Your search keyword '"Pilatus U"' showing total 8 results

1. H- and C-NMR spectroscopy of Thy-1-APP mice brain extracts indicates metabolic changes in Alzheimer's disease.

Author

Doert, A., Pilatus, U., Zanella, F., Müller, W., and Eckert, G.

Subjects

*NUCLEAR magnetic resonance spectroscopy, *BRAIN physiology, *ALZHEIMER'S disease diagnosis, *LABORATORY mice, *GLUCOSE metabolism, *ALZHEIMER'S patients

Abstract

Biochemical alterations underlying the symptoms and pathomechanisms of Alzheimer's disease (AD) are not fully understood. However, alterations of glucose metabolism and mitochondrial dysfunction certainly play an important role. H- and C-NMR spectroscopy exhibits promising results in providing information about those alterations in vivo in patients and animals, especially regarding the mitochondrial tricarboxylic acid (TCA) cycle. Accordingly, transgenic mice expressing mutant human amyloid precursor protein (APP)-serving as a model of neuropathological changes in AD-were examined with in vitro 1D H- and 2D H-C-HSQC-NMR spectroscopy after oral administration of 1-C-glucose and acquisition of brain material after 30 min. Perchloric acid extracts were measured using a 500 MHz spectrometer, providing more detailed information compared to in vivo spectra achievable nowadays. Area under curve (AUC) data of metabolite peaks were obtained and normalized in relation to the creatine signal, serving as internal reference. Besides confirming well-known metabolic alterations in AD like decreased N-acetylaspartate (NAA)/Creatine (Cr) ratio, new findings such as a decrease in phosphorylcholine (PC) are presented. Glutamate (Glu) and glutamine (Gln) concentrations were decreased while γ-aminobutyric acid (GABA) was elevated in Thy1-APP mice. C-NMR spectroscopy revealed a shift in the Glx-2/Glx-4-ratio-where Glx represents a combined Glu/Gln-signal-towards Glx-2 in AD. These findings correlated well with the NAA/Cr-ratio. The Gln-4/Glu-4-ratio is altered in favor of Glu. Our findings suggest that glutamine synthetase (GS), which is predominantly present in glial cells may be impaired in the brain of Thy1-APP transgenic mice. Since GS is an ATP-dependent enzyme, mitochondrial dysfunction might contribute to reduced activity, which might also account for the increased metabolism of glutamate via the GABA shunt, a metabolic pathway to bypass intra-mitochondrial α-ketoglutarate-dehydrogenase, resulting in elevated GABA levels. [ABSTRACT FROM AUTHOR]

Published

2015

2. An unusual intraventricular haemangiopericytoma: MRI and spectroscopy.

Author

Hattingen, E., Pilatus, U., Good, C., Franz, K., Lanfermann, H., and Zanella, F. E.

Subjects

*BRAIN tumors, *MENINGIOMA, *CHOLINE, *CANCER, *MAGNETIC resonance imaging, *MEDICAL imaging systems

Abstract

We present a 43-year-old woman with a tumour within the left lateral ventricle with the typical appearances of meningioma on MRI. 1H MR spectroscopy demonstrated an increased choline peak, suggesting a malignant form of meningioma. Histologically a haemangiopericytoma was found, an exceptionally rare tumour at this site. [ABSTRACT FROM AUTHOR]

Published

2003

3. Brain energy metabolism in early MSA-P: A phosphorus and proton magnetic resonance spectroscopy study.

Author

Stamelou, M., Pilatus, U., Reuss, A., Respondek, G., Knake, S., Oertel, W.H., and Höglinger, G.U.

Subjects

*ENERGY metabolism, *BRAIN physiology, *MULTIPLE system atrophy, *PROTON magnetic resonance spectroscopy, *GENETIC mutation, *UBIQUINONES

Abstract

Introduction Recently, mutations in the COQ2 gene, encoding for an enzyme involved in coenzyme Q10 biosynthesis, have been suggested to confer susceptibility risk for multiple system atrophy (MSA). Thus, the possible role of mitochondrial dysfunction in the pathophysiology of MSA has emerged. Here, we studied brain energy metabolism in vivo in early MSA-parkinsonism (MSA-P) patients and compared to healthy controls. Methods We have used combined phosphorus and proton magnetic resonance spectroscopy to measure high- and low-energy phosphates in the basal ganglia of early (Hoehn and Yahr stage I-III), probable MSA-P patients (N = 9) compared to healthy controls (N = 9). Results No significant changes in the high energy phosphates and other parameters reflecting the energy status of the cells were found in the basal ganglia of MSA-P patients compared to healthy controls. N-acetylaspartate was significantly reduced in MSA-P compared to healthy controls and correlated with the Unified Multiple System Atrophy Rating Scale. Conclusion Brain energy metabolism in early MSA-P is not impaired, despite the presence of impaired neuronal integrity. This may imply that mitochondrial dysfunction may not play a primary role in the pathophysiology of MSA, at least in European populations. [ABSTRACT FROM AUTHOR]

Published

2015

4. Sex-associated differences in mitochondrial function in human peripheral blood mononuclear cells (PBMCs) and brain.

Author

Silaidos, C., Pilatus, U., Grewal, R., Matura, S., Lienerth, B., Pantel, J., and Eckert, G. P.

Subjects

*MITOCHONDRIAL physiology, *BRAIN physiology

Abstract

Background: Alzheimer's disease (AD) is the most common form of dementia, and it affects more women than men. Mitochondrial dysfunction (MD) plays a key role in AD, and it is detectable at an early stage of the degenerative process in peripheral tissues, such as peripheral mononuclear blood cells (PBMCs). However, whether these changes are also reflected in cerebral energy metabolism and whether sex-specific differences in mitochondrial function occur are not clear. Therefore, we estimated the correlation between mitochondrial function in PBMCs and brain energy metabolites and examined sex-specific differences in healthy participants to elucidate these issues. Methods: The current pilot study included 9 male and 15 female healthy adults (mean age 30.8 ± 7.1 years). Respiration and activity of mitochondrial respiratory complexes were measured using a Clarke-electrode (Oxygraph-2k system), and adenosine triphosphate (ATP) levels were determined using a bioluminescence-based assay in isolated PBMCs. Citrate synthase activity as a mitochondrial marker was measured using a photometric assay. Concentrations of brain energy metabolites were quantified in the same individuals using 1H-magnetic resonance spectroscopy (MRS). Results: We detected sex-associated differences in mitochondrial function. Mitochondrial complexes I, I+II, and IV and uncoupled respiration and electron transport system (ETS) capacity in PBMCs isolated from blood samples of females were significantly ( p < 0.05; p < 0.01) higher compared to males. ATP levels in the PBMCs of female participants were approximately 10% higher compared to males. Citrate synthase (CS) activity, a marker of mitochondrial content, was significantly ( p < 0.05) higher in females compared to males. Sex-associated differences were also found for brain metabolites. The N -acetylaspartate (NAA) concentration was significantly higher in female participants compared to males in targeted regions. This difference was observed in white matter (WM) and an area with a high percentage (> 50%) of gray matter (GM) ( p < 0.05; p < 0.01). The effect sizes indicated a strong influence of sex on these parameters. Sex-associated differences were found in PBMCs and brain, but the determined parameters were not significantly correlated. Conclusions: Our study revealed sex-associated differences in mitochondrial function in healthy participants. The underlying mechanisms must be elucidated in more detail, but our study suggests that mitochondrial function in PBMCs is a feasible surrogate marker to detect differences in mitochondrial function and energy metabolism in humans and it underscores the necessity of sex-specific approaches in therapies that target mitochondrial dysfunction. [ABSTRACT FROM AUTHOR]

Published

2018

5. Contrast-enhanced MR myelography in spontaneous intracranial hypotension: description of an artefact imitating CSF leakage.

Author

Hattingen E, Dumesnil R, Pilatus U, Raabe A, Kahles T, Beck J, Hattingen, Elke, DuMesnil, Richard, Pilatus, Ulrich, Raabe, Andreas, Kahles, Timo, and Beck, Jürgen

Abstract

In contrast-enhanced (CE) MR myelography, hyperintense signal outside the intrathecal space in T1-weighted sequences with spectral presaturation inversion recovery (SPIR) is usually considered to be due to CSF leakage. We retrospectively investigated a hyperintense signal at the apex of the lung appearing in this sequence in patients with SIH (n = 5), CSF rhinorrhoea (n = 2), lumbar spine surgery (n = 1) and in control subjects (n = 6). Intrathecal application of contrast agent was performed in all patients before MR examination, but not in the control group. The reproducible signal increase was investigated with other fat suppression techniques and MR spectroscopy. All patients and controls showed strongly hyperintense signal at the apex of the lungs imitating CSF leakage into paraspinal tissue. This signal increase was identified as an artefact, caused by spectroscopically proven shift and broadening of water and lipid resonances (1-2 ppm) in this anatomical region. Only patients with SIH showed additional focal enhancement along the spinal nerve roots and/or in the spinal epidural space. In conclusion CE MR myelography with spectral selective fat suppression shows a reproducible cervicothoracic artefact, imitating CSF leakage. Selective water excitation technique as well as periradicular and epidural contrast collections may be helpful to discriminate between real pathological findings and artefacts. [ABSTRACT FROM AUTHOR]

Published

2009

6. Short-term effects of coenzyme Q10 in progressive supranuclear palsy: a randomized, placebo-controlled trial.

Author

Stamelou M, Reuss A, Pilatus U, Magerkurth J, Niklowitz P, Eggert KM, Krisp A, Menke T, Schade-Brittinger C, Oertel WH, Höglinger GU, Stamelou, Maria, Reuss, Alexander, Pilatus, Ulrich, Magerkurth, Jörg, Niklowitz, Petra, Eggert, Karla M, Krisp, Andrea, Menke, Thomas, and Schade-Brittinger, Carmen

Abstract

Mitochondrial complex I appears to be dysfunctional in progressive supranuclear palsy (PSP). Coenzyme Q(10) (CoQ(10)) is a physiological cofactor of complex I. Therefore, we evaluated the short-term effects of CoQ(10) in PSP. We performed a double-blind, randomized, placebo-controlled, phase II trial, including 21 clinically probable PSP patients (stage < or = III) to receive a liquid nanodispersion of CoQ(10) (5 mg/kg/day) or matching placebo. Over a 6-week period, we determined the change in CoQ(10) serum concentration, cerebral energy metabolites (by (31)P- and (1)H-magnetic resonance spectroscopy), motor and neuropsychological dysfunction (PSP rating scale, UPDRS III, Hoehn and Yahr stage, Frontal Assessment Battery, Mini Mental Status Examination, Montgomery Asberg Depression Scale). CoQ(10) was safe and well tolerated. In patients receiving CoQ(10) compared to placebo, the concentration of low-energy phosphates (adenosine-diphosphate, unphosphorylated creatine) decreased. Consequently, the ratio of high-energy phosphates to low-energy phosphates (adenosine-triphosphate to adenosine-diphosphate, phospho-creatine to unphosphorylated creatine) increased. These changes were significant in the occipital lobe and showed a consistent trend in the basal ganglia. Clinically, the PSP rating scale and the Frontal Assessment Battery improved slightly, but significantly, upon CoQ(10) treatment compared to placebo. Since CoQ(10) appears to improve cerebral energy metabolism in PSP, long-term treatment might have a disease-modifying, neuroprotective effect. [ABSTRACT FROM AUTHOR]

Published

2008

7. Cutoff Value of Choline Concentration Reliably Reveals High-Grade Brain Tumors among Other Contrast-Enhancing Brain Lesions.

Author

Porto, L., Hattingen, E., Stuecher, A., Herminghaus, S., Lanfermann, H., and Ulrich Pilatus, U. P.

Subjects

*CHOLINE, *BRAIN tumors, *NUCLEAR magnetic resonance spectroscopy, *LYMPHOMAS, *GLIOMAS, *HISTOPATHOLOGY

Abstract

Background and Aim To evaluate whether there is a cutoff value for a metabolite concentration measured by 1 H MR spectroscopy (MRS), which can be used to differentiate malignant brain tumors (high-grade gliomas, primary CNS lymphomas [PCNSL] and metastases) from other contrast-enhancing lesions like low-grade gliomas and non-neoplastic lesions. Material and Methods 1 H MRS was performed in 252 consecutive patients with space-occupying brain lesions which were enhanced with application of a contrast agent. Concentrations of N-acetyl-aspartate, total creatine, choline containing metabolites (total choline, tCho), lipids, and lactate were evaluated from the contrastenhancing part of the lesions and from the normal appearing brain tissue. Linear discriminant analysis was used to find the best predictor for malignant brain tumors. In addition, receiver operating characteristic analysis (ROC) was performed to determine a cutoff value for the best predictor in detectingmalignant brain tumors with a specificity of >95%. Results All brain tumors and 20 out of 47 nonneoplastic lesions were examined histopathologically. The remaining 27 diagnoses were based on MR imaging, clinical findings, and follow-up. The final diagnosis was 134 high-grade gliomas (WHO grade III/ IV), 36 metastases, 9 PCNSL, 8 low-grade gliomas (WHO grade I/II), 34 infections, 9 infarctions, 2 hematomas, and 2 vasculitides. 18 patients were excluded due to insufficient spectral quality. The tCho concentration was the best predictor to differentiate malignant brain tumors from enhancing low-grade gliomas or non-neoplastic lesions (F=26.6 [df: 25.833], p<0.0005). The ROC revealed that a cutoff tCho value, based on an increase of ⩾40% compared to normal, yielded a specificity of 100% and a sensitivity of 89.4% to correctly diagnose a malignant brain tumor. Conclusion 1 H MRS reliably differentiates malignant brain tumors from other contrast-enhancing brain lesions. At least a 40% increase of tCho compared to normal brain tissue indicates amalignant tumor (WHO grade III/IV gliomas, PCNSL, metastases) with >90% specificity and sensitivity. [ABSTRACT FROM AUTHOR]

Published

2012

8. Diagnostic impact of proton MR-spectroscopy versus image-guided stereotactic biopsy.

Author

Setzer, M., Herminghaus, S., Marquardt, G., Tews, D. S., Pilatus, U., Seifert, V., Zanella, F., and Lanfermann, H.

Subjects

*PROTON magnetic resonance spectroscopy, *STEREOTAXIC techniques, *SURGICAL & topographical anatomy, *BIOPSY, *OPERATIVE surgery, *GLIOMAS

Abstract

Background. The aim of this study was to compare the diagnostic accuracy of 1H MR-spectroscopy versus image-guided stereotactic biopsy. Method. A cohort of 83 consecutive patients with a broad spectrum of brain lesions were examined. Prior to stereotactic biopsy, the patients were subjected to 1H MR-spectroscopy examination. Diagnostic accuracy of 1H MR-spectroscopy and image guided stereotactic biopsy was determined for the largest diagnostic subgroups. Each diagnostic procedure was tested for concordance in every subgroup. Findings. The subgroups of patients comprised: low grade glioma, high grade glioma (grades III and IV), lymphoma and metastasis. For the sensitivity of 1H MR-spectroscopy ranged from 87.7 in high grade glioma to 92.3% in metastasis and for specificity from 93.3% for high grade glioma to 100% in low grade glioma. The highest positive predictive value of 100% was reached in the subgroup of low grade glioma. The highest negative predictive value was reached in lymphoma and metastasis, 100%. The kappa values were highly significant for all comparisons ( p<0.001). The co-efficient ranged from 0.68 to 0.84. It was lowest in assessing high grade glioma and highest in lymphoma. Conclusion. Compared with each other 1H MR-spectroscopy and image-guided stereotactic biopsy showed a moderate to good, statistically highly significant concordance. In patients in whom operation is at an increased risk e.g., due to severe medical illness, 1H MR-spectroscopy as a noninvasive procedure may be sufficient to assess the diagnosis. [ABSTRACT FROM AUTHOR]

Published

2007