Your search keyword '"Elisabeth Schültke"' showing total 65 results

1. 3D Imaging of Striatal Transplants in a Small Animal Model of Huntington’s Disease

Author

Elisabeth Schültke, Bernd R. Pinzer, Marco Stampanoni, Laura Harsan, and Mátè Döbrössy

Subjects

Huntington’s disease/Huntington disease, imaging, phase contrast, neurotransplantation, models, small animal, Medicine, Internal medicine, RC31-1245, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

High-resolution imaging in small animal models of neurologic disease is a technical challenge. In a pilot project, we have explored a non-destructive synchrotron imaging technique for the 3D visualization of intracerebral tissue transplants in a well-established small animal model of Huntington’s disease. Four adult female Sprague Dawley rats each received injections of 0.12 M quinolinic acid (QA) into two target positions in the left striatum, thus creating unilateral left-sided striatal lesions similar to those frequently seen in patients suffering from Huntington’s disease. One week after lesioning, the animals received transplants prepared from whole ganglionic eminences (wGEs) obtained from 13- to 14-day-old rat embryos. Of the four lesioned animals, three received transplants of GNP-loaded cells and one animal received a transplant of naïve cells, serving as control. Post-mortem synchrotron-based microCT was used to obtain images of the neurotransplants. The images obtained of GNP-loaded tissue transplants at the synchrotron corresponded in size and shape to the histological images of transplants developed from naïve cells. Thus, we conclude that non-destructive synchrotron imaging techniques such as phase-contrast imaging are suitable to obtain high-resolution images of GNP-loaded tissue transplants.

Published

2023

2. Modification of the Langendorff system of the isolated beating heart for experimental radiotherapy at a synchrotron: 4000 Gy in a heart beat

Author

Elisabeth Schültke, Michael Lerch, Timo Kirschstein, Falko Lange, Katrin Porath, Stefan Fiedler, Jeremy Davis, Jason Paino, Elette Engels, Micah Barnes, Mitzi Klein, Christopher Hall, Daniel Häusermann, and Guido Hildebrandt

Subjects

microbeam irradiation (mbi), langendorff model of the isolated beating heart, organ of risk, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

Microbeam radiotherapy could help to cure malignant tumours which are currently still considered therapy-resistant. With an irradiation target in the thoracic cavity, the heart would be one of the most important organs at risk. To assess the acute adverse effects of microbeam irradiation in the heart, a powerful ex vivo tool was created by combining the Langendorff model of the isolated beating mammalian heart with X-Tream dosimetry. In a first pilot experiment conducted at the Biomedical and Imaging Beamline of the Australian Synchrotron, the system was tested at a microbeam peak dose approximately ten times higher than the anticipated future microbeam irradiation treatment doses. The entire heart was irradiated with a dose of 4000 Gy at a dose rate of >6000 Gy s−1, using an array of 50 µm-wide microbeams spaced at a centre-to-centre distance of 400 µm. Although temporary arrhythmias were seen, they reverted spontaneously to a stable rhythm and no cardiac arrest occurred. This amazing preservation of cardiac function is promising for future therapeutic approaches.

Published

2022

3. A Novel Anthropomorphic Phantom Composed of Tissue-Equivalent Materials for Use in Experimental Radiotherapy: Design, Dosimetry and Biological Pilot Study

Author

Thomas Breslin, Jason Paino, Marie Wegner, Elette Engels, Stefan Fiedler, Helen Forrester, Hannes Rennau, John Bustillo, Matthew Cameron, Daniel Häusermann, Christopher Hall, Dieter Krause, Guido Hildebrandt, Michael Lerch, and Elisabeth Schültke

Subjects

anthropomorphic phantom, CT scan, dosimetry, experimental radiotherapy, microbeam radiotherapy (MRT), tissue-equivalent materials, Technology

Abstract

The production of anthropomorphic phantoms generated from tissue-equivalent materials is challenging but offers an excellent copy of the typical environment encountered in typical patients. High-quality dosimetry measurements and the correlation of the measured dose with the biological effects elicited by it are a prerequisite in preparation of clinical trials with novel radiotherapy approaches. We designed and produced a partial upper arm phantom from tissue-equivalent materials for use in experimental high-dose-rate radiotherapy. The phantom was compared to original patient data using density values and Hounsfield units obtained from CT scans. Dose simulations were conducted for broad-beam irradiation and microbeam radiotherapy (MRT) and compared to values measured in a synchrotron radiation experiment. Finally, we validated the phantom in a pilot experiment with human primary melanoma cells.

Published

2023

4. Effects of Microbeam Irradiation on Rodent Esophageal Smooth Muscle Contraction

Author

Bernd Frerker, Stefan Fiedler, Timo Kirschstein, Falko Lange, Katrin Porath, Tina Sellmann, Leonie Kutzner, Fabian Wilde, Julian Moosmann, Rüdiger Köhling, Guido Hildebrandt, and Elisabeth Schültke

Subjects

high-dose-rate radiotherapy, microbeam irradiation, broadbeam irradiation, organ bath, esophageal smooth muscle, carbachol-induced contraction, Cytology, QH573-671

Abstract

Background: High-dose-rate radiotherapy has shown promising results with respect to normal tissue preservation. We developed an ex vivo model to study the physiological effects of experimental radiotherapy in the rodent esophageal smooth muscle. Methods: We assessed the physiological parameters of the esophageal function in ex vivo preparations of the proximal, middle, and distal segments in the organ bath. High-dose-rate synchrotron irradiation was conducted using both the microbeam irradiation (MBI) technique with peak doses greater than 200 Gy and broadbeam irradiation (BBI) with doses ranging between 3.5–4 Gy. Results: Neither MBI nor BBI affected the function of the contractile apparatus. While peak latency and maximal force change were not affected in the BBI group, and no changes were seen in the proximal esophagus segments after MBI, a significant increase in peak latency and a decrease in maximal force change was observed in the middle and distal esophageal segments. Conclusion: No severe changes in physiological parameters of esophageal contraction were determined after high-dose-rate radiotherapy in our model, but our results indicate a delayed esophageal function. From the clinical perspective, the observed increase in peak latency and decreased maximal force change may indicate delayed esophageal transit.

Published

2022

5. The radioenhancement potential of Schiff base derived copper (II) compounds against lung carcinoma in vitro.

Author

Gohar Tsakanova, Ani Stepanyan, Elina Arakelova, Violetta Ayvazyan, Vahan Tonoyan, Arsen Arakelyan, Guido Hildebrandt, and Elisabeth Schültke

Subjects

Medicine, Science

Abstract

For the last years, copper complexes have been intensively implicated in biomedical research as components of cancer treatment. Herewith, we provide highlights of the synthesis, physical measurements, structural characterization of the newly developed Cu(II) chelates of Schiff Bases, Cu(Picolinyl-L-Tryptopahanate)2, Cu(Picolinyl-L-Tyrosinate)2, Cu(Isonicotinyl-L-Tyrosinate)2, Cu(Picolinyl-L-Phenylalaninate)2, Cu(Nicotinyl-L-Phenylalaninate)2, Cu(Isonicotinyl-L-Phenylalaninate)2, and their radioenhancement capacity at kV and MV ranges of irradiation of human lung carcinoma epithelial cells in vitro. The methods of cell growth, viability and proliferation were used. All compounds exerted very potent radioenhancer capacities in the irradiated lung carcinoma cells at both kV and MV ranges in a 100 μM concentration. At a concentration of 10 μM, only Cu(Picolinyl-L-Tyrosinate)2, Cu(Isonicotinyl-L-Tyrosinate)2, Cu(Picolinyl-L-Phenylalaninate)2 possessed radioenhancer properties at kV and MV ranges. Cu(Picolinyl-L-Tryptophanate)2 showed radioenhancer properties only at kV range. Cu(Nicotinyl-L-Phenylalaninate)2 and Cu(Isonicotinyl-L-Phenylalaninate)2 showed remarkable radioenhancer activity only at MV range. All compounds acted in dose-dependent manner at both tested energy ranges. These copper (II) compounds, in combination with 1 Gy irradiation at either 120 kV or 6 MV, are more efficient at delaying cell growth of lung cancer cells and at reducing cell viability in vitro than the irradiation administered alone. Thus, we have demonstrated that the studied copper compounds have a good potential for radioenhancement.

Published

2021

6. Perampanel Add-on to Standard Radiochemotherapy in vivo Promotes Neuroprotection in a Rodent F98 Glioma Model

Author

Falko Lange, Jens Hartung, Clara Liebelt, Julius Boisserée, Tobias Resch, Katrin Porath, Max Frederik Hörnschemeyer, Gesine Reichart, Tina Sellmann, Valentin Neubert, Stephan Kriesen, Guido Hildebrandt, Elisabeth Schültke, Rüdiger Köhling, and Timo Kirschstein

Subjects

epilepsy, glioblastoma, glioma, perampanel, radiochemotherapy, glutamate, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

An abnormal glutamate signaling of glioblastoma may contribute to both tumor progression and the generation of glioma-associated epileptic seizures. We hypothesized that the AMPA receptor antagonist perampanel (PER) could attenuate tumor growth and epileptic events. F98 glioma cells, grown orthotopically in Fischer rats, were employed as a model of glioma to investigate the therapeutic efficiency of PER (15 mg/kg) as adjuvant to standard radiochemotherapy (RCT). The epileptiform phenotype was investigated by video-EEG analysis and field potential recordings. Effects on glioma progression were estimated by tumor size quantification, survival analysis and immunohistological staining. Our data revealed that orthotopically-growing F98 glioma promote an epileptiform phenotype in rats. RCT reduced the tumor size and prolonged the survival of the animals. The adjuvant administration of PER had no effect on tumor progression. The tumor-associated epileptic events were abolished by PER application or RCT respectively, to initial baseline levels. Remarkably, PER preserved the glutamatergic network activity on healthy peritumoral tissue in RCT-treated animals. F98 tumors are not only a robust model to investigate glioma progression, but also a viable model to simulate a glioma-associated epileptiform phenotype. Furthermore, our data indicate that PER acts as a potent anticonvulsant and may protect the tumor-surrounding tissue as adjuvant to RCT, but failed to attenuate tumor growth or promote animal survival.

Published

2020

7. Homogenous and Microbeam X-Ray Radiation Induces Proteomic Changes in the Brains of Irradiated Rats and in the Brains of Nonirradiated Cage Mate Rats

Author

Richard Smith, Jiaxi Wang, Colin Seymour, Cristian Fernandez-Palomo, Jennifer Fazzari, Elisabeth Schültke, Elke Bräuer-Krisch, Jean Laissue, Christian Schroll, and Carmel Mothersill

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

To evaluate microbeam radiation therapy (MRT), for brain tumor treatment, the bystander effect in nonirradiated companion animals was investigated. Adult rats were irradiated with 35 or 350 Gy at the European Synchrotron Research Facility using homogenous irradiation (HR) or MRT to the right brain hemisphere. The irradiated rats were housed with nonirradiated rats. After 48 hours, all rats were euthanized and the frontal lobe proteome was analyzed using 2-dimensional electrophoresis and mass spectrometry. Proteome changes were determined by analysis of variance ( P < .05). Homogenous irradiation increased serum albumin, heat shock protein 71 (HSP-71), triosephosphate isomerase (TPI), fructose bisphosphate aldolase (FBA), and prohibitin and decreased dihydrolipoyl dehydrogenase (DLD) and pyruvate kinase. Microbeam radiation therapy increased HSP-71, FBA, and prohibitin, and decreased aconitase, dihydropyrimidinase, TPI, tubulin DLD, and pyruvate kinase. Cage mates with HR irradiated rats showed increased HSP-71 and FBA and decreased pyruvate kinase, DLD, and aconitase. Cage mates with MRT irradiated rats showed increased HSP-71, prohibitin, and FBA and decreased aconitase and DLD. Homogenous irradiation proteome changes indicated tumorigenesis, while MRT proteome changes indicated an oxidative stress response. The bystander effect of proteome changes appeared antitumorigenic and inducing radioresistance. This investigation also supports the need for research into prohibitin interaction with HSP-70/71 chaperones and cancer therapy.

Published

2018

8. γ-H2AX as a marker for dose deposition in the brain of wistar rats after synchrotron microbeam radiation.

Author

Cristian Fernandez-Palomo, Carmel Mothersill, Elke Bräuer-Krisch, Jean Laissue, Colin Seymour, and Elisabeth Schültke

Subjects

Medicine, Science

Abstract

ObjectiveSynchrotron radiation has shown high therapeutic potential in small animal models of malignant brain tumours. However, more studies are needed to understand the radiobiological effects caused by the delivery of high doses of spatially fractionated x-rays in tissue. The purpose of this study was to explore the use of the γ-H2AX antibody as a marker for dose deposition in the brain of rats after synchrotron microbeam radiation therapy (MRT).MethodsNormal and tumour-bearing Wistar rats were exposed to 35, 70 or 350 Gy of MRT to their right cerebral hemisphere. The brains were extracted either at 4 or 8 hours after irradiation and immediately placed in formalin. Sections of paraffin-embedded tissue were incubated with anti γ-H2AX primary antibody.ResultsWhile the presence of the C6 glioma does not seem to modulate the formation of γ-H2AX in normal tissue, the irradiation dose and the recovery versus time are the most important factors affecting the development of γ-H2AX foci. Our results also suggest that doses of 350 Gy can trigger the release of bystander signals that significantly amplify the DNA damage caused by radiation and that the γ-H2AX biomarker does not only represent DNA damage produced by radiation, but also damage caused by bystander effects.ConclusionIn conclusion, we suggest that the γ-H2AX foci should be used as biomarker for targeted and non-targeted DNA damage after synchrotron radiation rather than a tool to measure the actual physical doses.

Published

2015

9. Transmission of Signals from Rats Receiving High Doses of Microbeam Radiation to Cage Mates: An Inter-Mammal Bystander Effect

Author

Carmel Mothersill, Cristian Fernandez-Palomo, Jennifer Fazzari, Richard Smith, Elisabeth Schültke, Elke Bräuer-Krisch, Jean Laissue, Christian Schroll, and Colin Seymour

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

Inter-animal signaling from irradiated to non-irradiated organisms has been demonstrated for whole body irradiated mice and also for fish. The aim of the current study was to look at radiotherapy style limited exposure to part of the body using doses relevant in preclinical therapy. High dose homogenous field irradiation and the use of irradiation in the microbeam radiation therapy mode at the European Synchrotron Radiation Facility (ESRF) at Grenoble was tested by giving high doses to the right brain hemisphere of the rat. The right and left cerebral hemispheres and the urinary bladder were later removed to determine whether abscopal effects could be produced in the animals and also whether effects occurred in cage mates housed with them. The results show strong bystander signal production in the contra-lateral brain hemisphere and weaker effects in the distant bladder of the irradiated rats. Signal strength was similar or greater in each tissue in the cage mates housed for 48hrs with the irradiated rats. Our results support the hypothesis that proximity to an irradiated animal induces signalling changes in an unirradiated partner. If similar signaling occurs between humans, the results could have implications for caregivers and hospital staff treating radiotherapy patients.

Published

2014

10. Pencilbeam irradiation technique for whole brain radiotherapy: technical and biological challenges in a small animal model.

Author

Elisabeth Schültke, Michael Trippel, Elke Bräuer-Krisch, Michel Renier, Stefan Bartzsch, Herwig Requardt, Máté D Döbrössy, and Guido Nikkhah

Subjects

Medicine, Science

Abstract

We have conducted the first in-vivo experiments in pencilbeam irradiation, a new synchrotron radiation technique based on the principle of microbeam irradiation, a concept of spatially fractionated high-dose irradiation. In an animal model of adult C57 BL/6J mice we have determined technical and physiological limitations with the present technical setup of the technique. Fifty-eight animals were distributed in eleven experimental groups, ten groups receiving whole brain radiotherapy with arrays of 50 µm wide beams. We have tested peak doses ranging between 172 Gy and 2,298 Gy at 3 mm depth. Animals in five groups received whole brain radiotherapy with a center-to-center (ctc) distance of 200 µm and a peak-to-valley ratio (PVDR) of ∼ 100, in the other five groups the ctc was 400 µm (PVDR ∼ 400). Motor and memory abilities were assessed during a six months observation period following irradiation. The lower dose limit, determined by the technical equipment, was at 172 Gy. The LD50 was about 1,164 Gy for a ctc of 200 µm and higher than 2,298 Gy for a ctc of 400 µm. Age-dependent loss in motor and memory performance was seen in all groups. Better overall performance (close to that of healthy controls) was seen in the groups irradiated with a ctc of 400 µm.

Published

2013

11. Microbeam Irradiation of the Beating Rodent Heart: An Ex Vivo Study of Acute and Subacute Effects on Cardiac Function

Author

Falko Lange, Timo Kirschstein, Jeremy Davis, Jason Paino, Micah Barnes, Mitzi Klein, Katrin Porath, Paula Stöhlmacher, Stefan Fiedler, Marcus Frank, Rüdiger Köhling, Guido Hildebrandt, Daniel Hausermann, Michael Lerch, and Elisabeth Schültke

Subjects

Cancer Research, Radiation, Oncology, Models, Animal, Animals, Heart, Rodentia, Radiology, Nuclear Medicine and imaging, Immunohistochemistry, Synchrotrons

Abstract

Microbeam radiation therapy (MRT) has shown several advantages compared with conventional broad-beam radiation therapy in small animal models, including a better preservation of normal tissue function and improved drug delivery based on a rapidly increased vascular permeability in the target region. Normal tissue tolerance is the limiting factor in clinical radiation therapy. Knowledge of the normal tissue tolerance of organs at risk is therefore a prerequisite in evaluating any new radiation therapy approach. With an irradiation target in the thoracic cavity, the heart would be the most important organ at risk.We used the ex vivo beating rodent heart in the Langendorff perfusion system at the synchrotron to administer microbeam irradiation (MBI) with a peak dose of 40 or 400 Gy. By continuously recording the electrocardiogram, the left ventricular pressure, and the aortic pressure before, during and after MBI, we were able to assess acute and subacute effects of MBI on electrophysiological and mechanical cardiac function. In addition, we analyzed histologic and ultrastructural sequelae caused by MBI.There were no significant changes in heart rate, heart rate variability, systolic increase of left ventricular pressure or aortic pressure. Moreover, the changes of heart rate, left ventricular pressure and aortic pressure by adding 10With respect to acute and subacute toxicity, an MBI peak dose up to 400 Gy did not result in severe changes in cardiac electrophysiology or mechanics.

Published

2022

12. Flying rats and microbeam paths crossing: the beauty of international interdisciplinary science

Author

Elisabeth Schültke

Subjects

Male, Beauty, Radiological and Ultrasound Technology, Neoplasms, Animals, Humans, Female, Radiology, Nuclear Medicine and imaging, Dose Fractionation, Radiation, Synchrotrons, Rats

Abstract

Microbeam radiotherapy (MRT) is a still experimental radiotherapy approach. Two combined parameters contribute to an excellent normal tissue protection and an improved control of malignant tumors in small animal models, compared to conventional radiotherapy: dose deposition at a high dose rate and spatial fractionation at the micrometre level. The international microbeam research community expects to see clinical MRT trials within the next ten years.Physics-associated research is still widely regarded as a male domain. Thus, the question was asked whether this is reflected in the scientific contributions to the field of microbeam radiotherapy.A literature search was conducted using Pubmed, Semantic Scholar and other sources to look specifically for female contributors to the field of microbeam radiotherapy development.The original idea for MRT was patented in 1994 by an all-male research team. In approximately 50% of all publications related to microbeam radiotherapy, however, either the first or the senior author is a woman. The contribution of those women who have been driving the development of both technical and biomedical aspects of MRT in the last two decades is highlighted.

Published

2022

13. Microbeam Irradiation as a Simultaneously Integrated Boost in a Conventional Whole-Brain Radiotherapy Protocol

Author

Felix Jaekel, Elke Bräuer-Krisch, Stefan Bartzsch, Jean Laissue, Hans Blattmann, Marten Scholz, Julia Soloviova, Guido Hildebrandt, and Elisabeth Schültke

Subjects

Brain Neoplasms, Organic Chemistry, Brain, Article, microbeam radiotherapy (MRT), simultaneously integrated boost (SIB), brain tissue tolerance, F98 glioma cells, 610 Medicine & health, Microbeam Radiotherapy (mrt), Simultaneously Integrated Boost (sib), Brain Tissue Tolerance, F98 Glioma Cells, Glioma, General Medicine, Radiation Dosage, Catalysis, Computer Science Applications, ddc, Inorganic Chemistry, Mice, Animals, 570 Life sciences, biology, Dose Fractionation, Radiation, Physical and Theoretical Chemistry, Molecular Biology, Synchrotrons, Spectroscopy

Abstract

Microbeam radiotherapy (MRT), an experimental high-dose rate concept with spatial fractionation at the micrometre range, has shown a high therapeutic potential as well as good preservation of normal tissue function in pre-clinical studies. We investigated the suitability of MRT as a simultaneously integrated boost (SIB) in conventional whole-brain irradiation (WBRT). A 174 Gy MRT SIB was administered with an array of quasi-parallel, 50 µm wide microbeams spaced at a centre-to-centre distance of 400 µm either on the first or last day of a 5 × 4 Gy radiotherapy schedule in healthy adult C57 BL/6J mice and in F98 glioma cell cultures. The animals were observed for signs of intracranial pressure and focal neurologic signs. Colony counts were conducted in F98 glioma cell cultures. No signs of acute adverse effects were observed in any of the irradiated animals within 3 days after the last irradiation fraction. The tumoricidal effect on F98 cell in vitro was higher when the MRT boost was delivered on the first day of the irradiation course, as opposed to the last day. Therefore, the MRT SIB should be integrated into a clinical radiotherapy schedule as early as possible.

Published

2022

14. The Spinal Cord as Organ of Risk: Assessment for Acute and Subacute Neurological Adverse Effects after Microbeam Radiotherapy in a Rodent Model

Author

Felix Jaekel, Jason Paino, Elette Engels, Mitzi Klein, Micah Barnes, Daniel Häusermann, Christopher Hall, Gang Zheng, Hongxin Wang, Guido Hildebrandt, Michael Lerch, and Elisabeth Schültke

Subjects

Cancer Research, Oncology, microbeam radiotherapy (MRT), spinal cord as organ of risk, toxicity study, dosimetry, electrophysiology, MRI imaging, motor function, sensibility

Abstract

Microbeam radiotherapy (MRT), a high dose rate radiotherapy technique using spatial dose fractionation at the micrometre range, has shown a high therapeutic efficacy in vivo in different tumour entities, including lung cancer. We have conducted a toxicity study for the spinal cord as organ of risk during irradiation of a target in the thoracic cavity. In young adult rats, the lower thoracic spinal cord was irradiated over a length of 2 cm with an array of quasi-parallel microbeams of 50 µm width, spaced at a centre-to-centre distance of 400 µm, with MRT peak doses up to 800 Gy. No acute or subacute adverse effects were observed within the first week after irradiation up to MRT peak doses of 400 Gy. No significant differences were seen between irradiated animals and non-irradiated controls in motor function and sensitivity, open field test and somatosensory evoked potentials (SSEP). After irradiation with MRT peak doses of 450–800 Gy, dose-dependent neurologic signs occurred. Provided that long-term studies do not reveal significant morbidity due to late toxicity, an MRT dose of 400 Gy can be considered safe for the spinal cord in the tested beam geometry and field size.

Published

2023

15. Perspectives for microbeam irradiation at the SYRMEP beamline

Author

Elisabeth Schültke, K. Casarin, Giuliana Tromba, R.H. Menk, Stefan Fiedler, Fulvia Arfelli, Guido Hildebrandt, Diego Dreossi, Stephan Kriesen, Stefan Bartzsch, Felix Jaekel, Schultke, E., Fiedler, S., Menk, R. H., Jaekel, F., Dreossi, D., Casarin, K., Tromba, G., Bartzsch, S., Kriesen, S., Hildebrandt, G., and Arfelli, F.

Subjects

0301 basic medicine, Nuclear and High Energy Physics, microbeam, microbeam irradiation, murine melanoma cells, radiotherapy, Animals, Mice, Monte Carlo Method, Photons, Synchrotrons, Materials science, medicine.medical_treatment, Microbeam Irradiation, Murine Melanoma Cells, Microbeam, Radiotherapy, Photon energy, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, medicine, Irradiation, Instrumentation, Beam diameter, Radiation, Animal, Collimator, murine melanoma cell, equipment and supplies, Research Papers, Photon, Synchrotron, ddc, Radiation therapy, 030104 developmental biology, Beamline, 030220 oncology & carcinogenesis, Biomedical engineering

Abstract

The first microbeam irradiation study at the biomedical beamline SYRMEP of the Elettra-Sincrotrone Trieste, the technical setup of the experiment and the results of the associated cell culture study in murine melanoma cells are reported., It has been shown previously both in vitro and in vivo that microbeam irradiation (MBI) can control malignant tumour cells more effectively than the clinically established concepts of broad beam irradiation. With the aim to extend the international capacity for microbeam research, the first MBI experiment at the biomedical beamline SYRMEP of the Italian synchrotron facility ELETTRA has been conducted. Using a multislit collimator produced by the company TECOMET, arrays of quasi-parallel microbeams were successfully generated with a beam width of 50 µm and a centre-to-centre distance of 400 µm. Murine melanoma cell cultures were irradiated with a target dose of approximately 65 Gy at a mean photon energy of ∼30 keV with a dose rate of 70 Gy s−1 and a peak-to-valley dose of ∼123. This work demonstrated a melanoma cell reduction of approximately 80% after MBI. It is suggested that, while a high energy is essential to achieve high dose rates in order to deposit high treatment doses in a short time in a deep-seated target, for in vitro studies and for the treatment of superficial tumours a spectrum in the lower energy range might be equally suitable or even advantageous.

Published

2021

16. A mouse model for microbeam radiation therapy of the lung

Author

Guido Hildebrandt, Felix Jaekel, Sam Bayat, Elke Bräuer-Krisch, Stefan Fiedler, Cristian Fernandez-Palomo, Verdiana Trappetti, Paolo Pellicioli, Stefan Bartzsch, Elisabeth Schültke, Valentin Djonov, University Medical Center Rostock, Synchrotron Radiation for Biomedicine = Rayonnement SynchroTROn pour la Recherche BiomédicalE (STROBE), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Grenoble Alpes (UGA), Université Grenoble Alpes (UGA), Technische Universität München = Technical University of Munich (TUM), European Synchroton Radiation Facility [Grenoble] (ESRF), University of Bern, European Molecular Biology Laboratory (EMBL), and ORANGE, Colette

Subjects

Male, Organs at Risk, Cancer Research, medicine.medical_specialty, Lung Neoplasms, medicine.medical_treatment, [SDV]Life Sciences [q-bio], Pilot Projects, 610 Medicine & health, Treatment of lung cancer, 030218 nuclear medicine & medical imaging, Histones, 03 medical and health sciences, Mice, 0302 clinical medicine, Microbeam radiation therapy, medicine, Animals, Radiology, Nuclear Medicine and imaging, Adverse effect, Lung cancer, Lung, Cardiotoxicity, Radiation, business.industry, UNIFORM, Microbeam irradiation, Radiotherapy Dosage, medicine.disease, equipment and supplies, ddc, Radiation therapy, Mice, Inbred C57BL, [SDV] Life Sciences [q-bio], Disease Models, Animal, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Feasibility Studies, Radiology, business, Synchrotrons, RADIOTHERAPY

Abstract

International audience; Purpose: Radiation therapy is an important treatment component for patients with lung cancer. However, the survival time gained with clinical radiation therapy techniques is relatively short. Data from preclinical experiments suggest that synchrotron microbeam radiation therapy could be much better suited to control malignant brain tumors than current clinical concepts of radiation therapy. Even at peak doses of several hundred gray, the extent of functional deficits is low. Methods and Materials: We have developed the first mouse model to study the effects of microbeam irradiation in lung tissue. Results: Up to peak doses of 400 Gy, no acute adverse effects were seen. Conclusion: This model is well suited to explore the potential of microbeam radiation therapy in the treatment of lung cancer and the response of normal lung tissue and organs at risk. (C) 2021 The Authors. Published by Elsevier Inc.

Published

2021

17. Evaluating the Suitability of 3D Bioprinted Samples for Experimental Radiotherapy: A Pilot Study

Author

Munir A, Al-Zeer, Franziska, Prehn, Stefan, Fiedler, Ulrich, Lienert, Michael, Krisch, Johanna, Berg, Jens, Kurreck, Guido, Hildebrandt, and Elisabeth, Schültke

Subjects

3D bioprinting, Lung Neoplasms, experimental radiotherapy, Bioprinting, Pilot Projects, human lung cancer cells, gammaH2AX, microbeam radiotherapy, Printing, Three-Dimensional, ddc:540, Humans, DNA damage, high dose rate radiotherapy, 570 Biowissenschaften, Biologie

Abstract

International journal of molecular sciences 23(17), 9951 (2022). doi:10.3390/ijms23179951, Radiotherapy is an important component in the treatment of lung cancer, one of the most common cancers worldwide, frequently resulting in death within only a few years of diagnosis. In order to evaluate new therapeutic approaches and compare their efficiency with regard to tumour control at a pre-clinical stage, it is important to develop standardized samples which can serve as inter-institutional outcome controls, independent of differences in local technical parameters or specific techniques. Recent developments in 3D bioprinting techniques could provide a sophisticated solution to this challenge. We have conducted a pilot project to evaluate the suitability of standardized samples generated from 3D printed human lung cancer cells in radiotherapy studies. The samples were irradiated at high dose rates using both broad beam and microbeam techniques. We found the 3D printed constructs to be sufficiently mechanically stable for use in microbeam studies with peak doses up to 400 Gy to test for cytotoxicity, DNA damage, and cancer cell death in vitro. The results of this study show how 3D structures generated from human lung cancer cells in an additive printing process can be used to study the effects of radiotherapy in a standardized manner., Published by Molecular Diversity Preservation International, Basel

Published

2022

18. The Microbeam Insert at the White Beam Beamline P61A at the Synchrotron PETRA III/DESY: A New Tool for High Dose Rate Irradiation Research

Author

Elisabeth Schültke, Stefan Fiedler, Catharina Mewes, Elisabetta Gargioni, Johannes Klingenberg, Guilherme Abreu Faria, Michael Lerch, Marco Petasecca, Franziska Prehn, Marie Wegner, Marten Scholz, Felix Jaekel, and Guido Hildebrandt

Subjects

Cancer Research, Oncology, Medizin [610], high dose rate radiotherapy, FLASH radiotherapy, microbeam radiotherapy (MRT), synchrotron, ddc:530, ddc:610, Physik [530]

Abstract

Cancers 14(20), 5137 (1-14) (2022). doi:10.3390/cancers14205137, The excellent preservation of normal tissue function after high dose rate radiotherapy has been shown in pre-clinical studies. Normal tissue in the tumor environment is well preserved even after target doses of several hundred Gy while reliably destroying the tumor cells. These results have triggered the establishment of appropriate research structures at the synchrotron PETRA III on the DESY campus in Hamburg, Germany. Dose rates of hundreds of Gy/s can be achieved, compared to 6–20 Gy/min in clinical radiotherapy. We describe the design, development, key parameters, and first use of a mobile insert for high dose rate radiotherapy research, a new research instrument at P61A, the first polychromatic beamline of PETRA III. The data obtained at the end station P61A will support the international interdisciplinary effort to improve radiotherapy concepts for patients with malignant tumors that are considered radioresistant with the currently established clinical radiotherapy techniques., Published by MDPI, Basel

Published

2022

19. The radioenhancement potential of Schiff base derived copper (II) compounds against lung carcinoma in vitro

Author

Violetta Ayvazyan, Ani Stepanyan, Guido Hildebrandt, Elina Arakelova, Arsen Arakelyan, Vahan Tonoyan, Gohar Tsakanova, and Elisabeth Schültke

Subjects

Lung Neoplasms, Cancer Treatment, Chemical synthesis, Lung and Intrathoracic Tumors, chemistry.chemical_compound, 0302 clinical medicine, Coordination Complexes, Medicine and Health Sciences, Cell Analysis, 0303 health sciences, Multidisciplinary, Schiff base, Chemical Synthesis, Radiographic Image Enhancement, Chemistry, Bioassays and Physiological Analysis, Oncology, Cell Processes, 030220 oncology & carcinogenesis, Physical Sciences, Medicine, Research Article, Chemical Elements, Cell Viability Testing, Cell Survival, Science, chemistry.chemical_element, Research and Analysis Methods, Cell Growth, 03 medical and health sciences, Cell Line, Tumor, Humans, Chelation, Viability assay, Irradiation, Schiff Bases, 030304 developmental biology, Cell Proliferation, Cell growth, Carcinoma, Biology and Life Sciences, Cancers and Neoplasms, Cell Biology, Copper, In vitro, chemistry, Nuclear chemistry

Abstract

For the last years, copper complexes have been intensively implicated in biomedical research as components of cancer treatment. Herewith, we provide highlights of the synthesis, physical measurements, structural characterization of the newly developed Cu(II) chelates of Schiff Bases, Cu(Picolinyl-L-Tryptopahanate)2, Cu(Picolinyl-L-Tyrosinate)2, Cu(Isonicotinyl-L-Tyrosinate)2, Cu(Picolinyl-L-Phenylalaninate)2, Cu(Nicotinyl-L-Phenylalaninate)2, Cu(Isonicotinyl-L-Phenylalaninate)2, and their radioenhancement capacity at kV and MV ranges of irradiation of human lung carcinoma epithelial cells in vitro. The methods of cell growth, viability and proliferation were used. All compounds exerted very potent radioenhancer capacities in the irradiated lung carcinoma cells at both kV and MV ranges in a 100 μM concentration. At a concentration of 10 μM, only Cu(Picolinyl-L-Tyrosinate)2, Cu(Isonicotinyl-L-Tyrosinate)2, Cu(Picolinyl-L-Phenylalaninate)2 possessed radioenhancer properties at kV and MV ranges. Cu(Picolinyl-L-Tryptophanate)2 showed radioenhancer properties only at kV range. Cu(Nicotinyl-L-Phenylalaninate)2 and Cu(Isonicotinyl-L-Phenylalaninate)2 showed remarkable radioenhancer activity only at MV range. All compounds acted in dose-dependent manner at both tested energy ranges. These copper (II) compounds, in combination with 1 Gy irradiation at either 120 kV or 6 MV, are more efficient at delaying cell growth of lung cancer cells and at reducing cell viability in vitro than the irradiation administered alone. Thus, we have demonstrated that the studied copper compounds have a good potential for radioenhancement.

Published

2021

20. Locomotion and eating behavior changes in Yucatan minipigs after unilateral radio-induced ablation of the caudate nucleus

Author

Elisabeth Schültke, Audrey Bouchet, Alexandre Ocadiz, Benjamin Lemasson, Emmanuel L. Barbier, Jayde Livingstone, Loic De Saint Jean, Samy Kefs, Christian Nemoz, Nicolas Coquery, Stefan Bartzsch, Régis Janvier, Raphaël Serduc, David Val-Laillet, Jean-François Adam, Jean A. Laissue, Alain Chauvin, Cécile Guerineau, Elke Bräuer-Krisch, Jacques Balosso, Albert Siegbahn, Nutrition, Métabolismes et Cancer (NuMeCan), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES), Synchrotron Radiation for Biomedicine Laboratory (STROBE), European Synchrotron Radiation Facility (ESRF), Australian Synchrotron [Clayton], BIOEPAR, INRA, Oniris, 44307, Nantes, France, Centre Hospitalier Universitaire [Grenoble] (CHU), Technische Universität Munchen - Université Technique de Munich [Munich, Allemagne] (TUM), University Medical Center Rostock, Department of Medical Physics, Karolinska University Hospital [Stockholm], Grenoble Institut des Neurosciences (GIN), Université Joseph Fourier - Grenoble 1 (UJF)-Institut National de la Santé et de la Recherche Médicale (INSERM), [GIN] Grenoble Institut des Neurosciences (GIN), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Grenoble Alpes (UGA), Oncology - Pathology - Anatomy, Institute of Pathology-University of Bern, ANR-19-P3IA-0003,MIAI,MIAI @ Grenoble Alpes(2019), Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-Institut National de la Santé et de la Recherche Médicale (INSERM), Biologie, Epidémiologie et analyse de risque en Santé Animale (BIOEPAR), Institut National de la Recherche Agronomique (INRA)-École nationale vétérinaire, agroalimentaire et de l'alimentation Nantes-Atlantique (ONIRIS), Rayet, Béatrice, and MIAI @ Grenoble Alpes - - MIAI2019 - ANR-19-P3IA-0003 - P3IA - VALID

Subjects

Male, Pathology, medicine.medical_specialty, High interest, Swine, medicine.medical_treatment, [SDV]Life Sciences [q-bio], Caudate nucleus, lcsh:Medicine, Early detection, Brain injuries, Radiosurgery, Article, Stereotactic radiotherapy, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, lcsh:Science, Radiation Injuries, Multidisciplinary, Behavior, Animal, business.industry, lcsh:R, Brain, Feeding Behavior, Ablation, ddc, [SDV] Life Sciences [q-bio], Brain region, 030220 oncology & carcinogenesis, Eating behavior, Swine, Miniature, lcsh:Q, Caudate Nucleus, Cranial Irradiation, business, 030217 neurology & neurosurgery, Locomotion, Synchrotrons, Neuroscience

Abstract

The functional roles of the Caudate nucleus (Cd) are well known. Selective Cd lesions can be found in neurological disorders. However, little is known about the dynamics of the behavioral changes during progressive Cd ablation. Current stereotactic radiosurgery technologies allow the progressive ablation of a brain region with limited adverse effects in surrounding normal tissues. This could be of high interest for the study of the modified behavioral functions in relation with the degree of impairment of the brain structures. Using hypofractionated stereotactic radiotherapy combined with synchrotron microbeam radiation, we investigated, during one year after irradiation, the effects of unilateral radio-ablation of the right Cd on the behavior of Yucatan minipigs. The right Cd was irradiated to a minimal dose of 35.5 Gy delivered in three fractions. MRI-based morphological brain integrity and behavioral functions, i.e. locomotion, motivation/hedonism were assessed. We detected a progressive radio-necrosis leading to a quasi-total ablation one year after irradiation, with an additional alteration of surrounding areas. Transitory changes in the motivation/hedonism were firstly detected, then on locomotion, suggesting the influence of different compensatory mechanisms depending on the functions related to Cd and possibly some surrounding areas. We concluded that early behavioral changes related to eating functions are relevant markers for the early detection of ongoing lesions occurring in Cd-related neurological disorders.

Published

2019

21. Investigation of Abscopal and Bystander Effects in Immunocompromised Mice After Exposure to Pencilbeam and Microbeam Synchrotron Radiation

Author

Cristian Fernandez-Palomo, Hans Blattmann, Colin Seymour, Carmel Mothersill, Elisabeth Schültke, Jean A. Laissue, and Elke Bräuer-Krisch

Subjects

Male, 0301 basic medicine, Pathology, medicine.medical_specialty, Cell Survival, Epidemiology, Health, Toxicology and Mutagenesis, Urinary Bladder, Mice, Nude, chemistry.chemical_element, Biology, Calcium, Radiation Dosage, Immunocompromised Host, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, Cell Line, Tumor, Proton Therapy, medicine, Bystander effect, Animals, Radiology, Nuclear Medicine and imaging, 610 Medicine & health, Clonogenic assay, Reporter gene, Brain Neoplasms, Calcium channel, Dose-Response Relationship, Radiation, Bystander Effect, HaCaT, 030104 developmental biology, chemistry, Cell culture, 030220 oncology & carcinogenesis, Cancer research, 570 Life sciences, biology, Radiation Dose Hypofractionation, Synchrotrons

Abstract

Out-of-field effects are of considerable interest in radiotherapy. The mechanisms are poorly understood but are thought to involve signaling processes, which induce responses in non-targeted cells and tissues. The immune response is thought to play a role. The goal of this research was to study the induction of abscopal effects in the bladders of NU-Foxn1 mice after irradiating their brains using Pencil Beam (PB) or microbeam (MRT) irradiation at the European Synchrotron Radiation Facility (ESRF) in Grenoble, France. Athymic nude mice injected with F98 glioma cells into their right cerebral hemisphere 7 d earlier were treated with either MRT or PB. After recovery times of 2, 12, and 48 h, the urinary bladders were extracted and cultured as tissue explants for 24 h. The growth medium containing the potential signaling factors was harvested, filtered, and transferred to HaCaT reporter cells to assess their clonogenic survival and calcium signaling potential. The results show that in the tumor-free mice, both treatment modalities produce strong bystander/abscopal signals using the clonogenic reporter assay; however, the calcium data do not support a calcium channel mediated mechanism. The presence of a tumor reduces or reverses the effect. PB produced significantly stronger effects in the bladders of tumor-bearing animals. The authors conclude that immunocompromised mice produce signals, which can alter the response of unirradiated reporter cells; however, a novel mechanism appears to be involved.

Published

2016

22. Microbeam radiation therapy: Clinical perspectives

Author

Elisabeth Schültke, Michael A. Grotzer, Jean A. Laissue, Elke Bräuer-Krisch, University of Zurich, and Grotzer, M A

Subjects

Diffuse intrinsic pontine glioma, Pathology, medicine.medical_specialty, Technology Assessment, Biomedical, Fractionated radiotherapy, Swine, medicine.medical_treatment, Normal tissue, Biophysics, General Physics and Astronomy, Healthy tissue, 610 Medicine & health, Physics and Astronomy(all), Radiotherapy, High-Energy, Mice, Microbeam radiation therapy, medicine, Animals, Humans, 2741 Radiology, Nuclear Medicine and Imaging, Radiology, Nuclear Medicine and imaging, Stage (cooking), Child, Wide beam, Evidence-Based Medicine, Brain Neoplasms, business.industry, Cancer, Brain tumour, Equipment Design, General Medicine, medicine.disease, 3100 General Physics and Astronomy, Rats, Radiation therapy, Treatment Outcome, 10036 Medical Clinic, Radiology Nuclear Medicine and imaging, Dose Fractionation, Radiation, Radiology, Glioblastoma, business, Synchrotrons, 1304 Biophysics

Abstract

Microbeam radiation therapy (MRT), a novel form of spatially fractionated radiotherapy (RT), uses arrays of synchrotron-generated X-ray microbeams (MB). MRT has been identified as a promising treatment concept that might be applied to patients with malignant central nervous system (CNS) tumours for whom, at the current stage of development, no satisfactory therapy is available yet. Preclinical experimental studies have shown that the CNS of healthy rodents and piglets can tolerate much higher radiation doses delivered by spatially separated MBs than those delivered by a single, uninterrupted, macroscopically wide beam. High-dose, high-precision radiotherapies such as MRT with reduced probabilities of normal tissue complications offer prospects of improved therapeutic ratios, as extensively demonstrated by results of experiments published by many international groups in the last two decades. The significance of developing MRT as a new RT approach cannot be understated. Up to 50% of cancer patients receive conventional RT, and any new treatment that provides better tumour control whilst preserving healthy tissue is likely to significantly improve patient outcomes.

Published

2015

23. Microbeam radiation therapy - grid therapy and beyond: a clinical perspective

Author

Jacques Balosso, Jean A. Laissue, Michael A. Grotzer, Guido Cavaletti, Elisabeth Schültke, François Estève, Valentin Djonov, Alexander Valdman, Guido Hildebrandt, Thomas Breslin, Schültke, E, Balosso, J, Breslin, T, Cavaletti, G, Djonov, V, Esteve, F, Grotzer, M, Hildebrandt, G, Valdman, A, Laissue, J, University of Zurich, and Schültke, Elisabeth

Subjects

Physics & Technology, medicine.medical_specialty, Micrometer scale, medicine.medical_treatment, 610 Medicine & health, Review Article, PHYSICS AND TECHNOLOGY - Radiotherapy physics, RADIOTHERAPY AND ONCOLOGY - Novel and combined treatment modalities, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, RADIOBIOLOGY - Radiobiology as applied to radiotherapy, Microbeam radiation therapy, Neoplasms, 2741 Radiology, Nuclear Medicine and Imaging, Medicine, Humans, Radiology, Nuclear Medicine and imaging, Medical physics, RADIOBIOLOGY - Effects of radiation quality, Therapeutic intent, Radiotherapy, business.industry, Microbeam irradiation, General Medicine, equipment and supplies, Normal tissue sparing, Clinical trial, Radiation therapy, Grid therapy, 10036 Medical Clinic, 030220 oncology & carcinogenesis, RADIOBIOLOGY - Novel and combined treatment modalities, Radiation Dose Hypofractionation, business, microbeam radiation therapy

Abstract

Microbeam irradiation is spatially fractionated radiation on a micrometer scale. Microbeam irradiation with therapeutic intent has become known as microbeam radiation therapy (MRT). The basic concept of MRT was developed in the 1980s, but it has not yet been tested in any human clinical trial, even though there is now a large number of animal studies demonstrating its marked therapeutic potential with an exceptional normal tissue sparing effect. Furthermore, MRT is conceptually similar to macroscopic grid based radiation therapy which has been used in clinical practice for decades. In this review, the potential clinical applications of MRT are analysed for both malignant and non-malignant diseases.

Published

2017

24. SYRA3 COST Action – Microbeam radiation therapy: Roots and prospects

Author

Elisabeth Schültke, Alberto Bravin, Jan J. Wilkens, Pawel Olko, Bravin, A, Olko, P, Schueltke, E, and Wilkens Jan, J

Subjects

medicine.medical_specialty, medicine.medical_treatment, Normal tissue, Biophysics, General Physics and Astronomy, FIS/07 - FISICA APPLICATA (A BENI CULTURALI, AMBIENTALI, BIOLOGIA E MEDICINA), Physics and Astronomy(all), X-ray, Microbeam radiation therapy, Microbeam, X-rays, medicine, Radiology, Nuclear Medicine and imaging, Medical physics, Tumor growth, Cost action, Proton therapy, business.industry, Synchrotron Radiation Source, General Medicine, Radiation therapy, Preclinical phase, Microbeams, Radiology Nuclear Medicine and imaging, business, SYRA3

Abstract

Microbeam radiation therapy (MRT) is an irradiation modality for therapeutic purposes which uses arrays of collimated quasi parallel microbeams, each up to 100 mm wide, to deliver high radiation doses. Several studies have reported the extraordinary tolerance of normal tissues to MRT irradiation; conversely, MRT has been shown to be highly efficient on tumor growth control. The original and most widely developed application of MRT, yet in the preclinical phase, consists in using spatially fractionated X-ray beams issued from a synchrotron radiation source in the treatment of brain tumors. More recently, MRT has been tested in successful pioneering assays to reduce or interrupt seizures in preclinical models of epilepsy. The MRT concept has also been extended to proton therapy. The development of MRT towards its clinical implementation is presently driven by an EU-supported consortium of laboratories from 16 countries within the COST Action TD1205 (SYRA3). The results of the first SYRA3 workshop on "Radiation Therapy with Synchrotron Radiation: Achievements and Challenges" held in Krakow (Poland) during March 25-26 2014 are summarized in this issue with an overview presented in this paper. The papers reflect the multidisciplinary international activities of SYRA3. The topics covered in this focus issue include medical physics aspects, pre-clinical studies, clinical applications, and an industrial perspective; finally an outlook towards future prospects of compact sources and proton microbeams. (C) 2015 Published by Elsevier Ltd on behalf of Associazione Italiana di Fisica Medica.

Published

2015

25. Proteomic changes in the rat brain induced by homogenous irradiation and by the bystander effect resulting from high energy synchrotron X-ray microbeams

Author

Carmel Mothersill, Hans Blattmann, Elisabeth Schültke, Elke Bräuer-Krisch, Richard W. Smith, Jean A. Laissue, Colin Seymour, and Jiaxi Wang

Subjects

Male, Proteomics, Neoplasms, Radiation-Induced, Proteome, Molecular Sequence Data, Apoptosis, Nerve Tissue Proteins, Biology, Aconitase, Tubulin, Glial Fibrillary Acidic Protein, Prohibitins, Bystander effect, Animals, Electrophoresis, Gel, Two-Dimensional, Radiology, Nuclear Medicine and imaging, Amino Acid Sequence, Rats, Wistar, Prohibitin, Heat-Shock Proteins, chemistry.chemical_classification, Reactive oxygen species, Radiological and Ultrasound Technology, Glial fibrillary acidic protein, Brain Neoplasms, Brain, Bystander Effect, Microbeam, Molecular biology, Rats, Repressor Proteins, Oxidative Stress, chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, biology.protein, Synchrotrons, Triose-Phosphate Isomerase

Abstract

To further evaluate the use of microbeam irradiation (MBI) as a potential means of non-invasive brain tumor treatment by investigating the induction of a bystander effect in non-irradiated tissue.Adult rats were irradiated with 35 or 350 Gy at the European Synchotron Research Facility (ESRF), using homogenous (broad beam) irradiation (HI) or a high energy microbeam delivered to the right brain hemisphere only. The proteome of the frontal lobes were then analyzed using two-dimensional electrophoresis (2-DE) and mass spectrometry.HI resulted in proteomic responses indicative of tumourigenesis; increased albumin, aconitase and triosphosphate isomerase (TPI), and decreased dihydrolipoyldehydrogenase (DLD). The MBI bystander effect proteomic changes were indicative of reactive oxygen species mediated apoptosis; reduced TPI, prohibitin and tubulin and increased glial fibrillary acidic protein (GFAP). These potentially anti-tumourigenic apoptotic proteomic changes are also associated with neurodegeneration. However the bystander effect also increased heat shock protein (HSP) 71 turnover. HSP 71 is known to protect against all of the neurological disorders characterized by the bystander effect proteome changes.These results indicate that the collective interaction of these MBI-induced bystander effect proteins and their mediation by HSP 71, may confer a protective effect which now warrants additional experimental attention.

Published

2012

26. P18. Effekte von Perampanel auf die Gliom-assoziierte Epilepsie

Author

Katrin Porath, K. Weßlau, J. Hartung, Julia Hörnschemeyer, Falko Lange, Michael Linnebacher, Timo Kirschstein, Tobias Resch, Rüdiger Köhling, and Elisabeth Schültke

Subjects

biology, business.industry, Glutamate receptor, Excitotoxicity, AMPA receptor, SLC7A11, Pharmacology, medicine.disease, medicine.disease_cause, Sensory Systems, Perampanel, chemistry.chemical_compound, Epilepsy, Neurology, chemistry, Tumor progression, Physiology (medical), Glioma, biology.protein, Medicine, Neurology (clinical), business

Abstract

Seizures are a well-recognized symptom of glioblastoma, and anticonvulsive treatment is common. While clinical guidelines recommend all approved anticonvulsants, so far there is a lack of data that allow a well-founded differential therapy. Based on pathophysiological knowledge about both mechanisms of glioma-associated seizures and tumor progression, it is conceivable that some certain anti-seizure medication could be more preferable than others in the sense of a combined anti-convulsive and anti-tumoral efficacy. Thus, glioma cells release glutamate via the Xc− antiport system, which appears to be a major pathomechanism of glioma-associated seizures and excitotoxicity. In addition, the proliferation and survival of the tumor cells are promoted. Therefore, anticonvulsants that attenuate glutamate-mediated receptor activation could be especially effective. In a first in vitro approach, perampanel had antiproliferative effects. In addition, AMPA receptor-mediated epileptiform activity was effectively reduced in rat glioma brain slices using perampanel. In our current studies, rat glioma cells are injected orthotopically into the neocortex of Fischer rats. Thus, both tumor disease and glioma-associated epilepsy can be simulated in a clinically relevant in vivo model. In this model, the efficacy of perampanel in combination with standard radio-chemotherapy on the survival of the animals is examined. Epileptiform activity is recorded with video EEG monitoring in vivo and additionally analyzed in an in vitro epilepsy model (Mg2+ withdrawal, GABAA receptor inhibition). On the side of the tumor disease, the morphology of the gliomas is determined and the expression of relevant proteins is quantified. To gain further insights into the mechanisms of glutamate-mediated pathophysiology of human gliomas, patient-generated low-passage glioblastoma cell lines were established from more than 50 surgical brain tumor resectants. In 15 of these cell lines, we quantified the expression of various epilepsy-associated genes by RT-PCR. As expected, the genes SLC7A11, EAAT2, GLUL, BCAT1 and IDH1 were expressed differently in the cells. To validate these findings, four cell lines with a pro-epileptogenic phenotype were selected. In addition, the efficacy of perampanel on glutamate release and cell proliferation was tested. It could be shown that perampanel mediate an overall reduction of glutamate release cross all cell lines. With our combined in vitro and in vivo approach, we aim to investigate the efficacy of glutamate receptor antagonists such as perampanel on glioblastoma cells with respect to seizure development and tumor progression. Our results suggest that anticonvulsants that inhibit glutamate receptor activation may be particularly suitable.

Published

2018

27. Quercetin attenuates inflammatory processes after spinal cord injury in an animal model

Author

Bernhard H.J. Juurlink, Elisabeth Schültke, and Robert Griebel

Subjects

Male, medicine.medical_specialty, Pathology, medicine.medical_treatment, Neuroprotection, Antioxidants, Central nervous system disease, Spinal cord compression, Internal medicine, medicine, Animals, heterocyclic compounds, Rats, Wistar, Spinal cord injury, Saline, Spinal Cord Injuries, Peroxidase, Inflammation, biology, business.industry, General Medicine, Venous blood, medicine.disease, Spinal cord, Immunohistochemistry, Rats, Oxidative Stress, Endocrinology, medicine.anatomical_structure, Neutrophil Infiltration, Neurology, Myeloperoxidase, biology.protein, Quercetin, Neurology (clinical), business

Abstract

We have shown earlier that administration of the flavonoid quercetin significantly contributed to recovery of motor function after spinal cord compression injury in the adult rat. Using the same animal model, we have now designed a set of experiments to test the hypothesis that quercetin attenuates oxidative stress-related inflammatory processes early after spinal cord trauma. Mid-thoracic spinal cord compression injury in adult male Wistar rats was caused by extradural application and closure of a 50 g calibrated aneurysm clip for 5 s. Myeloperoxidase (MPO) levels were determined in spinal cord tissue and serum of quercetin-treated animals and controls at 6, 12, 24 and 72 h after injury. The white blood count was followed until 72 h after injury. In quercetin-treated animals, MPO activity was significantly decreased in tissue at 12 and 24 h and in serum at 6, 12 and 24 h after injury, compared with saline controls. In quercetin-treated animals, the prevalence of ED-1 and MPO positive cells was significantly lower than in saline controls. White blood count in venous blood was significantly decreased in quercetin-treated animals at 12 and 24 h after injury. Quercetin attenuated the recruitment of neutrophils to the site of injury. The resulting lower MPO release in the injured tissue is likely to decrease the extent of secondary injury and might at least partially explain the neuroprotective effect of the flavonoid quercetin.

Published

2010

28. Homogenous and microbeam X-ray radiation induces proteomic changes in the brains of irradiated rats and in the brains of nonirradiated cage mate rats

Author

Elisabeth Schültke, Colin Seymour, Jean A. Laissue, Cristian Fernandez-Palomo, Jiaxi Wang, Christian Schroll, Richard S. Smith, Carmel Mothersill, Elke Bräuer-Krisch, and Jennifer Fazzari

Subjects

0301 basic medicine, Health, Toxicology and Mutagenesis, Serum albumin, Fructose-bisphosphate aldolase, 610 Medicine & health, Toxicology, Aconitase, 03 medical and health sciences, proteomics, Radioresistance, Heat shock protein, Prohibitin, Chemical Health and Safety, Dihydrolipoamide dehydrogenase, biology, Chemistry, lcsh:RM1-950, Public Health, Environmental and Occupational Health, homogenous irradiation, microbeam irradiation, Molecular biology, 3. Good health, antitumorigenesis, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, bystander effect, biology.protein, 570 Life sciences, Original Article, Pyruvate kinase

Abstract

To evaluate microbeam radiation therapy (MRT), for brain tumor treatment, the bystander effect in nonirradiated companion animals was investigated. Adult rats were irradiated with 35 or 350 Gy at the European Synchrotron Research Facility using homogenous irradiation (HR) or MRT to the right brain hemisphere. The irradiated rats were housed with nonirradiated rats. After 48 hours, all rats were euthanized and the frontal lobe proteome was analyzed using 2-dimensional electrophoresis and mass spectrometry. Proteome changes were determined by analysis of variance ( P < .05). Homogenous irradiation increased serum albumin, heat shock protein 71 (HSP-71), triosephosphate isomerase (TPI), fructose bisphosphate aldolase (FBA), and prohibitin and decreased dihydrolipoyl dehydrogenase (DLD) and pyruvate kinase. Microbeam radiation therapy increased HSP-71, FBA, and prohibitin, and decreased aconitase, dihydropyrimidinase, TPI, tubulin DLD, and pyruvate kinase. Cage mates with HR irradiated rats showed increased HSP-71 and FBA and decreased pyruvate kinase, DLD, and aconitase. Cage mates with MRT irradiated rats showed increased HSP-71, prohibitin, and FBA and decreased aconitase and DLD. Homogenous irradiation proteome changes indicated tumorigenesis, while MRT proteome changes indicated an oxidative stress response. The bystander effect of proteome changes appeared antitumorigenic and inducing radioresistance. This investigation also supports the need for research into prohibitin interaction with HSP-70/71 chaperones and cancer therapy.

Published

2018

29. Can Admission S-100β Predict the Extent of Brain Damage in Head Trauma Patients?

Author

Robert Griebel, Mary E. Kelly, Bernhard H.J. Juurlink, Elisabeth Schültke, and V. Sadanand

Subjects

Adult, Male, Gynecology, medicine.medical_specialty, Adolescent, Injury control, Accident prevention, business.industry, S100 Proteins, Poison control, Enzyme-Linked Immunosorbent Assay, S100 Calcium Binding Protein beta Subunit, General Medicine, Young Adult, Neurology, Predictive Value of Tests, Brain Injuries, medicine, Craniocerebral Trauma, Humans, Female, Nerve Growth Factors, Neurology (clinical), Child, business

Abstract

Background:As has been shown previously, S-100β levels in serum can be a useful predictor of brain damage after head trauma. This pilot study was designed to investigate whether urine samples, which are much easier to obtain, could be used for the same purpose instead of serum samples.Methods:Ninety-six consecutive patients admitted with head trauma were recruited in the study. After exclusion of 54 patients, mostly because of significant additional trauma, S-100β levels were analyzed in serum and urine of 42 patients using a luminometric assay. A range for normal values was established based on samples from ten healthy volunteers.Results:S-100β serum levels increased proportional to the severity of the head trauma, as had been previously shown by several other groups. In many patients, initial increases in urine S-100β levels were seen later than in serum, after which the kinetics of S-100β levels in urine seemed to follow that established for serum levels. S-100β values in urine were on average about 54% lower in urine than in serum.Conclusions:S-100β levels in urine obtained on admission to the hospital are not a good indicator for the extent of brain damage. However, urine S-100β levels obtained at later time points might be a useful indicator for the development of secondary brain injury.

Published

2009

30. THEODOR KOCHER'S CRANIOMETER

Author

Elisabeth Schültke

Subjects

medicine.medical_specialty, Intracranial pathology, Cephalometry, business.industry, Skull, History, 20th Century, Medical Records, Neurosurgical Procedures, humanities, Surgery, Surgical subspecialty, Medical Illustration, medicine, Humans, Neurology (clinical), Neurosurgery, business, Brain function, Intracranial pressure

Abstract

The first half of the 20th century witnessed the rapid emergence of neurological surgery as a surgical subspecialty. Only few surgeons made a name for themselves equally in general surgery and neurological surgery. One of them was the Swiss surgeon Theodor Kocher (1841-1917). He was honored with the Nobel Prize for his innovative approaches to pathology and surgery of the thyroid gland. Kocher also attracted students from all over the world to his laboratory to study the pathology of neurotrauma and the consequences of increased intracranial pressure on brain function. One of his most interesting contributions to the neurosurgical equipment of his time is a craniometer, used to correlate the location of intracranial pathology to landmarks on the surface of the cranium. Craniometers can be seen as simple forerunners of today's sophisticated stereotactic frames. They contributed significantly to the advancement of neurological surgery, allowing localization of known functional centers as well as lesions of the brain in a 3-dimensional system.

Published

2009

31. A detailed study of gold-nanoparticle loaded cells using X-ray based techniques for cell-tracking applications with single-cell sensitivity

Author

Lucia Mancini, Alberto Astolfo, Fulvia Arfelli, Ralf Hendrik Menk, Simon James, Elisabeth Schültke, Astolfo, Alberto, Arfelli, Fulvia, Elisabeth, Schültke, Simon, Jame, Lucia, Mancini, and Ralf Hendrik, Menk

Subjects

Male, Fluorescence-lifetime imaging microscopy, Materials science, Transplantation, Heterologous, X-ray computed tomography, gold nanoparticles, cell-tracking, high-resolution imaging, Metal Nanoparticles, Mitosis, Nanoparticle, Nanotechnology, Sensitivity and Specificity, law.invention, law, Animals, General Materials Science, Rats, Wistar, Cells, Cultured, Cell Size, X-Rays, Resolution (electron density), X-ray, X-Ray Microtomography, Rats, Optical tweezers, Cell Tracking, Colloidal gold, Microscopy, Electron, Scanning, Gold, Single-Cell Analysis, Electron microscope, gold nanoparticle

Abstract

In the present study complementary high-resolution imaging techniques on different length scales are applied to elucidate a cellular loading protocol of gold nanoparticles and subsequently its impact on long term and high-resolution cell-tracking utilizing X-ray technology. Although demonstrated for malignant cell lines the results can be applied to non-malignant cell lines as well. In particular the accumulation of the gold marker per cell has been assessed quantitatively by virtue of electron microscopy, two-dimensional X-ray fluorescence imaging techniques and X-ray CT with micrometric and sub-micrometric resolution. Moreover, utilizing these techniques the three dimensional distribution of the incorporated nanoparticles, which are sequestered in lysosomes as a permanent marker, could be determined. The latter allowed elucidation of the gold partition during mitosis and the cell size, which subsequently enabled us to define the optimal instrument settings of a compact microCT system to visualize gold loaded cells. The results obtained demonstrate the feasibility of cell-tracking using X-ray CT with compact sources.

Published

2013

32. γ-H2AX as a Marker for Dose Deposition in the Brain of Wistar Rats after Synchrotron Microbeam Radiation

Author

Elisabeth Schültke, Carmel Mothersill, Cristian Fernandez-Palomo, Jean A. Laissue, Colin Seymour, Elke Bräuer-Krisch, McMaster Univ, Med Phys & Appl Radiat Sci Dept, Hamilton, ON, Canada, Univ Freiburg, Med Ctr, Stereotact Neurosurg & Lab Mol Neurosurg, D-79106 Freiburg, Germany, European Synchrotron Radiation Facility (ESRF), Univ Bern, Inst Pathol, Bern, Switzerland, and Univ Rostock, Med Ctr, Dept Radiotherapy, Radiobiol Lab, D-18055 Rostock, Germany

Subjects

Male, Pathology, medicine.medical_specialty, DNA damage, medicine.medical_treatment, [SDV]Life Sciences [q-bio], Science, Synchrotron radiation, Biology, Histones, Immunoenzyme Techniques, Glioma, Bystander effect, medicine, Image Processing, Computer-Assisted, Tumor Cells, Cultured, Animals, Irradiation, Rats, Wistar, Multidisciplinary, Brain Neoplasms, X-Rays, Radiotherapy Dosage, Microbeam, Bystander Effect, medicine.disease, Phosphoproteins, 3. Good health, Rats, Radiation therapy, Biomarker (medicine), Medicine, Biomarkers, Synchrotrons, Research Article, DNA Damage

Abstract

International audience; Objective Synchrotron radiation has shown high therapeutic potential in small animal models of malignant brain tumours. However, more studies are needed to understand the radiobiological effects caused by the delivery of high doses of spatially fractionated x-rays in tissue. The purpose of this study was to explore the use of the gamma-H2AX antibody as a marker for dose deposition in the brain of rats after synchrotron microbeam radiation therapy (MRT). Methods Normal and tumour-bearing Wistar rats were exposed to 35, 70 or 350 Gy of MRT to their right cerebral hemisphere. The brains were extracted either at 4 or 8 hours after irradiation and immediately placed in formalin. Sections of paraffin-embedded tissue were incubated with anti gamma-H2AX primary antibody. Results While the presence of the C6 glioma does not seem to modulate the formation of gamma-H2AX in normal tissue, the irradiation dose and the recovery versus time are the most important factors affecting the development of gamma-H2AX foci. Our results also suggest that doses of 350 Gy can trigger the release of bystander signals that significantly amplify the DNA damage caused by radiation and that the gamma-H2AX biomarker does not only represent DNA damage produced by radiation, but also damage caused by bystander effects. Conclusion In conclusion, we suggest that the gamma-H2AX foci should be used as biomarker for targeted and non-targeted DNA damage after synchrotron radiation rather than a tool to measure the actual physical doses

Published

2015

33. Use of synchrotron medical microbeam irradiation to investigate radiation-induced bystander and abscopal effects in vivo

Author

Hans Blattmann, Carmel Mothersill, Cristian Fernandez-Palomo, Elke Bräuer-Krisch, Jean A. Laissue, Elisabeth Schültke, Dusan Vukmirovic, and Colin Seymour

Subjects

Male, Technology Assessment, Biomedical, Radiation-induced bystander effects, Cell Survival, medicine.medical_treatment, Biophysics, General Physics and Astronomy, 610 Medicine & health, Physics and Astronomy(all), Radiotherapy, High-Energy, In vivo, Cell Line, Tumor, Glioma, Calcium flux, 540 Chemistry, Bystander effect, Animals, Medicine, Radiology, Nuclear Medicine and imaging, Synchrotron microbeam radiation, Evidence-Based Medicine, Brain Neoplasms, business.industry, Dose fractionation, Abscopal effect, Radiotherapy Dosage, Microbeam irradiation, Bystander Effect, Equipment Design, General Medicine, medicine.disease, Fischer rats, Rats, Radiation therapy, Treatment Outcome, Radiology Nuclear Medicine and imaging, Cancer research, 570 Life sciences, biology, Dose Fractionation, Radiation, business, Nuclear medicine, Synchrotrons, F98 glioma

Abstract

The question of whether bystander and abscopal effects are the same is unclear. Our experimental system enables us to address this question by allowing irradiated organisms to partner with unexposed individuals. Organs from both animals and appropriate sham and scatter dose controls are tested for expression of several endpoints such as calcium flux, role of 5HT, reporter assay cell death and proteomic profile. The results show that membrane related functions of calcium and 5HT are critical for true bystander effect expression. Our original inter-animal experiments used fish species whole body irradiated with low doses of X-rays, which prevented us from addressing the abscopal effect question. Data which are much more relevant in radiotherapy are now available for rats which received high dose local irradiation to the implanted right brain glioma. The data were generated using quasi-parallel microbeams at the biomedical beamline at the European Synchrotron Radiation Facility in Grenoble France. This means we can directly compare abscopal and “true” bystander effects in a rodent tumour model. Analysis of right brain hemisphere, left brain and urinary bladder in the directly irradiated animals and their unirradiated partners strongly suggests that bystander effects (in partner animals) are not the same as abscopal effects (in the irradiated animal). Furthermore, the presence of a tumour in the right brain alters the magnitude of both abscopal and bystander effects in the tissues from the directly irradiated animal and in the unirradiated partners which did not contain tumours, meaning the type of signal was different.

Published

2015

34. A Fourier transform infrared microspectroscopic imaging investigation into an animal model exhibiting glioblastoma multiforme

Author

K Ataelmannan, Bernhard H.J. Juurlink, Keith R. Bambery, Elisabeth Schültke, Bayden R. Wood, Donald McNaughton, S T Rigley MacDonald, and Robert Griebel

Subjects

Diagnostic Imaging, Male, Pathology, medicine.medical_specialty, Analytical chemistry, Biophysics, Fourier transform infrared (FTIR) micro-spectroscopy, Biology, Biochemistry, Tumour tissue, symbols.namesake, Animal model, Glioma, Spectroscopy, Fourier Transform Infrared, Biomarkers, Tumor, medicine, Animals, Rats, Wistar, Brain Neoplasms, Tumor biology, Focal plane array detector (FPA), Proteins, Brain tumour, Human brain, Cell Biology, medicine.disease, Rats, Disease Models, Animal, medicine.anatomical_structure, Fourier transform, symbols, Immunohistochemistry, Glioblastoma

Abstract

Glioblastoma multiforme (GBM) is a highly malignant human brain tumour for which no cure is available at present. Numerous clinical studies as well as animal experiments are under way with the goal being to understand tumour biology and develop potential therapeutic approaches. C6 cell glioma in the adult rat is a frequently used and well accepted animal model for the malignant human glial tumour. By combining standard analytical methods such as histology and immunohistochemistry with Fourier Transform Infrared (FTIR) microspectroscopic imaging and multivariate statistical approaches, we are developing a novel approach to tumour diagnosis which allows us to obtain information about the structure and composition of tumour tissues that could not be obtained easily with either method alone. We have used a “Stingray” FTIR imaging spectrometer to analyse and compare the compositions of coronal brain tissue sections of a tumour-bearing animal and those from a healthy animal. We have found that the tumour tissue has a characteristic chemical signature, which distinguishes it from tumour-free brain tissue. The physical-chemical differences, determined by image and spectral comparison are consistent with changes in total protein absorbance, phosphodiester absorbance and physical dispersive artefacts. The results indicate that FTIR imaging analysis could become a valuable analytic method in brain tumour research and possibly in the diagnosis of human brain tumours.

Published

2006

35. Neuroprotection following Fluid Percussion Brain Trauma: A Pilot Study Using Quercetin

Author

Andrew J. Baker, Robert Griebel, Min Zhao, Guo-Feng Tian, Elisabeth Schültke, Bernhard H.J. Juurlink, and Huse Kamencic

Subjects

Male, Traumatic brain injury, medicine.medical_treatment, Action Potentials, Pilot Projects, Corpus callosum, medicine.disease_cause, Neuroprotection, Corpus Callosum, chemistry.chemical_compound, Organ Culture Techniques, medicine, Animals, Saline, Peroxidase, business.industry, medicine.disease, Glutathione, Immunohistochemistry, Rats, Compound muscle action potential, Electrophysiology, Disease Models, Animal, Neuroprotective Agents, chemistry, Fluid percussion, Brain Injuries, Anesthesia, Quercetin, Neurology (clinical), business, Oxidative stress

Abstract

Previously, we were able to demonstrate the neuroprotective effect of quercetin in an animal model of acute traumatic spinal cord injury. The objective of the present study was to determine whether any neuroprotective effect is seen when quercetin is administered in an animal model of traumatic brain injury. Twenty-six adult male Sprague-Dawley rats were submitted to moderate fluid percussion injury in the anterior midline position. Animals were divided into two experimental groups: one group received 25 mumol/kg quercetin starting 1 h after injury, while animals in the second group received saline vehicle (n = 13 per group). Eight animals were used as uninjured healthy controls. Eight animals in each experimental group were sacrificed at 24 h, while five animals per group were allowed to recover for 72 h following injury. Compound action potential amplitudes (CAPAs) were recorded on 400-microm vibrotome sections of the corpus callosum superfused with oxygenated artificial CSF (n = 3 per animal) in 20 experimental animals and five healthy controls. Three brains from animals in each experimental group and healthy controls were used for histological, immunocytochemical and biochemical analysis after sacrifice at 24 h. CAPAs in uninjured animals had a mean of 1.12 mV. This decreased to 0.55 mV in saline vehicle-treated injured animals by 24 h and changed little over the next 3 days. CAPAs were significantly better at 0.82 mV at 24 h and 0.76 mV at 3 days in quercetin-treated injured animals when compared to injured saline vehicle controls. Quercetin significantly prevented decrease of glutathione levels and decreased myeloperoxidase activity. We conclude that this dietary flavonoid has therapeutic potential following brain trauma.

Published

2005

36. Synchrotron supported DEI/KES of a brain tumor in an animal model: The search for a microimaging modality

Author

Giuliana Tromba, Bernhard H.J. Juurlink, Michael Kelly, Konstantin Mikhailovitch Pavlov, Karen Kit Wan Siu, Robert Griebel, G McLoughlin, Ralph H Menk, Elisabeth Schültke, Luigi Rigon, Dean Chapman, Toby Ean Beveridge, and K Mannan

Subjects

High rate, Physics, Nuclear and High Energy Physics, medicine.medical_specialty, Poor prognosis, Modality (human–computer interaction), Brain tumor, medicine.disease, Primary tumor, Animal model, medicine, Initial treatment, Medical physics, Radiology, Instrumentation, Glioblastoma

Abstract

Glioblastoma multiforme (GBM) is the commonest and most aggressive primary brain tumor in humans. The high rate of tumor recurrence results in a poor prognosis despite multimodality treatment. One reason for high rate of recurrence is the invasive nature of the tumor into the surrounding normal brain tissue or multifocal occurrence at sites remote from that of the primary tumor establishment. Existing imaging demonstrates the primary tumor but fail to show the residual tumor microaggregates left behind following initial treatment. In this study, we employed diffraction-enhanced imaging (DEI) in an attempt to find an imaging modality that will provide visualization of residual disease that is not be apparent on MRI or CT scans.

Published

2005

37. In vivo visualization of gold-loaded cells in mice using x-ray computed tomography

Author

Giuliana Tromba, Bernhard H.J. Juurlink, Chris Hall, Elisabeth Schültke, Marco Stebel, Alberto Astolfo, Fulvia Arfelli, Robert D. Kirch, Davide Barbetta, Ralf Hendrik Menk, Laura-Adela Harsan, Astolfo, Alberto, Elisabeth, Schültke, Ralf Hendrik, Menk, Robert D., Kirch, Bernhard H. J., Juurlink, Christopher, Hall, Laura Adela, Harsan, Marco, Stebel, Davide, Barbetta, Giuliana, Tromba, and Arfelli, Fulvia

Subjects

Male, Biodistribution, Materials science, Gold nanoparticle, Monte Carlo method, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), High-resolution imaging, Metal Nanoparticles, Mice, Nude, Bioengineering, Mice, X ray computed, In vivo, Cell Line, Tumor, Gold nanoparticles, Animals, General Materials Science, X-ray computed tomography, Synchrotron radiation, business.industry, Brain Neoplasms, Radiation dose, Brain, Rats, in vivo, Colloidal gold, Molecular Medicine, Tomography, Gold, Nuclear medicine, business, Tomography, X-Ray Computed, Monte Carlo Method, Ex vivo, Biomedical engineering

Abstract

The ability to perform cell tracking using x-ray computed tomography combined with gold nanoparticles has been demonstrated recently on ex vivo samples using different malignant and nonmalignant cell lines. Here we proved the concept of the method for in vivo assessment in a small-animal model of malignant brain tumors. The limitations of the method due to radiation dose constraints were investigated using Monte Carlo simulations. Taking into consideration different x-ray entrance doses and the spatial resolution, the visibility of the cell clusters was evaluated. The results of the experiments conducted on mice implanted with F98 tumor cells confirmed the prediction of the Monte Carlo calculations. Small clusters of cells exogenously loaded with gold nanoparticles could be visualized using our in vivo method.This article discusses the use of CT-based detection of gold nanoparticle loaded cells of interest in small-animal models of malignant brain tumors, where small clusters of cells loaded with gold nanoparticles could be visualized.

Published

2011

38. Quercetin Promotes Functional Recovery Following Acute Spinal Cord Injury

Author

Elisabeth Schültke, E. Kendall, Huse Kamencic, Bernhard H.J. Juurlink, Z. Ghong, and Robert Griebel

Subjects

Male, medicine.medical_treatment, Flavonoid, Pharmacology, Iron chelation, chemistry.chemical_compound, Animals, Medicine, heterocyclic compounds, Rats, Wistar, Saline, Spinal Cord Injuries, chemistry.chemical_classification, business.industry, Laminectomy, Recovery of Function, Spinal cord, Functional recovery, Rats, medicine.anatomical_structure, chemistry, Anesthesia, Acute Disease, Acute spinal cord injury, Quercetin, Neurology (clinical), business

Abstract

We tested the hypothesis that quercetin, a potent Fe(2+)-chelating flavonoid, would decrease secondary damage following spinal cord trauma. MRI studies using the relaxation of the T1 proton signal caused by Fe(2+) ions and the dose-dependent reversal of this effect by addition of quercetin in aqueous solution were used to guide us to the dosage of quercetin to be used in animal experimentations. Forty-four male Wistar rats were used in two experimental series to test the hypothesis that administration of quercetin improves recovery of motor function after acute traumatic spinal cord injury. Animals were subjected to laminectomy and subjected to an extradural 40-g force clip compression for 5 sec at T7. Quercetin or saline was administered intraperitoneally 1 h after injury and then every 12 hr thereafter. Recovery of motor function was assessed using BBB scores at weekly intervals for 4 weeks. A dose of 2.5 micromoles quercetin/kg body weight did not result in significantly better functional outcome, whereas doses ranging from 5 to 100 micromoles quercetin/kg body weight resulted in a significantly better functional outcome with half or more of the animals walking, although with deficit; in contrast, no animals walked in the group of saline-treated animals. No significant differences in behavioral outcome were seen amongst the doses ranging from 5 to 100 micromol/kg, nor was there a difference if animals were treated for 4 or 10 days. Therapeutic outcome was coincident with more efficient iron clearance, suggesting that one possible mechanism whereby quercetin decreases secondary damage is through iron chelation.

Published

2003

39. Transmission of Signals from Rats Receiving High Doses of Microbeam Radiation to Cage Mates: An Inter-Mammal Bystander Effect

Author

Christian Schroll, Elisabeth Schültke, Richard S. Smith, Jennifer Fazzari, Carmel Mothersill, Colin Seymour, Cristian Fernandez-Palomo, Elke Bräuer-Krisch, Jean A. Laissue, McMaster Univ, Med Phys & Appl Radiat Sci Dept, Hamilton, ON L8S 4K1, Canada, Univ Freiburg, Med Ctr, Stereotact Neurosurg & Lab Mol Neurosurg, Freiburg, Germany, European Synchrotron Radiation Facility (ESRF), and Univ Bern, Inst Pathol, CH-3012 Bern, Switzerland

Subjects

Pathology, medicine.medical_specialty, Health, Toxicology and Mutagenesis, medicine.medical_treatment, [SDV]Life Sciences [q-bio], Physiology, Radiation, Toxicology, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine, Bystander effect, High doses, Irradiation, Chemical Health and Safety, Urinary bladder, business.industry, lcsh:RM1-950, Public Health, Environmental and Occupational Health, Microbeam, Articles, 3. Good health, Radiation therapy, lcsh:Therapeutics. Pharmacology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Cage, business

Abstract

International audience; Inter-animal signaling from irradiated to non-irradiated organisms has been demonstrated for whole body irradiated mice and also for fish. The aim of the current study was to look at radiotherapy style limited exposure to part of the body using doses relevant in preclinical therapy. High dose homogenous field irradiation and the use of irradiation in the microbeam radiation therapy mode at the European Synchrotron Radiation Facility (ESRF) at Grenoble was tested by giving high doses to the right brain hemisphere of the rat. The right and left cerebral hemispheres and the urinary bladder were later removed to determine whether abscopal effects could be produced in the animals and also whether effects occurred in cage mates housed with them. The results show strong bystander signal production in the contra-lateral brain hemisphere and weaker effects in the distant bladder of the irradiated rats. Signal strength was similar or greater in each tissue in the cage mates housed for 48hrs with the irradiated rats. Our results support the hypothesis that proximity to an irradiated animal induces signalling changes in an unirradiated partner. If similar signaling occurs between humans, the results could have implications for caregivers and hospital staff treating radiotherapy patients

Published

2014

40. Ludwig Guttmann: Emerging Concept of Rehabilitation after Spinal Cord Injury

Author

Elisabeth Schültke

Subjects

medicine.medical_specialty, Rehabilitation, biology, Athletes, General Neuroscience, medicine.medical_treatment, History, 20th Century, medicine.disease, biology.organism_classification, Social life, Physical medicine and rehabilitation, England, Neurology, History and Philosophy of Science, Germany, medicine, Physical therapy, Humans, Neurology (clinical), Psychology, Spinal cord injury, Spinal Cord Injuries

Abstract

Ludwig Guttmann was a pioneer of the idea of rehabilitation for victims of spinal cord injury. He looked beyond the physical survival of his patients, to their re-integration into a social life worth living. While the International Stoke Mandeville Games are fairly well known to the general public as a gathering for physically handicapped athletes, less is known about the man who helped start the movement. On the occasion of the recent Sydney 2000 Paralympics, this paper reviews the contribution of Ludwig Guttmann, who introduced sport into the life of paralyzed patients.

Published

2001

41. Diffraction-enhanced imaging of a porcine eye

Author

Kenneth Romanchuk, Michael Kelly, Bernhard H.J. Juurlink, R. Cole Beavis, Zhong Zhong, Elisabeth Schültke, Dustin J. Coupal, and L. Dean Chapman

Subjects

genetic structures, Swine, Radiography, Eye, Extraocular muscles, X-Ray Diffraction, Cornea, medicine, Animals, Iris (anatomy), Retina, business.industry, Reproducibility of Results, General Medicine, Anatomy, Refraction, eye diseases, Ophthalmology, medicine.anatomical_structure, Lens (anatomy), Optic nerve, sense organs, business, Synchrotrons, Biomedical engineering

Abstract

Background: Diffraction-enhanced imaging (DEI) is a synchrotron-based x-ray imaging technique that has dramatically improved contrast over standard x-ray imaging techniques. It is possible to acquire images that analyze the x-ray refraction and the apparent absorption (elimination of small-angle scattering) of the object. Methods: Three formalin-fixed porcine eyes were studied at the National Synchrotron Light Source using DEI. Conventional absorption-type radiography was conducted for comparison. Results: Conventional absorption radiography did not yield significant detail of the eye anatomy. DEI showed excellent characterization of many ocular structures. The cornea, iris, lens, retina, optic nerve, as well as choroidal vasculature and the ampullae of the vortex veins could all be visualized. Interpretation: DEI represents a novel, high-resolution imaging technique that has excellent characterization of ocular anatomy. Further application of this imaging modality will be undertaken to study cataract and choroidal tumors and to examine ocular surface structures, such as the extraocular muscle insertions, more closely.

Published

2007

42. Stereotactic planning software for human neurotransplantation: suitability in 22 surgical cases of Huntington's disease

Author

Elisabeth Schültke, Luciano Furlanetti, Guido Nikkhah, Michael Trippel, and William Omar Contreras Lopez

Subjects

Adult, Male, medicine.medical_specialty, Caudate nucleus, Lateralization of brain function, Neurosurgical Procedures, Software, Developmental Neuroscience, Huntington's disease, Fetal Tissue Transplantation, medicine, Humans, Aged, Brain Mapping, business.industry, Brain, Neural transplantation, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Surgery, Transplantation, Huntington Disease, Treatment Outcome, Neurology, Female, Neurology (clinical), Radiology, business, Psychology, Right-to-left

Abstract

Purpose: Intrastriatal neural transplantation using multiple grafts is an experimental approach to the treatment of Huntington’s disease (HD). Brain atrophy makes stereotactic plans in these patients a tedious procedure with a risk of suboptimal spatial distribution of the grafts in transplantation procedures. Here we present a self-developed software to optimize the surgical stereotactic planning for bilateral neurotransplantation procedures. It allows close to symmetrical distribution of the stereotactic coordinates in relation to the mid-commissural point (MCP), proposing automatically the planning coordinates for the first transplanted hemisphere and mirrored coordinates to be used in the contra-lateral hemisphere. Methods: Twenty-two consecutive HD patients underwent bilateral stereotactic striatal transplantation. Two caudate nucleus and four putaminal tracks were planned bilaterally. For the second, contra-lateral transplantation, the coordinates were mirrored in order to determine contralateral targets and trajectories. Intra-individual comparison between software given coordinates and finally used coordinates was performed. Results: No statistical significance was found comparing a) the differences between coordinates proposed by the software and the final coordinates and b) the distribution of the transplantation sites in relation to the midline for the right vs. left hemisphere. No intra- or postoperative transplantation-related adverse events occurred. Conclusions: The use of model-based and mirrored coordinates allowed optimal spatial distribution of the grafts. Minor changes were required comparing right to left coordinates giving proof-of principle. The initial use of the software suggests that it may be useful in experimental transplantation trials where neural cell grafts are to be implanted into predefined target sites in the human brain, whether unilateral or bilateral.

Published

2013

43. Improving MRT image quality in patients with movement disorders

Author

Elisabeth, Schültke, Norbert, Nanko, Marcus, Pinsker, Michael, Katzev, Alexandra, Sebastian, Bernd, Feige, and Guido, Nikkhah

Subjects

Oxygen, Restraint, Physical, Huntington Disease, Image Processing, Computer-Assisted, Masks, Brain, Humans, Electroencephalography, Equipment Design, Magnetic Resonance Imaging, Severity of Illness Index

Abstract

In order to improve image quality in a simultaneous fMRI-EEG study with patients suffering from the involuntary movements typical for Huntington's disease, the aim was to develop a technique for immobilizing the heads of our patients inside an MRI head coil.We modified a mask technique previously used for reliable repositioning in temporally fractionated radiotherapy. The mask was tested in three patients with Huntington's disease, acquiring structural and functional MR images with simultaneous EEG with and without the mask.Image as well as EEG signal quality were significantly improved in patients wearing the mask. However, the image quality with mask was comparable to acquisitions from patients without movement disorders only in patients with light to moderate dyskinesia. Although image quality was also significantly improved in a patient suffering from severe dyskinesia with quasi-continuous involuntary movements, the quality of both the MR images as well as the EEG signal was lower than what would be expected in a healthy control person.We have succeeded in developing a mask that fits into the MRI head coil, does not disturb the MRI signal, and significantly improves both fMRI and EEG signal quality.

Published

2013

44. Single-cell resolution in high-resolution synchrotron X-ray CT imaging with gold nanoparticles

Author

Guido Nikkhah, Alberto Astolfo, Elisabeth Schültke, Bernd R. Pinzer, Fulvia Arfelli, Ralf Menk, Laura-Adela Harsan, Marco Stampanoni, University of Zurich, Schültke, Elisabeth, Menk, Ralf, Pinzer, Bernd, Astolfo, Alberto, Stampanoni, Marco, Arfelli, Fulvia, Harsan, Laura Adela, and Nikkhah, Guido

Subjects

Nuclear and High Energy Physics, medicine.medical_specialty, Materials science, Metal Nanoparticles, 610 Medicine & health, law.invention, 170 Ethics, Synchrotron Radiation, law, In vivo, medicine, Animals, Medical physics, 10237 Institute of Biomedical Engineering, 3106 Nuclear and High Energy Physics, Rats, Wistar, gold nanoparticles, high-resolution imaging, X-Ray Computed Tomography, Single-Cell Analysis, Instrumentation, Radiation, medicine.diagnostic_test, Brain Neoplasms, 3105 Instrumentation, Resolution (electron density), X-ray, Brain, Magnetic resonance imaging, Glioma, Magnetic Resonance Imaging, Synchrotron, Rats, 3108 Radiation, Single-Cell Analysi, Colloidal gold, Tomography, Gold, Tomography, X-Ray Computed, gold nanoparticle, Ex vivo, Synchrotrons, Biomedical engineering

Abstract

Gold nanoparticles are excellent intracellular markers in X-ray imaging. Having shown previously the suitability of gold nanoparticles to detect small groups of cells with the synchrotron-based computed tomography (CT) technique bothex vivoandin vivo, it is now demonstrated that even single-cell resolution can be obtained in the brain at leastex vivo. Working in a small animal model of malignant brain tumour, the image quality obtained with different imaging modalities was compared. To generate the brain tumour, 1 × 105C6 glioma cells were loaded with gold nanoparticles and implanted in the right cerebral hemisphere of an adult rat. Raw data were acquired with absorption X-ray CT followed by a local tomography technique based on synchrotron X-ray absorption yielding single-cell resolution. The reconstructed synchrotron X-ray images were compared with images obtained by small animal magnetic resonance imaging. The presence of gold nanoparticles in the tumour tissue was verified in histological sections.

Published

2013

45. Bystander effects in tumor-free and tumor-bearing rat brains following irradiation by synchrotron X-rays

Author

Richard S. Smith, Elke Bräuer-Krisch, Jean A. Laissue, Carmel Mothersill, Cristian Fernandez-Palomo, Colin Seymour, Jennifer Fazzari, Christian Schroll, and Elisabeth Schültke

Subjects

Pathology, medicine.medical_specialty, Cell Survival, medicine.medical_treatment, Brain tumor, Radiosurgery, Therapeutic index, medicine, Bystander effect, Animals, Radiology, Nuclear Medicine and imaging, Irradiation, Rats, Wistar, Clonogenic assay, Radiological and Ultrasound Technology, business.industry, Chemistry, Brain Neoplasms, X-Rays, Brain, Bystander Effect, Glioma, medicine.disease, Rats, Radiation therapy, Treatment Outcome, Radiotherapy, Conformal, Nuclear medicine, business, Preclinical stage, Synchrotrons

Abstract

Purpose : Synchrotron microbeam radiation therapy (MRT) is a radiosurgery concept in the preclinical stage, developed mainly for brain tumor treatment. Experimental studies suggest that with MRT a better therapeutic index can be obtained than with homogenous fi eld radiotherapy, but the underlying cellular mechanisms need further understanding. The aim of this study was to investigate the dynamics of radiation-induced bystander eff ects (RIBE) in rats after exposing one brain hemisphere to either MRT or homogenous synchrotron radiation (HSR). Materials and methods : Healthy and tumor-bearing Wistar rats were exposed to doses of 17.5, 35, 70 or 350 Gy, applied either as MRT or HSR to the right cerebral hemisphere. Rats were euthanized at 4, 8 and 12 hours after irradiation to assess the release of bystander signals. Brains and urinary bladders were dissected, and explants for bystander clonogenic reporter assays were set up. Results : Clonogenic survival showed that RIBE occurred in both the non-irradiated brain hemisphere and in bladder of normal and tumor-bearing rats, while the irradiated hemisphere showed the direct eff ects of radiation. Conclusion : The RIBE observed in our reporter cells shows that both MRT and HSR yield a demonstrable abscopal eff ect after high doses of irradiation; presumably as part of a systemic response.

Published

2013

46. Improving MRT Image Quality in Patients with Movement Disorders

Author

Michael Katzev, Elisabeth Schültke, Bernd Feige, Alexandra Sebastian, Marcus O. Pinsker, Guido Nikkhah, and Norbert Nanko

Subjects

Involuntary movement, medicine.medical_specialty, Physical medicine and rehabilitation, Movement disorders, genetic structures, Dyskinesia, business.industry, Image quality, medicine, In patient, medicine.symptom, business

Abstract

Objective: In order to improve image quality in a simultaneous fMRI-EEG study with patients suffering from the involuntary movements typical for Huntington’s disease, the aim was to develop a technique for immobilizing the heads of our patients inside an MRI head coil.

Published

2013

47. X-ray cell tracking: from ex-vivo to in-vivo experiments

Author

Fulvia Arfelli, Bernhard H.J. Juurlink, Alberto Astolfo, Elisabeth Schültke, Chris Hall, Ralph H Menk, Astolfo, Alberto, E., Schültke, R. H., Menk, C., Hall, B., Juurlink, and Arfelli, Fulvia

Subjects

medicine.medical_specialty, Materials science, Cell-tracking experiments, Monte Carlo method, Resolution (electron density), X-ray, Synchrotron radiation, Computed radiography, X-ray radiography and digital radiography, Gold Nanoparticles, Tracking (particle physics), Gold Nanoparticle, Beamline, medicine, Medical physics, Instrumentation, Image resolution, Mathematical Physics, Biomedical engineering

Abstract

The capacity to track cells (cell tracking) using x-rays on ex-vivo specimens of both malignant and non-malignant cell lines on small animals has been demonstrated recently. Gold nanoparticles have been used as a cellular contrast agent to render cells visible in x-ray microCT acquisitions. The limits of the technique proposed are basically driven by the imaging system used. Single cell resolution can be achieved using synchrotron radiation in-vitro or ex-vivo samples. Micro-focus x-ray tubes can be used to obtain high resolution cell tracking but with some limitations. However, the translation from ex-vivo to in-vivo experiments is not straightforward. The dose restrictions required for in-vivo longitudinal experiments set severe limitations on the technique. Here we present a detailed investigation showing a significant reduction of x-ray dose for the tracking of brain tumour cells. Monte Carlo simulations have been performed considering different spatial resolutions, photon fluence, number of projections, lesion dimension and cell contrast dilution. The findings are compared with real samples imaged using the same parameters. A pioneering in-vivo experiment conducted at the SYRMEP beamline (Elettra, Basovizza, Italy) is presented here as proof of principle of in-vivo longitudinal x-ray cell tracking experiments on small animals at low x-ray doses.

Published

2013

48. Gold nanoparticle labeling of cells is a sensitive method to investigate cell distribution and migration in animal models of human disease

Author

Chris Hall, Ralf Hendrik Menk, Fulvia Arfelli, Sarah T. Rigley MacDonald, L. Rigon, Elisabeth Schültke, Bernhard H.J. Juurlink, Alberto Astolfo, Adam Round, Khalid Ataelmannan, Menk, R. H., Schültke, E., Hall, C., Arfelli, Fulvia, Astolfo, Alberto, Rigon, Luigi, Round, A., Ataelmannan, K., Macdonald, S. R., and Juurlink, B. H. J.

Subjects

Materials science, Gold nano-particle, Cell, Biomedical Engineering, Metal Nanoparticles, Pharmaceutical Science, Medicine (miscellaneous), Nanoparticle, Bioengineering, Nanotechnology, Cell Line, Human disease, Cell Movement, Cell Line, Tumor, medicine, Animals, Humans, Distribution (pharmacology), General Materials Science, Rats, Wistar, Micrometric bio-distribution, Cells, Cultured, High resolution imaging, Anatomical location, X-ray CT, Staining and Labeling, Synchrotron radiation, Mesenchymal Stem Cells, High cell, Gold nano-particles, X-ray phase contrast, Rats, Disease Models, Animal, medicine.anatomical_structure, Cell Tracking, Cell culture, Colloidal gold, Molecular Medicine, Gold, Tomography, X-Ray Computed, Head, Biomedical engineering

Abstract

The ability to track cells in small-animal models of human disease is important because it gives the potential to improve our understanding of the processes of disease progression as well as our understanding of the therapeutic effects of interventions. In this study gold nanoparticles have been used as a permanent marker of implanted normal and malignant cell grafts in combination with a suitable x-ray apparatus. Using x-ray computed tomography the micrometric three-dimensional distribution of these marked cells could be displayed with penetration depth, high cell sensitivity and high spatial resolution in rodent models of human diseases. In principle the method allows quantification of cell numbers at any anatomical location over time in small animals. From the Clinical Editor: In this paper, a gold nanoparticle based cell labeling method is presented for in vivo cell tracking via micro-CT. Although a tumor model is shown in this pilot experiment, the method can theoretically be utilized in cell labeling experiments of any kind.

Published

2011

49. Monitoring the Effects of Cisplatin Uptake in Rat Glioma Cells: A Preliminary Study Using Fourier Transform Infrared Synchrotron Microspectroscopy

Author

Keith R. Bambery, Elisabeth Schültke, T May, Bayden R. Wood, Bernhard H.J. Juurlink, and Donald McNaughton

Subjects

Cisplatin, DNA synthesis, Chemistry, Context (language use), medicine.disease, Synchrotron, law.invention, symbols.namesake, Fourier transform, law, Glioma, Cancer research, medicine, symbols, Cytotoxic T cell, In patient, Biomedical engineering, medicine.drug

Abstract

There is a need for a rapid chemosensitive test to select the most appropriate drug and optimal dose to cause cytotoxic activity for screening of potential anticancer agents in patients. In this context a number of tests are currently available including the measurement of DNA synthesis by [3H]thymi...

Published

2010

50. Quercetin administration after spinal cord trauma changes S-100 levels

Author

Robert Griebel, Elisabeth Schültke, and Bernhard H.J. Juurlink

Subjects

Gynecology, Male, medicine.medical_specialty, Time Factors, Spinal Cord Trauma, business.industry, S100 Proteins, General Medicine, S100 Calcium Binding Protein beta Subunit, Antioxidants, Rats, Disease Models, Animal, Neurology, Gene Expression Regulation, Spinal Cord, medicine, Animals, Quercetin, Neurology (clinical), Nerve Growth Factors, Rats, Wistar, business, Spinal Cord Injuries

Abstract

Contexte: Des travaux anterieurs ont demontre que les niveaux de S-100β du serum correspondent a la severite du traumatisme au niveau du systeme nerveux central (SNC) et il est possible que le S-100β joue un role dans la neuroprotection et la neuroregeneration du SNC. Nous avons demontre anterieurement que l'administration de quercetine ameliore la fonction motrice chez un modele animal de traumatisme de la moelle epiniere. Methodes: Des rats Wistar mâles adultes ont ete soumis a un traumatisme par compression de la moelle epiniere au niveau thoracique moyen. Des echantillons de serum et de tissus ont ete preleves chez des animaux traites par la quercetine (25 μmol/kg) et chez des animaux temoins qui ont recu du salin 6, 12 et 24 heures apres le traumatisme. Les niveaux de S-100β dans le tissu lese et dans le serum des animaux ont ete mesures au moyen d'une epreuve luminometrique. Resultats: Au moment de tous les prelevements, l'augmentation du niveau de S-100(3 observee chez les temoins apres un traumatisme a la moelle epiniere etait plus faible que chez les animaux traites par la quercetine, bien que la difference par rapport aux temoins qui ont recu du salin n'ait ete significative au point de vue statistique que lors du prelevement fait 24 heures apres le traumatisme. Les valeurs etaient significativement plus faibles chez les temoins traites par le salin au moment de chacun des trois prelevements et ils etaient diminues lors du prelevement fait 6 heures apres le traumatisme et augmentes lors de ceux faits 12 et 24 heures apres chez les animaux traites par la quercetine par rapport aux niveaux de S-100β chez des animaux en sante. Les niveaux de S-100β etaient significativement plus eleves dans les tissus des animaux traites par la quercetine lors de chacun des trois prelevements que chez les temoins qui ont recu du salin. Conclusions: L'administration de quercetine a produit des modifications des niveaux de S-100β apres un traumatisme experimental de la moelle epiniere. La cinetique des fluctuations du S-100β dans le serum et le tissu suggere que l'administration post-traumatique de quercetine diminue l'ampleur de la lesion du SNC.

Published

2010