Your search keyword '"N Kremers"' showing total 9 results

1. Quantifizierung der zervikalen Spinalkanalstenose mittels vollautomatischem 3D-MRT-Segmentierungsalgorithmus

Author

M Hohenhaus, J H Klingler, C Scholz, R Watzlawick, U Hubbe, J Beck, M Reisert, N Kremers, and K Wolf

Published

2023

2. Quantification of cervical spinal stenosis by automated 3D MRI segmentation of spinal cord and cerebrospinal fluid space.

Author

Hohenhaus M, Klingler JH, Scholz C, Watzlawick R, Hubbe U, Beck J, Reisert M, Würtemberger U, Kremers N, and Wolf K

Subjects

Humans, Female, Male, Middle Aged, Aged, Prospective Studies, Spinal Cord diagnostic imaging, Spinal Cord pathology, Adult, Severity of Illness Index, Aged, 80 and over, Cerebrospinal Fluid diagnostic imaging, Spinal Stenosis diagnostic imaging, Magnetic Resonance Imaging methods, Imaging, Three-Dimensional methods, Cervical Vertebrae diagnostic imaging

Abstract

Design: Prospective diagnostic study., Objectives: Anatomical evaluation and graduation of the severity of spinal stenosis is essential in degenerative cervical spine disease. In clinical practice, this is subjectively categorized on cervical MRI lacking an objective and reliable classification. We implemented a fully-automated quantification of spinal canal compromise through 3D T2-weighted MRI segmentation., Setting: Medical Center - University of Freiburg, Germany., Methods: Evaluation of 202 participants receiving 3D T2-weighted MRI of the cervical spine. Segments C2/3 to C6/7 were analyzed for spinal cord and cerebrospinal fluid space volume through a fully-automated segmentation based on a trained deep convolutional neural network. Spinal canal narrowing was characterized by relative values, across sever segments as adapted Maximal Canal Compromise (aMCC), and within the index segment as adapted Spinal Cord Occupation Ratio (aSCOR). Additionally, all segments were subjectively categorized by three observers as "no", "relative" or "absolute" stenosis. Computed scores were applied on the subjective categorization., Results: 798 (79.0%) segments were subjectively categorized as "no" stenosis, 85 (8.4%) as "relative" stenosis, and 127 (12.6%) as "absolute" stenosis. The calculated scores revealed significant differences between each category (p ≤ 0.001). Youden's Index analysis of ROC curves revealed optimal cut-offs to distinguish between "no" and "relative" stenosis for aMCC = 1.18 and aSCOR = 36.9%, and between "relative" and "absolute" stenosis for aMCC = 1.54 and aSCOR = 49.3%., Conclusion: The presented fully-automated segmentation algorithm provides high diagnostic accuracy and objective classification of cervical spinal stenosis. The calculated cut-offs can be used for convenient radiological quantification of the severity of spinal canal compromise in clinical routine., (© 2024. The Author(s).)

Published

2024

3. Minimally invasive resection of a prominent transverse process in neurogenic thoracic outlet syndrome: new application for a primarily spinal approach. Illustrative case.

Author

Hohenhaus M, Lambeck J, Kremers N, Beck J, Scholz C, and Hubbe U

Abstract

Background: The optimal surgical approach to treat neurogenic thoracic outlet syndrome (nTOS) depends on the individual patient's anatomy as well as the surgeon's experience. The authors present a minimally invasive posterior approach for the resection of a prominent transverse process to reduce local muscular trauma., Observations: A 19-year-old female presented with painful sensations in the right arm and severe fine-motor skill dysfunction in the right hand, each of which had been present for several years. Further examination confirmed affected C8 and T1 areas, and imaging showed an elongated C7 transverse process displacing the lower trunk of the brachial plexus. Decompression of the plexus structures by resection of the C7 transverse process was indicated, owing to persistent neurological effects. Surgery was performed using a minimally invasive posterior approach in which the nuchal soft tissue was bluntly dissected by dilatators and resection of the transverse process was done microscopically through a tubular retractor. The postoperative course showed a sufficient reduction of pain and paresthesia., Lessons: The authors describe a minimally invasive posterior approach for the treatment of nTOS with the aim of providing indirect relief of strain on brachial plexus structures. The advantages of this technique include a small skin incision and minor soft tissue damage.

Published

2024

4. Automated signal intensity analysis of the spinal cord for detection of degenerative cervical myelopathy - a matched-pair MRI study.

Author

Hohenhaus M, Klingler JH, Scholz C, Volz F, Hubbe U, Beck J, Reisert M, Würtemberger U, Kremers N, and Wolf K

Subjects

Humans, Prospective Studies, Cervical Vertebrae diagnostic imaging, Spinal Cord diagnostic imaging, Magnetic Resonance Imaging methods, Spinal Cord Diseases diagnostic imaging, Spinal Cord Compression

Abstract

Purpose: Detection of T2 hyperintensities in suspected degenerative cervical myelopathy (DCM) is done subjectively in clinical practice. To gain objective quantification for dedicated treatment, signal intensity analysis of the spinal cord is purposeful. We investigated fully automated quantification of the T2 signal intensity (T2-SI) of the spinal cord using a high-resolution MRI segmentation., Methods: Matched-pair analysis of prospective acquired cervical 3D T2-weighted sequences of 114 symptomatic patients and 88 healthy volunteers. Cervical spinal cord was segmented automatically through a trained convolutional neuronal network with subsequent T2-SI registration slice-by-slice. Received T2-SI curves were subdivided for each cervical level from C2 to C7. Additionally, all levels were subjectively classified concerning a present T2 hyperintensity. For T2-positive levels, corresponding T2-SI curves were compared to curves of age-matched volunteers at the identical level., Results: Forty-nine patients showed subjective T2 hyperintensities at any level. The corresponding T2-SI curves showed higher signal variabilities reflected by standard deviation (18.51 vs. 7.47 a.u.; p < 0.001) and range (56.09 vs. 24.34 a.u.; p < 0.001) compared to matched controls. Percentage of the range from the mean absolute T2-SI per cervical level, introduced as "T2 myelopathy index" (T2-MI), was correspondingly significantly higher in T2-positive segments (23.99% vs. 10.85%; p < 0.001). ROC analysis indicated excellent differentiation for all three parameters (AUC 0.865-0.920)., Conclusion: This fully automated T2-SI quantification of the spinal cord revealed significantly increased signal variability for DCM patients compared to healthy volunteers. This innovative procedure and the applied parameters showed sufficient diagnostic accuracy, potentially diagnosing radiological DCM more objective to optimize treatment recommendation., Trial Registration: DRKS00012962 (17.01.2018) and DRKS00017351 (28.05.2019)., (© 2023. The Author(s).)

Published

2023

5. CSF Flow and Spinal Cord Motion in Patients With Spontaneous Intracranial Hypotension: A Phase Contrast MRI Study.

Author

Wolf K, Luetzen N, Mast H, Kremers N, Reisert M, Beltrán S, Fung C, Beck J, and Urbach H

Subjects

Female, Humans, Male, Cervical Vertebrae, Cohort Studies, Magnetic Resonance Imaging, Prospective Studies, Spinal Cord diagnostic imaging, Intracranial Hypotension diagnostic imaging

Abstract

Background and Objectives: Spontaneous intracranial hypotension (SIH) is characterized by loss of CSF volume. We hypothesize that in this situation of low volume, a larger CSF flow and spinal cord motion at the upper spine can be measured by noninvasive phase contrast MRI., Methods: A prospective, age-, sex-, and body mass index (BMI)-matched controlled cohort study on patients with SIH presenting with spinal longitudinal extradural fluid collection (SLEC) was conducted from October 2021 to February 2022. Cardiac-gated 2D phase contrast MRI sequences were acquired at segment C2/C3, and C5/C6 for CSF flow, and spinal cord motion analysis. Data processing was fully automated. CSF flow and spinal cord motion were analyzed by peak-to-peak amplitude and total displacement per segment and heartbeat, respectively. Clinical data included age, height, BMI, duration of symptoms, Bern score according to Dobrocky et al., and type of the spinal CSF leak according to Schievink et al. Groups were compared via the Mann-Whitney U test; multiple linear regression analysis was performed to address possible relations., Results: Twenty patients with SIH and 40 healthy controls were analyzed; each group consisted of 70% women. Eleven patients with SIH presented with type 1 leak, 8 with type 2, and 1 was indeterminate. CSF flow per heartbeat was increased at C2/C3 (peak-to-peak amplitude 65.68 ± 18.3 vs 42.50 ± 9.8 mm/s, total displacement 14.32 ± 3.5 vs 9.75 ± 2.7 mm, p < 0.001, respectively). Craniocaudal spinal cord motion per heartbeat was larger at segment C2/C3 (peak-to-peak amplitude 7.30 ± 2.4 vs 5.82 ± 2.0 mm/s, total displacement 1.01 ± 0.4 vs 0.74 ± 0.4 mm, p = 0.006, respectively) and at segment C5/C6 (total displacement 1.41 ± 0.7 vs 0.97 ± 0.4 mm, p = 0.021)., Discussion: SLEC-positive patients with SIH show higher CSF flow and higher spinal cord motion at the upper cervical spine. This increased craniocaudal motion of the spinal cord per heartbeat might produce increased mechanical strain on neural tissue and adherent structures, which may be a mechanism leading to cranial nerve dysfunction, neck pain, and stiffness in SIH. Noninvasive phase contrast MRI of CSF flow and spinal cord motion is a promising diagnostic tool in SIH., Trial Registration Information: German Clinical Trials Register, identification number: DRKS00017351., Classification of Evidence: This study provides Class III evidence that noninvasive phase contrast MRI of the upper spine identifies differences in CSF flow and spinal cord motion in patients with SIH compared with healthy controls., (© 2022 American Academy of Neurology.)

Published

2023

6. Diffusion tensor imaging in unclear intramedullary tumor-suspected lesions allows separating tumors from inflammation.

Author

Hohenhaus M, Merz Y, Klingler JH, Scholz C, Hubbe U, Beck J, Wolf K, Egger K, Reisert M, and Kremers N

Subjects

Diffusion Tensor Imaging methods, Humans, Inflammation diagnostic imaging, Inflammation pathology, Prospective Studies, Spinal Cord pathology, Ependymoma diagnostic imaging, Ependymoma pathology, Spinal Cord Diseases, Spinal Cord Injuries pathology, Spinal Cord Neoplasms diagnostic imaging, Spinal Cord Neoplasms pathology

Abstract

Design: Prospective diagnostic study., Objectives: Primary imaging-based diagnosis of spinal cord tumor-suspected lesions is often challenging. The identification of the definite entity is crucial for dedicated treatment and therefore reduction of morbidity. The aim of this trial was to investigate specific quantitative signal patterns to differentiate unclear intramedullary tumor-suspected lesions based on diffusion tensor imaging (DTI)., Setting: Medical Center - University of Freiburg, Germany., Methods: Forty patients with an unclear tumor-suspected lesion of the spinal cord prospectively underwent DTI. Primary diagnosis was determined by histological or clinical work-up or remained indeterminate with follow-up. DTI metrics (FA/ADC) were evaluated at the central lesion area, lesion margin, edema, and normal spinal cord and compared between different diagnostic groups (ependymomas, other spinal cord tumors, inflammations)., Results: Mean DTI metrics for all spinal cord tumors (n = 18) showed significantly reduced FA and increased ADC values compared to inflammatory lesions (n = 8) at the lesion margin (p < 0.001, p = 0.001) and reduced FA at the central lesion area (p < 0.001). There were no significant differences comparing the neoplastic subgroups of ependymomas (n = 10) and other spinal cord tumors (n = 8), but remaining differences for both compared to the inflammation subgroup. We found significant higher ADC (p = 0.040) and a trend to decreased FA (p = 0.081) for ependymomas compared to inflammations at the edema., Conclusion: Even if distinct differentiation of ependymomas from other spinal cord neoplasms was not possible based on quantitative DTI metrics, FA and ADC were feasible to separate inflammatory lesions. This may avoid unnecessary surgery in patients with unclear intramedullary tumor-suspected lesions., (© 2021. The Author(s).)

Published

2022

7. The "hyperdense basivertebral vein" sign: another marker of a CSF-venous fistula.

Author

Lützen N, Kremers N, Fung C, Beck J, and Urbach H

Subjects

Brachiocephalic Veins, Cerebrospinal Fluid Leak complications, Humans, Myelography, Fistula complications, Intracranial Hypotension

Abstract

CSF-venous fistulas - initially described in 2014 - are a significant cause of spontaneous intracranial hypotension. Dynamic lateral decubitus digital subtraction and/or CT myelography typically show a hyperdense paraspinal vein. In case of a central drainage toward the internal vertebral venous plexus, it is the "hyperdense basivertebral vein" which should be searched for carefully., (© 2022. The Author(s).)

Published

2022

8. MRI of focal cortical dysplasia.

Author

Urbach H, Kellner E, Kremers N, Blümcke I, and Demerath T

Subjects

Humans, Magnetic Resonance Imaging, Epilepsy, Malformations of Cortical Development diagnostic imaging, Malformations of Cortical Development, Group I

Abstract

Focal cortical dysplasia (FCD) are histopathologically categorized in ILAE type I to III. Mild malformations of cortical development (mMCD) including those with oligodendroglial hyperplasia (MOGHE) are to be integrated into this classification yet. Only FCD type II have distinctive MRI and molecular genetics alterations so far. Subtle FCD including FCD type II located in the depth of a sulcus are often overlooked requiring the use of dedicated sequences (MP2RAGE, FLAWS, EDGE) and/or voxel (VBM)- or surface-based (SBM) postprocessing. The added value of 7 Tesla MRI has to be proven yet., (© 2021. The Author(s).)

Published

2022

9. Measuring the Head Circumference on MRI in Children: an Interrater Study.

Author

Rau A, Demerath T, Kremers N, Eckenweiler M, von der Warth R, and Urbach H

Subjects

Cephalometry, Child, Child, Preschool, Head diagnostic imaging, Humans, Infant, Male, Reproducibility of Results, Retrospective Studies, Magnetic Resonance Imaging, Microcephaly

Abstract

Purpose: The head circumference is typically used as a surrogate parameter for the development of the central nervous system and intracranial structures and is an important clinical parameter in neuropediatrics. As magnetic resonance images (MRI) can be freely zoomed, visual analysis of the head size often relies on impressions, such as the craniofacial ratio or a simplified gyral pattern. Aim of this study was to validate an MRI-based method to measure the head circumference., Methods: Head circumferences of 85 children (41 microcephalies, 22 macrocephalies and 22 normal controls; 47 male, mean age 3.22 ± 2.45 years, range 0.19-10.42 years) were retrospectively measured using sagittal 3D-T1w (MPRAGE) data sets. Three readers independently placed an ovoid region of interest in an axial plane starting from the supraorbital bulge and covering the largest supra-auricular head circumference. Clinical measurements of the head circumference taken within an acceptable period served for comparative purposes. Reliability was assessed by calculating the total error of measurement (TEM) and the intraclass correlation coefficient (ICC)., Results: A close correlation was found between MRI-based and clinical measurements. The interrater reliability was excellent (ICC 0.985, 95% confidence interval 0.952-0.993). Absolute TEM ranged from 0.47-0.75, resulting in relative TEM ranging from 1.0-1.6%. Thus, TEMs were classified as acceptable. The mean accuracy of MRI-based measurements was high at 0.94., Conclusion: The head circumference can be reliably determined with a simple measurement on 3D sequences using multiplanar reformations. This approach may help to diagnose microcephaly and macrocephaly, especially when the head circumference is not reported by the referring physician., (© 2021. The Author(s).)

Published

2021