Free‐Breathing Ungated Radial Simultaneous Multi‐Slice Cardiac T1 Mapping

Modified Look-Locker imaging (MOLLI) T1 mapping sequences are acquired during breath-holding and require ECG gating with consistent R-R intervals, which is problematic for patients with atrial fibrillation (AF). Consequently, there is a need for a free-breathing and ungated framework for cardiac T1...

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Published inJournal of magnetic resonance imaging Vol. 61; no. 6; pp. 2587 - 2600
Main Authors Le, Johnathan V., Mendes, Jason K., Sideris, Konstantinos, Bieging, Erik, Carter, Spencer, Stehlik, Josef, DiBella, Edward V. R., Adluru, Ganesh
Format Journal Article
LanguageEnglish
Published United States Wiley Subscription Services, Inc 01.06.2025
John Wiley & Sons, Inc
Subjects
Ablation
Adult
Aged
Algorithms
Amyloidosis
Animals
Atrial Fibrillation - diagnostic imaging
Dogs
EKG
Female
Field strength
Heart
Heart - diagnostic imaging
Human populations
Human subjects
Humans
Image Interpretation, Computer-Assisted - methods
Image Processing, Computer-Assisted - methods
Image quality
Magnetic Resonance Imaging - methods
Male
Mapping
Microvasculature
Middle Aged
Population studies
Reproducibility
Reproducibility of Results
Respiration
Retrospective Studies
Statistical analysis
Statistical tests
Transthyretin
free‐breathing
cardiac T1 mapping
model‐based reconstruction
ungated
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Abstract Modified Look-Locker imaging (MOLLI) T1 mapping sequences are acquired during breath-holding and require ECG gating with consistent R-R intervals, which is problematic for patients with atrial fibrillation (AF). Consequently, there is a need for a free-breathing and ungated framework for cardiac T1 mapping. To develop and evaluate a free-breathing ungated radial simultaneous multi-slice (SMS) cardiac T1 mapping (FURST) framework. Retrospective, nonconsecutive cohort study. Twenty-four datasets from 17 canine and 7 human subjects (4 males, years; 3 females, years). Canines were from studies involving AF induction and ablation treatment. The human population included separate subjects with suspected microvascular disease, acute coronary syndrome with persistent AF, and transthyretin amyloidosis with persistent AF. The remaining human subjects were healthy volunteers. Pre- and post-contrast T1 mapping with the free-breathing and ungated SMS inversion recovery sequence with gradient echo readout and with conventional MOLLI sequences at 1.5 T and 3.0 T. MOLLI and FURST were acquired in all subjects, and American Heart Association (AHA) segmentation was used for segment-wise analysis. Pre-contrast T1, post-contrast T1, and ECV were analyzed using correlation and Bland-Altman plots in 13 canines and 7 human subjects. T1 difference box plots for repeated acquisitions in four canine subjects were used to assess reproducibility. The PIQUE image quality metric was used to evaluate the perceptual quality of T1 maps. Paired t-tests were used for all comparisons between FURST and MOLLI, with indicating statistical significance. There were no significant differences between FURST and MOLLI pre-contrast T1 reproducibility ( and , ), FURST and MOLLI ECV ( and , ), or FURST and MOLLI PIQUE scores ( and , ). The ECV mean difference was with . FURST had similar quality pre-contrast T1, post-contrast T1, and ECV maps and similar reproducibility compared to MOLLI. 3 TECHNICAL EFFICACY: 1.
AbstractList Modified Look-Locker imaging (MOLLI) T1 mapping sequences are acquired during breath-holding and require ECG gating with consistent R-R intervals, which is problematic for patients with atrial fibrillation (AF). Consequently, there is a need for a free-breathing and ungated framework for cardiac T1 mapping.BACKGROUNDModified Look-Locker imaging (MOLLI) T1 mapping sequences are acquired during breath-holding and require ECG gating with consistent R-R intervals, which is problematic for patients with atrial fibrillation (AF). Consequently, there is a need for a free-breathing and ungated framework for cardiac T1 mapping.To develop and evaluate a free-breathing ungated radial simultaneous multi-slice (SMS) cardiac T1 mapping (FURST) framework.PURPOSETo develop and evaluate a free-breathing ungated radial simultaneous multi-slice (SMS) cardiac T1 mapping (FURST) framework.Retrospective, nonconsecutive cohort study.STUDY TYPERetrospective, nonconsecutive cohort study.Twenty-four datasets from 17 canine and 7 human subjects (4 males, 51 ± 22 $$ 51\pm 22 $$ years; 3 females, 56 ± 19 $$ 56\pm 19 $$ years). Canines were from studies involving AF induction and ablation treatment. The human population included separate subjects with suspected microvascular disease, acute coronary syndrome with persistent AF, and transthyretin amyloidosis with persistent AF. The remaining human subjects were healthy volunteers.POPULATIONTwenty-four datasets from 17 canine and 7 human subjects (4 males, 51 ± 22 $$ 51\pm 22 $$ years; 3 females, 56 ± 19 $$ 56\pm 19 $$ years). Canines were from studies involving AF induction and ablation treatment. The human population included separate subjects with suspected microvascular disease, acute coronary syndrome with persistent AF, and transthyretin amyloidosis with persistent AF. The remaining human subjects were healthy volunteers.Pre- and post-contrast T1 mapping with the free-breathing and ungated SMS inversion recovery sequence with gradient echo readout and with conventional MOLLI sequences at 1.5 T and 3.0 T.FIELD STRENGTH/SEQUENCEPre- and post-contrast T1 mapping with the free-breathing and ungated SMS inversion recovery sequence with gradient echo readout and with conventional MOLLI sequences at 1.5 T and 3.0 T.MOLLI and FURST were acquired in all subjects, and American Heart Association (AHA) segmentation was used for segment-wise analysis. Pre-contrast T1, post-contrast T1, and ECV were analyzed using correlation and Bland-Altman plots in 13 canines and 7 human subjects. T1 difference box plots for repeated acquisitions in four canine subjects were used to assess reproducibility. The PIQUE image quality metric was used to evaluate the perceptual quality of T1 maps.ASSESSMENTMOLLI and FURST were acquired in all subjects, and American Heart Association (AHA) segmentation was used for segment-wise analysis. Pre-contrast T1, post-contrast T1, and ECV were analyzed using correlation and Bland-Altman plots in 13 canines and 7 human subjects. T1 difference box plots for repeated acquisitions in four canine subjects were used to assess reproducibility. The PIQUE image quality metric was used to evaluate the perceptual quality of T1 maps.Paired t-tests were used for all comparisons between FURST and MOLLI, with P < 0.05 $$ P<0.05 $$ indicating statistical significance.STATISTICAL TESTSPaired t-tests were used for all comparisons between FURST and MOLLI, with P < 0.05 $$ P<0.05 $$ indicating statistical significance.There were no significant differences between FURST and MOLLI pre-contrast T1 reproducibility ( 25 ± 18 $$ 25\pm 18 $$ and 19 ± 16 msec $$ 19\pm 16\ \mathrm{msec} $$ , P = 0.19 $$ P=0.19 $$ ), FURST and MOLLI ECV ( 29 % ± 11 % $$ 29\%\pm 11\% $$ and 28 % ± 11 % $$ 28\%\pm 11\% $$ , P = 0.05 $$ P=0.05 $$ ), or FURST and MOLLI PIQUE scores ( 52 ± 8 $$ 52\pm 8 $$ and 53 ± 10 $$ 53\pm 10 $$ , P = 0.18 $$ P=0.18 $$ ). The ECV mean difference was 0.48 $$ 0.48 $$ with 95 % CI : 6.0 × 10 - 4 , 0.96 $$ 95\%\mathrm{CI}:\left(6.0\times {10}^{-4},0.96\right) $$ .RESULTSThere were no significant differences between FURST and MOLLI pre-contrast T1 reproducibility ( 25 ± 18 $$ 25\pm 18 $$ and 19 ± 16 msec $$ 19\pm 16\ \mathrm{msec} $$ , P = 0.19 $$ P=0.19 $$ ), FURST and MOLLI ECV ( 29 % ± 11 % $$ 29\%\pm 11\% $$ and 28 % ± 11 % $$ 28\%\pm 11\% $$ , P = 0.05 $$ P=0.05 $$ ), or FURST and MOLLI PIQUE scores ( 52 ± 8 $$ 52\pm 8 $$ and 53 ± 10 $$ 53\pm 10 $$ , P = 0.18 $$ P=0.18 $$ ). The ECV mean difference was 0.48 $$ 0.48 $$ with 95 % CI : 6.0 × 10 - 4 , 0.96 $$ 95\%\mathrm{CI}:\left(6.0\times {10}^{-4},0.96\right) $$ .FURST had similar quality pre-contrast T1, post-contrast T1, and ECV maps and similar reproducibility compared to MOLLI.CONCLUSIONSFURST had similar quality pre-contrast T1, post-contrast T1, and ECV maps and similar reproducibility compared to MOLLI.3 TECHNICAL EFFICACY: 1.LEVEL OF EVIDENCE3 TECHNICAL EFFICACY: 1.
Background Modified Look‐Locker imaging (MOLLI) T1 mapping sequences are acquired during breath‐holding and require ECG gating with consistent R‐R intervals, which is problematic for patients with atrial fibrillation (AF). Consequently, there is a need for a free‐breathing and ungated framework for cardiac T1 mapping. Purpose To develop and evaluate a free‐breathing ungated radial simultaneous multi‐slice (SMS) cardiac T1 mapping (FURST) framework. Study Type Retrospective, nonconsecutive cohort study. Population Twenty‐four datasets from 17 canine and 7 human subjects (4 males, 51±22 years; 3 females, 56±19 years). Canines were from studies involving AF induction and ablation treatment. The human population included separate subjects with suspected microvascular disease, acute coronary syndrome with persistent AF, and transthyretin amyloidosis with persistent AF. The remaining human subjects were healthy volunteers. Field Strength/Sequence Pre‐ and post‐contrast T1 mapping with the free‐breathing and ungated SMS inversion recovery sequence with gradient echo readout and with conventional MOLLI sequences at 1.5 T and 3.0 T. Assessment MOLLI and FURST were acquired in all subjects, and American Heart Association (AHA) segmentation was used for segment‐wise analysis. Pre‐contrast T1, post‐contrast T1, and ECV were analyzed using correlation and Bland–Altman plots in 13 canines and 7 human subjects. T1 difference box plots for repeated acquisitions in four canine subjects were used to assess reproducibility. The PIQUE image quality metric was used to evaluate the perceptual quality of T1 maps. Statistical Tests Paired t‐tests were used for all comparisons between FURST and MOLLI, with P<0.05 indicating statistical significance. Results There were no significant differences between FURST and MOLLI pre‐contrast T1 reproducibility (25±18 and 19±16msec, P=0.19), FURST and MOLLI ECV (29%±11% and 28%±11%, P=0.05), or FURST and MOLLI PIQUE scores (52±8 and 53±10, P=0.18). The ECV mean difference was 0.48 with 95%CI:6.0×10−4,0.96. Conclusions FURST had similar quality pre‐contrast T1, post‐contrast T1, and ECV maps and similar reproducibility compared to MOLLI. Level of Evidence 3 Technical Efficacy 1
Modified Look-Locker imaging (MOLLI) T1 mapping sequences are acquired during breath-holding and require ECG gating with consistent R-R intervals, which is problematic for patients with atrial fibrillation (AF). Consequently, there is a need for a free-breathing and ungated framework for cardiac T1 mapping. To develop and evaluate a free-breathing ungated radial simultaneous multi-slice (SMS) cardiac T1 mapping (FURST) framework. Retrospective, nonconsecutive cohort study. Twenty-four datasets from 17 canine and 7 human subjects (4 males, years; 3 females, years). Canines were from studies involving AF induction and ablation treatment. The human population included separate subjects with suspected microvascular disease, acute coronary syndrome with persistent AF, and transthyretin amyloidosis with persistent AF. The remaining human subjects were healthy volunteers. Pre- and post-contrast T1 mapping with the free-breathing and ungated SMS inversion recovery sequence with gradient echo readout and with conventional MOLLI sequences at 1.5 T and 3.0 T. MOLLI and FURST were acquired in all subjects, and American Heart Association (AHA) segmentation was used for segment-wise analysis. Pre-contrast T1, post-contrast T1, and ECV were analyzed using correlation and Bland-Altman plots in 13 canines and 7 human subjects. T1 difference box plots for repeated acquisitions in four canine subjects were used to assess reproducibility. The PIQUE image quality metric was used to evaluate the perceptual quality of T1 maps. Paired t-tests were used for all comparisons between FURST and MOLLI, with indicating statistical significance. There were no significant differences between FURST and MOLLI pre-contrast T1 reproducibility ( and , ), FURST and MOLLI ECV ( and , ), or FURST and MOLLI PIQUE scores ( and , ). The ECV mean difference was with . FURST had similar quality pre-contrast T1, post-contrast T1, and ECV maps and similar reproducibility compared to MOLLI. 3 TECHNICAL EFFICACY: 1.
Author DiBella, Edward V. R.
Mendes, Jason K.
Sideris, Konstantinos
Stehlik, Josef
Bieging, Erik
Carter, Spencer
Adluru, Ganesh
Le, Johnathan V.
AuthorAffiliation 3 Department of Cardiology University of Utah Salt Lake City Utah USA
2 Department of Biomedical Engineering University of Utah Salt Lake City Utah USA
1 Utah Center for Advanced Imaging Research (UCAIR), Department of Radiology and Imaging Sciences University of Utah Salt Lake City Utah USA
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Keywords free‐breathing
cardiac T1 mapping
model‐based reconstruction
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Snippet Modified Look-Locker imaging (MOLLI) T1 mapping sequences are acquired during breath-holding and require ECG gating with consistent R-R intervals, which is...
Background Modified Look‐Locker imaging (MOLLI) T1 mapping sequences are acquired during breath‐holding and require ECG gating with consistent R‐R intervals,...
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SubjectTerms Ablation
Adult
Aged
Algorithms
Amyloidosis
Animals
Atrial Fibrillation - diagnostic imaging
Dogs
EKG
Female
Field strength
Heart
Heart - diagnostic imaging
Human populations
Human subjects
Humans
Image Interpretation, Computer-Assisted - methods
Image Processing, Computer-Assisted - methods
Image quality
Magnetic Resonance Imaging - methods
Male
Mapping
Microvasculature
Middle Aged
Population studies
Reproducibility
Reproducibility of Results
Respiration
Retrospective Studies
Statistical analysis
Statistical tests
Transthyretin
Title Free‐Breathing Ungated Radial Simultaneous Multi‐Slice Cardiac T1 Mapping
URI https://www.ncbi.nlm.nih.gov/pubmed/39661447
https://www.proquest.com/docview/3228822066
https://www.proquest.com/docview/3146651393
https://pubmed.ncbi.nlm.nih.gov/PMC12063770
Volume 61
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