reference: Frauenrath T, Hezel F, Heinrichs U, et al. Feasibility of cardiac gating free of interference with electro-magnetic fields at 1.5 Tesla, 3.0 Tesla and 7.0 Tesla using an MR-stethoscope. Invest Radiol 2009; 44: 539-547. – reference: Snyder CJ, DelaBarre L, Metzger GJ, et al. Initial results of cardiac imaging at 7 Tesla. 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Snippet	Purpose To design and evaluate a four‐channel cardiac transceiver coil array for functional cardiac imaging at 7T. Materials and Methods A four‐element cardiac... To design and evaluate a four-channel cardiac transceiver coil array for functional cardiac imaging at 7T. A four-element cardiac transceiver surface coil... To design and evaluate a four-channel cardiac transceiver coil array for functional cardiac imaging at 7T.PURPOSETo design and evaluate a four-channel cardiac...
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SubjectTerms	7.0 Tesla 7T cardiac imaging Absorption Adult Calibration Contrast Media - pharmacology Diagnostic Imaging - instrumentation Diagnostic Imaging - methods Equipment Design Female Heart - physiology Humans left ventricular function Magnetic Resonance Imaging - instrumentation Magnetic Resonance Imaging - methods Male Middle Aged Myocardium - pathology Reproducibility of Results RF coil design ultrahigh field cardiovascular MRI
Title	Design and application of a four-channel transmit/receive surface coil for functional cardiac imaging at 7T
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