Your search keyword '"Neuhaus, Dominique"' showing total 2 results

1. The Lateral Corticospinal Tract Sign: An MRI Marker for Amyotrophic Lateral Sclerosis.

Author

Wendebourg MJ, Kesenheimer E, Sander L, Weigel M, Weidensteiner C, Haas T, Madoerin P, Diebold M, Deigendesch N, Neuhaus D, Naumann N, Neuwirth C, Braun N, Weber M, Granziera C, Scheurer E, Lenz C, Schweikert K, Sinnreich M, Lieb J, Bieri O, and Schlaeger R

Subjects

Humans, Male, Female, Middle Aged, Aged, Prospective Studies, Adult, Sensitivity and Specificity, Amyotrophic Lateral Sclerosis diagnostic imaging, Pyramidal Tracts diagnostic imaging, Pyramidal Tracts pathology, Magnetic Resonance Imaging methods

Abstract

Background Radially sampled averaged magnetization inversion-recovery acquisition (rAMIRA) imaging shows hyperintensity in the lateral corticospinal tract (CST) in patients with motor neuron diseases. Purpose To systematically determine the accuracy of the lateral corticospinal tract sign for detecting patients with amyotrophic lateral sclerosis (ALS) at rAMIRA MRI. Materials and Methods This study included prospectively acquired data from participants in ALS and other motor neuron disease imaging studies at the University Hospital Basel, Switzerland. All participants underwent 3-T axial two-dimensional rAMIRA imaging at four cervical intervertebral disk levels. The lateral CST sign was defined as spinal cord white matter hyperintensity dorsolateral to the anterior horns, with higher signal intensity than in the dorsal columns on axial rAMIRA images. Marker accuracy was assessed in a study data set and in an independent validation data set. Postmortem rAMIRA imaging and histopathologic analysis were performed in one participant who died during the study. Results Participants with ALS (study data set: 38 participants [mean age, 61 years; IQR, 15 years], 22 male participants; validation data set: 10 participants [mean age, 61 years; IQR, 21 years], seven male participants), post-polio syndrome (study data set: 25 participants [mean age, 68 years; IQR, 8 years], 12 male participants), spinal muscular atrophy (study data set: 10 participants [mean age, 43 years; IQR, 14 years], eight male participants; validation data set: five participants [mean age, 38 years; IQR, 19 years], two male participants), and healthy control participants (study data set: 60 participants [mean age, 57 years; IQR, 20 years], 36 male participants; validation data set: 10 participants [mean age, 44 years; IQR, 17 years], seven male participants) were included. The sensitivity and specificity of rAMIRA for ALS were 60% (23 of 38) and 97% (91 of 94) in the study data set and 100% (10 of 10) and 93% (14 of 15) in the validation data set, respectively. Histopathologic analysis showed distinct loss of myelinated axons in the localization of the hyperintensities observed at rAMIRA imaging performed in situ and after organ extraction. Conclusion The recently defined marker at rAMIRA MRI may be a promising tool for assessing upper motor neuron degeneration in the lateral CST in patients with ALS. Clinical trials registration no. NCT03561623, NCT05764434, NCT06137612 © RSNA, 2024 Supplemental material is available for this article.

Published

2024

2. Comparative analysis of in situ and ex situ postmortem brain MRI: Evaluating volumetry, DTI, and relaxometry.

Author

Neuhaus, Dominique, Rost, Thomas, Haas, Tanja, Wendebourg, Maria Janina, Schulze, Katja, Schlaeger, Regina, Scheurer, Eva, and Lenz, Claudia

Subjects

POSTMORTEM imaging, DIFFUSION tensor imaging, AMYOTROPHIC lateral sclerosis, GRAY matter (Nerve tissue), WHITE matter (Nerve tissue)

Abstract

Purpose: To compare postmortem in situ with ex situ MRI parameters, including volumetry, diffusion tensor imaging (DTI), and relaxometry for assessing methodology‐induced alterations, which is a crucial prerequisite when performing MRI biomarker validation. Methods: MRI whole‐brain scans of five deceased patients with amyotrophic lateral sclerosis were performed at 3 T. In situ scans were conducted within 32 h after death (SD 18 h), and ex situ scans after brain extraction and 3 months of formalin fixation. The imaging protocol included MP2RAGE, DTI, and multi‐contrast spin‐echo and multi‐echo gradient‐echo sequences. Volumetry, fractional anisotropy, mean diffusivity, T1, T2, and T2*$$ {T}_2^{\ast } $$ have been assessed for specific brain regions. Results: When comparing ex situ to in situ values, the following results were obtained. Deep gray matter as well as the thalamus and the hippocampus showed a reduced volume. Fractional anisotropy was reduced in the cortex and the whole brain. Mean diffusivity was decreased in white matter and deep gray matter. T1 and T2 were reduced in all investigated structures, whereas T2*$$ {T}_2^{\ast } $$ was increased in the cortex. Conclusion: The results of this study show that the volumes and MRI parameters of several brain regions are potentially affected by tissue extraction and subsequent formalin fixation, suggesting that methodological alterations are present in ex situ MRI. To avoid overlap of indistinguishable methodological and disease‐related changes, we recommend performing in situ postmortem MRI as an additional intermediate step for in vivo MRI biomarker validation. [ABSTRACT FROM AUTHOR]

Published

2025