Your search keyword '"Voit D"' showing total 31 results

1. Quantification of Cardiopulmonary Interactions during Free Breathing by Semi-automatic Midventricular Parameters Using Real-Time Cardiac MRI and MR-Compatible Spirometry

Author

Hußmann, J., additional, Radke, K. L., additional, Röwer, L., additional, Malik, H., additional, Voit, D., additional, Eichinger, M., additional, Wielpütz, M. O., additional, Frahm, J., additional, Klee, D., additional, and Pillekamp, F., additional

Published

2024

2. Real time-MRT in der Lungendiagnostik bei Kindern: ein vollkommen neuer Ansatz in der MRT-Diagnostik der Lunge

Author

Hirsch, F W, additional, Sorge, I, additional, Gräfe, D, additional, Roth, C, additional, Anders, R, additional, Prenzel, F, additional, Voit, D, additional, and Frahm, J, additional

Published

2023

3. First Experience with Real-Time Magnetic Resonance Imaging-Based Investigation of Respiratory Influence on Cardiac Function in Pediatric Congenital Heart Disease Patients with Chronic Right Ventricular Volume Overload.

Author

Röwer, L., Radke, K. L., Hußmann, J., Malik, H., Voit, D., Eichinger, M., Wielpütz, M. O., Frahm, J., Klee, D., and Pillekamp, F.

Subjects

CONGENITAL heart disease, CARDIAC patients, MAGNETIC resonance, PATIENTS' rights, CHRONIC diseases

Abstract

This article discusses a study that used real-time magnetic resonance imaging (MRI) to investigate the influence of breathing on cardiac function in pediatric patients with chronic right ventricular (RV) volume overload due to congenital heart disease (CHD). The study included six CHD patients and six healthy controls, and the results showed that RV end-diastolic volume and RV stroke volume increased during inspiration in both groups, but the increase in RV ejection fraction was significantly lower in the CHD patients. Additionally, the study found that the Frank-Starling relationship of the RV was impaired in the CHD patients. The authors conclude that real-time MRI combined with respiratory-based binning can provide a noninvasive and dynamic parameter of right ventricular function in pediatric CHD patients with chronic RV volume overload. [Extracted from the article]

Published

2024

4. Vergleich der kardialen Volumetrie mittels Echtzeit-MRT bei freier Atmung mit konventioneller kardialer MRT mit Atemanhalten in pädiatrischen Patienten

Author

Klee, D, additional, Röwer, L, additional, Radke, K L, additional, Hußmann, J, additional, Malik, H, additional, Uelwer, T, additional, Voit, D, additional, Frahm, J, additional, Wittsack, H J, additional, Harmeling, S, additional, and Pillekamp, F, additional

Published

2023

5. MRT T1-Kartierung der Prostata mittels T1FLASH und MOLLI: Vergleich der Bildqualität.

Author

Al-Bourini, O, additional, Uhlig, A, additional, Balz, J, additional, Heitz, L G, additional, Voit, D, additional, Frahm, J, additional, Trojan, L, additional, Hosseini, A Seif Amir, additional, Lotz, J, additional, and Uhlig, J, additional

Published

2023

6. MR-kompatible Spirometrie in Kombination mit Echtzeit-MR während freier Atmung in der kardialen Bildgebung – weit mehr als nur eine Möglichkeit zur Bildstabilisierung

Author

Pillekamp, F, additional, Röwer, L M, additional, Uelwer, T, additional, Hußmann, J, additional, Malik, H, additional, Eichinger, M, additional, Voit, D, additional, Wielpütz, M O, additional, Frahm, J, additional, Harmeling, S, additional, and Klee, D, additional

Published

2023

7. Oral Cavity Movements of the Tongue During Large Interval Slurs in High-Level Horn Players: A Descriptive Study

Author

Iltis, P., Frahm, J., Voit, D., Wood, D., and Taylor, S.

Subjects

Tongue, History and Philosophy of Science, Movement, Humans, General Medicine, Magnetic Resonance Imaging, Lip, Music

Abstract

OBJECTIVE: Recent publications describing lingual movement strategies within the oral cavity of brass players have established the existence of efficient and predictable movement patterns in healthy performers for a variety of performance tasks. In this study we extend the research to include the playing of large interval slurs in horn players. METHODS: Real-time MRI films at 40-msec resolution were simultaneously obtained in the sagittal and coronal planes in 9 professional horn players as they performed 2 repetitions each of 3 slur sequences spanning 1 octave, 1 octave + 3rd, and 1 octave + 5th at a mezzo forte dynamic level. Nine profile lines were overlaid on the images allowing the measurement of dorsal tongue edge movement using a customized MATLAB toolkit. Movement along lines representing the anterior, middle, and posterior oral cavity in the sagittal plane, as well as the vertical height of an air channel observed in the coronal plane, are reported. RESULTS: Both sagittal and coronal views demonstrate patterned tongue movements that narrow and widen the air channel during ascending and descending slurs, respectively. The magnitude of these movements is greater during larger intervals, though not perfectly consistent within each slur sequence. Additionally, the tongue position during notes tends to drift in the direction of the subsequent note in each sequence. We suggest that the observed movements may help to modulate air speed through the lips, possible attenuating embouchure muscle tension changes by assisting changes in lip vibration frequency.

Published

2022

8. Real-Time Magnetic Resonance Imaging to Study Orthostatic Intolerance Mechanisms in Human Beings: Proof of Concept

Author

Gerlach, D.A., Maier, A., Manuel, J., Bach, A., Hoff, A., Hönemann, J., Heusser, K., Voit, D., Frahm, J., Jordan, J., and Tank, J.

Subjects

Male, Lower Body Negative Pressure, hypotension, middle cerebral artery, Orthostatic Intolerance, lower‐body negative pressure, Humans, Blood Pressure, Stroke Volume, Middle Aged, Magnetic Resonance Imaging

Abstract

Journal of the American Heart Association : JAHA 11(21), e026437 (2022). doi:10.1161/JAHA.122.026437, Published by Association, New York, NY

Published

2022

9. Erkennbarkeit von häufigen zerebralen Läsionen in schnellen und ultraschnellen T2-gewichteten MRT-Sequenzen bei Kindern.

Author

Gräfe, D, Anders, R M, Frahm, J, Voit, D, Simion, S H, Merkenschlager, A, and Hirsch, F W

Published

2024

10. A Descriptive Comparison of Oral Cavity Movements Between Brass Instrumentalists Performing Large Interval Slurs.

Author

Iltis PW, Frahm J, Voit D, Wright A, and Dever A

Subjects

Humans, Male, Adult, Mouth physiology, Magnetic Resonance Imaging, Movement physiology, Tongue physiology, Music

Abstract

Objective: We have previously described patterns of oral cavity movement in advanced French horn players during the performance of large interval slurs. The current study expands upon that work by reporting comparisons between horn, trumpet, and trombone players performing similar large interval exercises., Methods: Real-time MRI (RT-MRI) films at 20 msec resolution were simultaneously obtained in the sagittal and coronal planes in 10 trumpet players, 9 horn players, and 10 trombone players as they performed 2 repetitions each of slur sequences spanning 1 octave and 1 octave + 3rd (interval of a tenth) at a mezzo forte dynamic level. Nine profile lines were overlaid on the sagittal images allowing the measurement of dorsal tongue edge movement using a customized MATLAB toolkit. Image J (FIJI) was utilized to measure the cross-sectional area formed between the dorsal edge of the tongue and the hard palate as depicted in coronal images., Results: In horn and trumpet players, but not in trombone players, sagittal and coronal views demonstrate patterned tongue movements that narrow and widen the air channel during ascending and descending slurs, respectively. The magnitude of these movements is greater during larger intervals, though not perfectly consistent within each slur sequence. The sagittal views revealed these patterns to be most prominent in the anterior oral cavity rather than the middle and posterior oral cavity across all instruments., Conclusion: Conformational changes of the oral cavity (vocal-tract tuning) during large interval slurs in the upper register may assist performance in trumpet and horn players. Trombone players may also employ these strategies when the extreme upper register is involved, but future study must verify this.

Published

2024

11. Performance of fast and ultrafast T2-weighted MRI sequences for common cerebral lesions in children.

Author

Gräfe D, Anders R, Frahm J, Voit D, Simion SH, Merkenschlager A, and Hirsch FW

Abstract

The use of fast and ultrafast T2-weighted sequences allows for low-motion-artifact imaging of the cerebrospinal fluid spaces and can thus avoid sedation in young children for cranial MRI (cMRI). It is still unclear to what extent these sequences can also depict other common cerebral findings in children. The aim of the study was to compare the potential delineation of common intracranial findings in pediatric cMRI with two fast and one ultrafast T2-weighted sequences.Children who had undergone a single-shot spin-echo and gradient echo sequence, as well as an ultrafast volume coverage (VC) sequence, in addition to a standard T2-weighted fast spin-echo (FSE) sequence as reference were retrospectively included. Visualization of findings was assessed using a Likert scale from 0 to 3. Differences between groups of findings were quantified using a Kruskal-Wallis test.284 findings in 126 patients (median age: 10.6 years, interquartile range: 5.1 to 15.0 years) were analyzed. Overall, in fast T2-weighted sequences, the percentage of visible (score 2 or 3) findings was between 60% and 100%. There was little difference between the two fast sequences and the ultrafast VC.Ultrafast VC as compared to conventional fast sequences allows for almost the same discrimination of common neuropediatric pathologies but at seven times the speed. Although not an equivalent substitute for T2 FSE in parenchymal findings, it can contribute to triage at little expense and thus reduce the burden on both patients and staff. · Fast T2-weighted sequences can depict many types of neuropediatric findings. · They cannot fully replace a T2 fast spin-echo sequence. · An ultrafast volume coverage sequence shows similar quality to conventional fast sequences. · Gräfe D, Anders R, Frahm J et al. Performance of fast and ultrafast T2-weighted MRI sequences for common cerebral lesions in children. Fortschr Röntgenstr 2024; DOI 10.1055/a-2404-8674., Competing Interests: Jens Frahm and Dirk Voit are co-inventors of a patent and software describing the real-time MRI technique used here. The other authors declare no conflicts of interest., (Thieme. All rights reserved.)

Published

2024

12. As fast as an X-ray: real-time magnetic resonance imaging for diagnosis of idiopathic scoliosis in children and adolescents.

Author

Roth C, Heyde CE, Schumann E, Voit D, Frahm J, Hirsch FW, Anders R, and Gräfe D

Subjects

Humans, Adolescent, Child, Male, Female, Child, Preschool, Prospective Studies, Radiography methods, Scoliosis diagnostic imaging, Magnetic Resonance Imaging methods

Abstract

Background: Idiopathic scoliosis is common in adolescence. Due to the rapid growth of the spine, it must be monitored closely with radiographs to ensure timely intervention when therapy is needed. As these radiographs continue into young adulthood, patients are repeatedly exposed to ionizing radiation., Objective: This study aimed to investigate whether real-time magnetic resonance imaging (MRI) is equivalent to conventional radiography in juvenile idiopathic scoliosis for determining curvature, rotation and the Risser stage. Additionally, the time requirement should be quantified., Materials and Methods: Children with idiopathic scoliosis who had postero-anterior whole-spine radiography for clinical indications were included in this prospective study. A real-time spine MRI was performed at 3 tesla in the supine position, capturing images in both the coronal and sagittal planes. The scoliosis was assessed using Cobb angle, rotation was evaluated based on Nash and Moe criteria, and the Risser stage was determined for each modality. The correlations between modalities and a correction factor for the Cobb angle between the standing and supine position were calculated., Results: A total of 33 children (aged 5-17 years), who met the inclusion criteria, were recruited. The Cobb angle (R 2  = 0.972; P < 0.01) was positively correlated with a correction factor of 1.07 between modalities. Additionally, the degree of rotation (R 2  = 0.92; P < 0.01) and the Risser stage (R 2  = 0.93; P < 0.01) demonstrated a strong correlation., Conclusion: Real-time MRI is equivalent to conventional radiography in determining baseline parameters. Furthermore, it is radiation-free and less time-consuming., (© 2024. The Author(s).)

Published

2024

13. Dynamic assessment of scapholunate ligament status by real-time magnetic resonance imaging: an exploratory clinical study.

Author

Wilms LM, Radke KL, Abrar DB, Frahm J, Voit D, Thelen S, Klee D, Grunz JP, Müller-Lutz A, and Nebelung S

Subjects

Humans, Wrist Joint diagnostic imaging, Magnetic Resonance Imaging methods, Ligaments, Articular diagnostic imaging, Magnetic Resonance Spectroscopy, Carpal Joints diagnostic imaging, Joint Instability diagnostic imaging, Wrist Injuries diagnostic imaging

Abstract

Objective: Clinical-standard MRI is the imaging modality of choice for the wrist, yet limited to static evaluation, thereby potentially missing dynamic instability patterns. We aimed to investigate the clinical benefit of (dynamic) real-time MRI, complemented by automatic analysis, in patients with complete or partial scapholunate ligament (SLL) tears., Material and Methods: Both wrists of ten patients with unilateral SLL tears (six partial, four complete tears) as diagnosed by clinical-standard MRI were imaged during continuous active radioulnar motion using a 1.5-T MRI scanner in combination with a custom-made motion device. Following automatic segmentation of the wrist, the scapholunate and lunotriquetral joint widths were analyzed across the entire range of motion (ROM). Mixed-effects model analysis of variance (ANOVA) followed by Tukey's posthoc test and two-way ANOVA were used for statistical analysis., Results: With the increasing extent of SLL tear, the scapholunate joint widths in injured wrists were significantly larger over the entire ROM compared to those of the contralateral healthy wrists (p<0.001). Differences between partial and complete tears were most pronounced at 5°-15° ulnar abduction (p<0.001). Motion patterns and trajectories were altered. Complete SLL deficiency resulted in complex alterations of the lunotriquetral joint widths., Conclusion: Real-time MRI may improve the functional diagnosis of SLL insufficiency and aid therapeutic decision-making by revealing dynamic forms of dissociative instability within the proximal carpus. Static MRI best differentiates SLL-injured wrists at 5°-15° of ulnar abduction., (© 2023. The Author(s).)

Published

2024

14. Increased Musculoskeletal Deformities And Decreased Lung Volume In Patients After Ea/Tef Repair - A Real-Time Mri Study.

Author

Aubert O, Lacher M, Mayer S, Frahm J, Voit D, Rosolowski M, Widenmann A, Hirsch FW, and Gräfe D

Abstract

Objective: This study aims to assess morphological and functional postoperative changes after open or minimally invasive (MIS) repair of esophageal atresia (EA) compared to healthy controls by thoracic real-time MRI., Summary Background Data: Musculoskeletal deformities and pulmonary morbidity are common in children after EA repair. The real-time MRI is a novel technique that provides ultrafast, high-quality images during spontaneous breathing, without sedation even in young children., Methods: Children aged 3-18 years were prospectively examined with a 3 Tesla MRI. Musculoskeletal deformities, static thoracic cross-sectional areas (CSA) at three different levels and lung volumes, as well as dynamic right-to-left ratio of CSA of hemithoraces and lung volumes during forced breathing were evaluated., Results: 72 children (42 open, 8 MIS, 22 controls) were recruited. In the EA group, rib fusions and adhesions (78%, P<0.01) and scoliosis (15%, P=0.32) were found after thoracotomy, but not after MIS. Mean right-to-left ratio of CSA and lung volumes were lower after EA repair compared to controls (P <0.05), indicating impaired thoracic and lung development. The number of thoracotomies was a significant risk factor for smaller thoracic volumes (P<0.05)., Conclusions: For the first time, morphological changes and thoracic motility after EA repair were visualized by dynamic real-time MRI. Children after EA repair show decreased right-sided thoracic and lung development compared to controls. Open repair leads to significantly more musculoskeletal deformities. This study emphasizes that musculoskeletal morbidity following a thoracotomy in infancy is high., Competing Interests: Conflict of interest: J. Frahm and D. Voit are co-inventors of a patent and software describing the real-time MRI technique used here., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2024

15. Whole-body magnetic resonance imaging in two minutes: cross-sectional real-time coverage of multiple volumes.

Author

Voit D, Kollmeier JM, Kalentev O, van Zalk M, and Frahm J

Abstract

This work describes a novel technique for rapid and motion-robust whole-body magnetic resonance imaging (MRI). The method employs highly undersampled radial fast low angle shot (FLASH) sequences to cover large volumes by cross-sectional real-time MRI with automatic slice advancement after each frame. The slice shift typically amounts to a fraction of the slice thickness (e.g., 10% to 50%) in order to generate a successive series of partially overlapping sections. Joint reconstructions of these serial images and their respective coil sensitivity maps rely on nonlinear inversion (NLINV) with regularization to the image and sensitivity maps of a preceding frame. The procedure exploits the spatial similarity of neighboring sections. Whole-body scanning is accomplished by measuring multiple volumes at predefined locations, i.e., at fixed table positions, in combination with intermediate automatic movements of the patient table. Individual volumes may take advantage of different field-of-views, image orientations, spatial and temporal resolutions as well as contrasts. Preliminary proof-of-principle applications to healthy subjects at 3 T without cardiac gating and during free breathing yield high-quality anatomic images with acquisition times of less than 100 ms. Spin-density and T1 contrasts are obtained by spoiled FLASH sequences, while T2-type (i.e., T2/T1) contrast results from refocused FLASH sequences that generate a steady state free precession (SSFP) free induction decay (FID) signal. Total measuring times excluding vendor-controlled adjustment procedures are less than two minutes for a 100 cm scan that, for example, covers the body from head to thigh by three optimized volumes and more than 1,300 images. In conclusion, after demonstrating technical feasibility the proposed method awaits clinical trials., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://qims.amegroups.com/article/view/10.21037/qims-23-923/coif). DV and JF report that they are co-inventors of a patent describing the MRI method (Rapid Volume Coverage 2020) used in this study. The other authors have no conflicts of interest to declare., (2023 Quantitative Imaging in Medicine and Surgery. All rights reserved.)

Published

2023

16. First experience with real-time magnetic resonance imaging-based investigation of respiratory influence on cardiac function in pediatric congenital heart disease patients with chronic right ventricular volume overload.

Author

Röwer LM, Radke KL, Hußmann J, Malik H, Eichinger M, Voit D, Wielpütz MO, Frahm J, Klee D, and Pillekamp F

Subjects

Humans, Child, Magnetic Resonance Imaging methods, Heart Ventricles diagnostic imaging, Stroke Volume, Respiration, Heart Defects, Congenital, Ventricular Dysfunction, Right diagnostic imaging, Ventricular Dysfunction, Right complications

Abstract

Background: Congenital heart disease (CHD) is often associated with chronic right ventricular (RV) volume overload. Real-time magnetic resonance imaging (MRI) enables the analysis of cardiac function during free breathing., Objective: To evaluate the influence of respiration in pediatric patients with CHD and chronic RV volume overload., Methods and Materials: RV volume overload patients (n=6) and controls (n=6) were recruited for cardiac real-time MRI at 1.5 tesla during free breathing. Breathing curves from regions of interest reflecting the position of the diaphragm served for binning images in four different tidal volume classes, each in inspiration and expiration. Tidal volumes were estimated from these curves by data previously obtained by magnetic resonance-compatible spirometry. Ventricular volumes indexed to body surface area and Frank-Starling relationships referenced to the typical tidal volume indexed to body height (TTVi) were compared., Results: Indexed RV end-diastolic volume (RV-EDVi) and indexed RV stroke volume (RV-SVi) increased during inspiration (RV-EDVi/TTVi: RV load: + 16 ± 4%; controls: + 22 ± 13%; RV-SVi/TTVi: RV load: + 21 ± 6%; controls: + 35 ± 17%; non-significant for comparison). The increase in RV ejection fraction during inspiration was significantly lower in RV load patients (RV load: + 1.1 ± 2.2%; controls: + 6.1 ± 1.5%; P=0.01). The Frank-Starling relationship of the RV provided a significantly reduced slope estimate in RV load patients (inspiration: RV load: 0.75 ± 0.11; controls: 0.92 ± 0.02; P=0.02)., Conclusion: In pediatric patients with CHD and chronic RV volume overload, cardiac real-time MRI during free breathing in combination with respiratory-based binning indicates an impaired Frank-Starling relationship of the RV., (© 2023. The Author(s).)

Published

2023

17. Comparison of EPI DWI and STEAM DWI in Early Postoperative MRI Controls After Resection of Tumors of the Central Nervous System.

Author

Müller SJ, Khadhraoui E, Voit D, Riedel CH, Frahm J, Romero JM, and Ernst M

Subjects

Humans, Echo-Planar Imaging methods, Reproducibility of Results, Magnetic Resonance Imaging, Diffusion Magnetic Resonance Imaging methods, Central Nervous System, Artifacts, Pneumocephalus, Neoplasms

Abstract

Purpose: Diffusion-weighted imaging (DWI) is important for differentiating residual tumor and subacute infarctions in early postoperative magnetic resonance imaging (MRI) of central nervous system (CNS) tumors. In cases of pneumocephalus and especially in the presence of intraventricular trapped air, conventional echo-planar imaging (EPI) DWI is distorted by susceptibility artifacts. The performance and robustness of a newly developed DWI sequence using the stimulated echo acquisition mode (STEAM) was evaluated in patients after neurosurgical operations with early postoperative MRI., Methods: We compared EPI and STEAM DWI of 43 patients who received 3‑Tesla MRI within 72 h after a neurosurgical operation between 1 October 2019 and 30 September 2021. We analyzed susceptibility artifacts originating from air and blood and whether these artifacts compromised the detection of ischemic changes after surgery. The DWI sequences were (i) visually rated and (ii) volumetrically analyzed., Results: In 28 of 43 patients, we found severe and diagnostically relevant artifacts in EPI DWI, but none in STEAM DWI. In these cases, in which artifacts were caused by intracranial air, they led to a worse detection of ischemic lesions and thus to a possible failed diagnosis or lack of judgment using EPI DWI. Additionally, volumetric analysis demonstrated a 14% smaller infarct volume detected with EPI DWI. No significant differences in visual rating and volumetric analysis were detected among the patients without severe artifacts., Conclusion: The newly developed version of STEAM DWI with highly undersampled radial encodings is superior to EPI DWI in patients with postoperative pneumocephalus., (© 2023. The Author(s).)

Published

2023

18. Real-time MRI: a new tool of radiologic imaging in small children.

Author

Hirsch FW, Frahm J, Sorge I, Klee D, Prenzel F, Krause M, Lacher M, Voit D, and Gräfe D

Subjects

Child, Humans, Neuroimaging, Motion, Movement, Magnetic Resonance Imaging methods, Radiology

Abstract

Real-time MRI (rt-MRI) in children is a new imaging technique that combines the advantages of US - at frame rates of up to 50 images per second - with the quality and features of MRI. Although still subject of research, it has become a standard tool in the diagnostic portfolio of two pediatric radiology departments in Germany. Based on ultrashort acquisition times, any detrimental effects of macroscopic movements of the child and the physiological movements of the organs are negligible. Especially in pediatric brain imaging, rt-MRI has already proven its value. With suitable indications, rt-MRI can reduce anesthesia and sedation examinations in children below 6 years of age by 40% due to its very short examination time and its robustness to motion. There is a high level of acceptance among parents and referrers when diagnostic possibilities and limitations are communicated correctly., Conclusion: Completely new diagnostic possibilities arise in the imaging of the moving lung, the beating heart, joint movements, and speaking and swallowing, as demonstrated in this video-backed review., What Is Known: • MRI in moving children has been burdened with severe artifacts. • Gross motion usually has to be handled by sedation and periodic motion of the heart and lungs has to be compensated with time-consuming techniques until now., What Is New: • Real-time MRI allows image acquisition with up to 50 frames per second similar to ultrasound frame rate. • Real-time MRI proofs to be very promising for imaging children, reducing examination time and sedation rate drastically., (© 2023. The Author(s).)

Published

2023

19. Brain deposition of gadobutrol in children-a cross-sectional and longitudinal MRI T1 mapping study.

Author

Gräfe D, Simion SH, Rosolowski M, Merkenschlager A, Frahm J, Voit D, and Hirsch FW

Subjects

Adult, Humans, Child, Female, Retrospective Studies, Gadolinium, Cross-Sectional Studies, Cerebellar Nuclei, Magnetic Resonance Imaging, Brain diagnostic imaging, Contrast Media pharmacology, Organometallic Compounds

Abstract

Objectives: Depositions of linear gadolinium-based MRI contrast agents are readily visible in T1-weighted MRIs of certain brain regions in both adults and children. Macrocyclic contrast agents such as gadobutrol have so far escaped detection by qualitative MRI in children. This study aimed to assess whether there is evidence for deposition of gadobutrol in children using quantitative T1 mapping., Methods: This retrospective study included patients, naive to other gadolinium-based contrast agents than gadobutrol, who had received gadobutrol as part of a clinically indicated MRI. For each patient, T1 relaxation times at 3 T were measured using single-shot T1 mapping at two time points. In each of six brain regions, age-adjusted T1 relaxation times were correlated with a number of previous gadobutrol administrations. To combine interindividual, cross-sectional effects with intraindividual, longitudinal effects, both linear mixed model and generalized additive mixed model were applied., Results: One hundred four examinations of 52 children (age median 11.4, IQR 6.3-15, 26 female) with a median of 7 doses of gadobutrol in the history of their neurological or neurooncological disease were included. After correction for age and indeterminate disease-related effects to T1 time, a negative correlation of T1 time with the number of gadobutrol doses administered was observed in both mixed models in the putamen (beta - 1.65, p = .03) and globus pallidus (beta - 1.98, p = .012) CONCLUSIONS: The results indicate that in children, gadobutrol is deposited in the globus pallidus and putamen., Key Points: • Previous gadobutrol administration correlates with reduced T1 relaxation times in the globus pallidus and putamen in children. • This decreased T1 might be caused by gadobutrol retention within these gray-matter nuclei., (© 2022. The Author(s).)

Published

2023

20. T1 Mapping of the Prostate Using Single-Shot T1FLASH: A Clinical Feasibility Study to Optimize Prostate Cancer Assessment.

Author

Al-Bourini O, Seif Amir Hosseini A, Giganti F, Balz J, Heitz LG, Voit D, Lotz J, Trojan L, Frahm J, Uhlig A, and Uhlig J

Subjects

Male, Humans, Prostate diagnostic imaging, Prostate pathology, Feasibility Studies, Hyperplasia pathology, Diffusion Magnetic Resonance Imaging methods, Magnetic Resonance Imaging, Image-Guided Biopsy, Retrospective Studies, Prostatic Neoplasms diagnostic imaging, Prostatic Neoplasms pathology, Prostatic Hyperplasia pathology

Abstract

Purpose: The aim of this study was to assess the clinical feasibility of magnetic resonance imaging (MRI) T1 mapping using T1FLASH for assessment of prostate lesions., Methods: Participants with clinical suspicion for prostate cancer (PCa) were prospectively enrolled between October 2021 and April 2022 with multiparametric prostate MRI (mpMRI) acquired on a 3 T scanner. In addition, T1 mapping was accomplished using a single-shot T1FLASH technique with inversion recovery, radial undersampling, and iterative reconstruction. Regions of interest (ROIs) were manually placed on radiologically identified prostate lesions and representative reference regions of the transitional zone (TZ), benign prostate hyperplasia nodules, and peripheral zone (PZ). Mean T1 relaxation times and apparent diffusion coefficient (ADC) values (b = 50/b = 1400 s/mm 2 ) were measured for each ROI. Participants were included in the study if they underwent ultrasound/MRI fusion-guided prostate biopsy for radiologically or clinically suspected PCa. Histological evaluation of biopsy cores served as reference standard, with grading of PCa according to the International Society of Urological Pathology (ISUP). ISUP grades 2 and above were considered clinically significant PCa for the scope of this study. Histological results of prostate biopsy cores were anatomically mapped to corresponding mpMRI ROIs using biopsy plans. T1 relaxation times and ADC values were compared across prostate regions and ISUP groups. Across different strata, T1 relaxation time, ADC values, and diagnostic accuracy (area under the curve [AUC]) were compared using statistical methods accounting for clustered data., Results: Of 67 eligible participants, a total of 40 participants undergoing ultrasound/MRI fusion-guided prostate biopsy were included. Multislice T1 mapping was successfully performed in all participants at a median acquisition time of 2:10 minutes without evident image artifacts. A total of 71 prostate lesions was radiologically identified (TZ 49; PZ 22). Among those, 22 were histologically diagnosed with PCa (ISUP groups 1/2/3/4 in n = 3/15/3/1 cases, respectively). In the TZ, T1 relaxation time was statistically significantly lower for PCa compared with reference regions ( P = 0.029) and benign prostate hyperplasia nodules ( P < 0.001). Similarly, in the PZ, PCa demonstrated shorter T1 relaxation times versus reference regions ( P < 0.001). PCa also showed a trend toward shorter T1 relaxation times (median, 1.40 seconds) compared with radiologically suspicious lesions with benign histology (median, 1.47 seconds), although statistical significance was not reached ( P = 0.066). For discrimination of PCa from reference regions and benign prostate lesions, T1 relaxation times and ADC values demonstrated AUC = 0.80 and AUC = 0.83, respectively ( P = 0.519). Discriminating PCa from radiologically suspicious lesions with benign histology, T1 relaxation times and ADC values showed AUC = 0.69 and AUC = 0.62, respectively ( P = 0.446)., Conclusions: T1FLASH-based T1 mapping yields robust results for quantification of prostate T1 relaxation time at a short examination time of 2:10 minutes without evident image artifacts. Associated T1 relaxation times could aid in discrimination of significant and nonsignificant PCa. Further studies are warranted to confirm these results in a larger patient cohort, to assess the additional benefit of T1FLASH maps in conjunction with mpMRI sequences in the setting of deep learning, and to evaluate the robustness of T1FLASH maps compared with potentially artifact-prone diffusion-weighted imaging sequences., Competing Interests: Conflicts of interest and sources of funding: Francesco Giganti is a recipient of the 2020 Young Investigator Award (20YOUN15) funded by the Prostate Cancer Foundation/CRIS Cancer Foundation. Francesco Giganti reports consulting fees from Lucida Medical LTD outside of the submitted work. The authors have no further conflict of interest., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2023

21. Movement patterns in tuba playing: comparison of an embouchure dystonia case with healthy professional tuba players using real-time MRI imaging.

Author

Nelkenstock R, Iltis PW, Voit D, Frahm J, Passarotto E, and Altenmüller E

Abstract

Introduction: Musculoskeletal problems in professional brass musicians are very common and often involve the muscles of the embouchure. In rare cases, embouchure dystonia (EmD), a task-specific movement disorder with a wide symptomatic and phenotypic variability, occurs. Following trumpeters and horn players, professional tuba players with and without EmD have now been studied using the latest real-time MRI technology to better understand the underlying pathophysiology., Materials and Methods: In the present study, the tongue movement patterns of 11 healthy professional artists and one subject suffering from EmD were compared. The tongue position in the anterior, intermediary and posterior oral cavity were converted into pixel positions based on seven previously generated profile lines, using the established software MATLAB. These data allow a structured comparison of tongue movement patterns between the patient and the healthy subjects, as well as between individual exercises. The main focus of the analysis was on an ascending 7-note harmonic series performed in different playing techniques (slurred, tongued, tenuto and staccato)., Results: Playing the ascending harmonics, a noticeable ascending tongue movement could be observed in the anterior part of the oral cavity in healthy tubists. In the posterior region, there was a slight decrease in oral cavity space. In the EmD patient, hardly any movement was observed at the tongue apex, but in the middle and posterior regions of the oral cavity there was an increase in size the higher the tone became. These distinct differences are relevant for the characterization and a better understanding of the clinical presentation of EmD. Concerning different playing techniques, it was apparent, that notes played slurred or staccato resulted in a larger oral cavity when compared to notes played tongued or tenuto, respectively., Conclusion: By using real-time MRI videos, the tongue movements of tuba players can be clearly observed and analyzed. The differences between healthy and diseased tuba players demonstrate the great effects of movement disorders in a small area of the tongue. In order to better understand the compensation of this motor control dysfunction, further studies should investigate further parameters of tone production in all brass players with a larger number of EmD patients additional to the observed movement patterns., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Nelkenstock, Iltis, Voit, Frahm, Passarotto and Altenmüller.)

Published

2023

22. T1 mapping of the prostate using Single-Shot T1FLASH and MOLLI MRI Techniques: Comparison of artifact burden and image quality.

Author

Al-Bourini O, Seif Amir Hosseini A, Biggemann L, Uhlig A, Balz J, Haas L, Voit D, Lotz J, Frahm J, and Uhlig J

Subjects

Male, Humans, Aged, Prostate diagnostic imaging, Magnetic Resonance Imaging methods, Contrast Media, Phantoms, Imaging, Reproducibility of Results, Artifacts, Multiparametric Magnetic Resonance Imaging

Abstract

Purpose: To assess artifact burden and image quality of different MRI T1 mapping techniques of the prostate., Methods: Participants with suspected prostate cancer (PCa) were prospectively enrolled from June-October 2022 and examined with multiparametric prostate MRI (mpMRI; 3 T scanner; T1wi, T2wi, DWI und DCE). T1 mapping was performed before and after administration of gadolinium-based contrast-agent (GBCA) using (i) a modified Look-Locker inversion (MOLLI) technique and (ii) a novel single-shot T1FLASH inversion recovery technique. T2wi, DWI, T1FLASH and MOLLI sequences were systematically examined regarding prevalence of artifacts and image quality using a 5-point Likert-Scale., Results: A total of n = 100 patients were included (median age: 68 years). T1FLASH maps (pre-and post-GBCA) showed metal artifacts in 7% of cases and susceptibility artifacts in 1%. For MOLLI maps, pre-GBCA metal and susceptibility artifacts were documented in 6.5% of cases each. MOLLI maps post-GBCA showed artifacts in 59% of cases resulting primarily from urinary GBCA excretion and GBCA accumulation at the bladder base (p < 0.01 versus T1FLASH post-GBCA). Image quality for T1FLASH pre-GBCA was rated at a mean 4.9+/-0.4 and for MOLLI at 4.8+/-0.6 (p = 0.14). Post-GBCA image quality was rated at a mean 4.9+/-0.4 for T1FLASH and at 3.7+/-1.1 for MOLLI (p < 0.001)., Conclusions: T1FLASH maps provide a fast and robust method for quantification of T1 relaxation times of the prostate. T1FLASH is suitable for T1 mapping of the prostate following administration of contrast agents, while MOLLI T1 mapping is impaired through GBCA accumulation at the bladder base leading to severe image artifacts and reduced image quality., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

23. Maximum velocity projections within 30 seconds: a combination of real-time three-directional flow MRI and cross-sectional volume coverage.

Author

Kollmeier JM, Kalentev O, van Zalk M, Voit D, and Frahm J

Abstract

This work is a proof-of-concept realization of a novel technique for rapid volumetric acquisition, reconstruction, and visualization of three-directional (3dir) flow velocities. The technique combines real-time 3dir phase-contrast (PC) flow magnetic resonance imaging (MRI) with real-time cross-sectional volume coverage. It offers a rapid examination without dependence on electrocardiography (ECG) or respiratory gating during a continuous image acquisition at up to 16 fps. Real-time flow MRI utilizes pronounced radial undersampling and a model-based nonlinear inverse reconstruction. Volume coverage is achieved by automatically advancing the slice position of each PC acquisition by a small percentage of the slice thickness. Post-processing involves the calculation of maximum intensity projections along the slice dimension resulting in six direction-selective velocity maps and a maximum speed map. Preliminary applications to healthy subjects at 3 T comprise mapping of the carotid arteries and cranial vessels at 1.0 mm in-plane resolution within 30 s as well as of the aortic arch at 1.6 mm resolution within 20 s. In conclusion, the proposed method for rapid mapping of 3dir flow velocities offers a quick assessment of the vasculature either to provide a first clinical survey or to plan for more detailed studies., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://qims.amegroups.com/article/view/10.21037/qims-22-1126/coif). DV and JF report that they are co-inventors of a patent describing the MRI method used here. The other authors have no conflicts of interest to declare., (2023 Quantitative Imaging in Medicine and Surgery. All rights reserved.)

Published

2023

24. Pectus excavatum in motion: dynamic evaluation using real-time MRI.

Author

Gräfe D, Lacher M, Martynov I, Hirsch FW, Voit D, Frahm J, Busse H, Sesia SB, Krämer S, and Zimmermann P

Subjects

Male, Female, Humans, Adolescent, Prospective Studies, Thorax, Magnetic Resonance Imaging, Motion, Funnel Chest diagnostic imaging

Abstract

Objectives: The breathing phase for the determination of thoracic indices in patients with pectus excavatum is not standardized. The aim of this study was to identify the best period for reliable assessments of morphologic indices by dynamic observations of the chest wall using real-time MRI., Methods: In this prospective study, patients with pectus excavatum underwent morphologic evaluation by real-time MRI at 3 T between January 2020 and June 2021. The Haller index (HI), correction index (CI), modified asymmetry index (AI), and modified eccentricity index (EI) were determined during free, quiet, and forced breathing respectively. Breathing-related differences in the thoracic indices were analyzed with the Wilcoxon signed-rank test. Motion of the anterior chest wall was analyzed as well., Results: A total of 56 patients (11 females and 45 males, median age 15.4 years, interquartile range 14.3-16.9) were included. In quiet expiration, the median HI in the cohort equaled 5.7 (4.5-7.2). The median absolute differences (Δ) in the thoracic indices between peak inspiration and peak expiration were ΔHI = 1.1 (0.7-1.6, p < .001), ΔCI = 4.8% (1.3-7.5%, p < .001), ΔAI = 3.0% (1.0-5.0%, p < .001), and ΔEI = 8.0% (3.0-14.0%, p < .05). The indices varied significantly during different inspiratory phases, but not during expiration (p > .05 each). Furthermore, the dynamic evaluation revealed three distinctive movement patterns of the funnel chest., Conclusions: Real-time MRI reveals patterns of chest wall motion and indicate that thoracic indices of pectus excavatum should be assessed in the end-expiratory phase of quiet expiration., Key Points: • The thoracic indices in patients with pectus excavatum depend on the breathing phase. • Quiet expiration represents the best breathing phase for determining thoracic indices. • Real-time MRI can identify different chest wall motion patterns in pectus excavatum., (© 2022. The Author(s).)

Published

2023

25. FLASHlight MRI in real time-a step towards Star Trek medicine.

Author

Michaelis T, Voit D, Kollmeier JM, Kalentev O, van Zalk M, and Frahm J

Abstract

This work describes a dynamic magnetic resonance imaging (MRI) technique for local scanning of the human body with use of a handheld receive coil or coil array. Real-time MRI is based on highly undersampled radial gradient-echo sequences with joint reconstructions of serial images and coil sensitivity maps by regularized nonlinear inversion (NLINV). For this proof-of-concept study, a fixed slice position and field-of-view (FOV) were predefined from the operating console, while a local receive coil (array) is moved across the body-for the sake of simplicity by the subject itself. Experimental realizations with a conventional 3 T magnet comprise dynamic anatomic imaging of the head, thorax and abdomen of healthy volunteers. Typically, the image resolution was 0.75 to 1.5 mm with 3 to 6 mm section thickness and acquisition times of 33 to 100 ms per frame. However, spatiotemporal resolutions and contrasts are highly variable and may be adjusted to clinical needs. In summary, the proposed FLASHlight MRI method provides a robust acquisition and reconstruction basis for future diagnostic strategies that mimic the usage of ultrasound. Necessary extensions for this vision require remote control of all sequence parameters by a person at the scanner as well as the design of more flexible gradients and magnets., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://qims.amegroups.com/article/view/10.21037/qims-22-648/coif). DV and JF report that they are co-inventors of a patent describing the MRI method used here. The other authors have no conflicts of interest to declare., (2023 Quantitative Imaging in Medicine and Surgery. All rights reserved.)

Published

2023

26. Chest examinations in children with real-time magnetic resonance imaging: first clinical experience.

Author

Hirsch FW, Sorge I, Voit D, Frahm J, Prenzel F, Wachowiak R, Anders R, Roth C, and Gräfe D

Subjects

Humans, Child, Retrospective Studies, Magnetic Resonance Imaging methods, Lung pathology, Magnetic Resonance Spectroscopy, Artifacts, Cicatrix pathology, Lung Diseases

Abstract

Background: Real-time magnetic resonance imaging (MRI) based on a fast low-angle shot technique 2.0 (FLASH 2.0) is highly effective against artifacts caused due to the bulk and pulmonary and cardiac motions of the patient. However, to date, there are no reports on the application of this innovative technique to pediatric lung MRI., Objective: This study aimed to identify the limits of resolution and image quality of real-time lung MRI in children and to assess the types and minimal size of lesions with these new sequences., Materials and Methods: In this retrospective study, pathological lung findings in 87 children were classified into 6 subgroups, as detected on conventional MRI: metastases and tumors, consolidation, scars, hyperinflation, interstitial pathology and bronchiectasis. Subsequently, the findings were grouped according to size (4-6 mm, 7-9 mm and ≥ 10 mm) and evaluated for visual delineation of the findings (0 = not visible, 1 = hardly visible and 2 = well visualized)., Results: Real-time MRI allows for diagnostic, artifact-free thorax images to be obtained, regardless of patient movements. The delineation of findings strongly correlates with the size of the pathology. Metastases, consolidation and scars were visible at 100% when larger than 9 mm. In the 7-9 mm subgroup, the visibility was 83% for metastases, 88% for consolidation and 100% for scars in T2/T1 weighting. Though often visible, smaller pathological lesions of 4-6 mm in size did not regularly meet the expected diagnostic confidence: The visibility of metastases was 18%, consolidation was 64% and scars was 71%. Diffuse interstitial lung changes and hyperinflation, known as "MR-minus pathologies," were not accessible to real-time MRI., Conclusion: The method provides motion robust images of the lung and thorax. However, the lower sensitivity for small lung lesions is a major limitation for routine use of this technique. Currently, the method is adequate for diagnosing inflammatory lung diseases, atelectasis, effusions and lung scarring in children with irregular breathing patterns or bulk motion on sedation-free MRI. A medium-term goal is to improve the diagnostic accuracy of small nodules and interstitial lesions., (© 2022. The Author(s).)

Published

2023

27. First clinical application of a novel T1 mapping of the whole brain.

Author

Müller SJ, Khadhraoui E, Voit D, Riedel CH, Frahm J, and Ernst M

Subjects

Humans, Infant, Child, Preschool, Child, Adolescent, Young Adult, Adult, Middle Aged, Aged, Aged, 80 and over, Reproducibility of Results, Brain Mapping, Brain diagnostic imaging, Brain pathology, Magnetic Resonance Imaging methods

Abstract

Background: The aim of this study was to evaluate the reproducibility and clinical value of the novel single-shot T1 mapping method for rapid and accurate multi-slice coverage of the whole brain, described by Wang et al. 2015., Methods: At a field strength of 3 Tesla, T1 mappings of 139 patients (51 of them without pathologic findings) and two repeats of five volunteers were performed at 0.5 mm in-plane resolution. Mean T1 values were determined in 18 manually segmented regions-of-interest without pathologic findings. Reproducibility of the repeated scans was calculated using mean coefficient of variations. Pathologies were grouped and separately evaluated., Results: The mean age of the cohort was 49 (range 1-95 years). T1 relaxation times for ordinary brain and pathologies were in accordance with the literature values. Intra- and inter-subject reproducibility was excellent, and mean coefficient of variations were 2.4% and 3.8%, respectively., Discussion: The novel rapid T1 mapping method is a reliable magnetic resonance imaging technique for identifying and quantifying normal brain structures and may thus serve as a basis for assessing pathologies. The fast and parallel online calculation enables a comfortable use in everyday clinical practice. We see a possible clinical value in a large spectrum of diseases, which should be investigated in further studies.

Published

2022

28. Vowel height and velum position in German: Insights from a real-time magnetic resonance imaging study.

Author

Kunay E, Hoole P, Gubian M, Harrington J, Jospeh A, Voit D, and Frahm J

Subjects

Humans, Movement, Constriction, Pathologic, Magnetic Resonance Imaging, Speech physiology, Speech Acoustics, Phonetics, Tongue physiology

Abstract

Velum position was analysed as a function of vowel height in German tense and lax vowels preceding a nasal or oral consonant. Findings from previous research suggest an interdependence between vowel height and the degree of velum lowering, with a higher velum during high vowels and a more lowered velum during low vowels. In the current study, data were presented from 33 native speakers of Standard German who were measured via non-invasive high quality real-time magnetic resonance imaging. The focus was on exploring the spatiotemporal extent of velum lowering in tense and lax /a, i, o, ø/, which was done by analysing velum movement trajectories over the course of VN and VC sequences in CVNV and CVCV sequences by means of functional principal component analysis. Analyses focused on the impact of the vowel category and vowel tenseness. Data indicated that not only the position of the velum was affected by these factors but also the timing of velum closure. Moreover, it is argued that the effect of vowel height was to be better interpreted in terms of the physiological constriction location of vowels, i.e., the specific tongue position rather than phonetic vowel height.

Published

2022

29. Comparison of cardiac volumetry using real-time MRI during free-breathing with standard cine MRI during breath-hold in children.

Author

Röwer LM, Radke KL, Hußmann J, Malik H, Uelwer T, Voit D, Frahm J, Wittsack HJ, Harmeling S, Pillekamp F, and Klee D

Subjects

Child, Humans, Image Interpretation, Computer-Assisted methods, Reproducibility of Results, Retrospective Studies, Stroke Volume, Breath Holding, Magnetic Resonance Imaging, Cine methods

Abstract

Background: Cardiac real-time magnetic resonance imaging (RT-MRI) provides high-quality images even during free-breathing. Difficulties in post-processing impede its use in clinical routine., Objective: To demonstrate the feasibility of quantitative analysis of cardiac free-breathing RT-MRI and to compare image quality and volumetry during free-breathing RT-MRI in pediatric patients to standard breath-hold cine MRI., Materials and Methods: Pediatric patients (n = 22) received cardiac RT-MRI volumetry during free breathing (1.5 T; short axis; 30 frames per s) in addition to standard breath-hold cine imaging in end-expiration. Real-time images were binned retrospectively based on electrocardiography and respiratory bellows. Image quality and volumetry were compared using the European Cardiovascular Magnetic Resonance registry score, structure visibility rating, linear regression and Bland-Altman analyses., Results: Additional time for binning of real-time images was 2 min. For both techniques, image quality was rated good to excellent. RT-MRI was significantly more robust against artifacts (P < 0.01). Linear regression revealed good correlations for the ventricular volumes. Bland-Altman plots showed a good limit of agreement (LoA) for end-diastolic volume (left ventricle [LV]: LoA -0.1 ± 2.7 ml/m 2 , right ventricle [RV]: LoA -1.9 ± 3.4 ml/m 2 ), end-systolic volume (LV: LoA 0.4 ± 1.9 ml/m 2 , RV: LoA 0.6 ± 2.0 ml/m 2 ), stroke volume (LV: LoA -0.5 ± 2.3 ml/m 2 , RV: LoA -2.6 ± 3.3 ml/m 2 ) and ejection fraction (LV: LoA -0.5 ± 1.6%, RV: LoA -2.1 ± 2.8%)., Conclusion: Compared to standard cine MRI with breath hold, RT-MRI during free breathing with retrospective respiratory binning offers good image quality, reduced image artifacts enabling fast quantitative evaluations of ventricular volumes in clinical practice under physiological conditions., (© 2022. The Author(s).)

Published

2022

30. STEAM-DWI as a robust alternative to EPI-DWI: Evaluation in pediatric brain MRI.

Author

Gräfe D, Päts A, Merkenschlager A, Roth C, Hirsch FW, Frahm J, and Voit D

Subjects

Artifacts, Brain diagnostic imaging, Child, Humans, Magnetic Resonance Imaging, Reproducibility of Results, Retrospective Studies, Diffusion Magnetic Resonance Imaging methods, Echo-Planar Imaging methods

Abstract

Purpose: Diffusion-weighted imaging (DWI) is an essential element of almost every brain MRI examination. The most widely applied DWI technique, a single-shot echo-planar imaging DWI (EPI-DWI) sequence, suffers from a high sensitivity to magnetic field inhomogeneities. As an alternative, a single-shot stimulated echo acquisition mode diffusion-weighted MRI (STEAM-DWI) has recently been re-introduced after it became significantly faster. The aim of the study was to investigate the applicability of STEAM-DWI as a substitute to EPI-DWI in a daily routine of pediatric radiology., Methods: Retrospectively, brain MRI examinations of 208 children with both EPI-DWI and STEAM-DWI were assessed. Visual resolution and diagnostic confidence were evaluated, the extent of susceptibility artifacts was quantified, and contrast-to-noise ratio was calculated in case of diffusion restriction. Furthermore, the correlation of apparent diffusion coefficient values between STEAM-DWI and EPI-DWI was tested., Results: STEAM-DWI was inferior to EPI-DWI in visual resolution but with higher diagnostic confidence and lower artifact size. The apparent diffusion coefficient values of both sequences demonstrated excellent correlation. The contrast-to-noise ratio of STEAM-DWI was only half of that of EPI-DWI (58% resp. 112%)., Conclusion: STEAM-DWI is a robust alternative to EPI-DWI when increased susceptibility artifacts are to be expected. Drawbacks are a lower contrast-to-noise ratio and poorer visual resolution., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: Jens Frahm and Dirk Voit are co-inventors of a patent and software describing the MRI technique used here for brain imaging. This does not alter our adherence to PLoS ONE policies on sharing data and materials. The other authors have declared that no competing interests exist.

Published

2022

31. Velocity vector reconstruction for real-time phase-contrast MRI with radial Maxwell correction.

Author

Kollmeier JM, Kalentev O, Klosowski J, Voit D, and Frahm J

Subjects

Algorithms, Aorta, Thoracic, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging methods

Abstract

Purpose: To develop an auto-calibrated image reconstruction for highly accelerated multi-directional phase-contrast (PC) MRI that compensates for (1) reconstruction instabilities occurring for phase differences near ± π and (2) phase errors by concomitant magnetic fields that differ for individual radial spokes., Theory and Methods: A model-based image reconstruction for real-time PC MRI based on nonlinear inversion is extended to multi-directional flow by exploiting multiple flow-encodings for the estimation of velocity vectors. An initial smoothing constraint during iterative optimization is introduced to resolve the ambiguity of the solution space by penalizing phase wraps. Maxwell terms are considered as part of the signal model on a line-by-line basis to address phase errors by concomitant magnetic fields. The reconstruction methods are evaluated using simulated data and cross-sectional imaging of a rotating-disc, as well as in vivo for the aortic arch and cervical spinal canal at 3T., Results: Real-time three-directional velocity mapping in the aortic arch is achieved at 1.8 × 1.8 × 6 mm 3 spatial and 60 ms temporal resolution. Artificial phase wraps are avoided in all cases using the smoothness constraint. Inter-spoke differences of concomitant magnetic fields are effectively compensated for by the model-based image reconstruction with integrated radial Maxwell correction., Conclusion: Velocity vector reconstructions based on nonlinear inversion allow for high degrees of radial data undersampling paving the way for multi-directional PC MRI in real time. Whether a spoke-wise treatment of Maxwell terms is required or a computationally cheaper frame-wise approach depends on the individual application., (© 2021 The Authors. Magnetic Resonance in Medicine published by Wiley Periodicals LLC on behalf of International Society for Magnetic Resonance in Medicine.)

Published

2022