Search

Your search keyword '"Schlaffke, L"' showing total 108 results
Start Over Author "Schlaffke, L"
108 results on '"Schlaffke, L"'

12. 651VP Quantitative MRI pre- and post-skeletal muscle biopsy reveals correlations with histopathological findings.

Author

Schlaffke, L., Forsting, J., Kneifel, M., Rehmann, R., De Lorenzo, A., Enax-Krumova, E., Froeling, M., Vorgerd, M., and Güttsches, A.

Subjects
*NEUROMUSCULAR diseases, *INFLAMMATION, *SKELETAL muscle, *HISTOPATHOLOGY, *MAGNETIC resonance imaging
Abstract

Quantitative muscle MRI (qMRI) is a promising non-invasive method in the assessment of neuromuscular disorders. qMRI parameters are hypothesised to reflect histopathological changes in skeletal muscle tissue which was assessed in this study, employing the gold standard muscle biopsy. To evaluate the underlying histopathology leading to altered qMRI parameters, 26 patients (8 females, 46.4 ± 15.1 years, BMI 27.2 ± 4.1) were examined within 72 hours before and within 24 hours after a skeletal muscle biopsy using quantitative muscle MRI. Post-biopsy MRI was employed to pinpoint the exact localisation of the biopsy. qMRI parameters including intramuscular fat fraction (FF), water T2 relaxation time (T2), and diffusion metrics including fractional anisotropy (FA), mean diffusivity (MD), axial diffusivity (λ1), and radial diffusivity (RD) were extracted from the localisation of biopsy from the first examination and correlated with histopathological findings. Additionally, three different segmentation masks were applied to the qMRI dataset to evaluate the potential differences between whole muscle analysis and region of interest analysis within the extracted muscle region. FF and T2 in qMRI correlated significantly with the FF in the muscle biopsy and histopathological inflammatory markers. FA correlated with the quantity of type 2 fibres, while MD correlated with p62. No differences were found using different segmentation masks in qMRI. In this study, we showed significant correlations of qMRI parameters for fat infiltration, inflammatory processes and fiber architecture properties with histopathological features in muscle biopsies, endorsing that qMRI serves as a suitable non-invasive method in the follow-up of patients with neuromuscular disorders, which verified the results from our previous study. Importantly, the absence of significant differences between segmentation masks suggests that whole muscle qMRI could reliably represent histopathology, useful when post-biopsy MRI is unavailable. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

13. Diffusion tensor imaging reveals changes in non-fat infiltrated muscles in Late Onset Pompe Disease

Author

Highfield Research Group, Regenerative Medicine and Stem Cells, Cancer, Brain, Circulatory Health, Rehmann, R, Froeling, M, Rohm, M, Forsting, J, Kley, R A, Schmidt-Wilcke, T, Karabul, N, Meyer-Frießem, C H, Vollert, J, Tegenthoff, M, Vorgerd, M, Schlaffke, L, Highfield Research Group, Regenerative Medicine and Stem Cells, Cancer, Brain, Circulatory Health, Rehmann, R, Froeling, M, Rohm, M, Forsting, J, Kley, R A, Schmidt-Wilcke, T, Karabul, N, Meyer-Frießem, C H, Vollert, J, Tegenthoff, M, Vorgerd, M, and Schlaffke, L

Published
2020

15. Muscle diffusion tensor imaging in glycogen storage disease V (McArdle disease)

Author

Highfield Research Group, Rehmann, R., Schlaffke, L., Froeling, M., Kley, R. A., Kuehnle, E., De Marees, M., Forsting, J., Rohm, M., Tegenthoff, M., Schmidt-Wilcke, T., Vorgerd, M., Highfield Research Group, Rehmann, R., Schlaffke, L., Froeling, M., Kley, R. A., Kuehnle, E., De Marees, M., Forsting, J., Rohm, M., Tegenthoff, M., Schmidt-Wilcke, T., and Vorgerd, M.

Published
2019

24. Pre- and post-skeletal muscle biopsy quantitative magnetic resonance imaging reveals correlations with histopathological findings.

Author

Güttsches AK, Forsting J, Kneifel M, Rehmann R, De Lorenzo A, Enax-Krumova E, Froeling M, Vorgerd M, and Schlaffke L

Subjects
Humans, Female, Middle Aged, Male, Adult, Biopsy, Pilot Projects, Neuromuscular Diseases diagnostic imaging, Neuromuscular Diseases pathology, Aged, Follow-Up Studies, Muscle, Skeletal pathology, Muscle, Skeletal diagnostic imaging, Magnetic Resonance Imaging
Abstract

Background and Purpose: Quantitative muscle magnetic resonance imaging (MRI) is a promising non-invasive method in the diagnostic workup as well as follow-up of neuromuscular disorders. The aim of this study was to correlate quantitative MRI (qMRI) parameters to histopathological changes in skeletal muscle tissue and thus to verify the data from our pilot study., Methods: Twenty-six patients (eight females, 46.4 ± 15.1 years) were examined within 72 h before and within 24 h after a skeletal muscle biopsy using quantitative muscle MRI. Post-biopsy MRI was employed to pinpoint the exact localization of the biopsy. qMRI parameters including fat fraction, water T2 relaxation time and diffusion metrics including fractional anisotropy, mean diffusivity, axial diffusivity and radial diffusivity were extracted from the localization of the biopsy and correlated with histopathological findings. Additionally, three different segmentation masks were applied to the qMRI dataset, to evaluate whether the whole muscle represents the exact biopsy location., Results: Fat fraction and water T2 relaxation time in qMRI correlated significantly with the fat fraction in the muscle biopsy and histopathological inflammatory markers. Fractional anisotropy correlated with the quantity of type 2 fibres, whilst mean diffusivity correlated with p62. No differences were found using different segmentation masks in qMRI., Conclusions: In this follow-up study, the results from our previous study were verified regarding the correlation of qMRI parameters with histopathological features in muscle biopsies, indicating that qMRI serves as a suitable non-invasive method in the follow-up of patients with neuromuscular disorders. If post-biopsy MRI is not available, whole muscle volume can be used for histopathological correlations., (© 2024 The Author(s). European Journal of Neurology published by John Wiley & Sons Ltd on behalf of European Academy of Neurology.)

Published
2024
Full Text
View/download PDF

25. Prospective longitudinal cohort study of quantitative muscle magnetic resonance imaging in a healthy control population.

Author

Forsting J, Rehmann R, Rohm M, Kocabas A, De Lorenzo A, Güttsches AK, Vorgerd M, Froeling M, and Schlaffke L

Subjects
Humans, Female, Adult, Male, Longitudinal Studies, Prospective Studies, Diffusion Tensor Imaging methods, Middle Aged, Reproducibility of Results, Magnetic Resonance Imaging methods, Muscle, Skeletal diagnostic imaging
Abstract

Quantitative muscle magnetic resonance imaging (qMRI) is a valuable methodology for assessing muscular injuries and neuromuscular disorders. Notably, muscle diffusion tensor imaging (DTI) gives insights into muscle microstructural and macrostructural characteristics. However, the long-term reproducibility and robustness of these measurements remain relatively unexplored. The purpose of this prospective longitudinal cohort study was to assess the long-term robustness and range of variation of qMRI parameters, especially DTI metrics, in the lower extremity muscles of healthy controls under real-life conditions. Twelve volunteers (seven females, age 44.1 ± 12.1 years, body mass index 23.3 ± 2.0 kg/m 2 ) underwent five leg muscle MRI sessions every 20 ± 4 weeks over a total period of 1.5 years. A multiecho gradient-echo Dixon-based sequence, a multiecho spin-echo T2-mapping sequence, and a spin-echo echo planar imaging diffusion-weighted sequence were acquired bilaterally with a Philips 3-T Achieva MR System using a 16-channel torso coil. Fifteen leg muscles were segmented in both lower extremities. qMRI parameters, including fat fraction (FF), water T2 relaxation time, and the diffusion metrics fractional anisotropy (FA) and mean diffusivity (MD), were evaluated. Coefficients of variance (wsCV) and intraclass correlation coefficients (ICCs) were calculated to assess the reproducibility of qMRI parameters. The standard error of measurement (SEM) and the minimal detectable change (MDC) were calculated to determine the range of variation. All tests were applied to all muscles and, subsequently, to each muscle separately. wsCV showed good reproducibility (≤ 10%) for all qMRI parameters in all muscles. The ICCs revealed excellent agreement between time points (FF = 0.980, water T2 = 0.941, FA = 0.952, MD = 0.948). Random measurement errors assessed by SEM and the MDC were low (< 12%). In conclusion, in this study, we showed that qMRI parameters in healthy volunteers living normal lives are stable over 18 months, thereby defining a benchmark for the expected range of variation over time., (© 2024 The Author(s). NMR in Biomedicine published by John Wiley & Sons Ltd.)

Published
2024
Full Text
View/download PDF

26. Quantitative muscle magnetic resonance imaging in limb-girdle muscular dystrophy type R1 (LGMDR1): A prospective longitudinal cohort study.

Author

Forsting J, Wächter M, Froeling M, Rohm M, Güttsches AK, De Lorenzo A, Südkamp N, Kocabas A, Vorgerd M, Enax-Krumova E, Rehmann R, and Schlaffke L

Subjects
Humans, Female, Male, Adult, Longitudinal Studies, Prospective Studies, Middle Aged, Young Adult, Magnetic Resonance Imaging, Muscular Dystrophies, Limb-Girdle diagnostic imaging, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal pathology
Abstract

Limb-girdle muscular dystrophy (LGMD) type R1 (LGMDR1) is the most common subtype of LGMD in Europe. Prospective longitudinal data, including clinical assessments and new biomarkers such as quantitative magnetic resonance imaging (qMRI), are needed to evaluate the natural course of the disease and therapeutic options. We evaluated eight thigh and seven leg muscles of 13 LGMDR1 patients (seven females, mean age 36.7 years, body mass index 23.9 kg/m 2 ) and 13 healthy age- and gender-matched controls in a prospective longitudinal design over 1 year. Clinical assessment included testing for muscle strength with quick motor function measure (QMFM), gait analysis and patient questionnaires (neuromuscular symptom score, activity limitation [ACTIVLIM]). MRI scans were performed on a 3-T MRI scanner, including a Dixon-based sequence, T2 mapping and diffusion tensor imaging. The qMRI values of fat fraction (FF), water T2 relaxation time (T2), fractional anisotropy, mean diffusivity, axial diffusivity and radial diffusivity were analysed. Within the clinical outcome measures, significant deterioration between baseline and follow-up was found for ACTIVLIM (p = 0.029), QMFM (p = 0.012). Analysis of qMRI parameters of the patient group revealed differences between time points for both FF and T2 when analysing all muscles (FF: p < 0.001; T2: p = 0.016). The highest increase of fat replacement was found in muscles with an FF of between 10% and 50% at baseline. T2 in muscles with low-fat replacement increased significantly. No significant differences were found for the diffusion metrics. Significant correlations between qMRI metrics and clinical assessments were found at baseline and follow-up, while only T2 changes in thigh muscles correlated with changes in ACTIVLIM over time (ρ = -0.621, p < 0.05). Clinical assessments can show deterioration of the general condition of LGMDR1 patients. qMRI measures can give additional information about underlying pathophysiology. Further research is needed to establish qMRI outcome measures for clinical trials., (© 2024 The Authors. NMR in Biomedicine published by John Wiley & Sons Ltd.)

Published
2024
Full Text
View/download PDF

27. Non-invasive optoacoustic imaging of glycogen-storage and muscle degeneration in late-onset Pompe disease.

Author

Tan L, Zschüntzsch J, Meyer S, Stobbe A, Bruex H, Regensburger AP, Claßen M, Alves F, Jüngert J, Rother U, Li Y, Danko V, Lang W, Türk M, Schmidt S, Vorgerd M, Schlaffke L, Woelfle J, Hahn A, Mensch A, Winterholler M, Trollmann R, Heiß R, Wagner AL, Raming R, and Knieling F

Subjects
Adult, Female, Humans, Male, Middle Aged, Case-Control Studies, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal metabolism, Muscle, Skeletal pathology, Phantoms, Imaging, Ultrasonography methods, Glycogen metabolism, Glycogen Storage Disease Type II diagnostic imaging, Glycogen Storage Disease Type II metabolism, Glycogen Storage Disease Type II pathology, Magnetic Resonance Imaging methods, Photoacoustic Techniques methods
Abstract

Pompe disease (PD) is a rare autosomal recessive glycogen storage disorder that causes proximal muscle weakness and loss of respiratory function. While enzyme replacement therapy (ERT) is the only effective treatment, biomarkers for disease monitoring are scarce. Following ex vivo biomarker validation in phantom studies, we apply multispectral optoacoustic tomography (MSOT), a laser- and ultrasound-based non-invasive imaging approach, in a clinical trial (NCT05083806) to image the biceps muscles of 10 late-onset PD (LOPD) patients and 10 matched healthy controls. MSOT is compared with muscle magnetic resonance imaging (MRI), ultrasound, spirometry, muscle testing and quality of life scores. Next, results are validated in an independent LOPD patient cohort from a second clinical site. Our study demonstrates that MSOT enables imaging of subcellular disease pathology with increases in glycogen/water, collagen and lipid signals, providing higher sensitivity in detecting muscle degeneration than current methods. This translational approach suggests implementation in the complex care of these rare disease patients., (© 2024. The Author(s).)

Published
2024
Full Text
View/download PDF

28. Compositional and Functional MRI of Skeletal Muscle: A Review.

Author

Hooijmans MT, Schlaffke L, Bolsterlee B, Schlaeger S, Marty B, and Mazzoli V

Subjects
Humans, Muscular Diseases diagnostic imaging, Muscular Diseases physiopathology, Muscle Contraction physiology, Muscle, Skeletal diagnostic imaging, Magnetic Resonance Imaging methods
Abstract

Due to its exceptional sensitivity to soft tissues, MRI has been extensively utilized to assess anatomical muscle parameters such as muscle volume and cross-sectional area. Quantitative Magnetic Resonance Imaging (qMRI) adds to the capabilities of MRI, by providing information on muscle composition such as fat content, water content, microstructure, hypertrophy, atrophy, as well as muscle architecture. In addition to compositional changes, qMRI can also be used to assess function for example by measuring muscle quality or through characterization of muscle deformation during passive lengthening/shortening and active contractions. The overall aim of this review is to provide an updated overview of qMRI techniques that can quantitatively evaluate muscle structure and composition, provide insights into the underlying biological basis of the qMRI signal, and illustrate how qMRI biomarkers of muscle health relate to function in healthy and diseased/injured muscles. While some applications still require systematic clinical validation, qMRI is now established as a comprehensive technique, that can be used to characterize a wide variety of structural and compositional changes in healthy and diseased skeletal muscle. Taken together, multiparametric muscle MRI holds great potential in the diagnosis and monitoring of muscle conditions in research and clinical applications. EVIDENCE LEVEL: 5 TECHNICAL EFFICACY: Stage 2., (© 2023 International Society for Magnetic Resonance in Medicine.)

Published
2024
Full Text
View/download PDF

29. Microstructural properties of attention-related white matter tracts are associated with the renewal effect of extinction.

Author

Lissek S, Schlaffke L, and Tegenthoff M

Subjects
Humans, Male, Female, Adult, Young Adult, Atomoxetine Hydrochloride pharmacology, Adrenergic Uptake Inhibitors pharmacology, Anisotropy, Brain physiology, White Matter physiology, White Matter diagnostic imaging, Diffusion Tensor Imaging, Attention physiology, Extinction, Psychological physiology, Extinction, Psychological drug effects
Abstract

The tendency to show the renewal effect of extinction appears as an intra-individually stable, reproducible processing strategy associated with differential patterns of BOLD activation in hippocampus, iFG and vmPFC, as well as differential resting-state functional connectivity between prefrontal regions and the dorsal attention network. Also, pharmacological modulations of the noradrenergic system that influence attentional processing have partially different effects upon individuals with (REN) and without (NoREN) a propensity for renewal. However, it is as yet unknown whether REN and NoREN individuals differ regarding microstructural properties in attention-related white matter (WM) regions, and whether such differences are related to noradrenergic processing. In this diffusion tensor imaging (DTI) analysis we investigated the relation between microstructural properties of attention-related WM tracts and ABA renewal propensity, under conditions of noradrenergic stimulation by means of the noradrenergic reuptake inhibitor atomoxetine, compared to placebo. Fractional anisotropy (FA) was higher in participants with noradrenergic stimulation (ATO) compared to placebo (PLAC), the effect was predominantly left-lateralized and based on the comparison of ATO REN and PLAC REN participants. In REN participants of both treatment groups, FA in several WM tracts showed a positive correlation with the ABA renewal level, suggesting higher renewal levels were associated with higher microstructural integrity. These findings point towards a relation between microstructural properties of attention-related WM tracts and the propensity for renewal that is not specifically dependent on noradrenergic processing., Competing Interests: Conflict of Interest 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 © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
Full Text
View/download PDF

30. [Expert recommendations for magnetic resonance imaging of muscle disorders].

Author

Zeng R, Schlaeger S, Türk M, Baum T, Deschauer M, Janka R, Karampinos D, Kassubek J, Keller-Yamamura S, Kornblum C, Lehmann H, Lichtenstein T, Nagel AM, Reimann J, Rosenbohm A, Schlaffke L, Schmidt M, Schneider-Gold C, Schoser B, Trollmann R, Vorgerd M, Weber MA, Kirschke JS, and Schmidt J

Subjects
Humans, Germany, Muscular Diseases diagnostic imaging, Neurology standards, Practice Guidelines as Topic, Radiology standards, Magnetic Resonance Imaging standards, Magnetic Resonance Imaging methods, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal pathology
Abstract

Background: Magnetic resonance (MRI) imaging of the skeletal muscles (muscle MRI for short) is increasingly being used in clinical routine for diagnosis and longitudinal assessment of muscle disorders. However, cross-centre standards for measurement protocol and radiological assessment are still lacking., Objectives: The aim of this expert recommendation is to present standards for the application and interpretation of muscle MRI in hereditary and inflammatory muscle disorders., Methods: This work was developed in collaboration between neurologists, neuroradiologists, radiologists, neuropaediatricians, neuroscientists and MR physicists from different university hospitals in Germany. The recommendations are based on expert knowledge and a focused literature search., Results: The indications for muscle MRI are explained, including the detection and monitoring of structural tissue changes and oedema in the muscle, as well as the identification of a suitable biopsy site. Recommendations for the examination procedure and selection of appropriate MRI sequences are given. Finally, steps for a structured radiological assessment are presented., Conclusions: The present work provides concrete recommendations for the indication, implementation and interpretation of muscle MRI in muscle disorders. Furthermore, it provides a possible basis for the standardisation of the measurement protocols at all clinical centres in Germany., (© 2024. The Author(s), under exclusive licence to Springer Medizin Verlag GmbH, ein Teil von Springer Nature.)

Published
2024
Full Text
View/download PDF

31. Microstructural differences in the cingulum and the inferior longitudinal fasciculus are associated with (extinction) learning.

Author

Nostadt A, Schlaffke L, Merz CJ, Wolf OT, Nitsche MA, Tegenthoff M, and Lissek S

Subjects
Humans, Male, Female, Adult, Young Adult, Learning physiology, Neural Pathways diagnostic imaging, Gyrus Cinguli diagnostic imaging, Gyrus Cinguli anatomy & histology, Anisotropy, Diffusion Tensor Imaging methods, White Matter diagnostic imaging, Extinction, Psychological physiology
Abstract

Cognitive functions, such as learning and memory processes, depend on effective communication between brain regions which is facilitated by white matter tracts (WMT). We investigated the microstructural properties and the contribution of WMT to extinction learning and memory in a predictive learning task. Forty-two healthy participants completed an extinction learning paradigm without a fear component. We examined differences in microstructural properties using diffusion tensor imaging to identify underlying neural connectivity and structural correlates of extinction learning and their potential implications for the renewal effect. Participants with good acquisition performance exhibited higher fractional anisotropy (FA) in WMT including the bilateral inferior longitudinal fasciculus (ILF) and the right temporal part of the cingulum (CNG). This indicates enhanced connectivity and communication between brain regions relevant to learning and memory resulting in better learning performance. Our results suggest that successful acquisition and extinction performance were linked to enhanced structural connectivity. Lower radial diffusivity (RD) in the right ILF and right temporal part of the CNG was observed for participants with good acquisition learning performance. This observation suggests that learning difficulties associated with increased RD may potentially be due to less myelinated axons in relevant WMT. Also, participants with good acquisition performance were more likely to show a renewal effect. The results point towards a potential role of structural integrity in extinction-relevant WMT for acquisition and extinction., (© 2024. The Author(s).)

Published
2024
Full Text
View/download PDF

33. Constrained spherical deconvolution on diffusion-weighted images of dolphin brains.

Author

Gerussi T, Graïc JM, Cozzi B, Schlaffke L, Güntürkün O, and Behroozi M

Subjects
Animals, Humans, Brain diagnostic imaging, Brain anatomy & histology, Diffusion Magnetic Resonance Imaging methods, Neurons, Formaldehyde, Dolphins
Abstract

Invasive neuronal tract-tracing is not permitted in very large or endangered animals. This is especially the case in marine mammals like dolphins. Diffusion-weighted imaging of fiber tracts could be an alternative if feasible even in brains that have been fixed in formalin for a long time. This currently is a problem, especially for detecting crossing fibers. We applied a state-of-the-art algorithm of Diffusion-weighted imaging called Constrained Spherical Deconvolution on diffusion data of three fixed brains of bottlenose dolphins using clinical human MRI parameters and were able to identify complex fiber patterns within a voxel. Our findings indicate that in order to maintain the structural integrity of the tissue, short-term post-mortem fixation is necessary. Furthermore, pre-processing steps are essential to remove the classical Diffusion-weighted imaging artifacts from images: however, the algorithm is still able to resolve fiber tracking in regions with various signal intensities. The described imaging technique reveals complex fiber patterns in cetacean brains that have been preserved in formalin for extended periods of time and thus opens a new window into our understanding of cetacean neuroanatomy., 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 © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

34. The angular gyrus serves as an interface between the non-lexical reading network and the semantic system: evidence from dynamic causal modeling.

Author

Junker FB, Schlaffke L, Lange J, and Schmidt-Wilcke T

Subjects
Humans, Language, Parietal Lobe, Brain, Magnetic Resonance Imaging, Semantics, Brain Mapping
Abstract

Understanding encoded language, such as written words, requires multiple cognitive processes that act in a parallel and interactive fashion. These processes and their interactions, however, are not fully understood. Various conceptual and methodical approaches including computational modeling and neuroimaging have been applied to better understand the neural underpinnings of these complex processes in the human brain. In this study, we tested different predictions of cortical interactions that derived from computational models for reading using dynamic causal modeling. Morse code was used as a model for non-lexical decoding followed by a lexical-decision during a functional magnetic resonance examination. Our results suggest that individual letters are first converted into phonemes within the left supramarginal gyrus, followed by a phoneme assembly to reconstruct word phonology, involving the left inferior frontal cortex. To allow the identification and comprehension of known words, the inferior frontal cortex then interacts with the semantic system via the left angular gyrus. As such, the left angular gyrus is likely to host phonological and semantic representations and serves as a bidirectional interface between the networks involved in language perception and word comprehension., (© 2023. The Author(s).)

Published
2024
Full Text
View/download PDF

35. Evaluation of Neuromuscular Diseases and Complaints by Quantitative Muscle MRI.

Author

Schlaffke L, Rehmann R, Güttsches AK, Vorgerd M, Meyer-Frießem CH, Dinse HR, Enax-Krumova E, Froeling M, and Forsting J

Abstract

Background: Quantitative muscle MRI (qMRI) is a promising tool for evaluating and monitoring neuromuscular disorders (NMD). However, the application of different imaging protocols and processing pipelines restricts comparison between patient cohorts and disorders. In this qMRI study, we aim to compare dystrophic (limb-girdle muscular dystrophy), inflammatory (inclusion body myositis), and metabolic myopathy (Pompe disease) as well as patients with post-COVID-19 conditions suffering from myalgia to healthy controls. Methods : Ten subjects of each group underwent a 3T lower extremity muscle MRI, including a multi-echo, gradient-echo, Dixon-based sequence, a multi-echo, spin-echo (MESE) T2 mapping sequence, and a spin-echo EPI diffusion-weighted sequence. Furthermore, the following clinical assessments were performed: Quick Motor Function Measure, patient questionnaires for daily life activities, and 6-min walking distance. Results : Different involvement patterns of conspicuous qMRI parameters for different NMDs were observed. qMRI metrics correlated significantly with clinical assessments. Conclusions : qMRI metrics are suitable for evaluating patients with NMD since they show differences in muscular involvement in different NMDs and correlate with clinical assessments. Still, standardisation of acquisition and processing is needed for broad clinical use.

Published
2024
Full Text
View/download PDF

36. Quantitative muscle MRI in sporadic inclusion body myositis (sIBM): A prospective cohort study.

Author

Schlaffke L, Rehmann R, Froeling M, Güttsches AK, Vorgerd M, Enax-Krumova E, and Forsting J

Subjects
Humans, Female, Male, Aged, Prospective Studies, Middle Aged, Muscle Strength physiology, Longitudinal Studies, Diffusion Tensor Imaging, Lower Extremity diagnostic imaging, Lower Extremity physiopathology, Myositis, Inclusion Body diagnostic imaging, Myositis, Inclusion Body physiopathology, Magnetic Resonance Imaging methods, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal physiopathology
Abstract

Background: Sporadic inclusion body myositis (sIBM) is the predominant idiopathic inflammatory myopathy (IIM) in older people. Limitations of classical clinical assessments have been discussed as possible explanations for failed clinical trials, underlining the need for more sensitive outcome measures. Quantitative muscle MRI (qMRI) is a promising candidate for evaluating and monitoring sIBM., Objective: Longitudinal assessment of qMRI in sIBM patients., Methods: We evaluated fifteen lower extremity muscles of 12 sIBM patients (5 females, mean age 69.6, BMI 27.8) and 12 healthy age- and gender-matched controls. Seven patients and matched controls underwent a follow-up evaluation after one year. Clinical assessment included testing for muscle strength with Quick Motor Function Measure (QMFM), IBM functional rating scale (IBM-FRS), and gait analysis (6-minute walking distance). 3T-MRI scans of the lower extremities were performed, including a Dixon-based sequence, T2 mapping and Diffusion Tensor Imaging. The qMRI-values fat-fraction (FF), water T2 relaxation time (wT2), fractional anisotropy (FA), mean diffusivity (MD), axial diffusivity (λ1), and radial diffusivity (RD) were analysed., Results: Compared to healthy controls, significant differences for all qMRI parameters averaged over all muscles were found in sIBM using a MANOVA (p < 0.001). In low-fat muscles (FF < 10%), a significant increase of wT2 and FA with an accompanying decrease of MD, λ1, and RD was observed (p≤0.020). The highest correlation with clinical assessments was found for wT2 values in thigh muscles (r≤-0.634). Significant changes of FF (+3.0%), wT2 (+0.6 ms), MD (-0.04 10-3mm2/s), λ1 (-0.05 10-3mm2/s), and RD (-0.03 10-3mm2/s) were observed in the longitudinal evaluation of sIBM patients (p≤0.001). FA showed no significant change (p = 0.242)., Conclusion: qMRI metrics correlate with clinical findings and can reflect different ongoing pathophysiological mechanisms. While wT2 is an emerging marker of disease activity, the role of diffusion metrics, possibly reflecting changes in fibre size and intracellular deposits, remains subject to further investigations.

Published
2024
Full Text
View/download PDF

37. Muscle diffusion MRI reveals autophagic buildup in a mouse model for Pompe disease.

Author

Rohm M, Russo G, Helluy X, Froeling M, Umathum V, Südkamp N, Manahan-Vaughan D, Rehmann R, Forsting J, Jacobsen F, Roos A, Shin Y, Schänzer A, Vorgerd M, and Schlaffke L

Subjects
Humans, Mice, Animals, Infant, Muscle Fibers, Skeletal pathology, Diffusion Magnetic Resonance Imaging, Quadriceps Muscle, Disease Models, Animal, Water, Glycogen Storage Disease Type II diagnostic imaging, Glycogen Storage Disease Type II pathology
Abstract

Quantitative muscle MRI is increasingly important in the non-invasive evaluation of neuromuscular disorders and their progression. Underlying histopathotological alterations, leading to changes in qMRI parameters are incompletely unraveled. Early microstructural differences of unknown origin reflected by Diffusion MRI in non-fat infiltrated muscles were detected in Pompe patients. This study employed a longitudinal approach with a Pompe disease mouse model to investigate the histopathological basis of these changes. Monthly scans of Pompe (Gaa 6neo/6neo ) and wildtype mice (age 1-8 months) were conducted using diffusion MRI, T2-mapping, and Dixon-based water-fat imaging on a 7 T scanner. Immunofluorescence studies on quadriceps muscles were analyzed for lysosomal accumulations and autophagic buildup and correlated with MRI outcome measures. Fat fraction and water-T2 did not differ between groups and remained stable over time. In Pompe mice, fractional anisotropy increased, while mean diffusivity (MD) and radial diffusivity (RD) decreased in all observed muscles. Autophagic marker and muscle fibre diameter revealed significant negative correlations with reduced RD and MD, while lysosomal marker did not show any change or correlation. Using qMRI, we showed diffusion changes in muscles of presymptomatic Pompe mice without fat-infiltrated muscles and correlated them to autophagic markers and fibre diameter, indicating diffusion MRI reveals autophagic buildup., (© 2023. The Author(s).)

Published
2023
Full Text
View/download PDF

38. The prefrontal cortex of the bottlenose dolphin (Tursiops truncatus Montagu, 1821): a tractography study and comparison with the human.

Author

Gerussi T, Graïc JM, Peruffo A, Behroozi M, Schlaffke L, Huggenberger S, Güntürkün O, and Cozzi B

Subjects
Animals, Humans, Prefrontal Cortex diagnostic imaging, Brain, Algorithms, Cognition, Bottle-Nosed Dolphin
Abstract

Cetaceans are well known for their remarkable cognitive abilities including self-recognition, sound imitation and decision making. In other mammals, the prefrontal cortex (PFC) takes a key role in such cognitive feats. In cetaceans, however, a PFC could up to now not be discerned based on its usual topography. Classical in vivo methods like tract tracing are legally not possible to perform in Cetacea, leaving diffusion-weighted imaging (DWI) as the most viable alternative. This is the first investigation focussed on the identification of the cetacean PFC homologue. In our study, we applied the constrained spherical deconvolution (CSD) algorithm on 3 T DWI scans of three formalin-fixed brains of bottlenose dolphins (Tursiops truncatus) and compared the obtained results to human brains, using the same methodology. We first identified fibres related to the medio-dorsal thalamic nuclei (MD) and then seeded the obtained putative PFC in the dolphin as well as the known PFC in humans. Our results outlined the dolphin PFC in areas not previously studied, in the cranio-lateral, ectolateral and opercular gyri, and furthermore demonstrated a similar connectivity pattern between the human and dolphin PFC. The antero-lateral rotation of the PFC, like in other areas, might be the result of the telescoping process which occurred in these animals during evolution., (© 2023. The Author(s).)

Published
2023
Full Text
View/download PDF

39. Evidence- and data-driven classification of low back pain via artificial intelligence: Protocol of the PREDICT-LBP study.

Author

Belavy DL, Tagliaferri SD, Tegenthoff M, Enax-Krumova E, Schlaffke L, Bühring B, Schulte TL, Schmidt S, Wilke HJ, Angelova M, Trudel G, Ehrenbrusthoff K, Fitzgibbon B, Van Oosterwijck J, Miller CT, Owen PJ, Bowe S, Döding R, and Kaczorowski S

Subjects
Male, Humans, Female, Artificial Intelligence, Cross-Sectional Studies, Prospective Studies, Spine, Low Back Pain diagnostic imaging
Abstract

In patients presenting with low back pain (LBP), once specific causes are excluded (fracture, infection, inflammatory arthritis, cancer, cauda equina and radiculopathy) many clinicians pose a diagnosis of non-specific LBP. Accordingly, current management of non-specific LBP is generic. There is a need for a classification of non-specific LBP that is both data- and evidence-based assessing multi-dimensional pain-related factors in a large sample size. The "PRedictive Evidence Driven Intelligent Classification Tool for Low Back Pain" (PREDICT-LBP) project is a prospective cross-sectional study which will compare 300 women and men with non-specific LBP (aged 18-55 years) with 100 matched referents without a history of LBP. Participants will be recruited from the general public and local medical facilities. Data will be collected on spinal tissue (intervertebral disc composition and morphology, vertebral fat fraction and paraspinal muscle size and composition via magnetic resonance imaging [MRI]), central nervous system adaptation (pain thresholds, temporal summation of pain, brain resting state functional connectivity, structural connectivity and regional volumes via MRI), psychosocial factors (e.g. depression, anxiety) and other musculoskeletal pain symptoms. Dimensionality reduction, cluster validation and fuzzy c-means clustering methods, classification models, and relevant sensitivity analyses, will classify non-specific LBP patients into sub-groups. This project represents a first personalised diagnostic approach to non-specific LBP, with potential for widespread uptake in clinical practice. This project will provide evidence to support clinical trials assessing specific treatments approaches for potential subgroups of patients with non-specific LBP. The classification tool may lead to better patient outcomes and reduction in economic costs., Competing Interests: DLB, ST, MT, LS, SeS, HJW, MA, GT, KE, BF, JVO, CTM, PJO, SB, RD, SK declare no conflicts of interest. BB: declares no conflicts of interest relevant to the current work, but has previously received research support, consultancy fees and/or honoraria from AbbVie, Amgen, Biogen, GE/Lunar, Janssen, Galapagos, Gilead, Medimaps, MSD, Sanofi Genzyme, Theramex, UCB. TS: declares prior consulting fees from Johnson & Johnson, Amgen, Kaia Health Software, SpineArt, Implantcast and speaking and travel arrangements from Johnson & Johnson, ICOTEC, Nuvasive, Ulrichmedical, Silony, Amgen, Kaia Health Software. EE-K has received fees from painCert GmbH, Casquar GmbH and Omega Pharma GmbH, outside the submitted work. This does not alter our adherence to PLOS ONE policies on sharing data and materials., (Copyright: © 2023 Belavy et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
Full Text
View/download PDF

40. Dysregulation of Metabolism and Proteostasis in Skeletal Muscle of a Presymptomatic Pompe Mouse Model.

Author

Rohm M, Volke L, Schlaffke L, Rehmann R, Südkamp N, Roos A, Schänzer A, Hentschel A, and Vorgerd M

Subjects
Mice, Animals, alpha-Glucosidases, Proteostasis, Proteomics, Muscle, Skeletal metabolism, Glycogen Storage Disease Type II genetics
Abstract

Pompe disease is a rare genetic metabolic disorder caused by mutations in acid-alpha glucoside (GAA) leading to pathological lysosomal glycogen accumulation associated with skeletal muscle weakness, respiratory difficulties and cardiomyopathy, dependent from the GAA residual enzyme activity. This study aimed to investigate early proteomic changes in a mouse model of Pompe disease and identify potential therapeutic pathways using proteomic analysis of skeletal muscles from pre-symptomatic Pompe mice. For this purpose, quadriceps samples of Gaa 6neo/6neo mutant (Pompe) and wildtype mice, at the age of six weeks, were studied with three biological replicates for each group. The data were validated with skeletal muscle morphology, immunofluorescence studies and western blot analysis. Proteomic profiling identified 538 significantly upregulated and 16 significantly downregulated proteins in quadriceps muscles derived from Pompe animals compared to wildtype mice. The majority of significantly upregulated proteins were involved in metabolism, translation, folding, degrading and vesicular transport, with some having crucial roles in the etiopathology of other neurological or neuromuscular diseases. This study highlights the importance of the early diagnosis and treatment of Pompe disease and suggests potential add-on therapeutic strategies targeting protein dysregulations.

Published
2023
Full Text
View/download PDF

42. Quantitative muscle magnetic resonance imaging depicts microstructural abnormalities but no signs of inflammation or dystrophy in post-COVID-19 condition.

Author

Enax-Krumova E, Forsting J, Rohm M, Schwenkreis P, Tegenthoff M, Meyer-Frießem CH, and Schlaffke L

Subjects
Humans, Female, Adult, Middle Aged, Case-Control Studies, Quality of Life, Magnetic Resonance Imaging methods, Muscle, Skeletal pathology, Diffusion Tensor Imaging, COVID-19
Abstract

Background and Purpose: Post-COVID-19 condition (PCC) has high impact on quality of life, with myalgia and fatigue affecting at least 25% of PCC patients. This case-control study aims to noninvasively assess muscular alterations via quantitative muscle magnetic resonance imaging (MRI) as possible mechanisms for ongoing musculoskeletal complaints and premature exhaustion in PCC., Methods: Quantitative muscle MRI was performed on a 3 Tesla MRI scanner of the whole legs in PCC patients compared to age- and sex-matched healthy controls, including a Dixon sequence to determine muscle fat fraction (FF), a multi-echo spin-echo sequence for quantitative water mapping reflecting putative edema, and a diffusion-weighted spin-echo echo-planar imaging sequence to assess microstructural alterations. Clinical examination, nerve conduction studies, and serum creatine kinase were performed in all patients. Quantitative muscle MRI results were correlated to the results of the 6-min walk test and standardized questionnaires assessing quality of life, fatigue, and depression., Results: Twenty PCC patients (female: n = 15, age = 48.8 ± 10.1 years, symptoms duration = 13.4 ± 4.2 months, body mass index [BMI] = 28.8 ± 4.7 kg/m 2 ) were compared to 20 healthy controls (female: n = 15, age = 48.1 ± 11.1 years, BMI = 22.9 ± 2.2 kg/m 2 ). Neither FF nor T2 revealed signs of muscle degeneration or inflammation in either study groups. Diffusion tensor imaging (DTI) revealed reduced mean, axial, and radial diffusivity in the PCC group., Conclusions: Quantitative muscle MRI did not depict any signs of ongoing inflammation or dystrophic process in the skeletal muscles in PCC patients. However, differences observed in muscle DTI depict microstructural abnormalities, which may reflect potentially reversible fiber hypotrophy due to deconditioning. Further longitudinal and interventional studies should prove this hypothesis., (© 2023 The Authors. European Journal of Neurology published by John Wiley & Sons Ltd on behalf of European Academy of Neurology.)

Published
2023
Full Text
View/download PDF

43. Quantitative muscle MRI captures early muscle degeneration in calpainopathy.

Author

Forsting J, Rohm M, Froeling M, Güttsches AK, Südkamp N, Roos A, Vorgerd M, Schlaffke L, and Rehmann R

Subjects
Muscle, Skeletal diagnostic imaging, Muscular Dystrophies, Limb-Girdle, Water, Humans, Magnetic Resonance Imaging methods, Diffusion Tensor Imaging methods
Abstract

To evaluate differences in qMRI parameters of muscle diffusion tensor imaging (mDTI), fat-fraction (FF) and water T2 time in leg muscles of calpainopathy patients (LGMD R1/D4) compared to healthy controls, to correlate those findings to clinical parameters and to evaluate if qMRI parameters show muscle degeneration in not-yet fatty infiltrated muscles. We evaluated eight thigh and seven calf muscles of 19 calpainopathy patients and 19 healthy matched controls. MRI scans were performed on a 3T MRI including a mDTI, T2 mapping and mDixonquant sequence. Clinical assessment was done with manual muscle testing, patient questionnaires (ACTIVLIM, NSS) as well as gait analysis. Average FF was significantly different in all muscles compared to controls (p < 0.001). In muscles with less than 8% FF a significant increase of FA (p < 0.005) and decrease of RD (p < 0.004) was found in high-risk muscles of calpainopathy patients. Water T2 times were increased within the low- and intermediate-risk muscles (p ≤ 0.045) but not in high-risk muscles (p = 0.062). Clinical assessments correlated significantly with qMRI values: QMFM vs. FF: r = - 0.881, p < 0.001; QMFM versus FA: r = - 0.747, p < 0.001; QMFM versus MD: r = 0.942, p < 0.001. A good correlation of FF and diffusion metrics to clinical assessments was found. Diffusion metrics and T2 values are promising candidates to serve as sensitive early and non-invasive methods to capture early muscle degeneration in non-fat-infiltrated muscles in calpainopathies., (© 2022. The Author(s).)

Published
2022
Full Text
View/download PDF

44. Robustness and stability of volume-based tractography in a multicenter setting.

Author

Forsting J, Rehmann R, Rohm M, Güttsches AK, Froeling M, Kan HE, Tegenthoff M, Vorgerd M, and Schlaffke L

Subjects
Anisotropy, Humans, Muscle, Skeletal, Reproducibility of Results, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging methods
Abstract

Muscle diffusion tensor imaging (mDTI)-based tractography is a promising tool with which to detect subclinical changes in muscle injuries and to evaluate pathophysiology in neuromuscular diseases. Classic region of interest (ROI)-based tractography is very time-consuming and requires an examiner with extensive experience. (Semi)automatic approaches such as volume-based tractography (VBT) can diminish this problem but its robustness and stability are unknown. The aim of the current study was to assess the performance of VBT in a multicenter setting and to evaluate semiautomatic segmentation approaches in the analysis of VBT-derived data in terms of the comparability of the outcome measures. Five traveling volunteers underwent 3-T mDTI of seven calf muscles of both legs at six different MR sites. Tract properties and diffusion metrics were calculated using VBT. Within-subject coefficients of variance (wsCVs) and intraclass correlation coefficients (ICCs) were calculated to assess the multicenter reproducibility of tract properties such as tract density (TD), mean tract length, volume and tract propagation angle, and diffusion metrics such as fractional anisotropy, mean diffusivity, axial diffusivity (λ 1 ) and radial diffusivity in traveling subjects. Furthermore, 50 individual datasets from five different centers (10 datasets per center) were pooled to assess the feasibility of VBT with manual and semiautomatic segmentation. To assess the differences of tract properties and diffusion metrics between segmentation approaches an ANOVA was performed, and ICC and Bland-Altman plots were analyzed. wsCVs and ICCs showed good reproducibility of the tract properties TD and volume, as well as diffusion metrics. ANOVA showed no significant differences between manual and semiautomatic approaches. ICCs were excellent (≥ 0.992) and Bland-Altman analysis did not reveal any systemic bias between the methods. Tract properties and diffusion metrics derived from VBT showed good comparability among centers. Semiautomatic approaches revealed excellent agreement with gold standard of manual segmentation. These findings suggest that pooling data from different centers to construct a reference database for tractography results is feasible using semiautomatic segmentation approaches., (© 2022 The Authors. NMR in Biomedicine published by John Wiley & Sons Ltd.)

Published
2022
Full Text
View/download PDF

45. Visual and Tactile Sensory Systems Share Common Features in Object Recognition.

Author

Tabrik S, Behroozi M, Schlaffke L, Heba S, Lenz M, Lissek S, Güntürkün O, Dinse HR, and Tegenthoff M

Subjects
Female, Humans, Male, Visual Perception, Touch, Touch Perception
Abstract

Although we use our visual and tactile sensory systems interchangeably for object recognition on a daily basis, little is known about the mechanism underlying this ability. This study examined how 3D shape features of objects form two congruent and interchangeable visual and tactile perceptual spaces in healthy male and female participants. Since active exploration plays an important role in shape processing, a virtual reality environment was used to visually explore 3D objects called digital embryos without using the tactile sense. In addition, during the tactile procedure, blindfolded participants actively palpated a 3D-printed version of the same objects with both hands. We first demonstrated that the visual and tactile perceptual spaces were highly similar. We then extracted a series of 3D shape features to investigate how visual and tactile exploration can lead to the correct identification of the relationships between objects. The results indicate that both modalities share the same shape features to form highly similar veridical spaces. This finding suggests that visual and tactile systems might apply similar cognitive processes to sensory inputs that enable humans to rely merely on one modality in the absence of another to recognize surrounding objects., (Copyright © 2021 Tabrik et al.)

Published
2021
Full Text
View/download PDF

46. 3D Automated Segmentation of Lower Leg Muscles Using Machine Learning on a Heterogeneous Dataset.

Author

Rohm M, Markmann M, Forsting J, Rehmann R, Froeling M, and Schlaffke L

Abstract

Quantitative MRI combines non-invasive imaging techniques to reveal alterations in muscle pathophysiology. Creating muscle-specific labels manually is time consuming and requires an experienced examiner. Semi-automatic and fully automatic methods reduce segmentation time significantly. Current machine learning solutions are commonly trained on data from healthy subjects using homogeneous databases with the same image contrast. While yielding high Dice scores (DS), those solutions are not applicable to different image contrasts and acquisitions. Therefore, the aim of our study was to evaluate the feasibility of automatic segmentation of a heterogeneous database. To create a heterogeneous dataset, we pooled lower leg muscle images from different studies with different contrasts and fields-of-view, containing healthy controls and diagnosed patients with various neuromuscular diseases. A second homogenous database with uniform contrasts was created as a subset of the first database. We trained three 3D-convolutional neuronal networks (CNN) on those databases to test performance as compared to manual segmentation. All networks, training on heterogeneous data, were able to predict seven muscles with a minimum average DS of 0.75. U-Net performed best when trained on the heterogeneous dataset (DS: 0.80 ± 0.10, AHD: 0.39 ± 0.35). ResNet and DenseNet yielded higher DS, when trained on a heterogeneous dataset (both DS: 0.86), as compared to a homogeneous dataset (ResNet DS: 0.83, DenseNet DS: 0.76). In conclusion, a CNN trained on a heterogeneous dataset achieves more accurate labels for predicting a heterogeneous database of lower leg muscles than a CNN trained on a homogenous dataset. We propose that a large heterogeneous database is needed, to make automated segmentation feasible for different kinds of image acquisitions.

Published
2021
Full Text
View/download PDF

47. High Inter-Rater Reliability of Manual Segmentation and Volume-Based Tractography in Healthy and Dystrophic Human Calf Muscle.

Author

Forsting J, Rohm M, Froeling M, Güttsches AK, Vorgerd M, Schlaffke L, and Rehmann R

Abstract

Background: Muscle diffusion tensor imaging (mDTI) is a promising surrogate biomarker in the evaluation of muscular injuries and neuromuscular diseases. Since mDTI metrics are known to vary between different muscles, separation of different muscles is essential to achieve muscle-specific diffusion parameters. The commonly used technique to assess DTI metrics is parameter maps based on manual segmentation (MSB). Other techniques comprise tract-based approaches, which can be performed in a previously defined volume. This so-called volume-based tractography (VBT) may offer a more robust assessment of diffusion metrics and additional information about muscle architecture through tract properties. The purpose of this study was to assess DTI metrics of human calf muscles calculated with two segmentation techniques-MSB and VBT-regarding their inter-rater reliability in healthy and dystrophic calf muscles., Methods: 20 healthy controls and 18 individuals with different neuromuscular diseases underwent an MRI examination in a 3T scanner using a 16-channel Torso XL coil. DTI metrics were assessed in seven calf muscles using MSB and VBT. Coefficients of variation (CV) were calculated for both techniques. MSB and VBT were performed by two independent raters to assess inter-rater reliability by ICC analysis and Bland-Altman plots. Next to analysis of DTI metrics, the same assessments were also performed for tract properties extracted with VBT., Results: For both techniques, low CV were found for healthy controls (≤13%) and neuromuscular diseases (≤17%). Significant differences between methods were found for all diffusion metrics except for λ 1 . High inter-rater reliability was found for both MSB and VBT (ICC ≥ 0.972). Assessment of tract properties revealed high inter-rater reliability (ICC ≥ 0.974)., Conclusions: Both segmentation techniques can be used in the evaluation of DTI metrics in healthy controls and different NMD with low rater dependency and high precision but differ significantly from each other. Our findings underline that the same segmentation protocol must be used to ensure comparability of mDTI data.

Published
2021
Full Text
View/download PDF

48. Evaluation of interrater reliability of different muscle segmentation techniques in diffusion tensor imaging.

Author

Forsting J, Rehmann R, Rohm M, Froeling M, and Schlaffke L

Subjects
Adult, Female, Humans, Male, Middle Aged, Reproducibility of Results, Young Adult, Diffusion Tensor Imaging methods, Hamstring Muscles diagnostic imaging, Observer Variation, Quadriceps Muscle diagnostic imaging
Abstract

Introduction: Muscle diffusion tensor imaging (mDTI) is a quantitative MRI technique that can provide information about muscular microstructure and integrity. Ultrasound and DTI studies have shown intramuscular differences, and therefore separation of different muscles for analysis is essential. The commonly used methods to assess DTI metrics in muscles are manual segmentation and tract-based analysis. Recently methods such as volume-based tractography have been applied to optimize muscle architecture estimation, but can also be used to assess DTI metrics., Purpose: To evaluate diffusion metrics obtained using three different methods-volume-based tractography, manual segmentation-based analysis and tract-based analysis-with respect to their interrater reliability and their ability to detect intramuscular variance., Materials and Methods: 30 volunteers underwent an MRI examination in a 3 T scanner using a 16-channel Torso XL coil. Diffusion-weighted images were acquired to obtain DTI metrics. These metrics were evaluated in six thigh muscles using volume-based tractography, manual segmentation and standard tractography. All three methods were performed by two independent raters to assess interrater reliability by ICC analysis and Bland-Altman plots. Ability to assess intramuscular variance was compared using an ANOVA with muscle as a between-subjects factor., Results: Interrater reliability for all methods was found to be excellent. The highest interrater reliability was found for volume-based tractography (ICC ≥ 0.967). Significant differences for the factor muscle in all examined diffusion parameters were shown in muscles using all methods (main effect p < 0.001)., Conclusions: Diffusion data can be assessed by volume tractography, standard tractography and manual segmentation with high interrater reliability. Each method produces different results for the investigated DTI parameters. Volume-based tractography was superior to conventional manual segmentation and tractography regarding interrater reliability and detection of intramuscular variance, while tract-based analysis showed the lowest coefficients of variation., (© 2020 The Authors. NMR in Biomedicine published by John Wiley & Sons Ltd.)

Published
2021
Full Text
View/download PDF

49. Quantitative Muscle-MRI Correlates with Histopathology in Skeletal Muscle Biopsies.

Author

Güttsches AK, Rehmann R, Schreiner A, Rohm M, Forsting J, Froeling M, Tegenthoff M, Vorgerd M, and Schlaffke L

Subjects
Adipose Tissue diagnostic imaging, Adipose Tissue pathology, Adult, Aged, Biopsy, Female, Humans, Male, Middle Aged, Muscle, Skeletal pathology, Muscular Diseases diagnostic imaging, Proof of Concept Study, Magnetic Resonance Imaging methods, Muscle, Skeletal diagnostic imaging
Abstract

Background: Skeletal muscle biopsy is one of the gold standards in the diagnostic workup of muscle disorders. By histopathologic analysis, characteristic features like inflammatory cellular infiltrations, fat and collagen replacement of muscle tissue or structural defects of the myofibers can be detected. In the past years, novel quantitative MRI (qMRI) techniques have been developed to quantify tissue parameters, thus providing a non-invasive diagnostic tool in several myopathies., Objective: This proof-of-principle study was performed to validate the qMRI-techniques to skeletal muscle biopsy results., Methods: Ten patients who underwent skeletal muscle biopsy for diagnostic purposes were examined by qMRI. Fat fraction, water T2-time and diffusion parameters were measured in the muscle from which the biopsy was taken. The proportion of fat tissue, the severity of degenerative and inflammatory parameters and the amount of type 1- and type 2- muscle fibers were determined in all biopsy samples. The qMRI-data were then correlated to the histopathological findings., Results: The amount of fat tissue in skeletal muscle biopsy correlated significantly with the fat fraction derived from the Dixon sequence. The water T2-time, a parameter for tissue edema, correlated with the amount of vacuolar changes of myofibers and endomysial macrophages in the histopathologic analysis. No significant correlations were found for diffusion parameters., Conclusion: In this proof-of-principle study, qMRI techniques were related to characteristic histopathologic features in neuromuscular disorders. The study provides the basis for further development of qMRI methods in the follow-up of patients with neuromuscular disorders, especially in the context of emerging treatment strategies.

Published
2021
Full Text
View/download PDF

50. Transcutaneous spinal direct current stimulation shows no effect on paired stimulation suppression of the somatosensory cortex.

Author

Bettmann JH, Meyer-Frießem CH, Schweizer LM, Schlaffke L, Zahn PK, Tegenthoff M, and Höffken O

Subjects
Evoked Potentials, Somatosensory physiology, Humans, Male, Reaction Time physiology, Young Adult, Somatosensory Cortex physiology, Spine physiology, Transcutaneous Electric Nerve Stimulation
Abstract

Transcutaneous spinal direct current stimulation (tsDCS) is a safe and convenient method of neuromodulation. It has been proven to alter sensory processing at cervicomedullary level by amplitude changes of the P30 response of tibial nerve somatosensory evoked potentials (TN SEPs). With knowledge that tsDCS affects cortical circuits, we hypothesized that tsDCS may also affect intracortical excitability of the somatosensory cortex assessed by paired stimulation suppression (PSS). Fourteen healthy men were included in this prospective, single-blinded, placebo-controlled crossover study. Single (SS) and paired stimulation (PS) TN SEPs were recorded over the scalp before, immediately as well as 30 and 60 min after applying 15 min of tsDCS over the twelfth thoracic vertebra. Each volunteer underwent three independent and randomized sessions of either cathodal, anodal or sham stimulation. tsDCS showed no effect on peak-to-peak amplitudes or latencies of cortical P40-N50 response after SS. Furthermore, tsDCS failed to induce significant changes on amplitude ratios of PSS, thus showing no impact on intracortical excitability of the somatosensory cortex in healthy subjects. Further research is required to reveal the different mechanisms and to strengthen clinical use of this promising technique.

Published
2020
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results