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13 results on '"Vik-Mo, E."'

5. Sec6 is localized to the plasma membrane of mature synaptic terminals and is transported with secretogranin ii-containing vesicles

Author

Vik-Mo, E. O., Oltedal, L., Hoivik, E. A., Kleivdal, H., Eidet, J., and Davanger, S.

Subjects
*EXOCYTOSIS, *NEURONS, *NERVOUS system, *LABORATORY rats
Abstract

The sec6/8 (exocyst) complex is implicated in targeting of vesicles for regulated exocytosis in various cell types and is believed to play a role in synaptogenesis and brain development. We show that the subunits sec6 and sec8 are present at significant levels in neurons of adult rat brain, and that immunoreactivity for the two subunits has a differential subcellular distribution. We show that in developing as well as mature neurons sec6 is concentrated at the inside of the presynaptic plasma membrane, while sec8 immunoreactivity shows a diffuse cytoplasmic distribution. Among established, strongly synaptophysin-positive neuronal boutons, sec6 displays highly differential concentrations, indicating a role for the complex independent of the ongoing synaptic-vesicle release activity. Sec6 is transported along neurites on secretogranin II-positive vesicles, while sec6-negative/secretogranin II-positive vesicles stay in the cell body. In PC12 cells, sec6-positive vesicles accumulate at the plasma membrane at sites of cell–cell contact. Neuronal induction of the PC12 cells with nerve growth factor shows that sec8 is not freely soluble, but may probably interact with cytoskeletal elements. The complex may facilitate the targeting of membrane material to presynaptic sites and may possibly shuttle vesicles from the cytoskeletal transport machinery to presynaptic membrane sites. Thus, we suggest that the exocyst complex serves to modulate exocytotic activity, by targeting membrane material to its presynaptic destination. [Copyright &y& Elsevier]

Published
2003
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6. [Glioblastoma in adults].

Author

Schipmann-Miletic S, Sivakanesan S, Rath DS, Brandal P, Vik-Mo E, Bjørås M, Solheim O, Ingebrigtsen T, Sund F, Bjerkvig R, Miletic H, Johannessen TA, and Sundstrøm T

Subjects
Humans, Adult, Prognosis, Glioblastoma diagnosis, Glioblastoma therapy, Brain Neoplasms diagnostic imaging, Brain Neoplasms therapy
Abstract

Glioblastoma is the most common form of primary brain cancer in adults, and the disease has a serious prognosis. Although great progress has been made in molecular characteristics, no major breakthroughs in treatment have been achieved for many years. In this article we present a clinical review of current diagnostics and treatment, as well as the challenges and opportunities inherent in developing improved and more personalised treatment.

Published
2023
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7. Noise dependency in vascular parameters from combined gradient-echo and spin-echo DSC MRI.

Author

Digernes I, Nilsen LB, Grøvik E, Bjørnerud A, Løvland G, Vik-Mo E, Meling TR, Saxhaug C, Helland Å, Jacobsen KD, Geier O, and Emblem KE

Subjects
Adult, Brain Neoplasms blood supply, Brain Neoplasms diagnostic imaging, Female, Humans, Male, Middle Aged, Blood Vessels diagnostic imaging, Magnetic Resonance Imaging methods, Signal-To-Noise Ratio
Abstract

Dynamic susceptibility contrast (DSC) imaging is a widely used technique for assessment of cerebral blood volume (CBV). With combined gradient-echo and spin-echo DSC techniques, measures of the underlying vessel size and vessel architecture can be obtained from the vessel size index (VSI) and vortex area, respectively. However, how noise, and specifically the contrast-to-noise ratio (CNR), affect the estimations of these parameters has largely been overlooked. In order to address this issue, we have performed simulations to generate DSC signals with varying levels of CNR, defined by the peak of relaxation rate curve divided by the standard deviation of the baseline. Moreover, DSC data from 59 brain cancer patients were acquired at two different 3 T-scanners (N = 29 and N = 30, respectively), where CNR and relative parameter maps were obtained. Our simulations showed that the measured parameters were affected by CNR in different ways, where low CNR led to overestimations of CBV and underestimations of VSI and vortex area. In addition, a higher noise-sensitivity was found in vortex area than in CBV and VSI. Results from clinical data were consistent with simulations, and indicated that CNR < 4 gives highly unreliable measurements. Moreover, we have shown that the distribution of values in the tumour regions could change considerably when voxels with CNR below a given cut off are excluded when generating the relative parameter maps. The widespread use of CBV and attractive potential of VSI and vortex area, makes the noise-sensitivity of these parameters found in our study relevant for further use and development of the DSC imaging technique. Our results suggest that the CNR has considerable impact on the measured parameters, with the potential to affect the clinical interpretation of DSC-MRI, and should therefore be taken into account in the clinical decision-making process.

Published
2020
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8. The impact of EPI-based distortion correction of dynamic susceptibility contrast MRI on cerebral blood volume estimation in patients with glioblastoma.

Author

Hovden IT, Geier OM, Digernes I, Fuster-Garcia E, Løvland G, Vik-Mo E, Meling TR, and Emblem KE

Subjects
Brain, Cerebral Blood Volume, Contrast Media, Echo-Planar Imaging, Humans, Magnetic Resonance Imaging, Brain Neoplasms diagnostic imaging, Glioblastoma diagnostic imaging
Abstract

Purpose: Relative cerebral blood volume (rCBV) from dynamic susceptibility contrast (DSC)-MRI is a valuable biomarker in patients with glioblastoma for assessing treatment response and predicting overall survival. DSC-MRI based on echo planar images (EPI) may possess severe geometric distortions from magnetic field inhomogeneities up to the order of centimeters. The aim of this study is to assess how much two readily available EPI-based geometric distortion correction methods, FSL TOPUP and EPIC, affect rCBV values from DSC-MRI in patients with confirmed glioblastoma., Method: We used a combined single-shot 2D gradient-echo (T2*), spin-echo (T2) EPI sequence to estimate both T2* and T2-weighted rCBV from the same contrast agent injection. Effects of distortion correction on the positive phase-encoded T2- and T2*-images were assessed in healthy anatomical brain regions in terms of Wilcoxon signed rank tests on median rCBV change and on Dice coefficients, as well as in tumor lesions in terms of Wilcoxon signed rank tests on median rCBV change., Results: Our results show that following distortion correction, both gradient-echo and spin-echo rCBV increased in cortical areas of the frontal, temporal and occipital lobe, including the posterior orbital gyri in the frontal lobe and middle frontal gyri (p < 0.0008). Similar, improved Dice coefficients were observed for gradient-echo EPI in temporal, occipital and frontal lobe. Only spin-echo rCBV in enhancing lesion increased with correction (p = 0.0002)., Conclusion: Our study sheds light on the importance of performing geometric distortion correction on EPI-based MRI data before assessing functional information such as rCBV values. Our findings may indicate that uncorrected rCBV values can be underestimated from positive phase-encoding EPI and that geometric distortion correction is warranted when comparing EPI-based data to conventional MRI., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2020
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9. A theoretical framework for determining cerebral vascular function and heterogeneity from dynamic susceptibility contrast MRI.

Author

Digernes I, Bjørnerud A, Vatnehol SAS, Løvland G, Courivaud F, Vik-Mo E, Meling TR, and Emblem KE

Subjects
Brain metabolism, Capillaries diagnostic imaging, Contrast Media, Humans, Monte Carlo Method, Oxygen metabolism, Brain blood supply, Brain diagnostic imaging, Cerebrovascular Circulation physiology, Magnetic Resonance Imaging methods, Models, Biological
Abstract

Mapping the complex heterogeneity of vascular tissue in the brain is important for understanding cerebrovascular disease. In this translational study, we build on previous work using vessel architectural imaging (VAI) and present a theoretical framework for determining cerebral vascular function and heterogeneity from dynamic susceptibility contrast magnetic resonance imaging (MRI). Our tissue model covers realistic structural architectures for vessel branching and orientations, as well as a range of hemodynamic scenarios for blood flow, capillary transit times and oxygenation. In a typical image voxel, our findings show that the apparent MRI relaxation rates are independent of the mean vessel orientation and that the vortex area, a VAI-based parameter, is determined by the relative oxygen saturation level and the vessel branching of the tissue. Finally, in both simulated and patient data, we show that the relative distributions of the vortex area parameter as a function of capillary transit times show unique characteristics in normal-appearing white and gray matter tissue, whereas tumour-voxels in comparison display a heterogeneous distribution. Collectively, our study presents a comprehensive framework that may serve as a roadmap for in vivo and per-voxel determination of vascular status and heterogeneity in cerebral tissue.

Published
2017
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10. Massive parallel sequencing provides new perspectives on bacterial brain abscesses.

Author

Kommedal Ø, Wilhelmsen MT, Skrede S, Meisal R, Jakovljev A, Gaustad P, Hermansen NO, Vik-Mo E, Solheim O, Ambur OH, Sæbø Ø, Høstmælingen CT, and Helland C

Subjects
Bacteria genetics, Coinfection diagnosis, Coinfection microbiology, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Humans, Prospective Studies, RNA, Ribosomal, 16S genetics, Bacteria classification, Bacteria isolation & purification, Bacterial Infections diagnosis, Bacterial Infections microbiology, Brain Abscess diagnosis, Brain Abscess microbiology, High-Throughput Nucleotide Sequencing methods
Abstract

Rapid development within the field of massive parallel sequencing (MPS) is about to bring this technology within reach for diagnostic microbiology laboratories. We wanted to explore its potential for improving diagnosis and understanding of polymicrobial infections, using bacterial brain abscesses as an example. We conducted a prospective nationwide study on bacterial brain abscesses. Fifty-two surgical samples were included over a 2-year period. The samples were categorized as either spontaneous intracerebral, spontaneous subdural, or postoperative. Bacterial 16S rRNA genes were amplified directly from the specimens and sequenced using Ion Torrent technology, with an average of 500,000 reads per sample. The results were compared to those from culture- and Sanger sequencing-based diagnostics. Compared to culture, MPS allowed for triple the number of bacterial identifications. Aggregatibacter aphrophilus, Fusobacterium nucleatum, and Streptococcus intermedius or combinations of them were found in all spontaneous polymicrobial abscesses. F. nucleatum was systematically detected in samples with anaerobic flora. The increased detection rate for Actinomyces spp. and facultative Gram-negative rods further revealed several species associations. We suggest that A. aphrophilus, F. nucleatum, and S. intermedius are key pathogens for the establishment of spontaneous polymicrobial brain abscesses. In addition, F. nucleatum seems to be important for the development of anaerobic flora. MPS can accurately describe polymicrobial specimens when a sufficient number of reads is used to compensate for unequal species concentrations and principles are defined to discard contaminant bacterial DNA in the subsequent data analysis. This will contribute to our understanding of how different types of polymicrobial infections develop., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published
2014
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11. Expansion of multipotent stem cells from the adult human brain.

Author

Murrell W, Palmero E, Bianco J, Stangeland B, Joel M, Paulson L, Thiede B, Grieg Z, Ramsnes I, Skjellegrind HK, Nygård S, Brandal P, Sandberg C, Vik-Mo E, Palmero S, and Langmoen IA

Subjects
Adult, Biomarkers metabolism, Cell Differentiation, Clone Cells cytology, Dopaminergic Neurons cytology, Gene Expression Regulation, Humans, Karyotyping, Middle Aged, Multipotent Stem Cells metabolism, Phenotype, Proteomics, Staining and Labeling, Brain cytology, Cell Culture Techniques methods, Multipotent Stem Cells cytology
Abstract

The discovery of stem cells in the adult human brain has revealed new possible scenarios for treatment of the sick or injured brain. Both clinical use of and preclinical research on human adult neural stem cells have, however, been seriously hampered by the fact that it has been impossible to passage these cells more than a very few times and with little expansion of cell numbers. Having explored a number of alternative culturing conditions we here present an efficient method for the establishment and propagation of human brain stem cells from whatever brain tissue samples we have tried. We describe virtually unlimited expansion of an authentic stem cell phenotype. Pluripotency proteins Sox2 and Oct4 are expressed without artificial induction. For the first time multipotency of adult human brain-derived stem cells is demonstrated beyond tissue boundaries. We characterize these cells in detail in vitro including microarray and proteomic approaches. Whilst clarification of these cells' behavior is ongoing, results so far portend well for the future repair of tissues by transplantation of an adult patient's own-derived stem cells.

Published
2013
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12. Evaluation of intracellular labeling with micron-sized particles of iron oxide (MPIOs) as a general tool for in vitro and in vivo tracking of human stem and progenitor cells.

Author

Boulland JL, Leung DS, Thuen M, Vik-Mo E, Joel M, Perreault MC, Langmoen IA, Haraldseth O, and Glover JC

Subjects
Animals, Cell Differentiation drug effects, Cell Line, Tumor, Cell Movement drug effects, Cell Tracking, Chick Embryo, Chickens, Ferric Compounds pharmacology, Humans, Immunocompromised Host, Magnetic Resonance Imaging, Mesenchymal Stem Cells chemistry, Mesenchymal Stem Cells cytology, Mice, Microscopy, Confocal, Mitosis drug effects, Neural Stem Cells chemistry, Neural Stem Cells cytology, Particle Size, Stem Cells chemistry, Ferric Compounds chemistry, Stem Cells cytology
Abstract

Magnetic resonance imaging (MRI)-based tracking is increasingly attracting attention as a means of better understanding stem cell dynamics in vivo. Intracellular labeling with micrometer-sized particles of iron oxide (MPIOs) provides a practical MRI-based approach due to superior detectability relative to smaller iron oxide particles. However, insufficient information is available about the general utility across cell types and the effects on cell vitality of MPIO labeling of human stem cells. We labeled six human cell types from different sources: mesenchymal stem cells derived from bone marrow (MSCs), mesenchymal stem cells derived from adipose tissue (ASCs), presumptive adult neural stem cells (ad-NSCs), fetal neural progenitor cells (f-NPCs), a glioma cell line (U87), and glioblastoma tumor stem cells (GSCs), with two different sizes of MPIOs (0.9 and 2.84 µm). Labeling and uptake efficiencies were highly variable among cell types. Several parameters of general cell function were tested in vitro. Only minor differences were found between labeled and unlabeled cells with respect to proliferation rate, mitotic duration, random motility, and capacity for differentiation to specific phenotypes. In vivo behavior was tested in chicken embryos and severe combined immunodeficient (SCID) mice. Postmortem histology showed that labeled cells survived and could integrate into various tissues. MRI-based tracking over several weeks in the SCID mice showed that labeled GSCs and f-NPCs injected into the brain exhibited translocations similar to those seen for unlabeled cells and as expected from migratory behavior described in previous studies. The results support MPIO-based cell tracking as a generally useful tool for studies of human stem cell dynamics in vivo.

Published
2012
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13. A comparison of epithelial and neural properties in progenitor cells derived from the adult human ciliary body and brain.

Author

Moe MC, Kolberg RS, Sandberg C, Vik-Mo E, Olstorn H, Varghese M, Langmoen IA, and Nicolaissen B

Subjects
Adolescent, Adult, Adult Stem Cells metabolism, Aged, Animals, Biomarkers metabolism, Cell Communication, Cell Culture Techniques, Cell Proliferation, Cells, Cultured, Cerebral Ventricles metabolism, Cerebral Ventricles ultrastructure, Child, Ciliary Body metabolism, Ciliary Body ultrastructure, Epithelial Cells metabolism, Female, Humans, Intercellular Signaling Peptides and Proteins metabolism, Keratins metabolism, Microscopy, Electron, Microscopy, Electron, Scanning, Middle Aged, Nerve Tissue Proteins metabolism, Rats, Rats, Inbred BN, Stem Cell Niche cytology, Young Adult, Adult Stem Cells cytology, Cerebral Ventricles cytology, Ciliary Body cytology
Abstract

Cells isolated from the ciliary body (CB) of the adult human eye possess properties of retinal stem/progenitor cells and can be propagated as spheres in culture. As these cells are isolated from a non-neural epithelium which has neuroepithelial origin, they may have both epithelial and neural lineages. Since it is the properties of neural progenitor cells that are sought after in a future scenario of autotransplantation, we wanted to directly compare human CB spheres with neurospheres derived from the human subventricular zone (SVZ), which is the best characterized neural stem cell niche in the CNS of adults. The CB epithelium was dissected from donor eyes (n = 8). Biopsies from the ventricular wall were harvested during neurosurgery due to epilepsy (n = 7). CB and SVZ tissue were also isolated from Brown Norwegian rats. Dissociated single cells were cultivated in a sphere-promoting medium and passaged every 10-30 days. Fixed spheres were studied by immunohistochemistry, quantitative RT-PCR and scanning/transmission electron microscopy. We found that both CB and SVZ spheres contained a mixed population of cells embedded in extracellular matrix. CB spheres, in contrast to SVZ neurospheres, contained pigmented cells with epithelial morphology that stained for cytokeratins (3/12 + 19), were connected through desmosomes and tight-junctions and produced PEDF. Markers of neural progenitors (nestin, Sox-2, GFAP) were significantly lower expressed in human CB compared to SVZ spheres, and nestin positive cells in the CB spheres also contained pigment. There was higher expression of EGF and TGF-beta receptors in human CB spheres, and a comparative greater activation of the canonical Wnt pathway. These results indicate that adult human CB spheres contain progenitor cells with epithelial properties and limited expression of neural progenitor markers compared to CNS neurospheres. Further studies mapping the regulation between epithelial and neural properties in the adult human CB spheres are vital to fully utilize them as a clinical source of retinal progenitor cells in the future.

Published
2009
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