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Interaction of age with physiological determinants of the ischaemic penumbra and its outcome in acute strokeAgarwal, Smriti January 2014 (has links)
No description available.
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Eclipses and penumbraBeyer, Day McMaster 01 January 2019 (has links)
“Eclipses” orchestrates the movements of human beings as celestial bodies—as wandering beings that emit waves, cycle in orbit, and create shadows. Subtle microtonal movements, or retunings of the same pitch, tell the story of gradual planetary motion leading to the drama of the eclipse. In the dimmed light of a solar eclipse, even the most familiar surroundings seem unfamiliar and strange.
The harmonic material of “Eclipses” was composed using the Rainbow Harmony Matrix, a MaxMSP-based mouse and keyboard interface designed for real-time interaction with a 2D colorized pitch space defined by Just Intonation ratios. The most difficult coding in this patch was completed thanks to the generous help of Jean-François Charles. The spatialization and color-coding of Just Intonation pitches provided by the Rainbow Harmony Matrix proved invaluable to organizing harmonic and melodic material. Elements of rhythm, timbre, and articulation were largely left to the ear’s intuition.
“Penumbra” magnifies the shadow cast when one celestial body partially obscures the light from another. Moments from “Eclipses” are revisited through a telescopic lens, such that the small whole number relations hiding in the harmonies are magnified, into the field of rhythm. Small gestures orbit each other in wandering motion, building a web of cause and effect.
The harmonic material from “Penumbra” is extracted from two chords occurring in measures 41-43 of “Eclipses.” The small whole number frequency ratios governing the cross-relations of these two chords are magnified and modified to create polyrhythms that cycle over several minutes.
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Spectropolarimetry of sunspot penumbrae / Spectropolarimetry of sunspot penumbraeBello González, Nazaret 15 June 2006 (has links)
No description available.
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Mechanische Rekanalisation bei akutem ischämischen Schlaganfall durch Aspirationsthrombektomie mit dem Penumbra System / Mechanical recanalization in acute ischemic stroke by aspiration thrombectomy with the Penumbra SystemKreusch, Andreas 04 June 2013 (has links)
HINTERGRUND UND ZWECK: Das Penumbra System ist ein innovatives, neuartiges mechanisches Instrument für die Rekanalisierung von langstreckigen Gefäßverschlüssen der Hirnarterien durch Thrombus-Aspiration. Zweck dieser Studie ist die Beurteilung der Effektivität der Gefäßrekanalisation und des neurologischen Endergebnisses von Patienten, die infolge eines akuten ischämischen Schlaganfalls mit dem Penumbra System therapiert wurden.
MATERIAL UND METHODEN: Insgesamt 91 Patienten mit akutem ischämischen Schlaganfall aufgrund eines Verschlusses hirnversorgender Arterien wurden mit dem Penumbra System behandelt und in diese retrospektive Studie aufgenommen. In 14 Fällen kam dabei allein das Penumbra System zum Einsatz, bei weiteren 77 Patienten wurde die mechanische Rekanalisation mit intraarterieller und/oder intravenöser Thrombolyse kombiniert. Das klinische Endergebnis wurde anhand des modified Rankin Scale (mRS) bewertet; die Rekanalisation wurde mit dem Thrombolysis in Cerebral Infarction Score (TICI Score) beurteilt.
ERGEBNISSE: Das durchschnittliche Patientenalter betrug 62 ± 19,4 Jahre; der mittlere NIH Stroke Scale (NIHSS) bei Krankenhausaufnahme war 17. Eine erfolgreiche Rekanalisation konnte bei 77 % der Patienten erreicht werden. Durchschnittlich vergingen 49 Minuten von arterieller Punktion bis zur Gefäßrekanalisation (Quartillen 31 - 86). In der Verlaufskontrolle zeigten 36 % der Patienten eine NIHSS-Verbesserung von ≥ 10 Punkten und 34 % der Patienten mit einem Verschluss in der vorderen Zirkulation hatten einen mRS ≥ 2, während nur 7 % der Patienten mit einem Gefäßverschluss in der hinteren Zirkulation ein gutes Endergebnis im Nachbeobachtungszeitraum vorwiesen. Insgesamt 20 Patienten verstarben während des Krankenhausaufenthaltes; kein Todesfall war auf den Einsatz des Penumbra Systems zurückzuführen.
FAZIT: Zusammenfassend bestätigen die in dieser Arbeit dargestellten Ergebnisse einer retrospektiven Single-Center-Studie die Effektivität des Penumbra Systems für die mechanische Rekanalisation von ischämischen Schlaganfallpatienten. Eine erfolgreiche und schnelle Rekanalisation mithilfe des Penumbra Systems ist dabei assoziiert mit einer signifikanten Verbesserung des funktionellen-klinischen Endergebnisses bei Patienten mit akutem ischämischen Schlaganfall aufgrund eines Gefäßverschlusses der hirnversorgenden Gefäße.Der erweiterte klinische Nutzen der mechanischen Thrombektomie, im Vergleich zur medikamentösen Standardtherapie, muss in der Zukunft durch eine prospektive, randomisierte und kontrollierte Studie belegt werden.
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Design, Aufbau und Inbetriebnahme eines Bestrahlungsplatzes mit aktiver dreidimensionaler Aufbereitung des ProtonenstrahlsSeidel, Sophie 30 May 2022 (has links)
Seit 1998 werden am Helmholtz-Zentrum Berlin für Materialien und Energie
GmbH (HZB) in Kooperation mit der Charité-Universitätsmedizin Berlin Augentumore
mit Protonen bestrahlt. Dazu beschleunigt ein Zyklotron, welches hauptsächlich für die Therapie genutzt wird, die Protonen auf eine Energie von 68MeV. Neben dem Therapieplatz existiert auch ein Experimentierplatz zu Forschungszwecken. Die Strahlaufbereitung erfolgt in beiden Anwendungsgebieten primär durch passives Aufstreuen des Strahls mit einer einzelnen Streufolie. Dies führt jedoch zu erheblichen Strahlverlusten, die die erreichbare Strahlintensität bzw. Dosisleistung im Feld limitieren. Ziel dieser Arbeit ist es, einen Bestrahlungsplatz mit aktiver, dreidimensionaler Strahlführung aufzubauen, um eine möglichst effiziente Strahlstromnutzung zu ermöglichen und flexibel auf Anforderungen an das Bestrahlungsfeld eingehen zu können. Zu diesem Zweck wurde ein Modell entwickelt, welches unter Berücksichtigung verschiedener Parameter der Messgeometrie, Strahlcharakteristik und Felderzeugung Strahlprofile berechnet. Dieses Modell wurde im Vergleich mit Monte-Carlo Simulationen und Messungen getestet und verifiziert. Anschließend konnten Untersuchungen zur Positionierung der verwendeten Komponenten durchgeführt sowie deren Einflüsse auf Penumbra, Homogenität und Transmission der Strahlfelder analysiert werden. Es zeigte sich, dass die hohen klinischen Anforderungen für die Anwendung in der Augentumortherapie am HZB erfüllt werden können, sofern stärkere Magnetspulen verwendet werden. Mit Hilfe des Modells wurden für einen optimierten Aufbau Strahlprofile berechnet und charakterisiert. Es konnte so gezeigt werden, dass unter diesen optimierten Bedingungen eine Anwendbarkeit des aktiven Systems in der Augentumortherapie möglich ist. Des Weiteren wurde im Verlauf dieser Arbeit ein statischer Modulator für den Bestrahlungsplatz am HZB entwickelt, mit Hilfe eines 3D-Druckers hergestellt und erfolgreich getestet. / Since 1998, ocular tumours have been irradiated with protons at the Helmholtz-
Zentrum Berlin für Materialien und Energie GmbH (HZB) in cooperation with
Charité-Universitätsmedizin Berlin. For this purpose a cyclotron is operated which accelerates protons to an energy of 68MeV and is mainly used for therapy purposes. In addition to the therapy station there is also an experimental station for research purposes. In both application areas, beam delivery is primarily achieved by passive scattering using a single scattering foil. However, this leads to considerable beam losses, which in turn limit the maximum beam intensity or dose rate in the irradiation field. The aim of this work is to construct an irradiation setup with active three-dimensional beam delivery in order to enable the most efficient possible use of beam current and to be able to respond flexibly to different irradiation field requirements. Therefore, a model was developed which calculates beam profiles taking into account various parameters of the measurement geometry, beam characteristics and field generation. This model was tested and verified in comparison with Monte Carlo simulations and measurements. Subsequently investigations into the positioning of the components used could be carried out and their influences on penumbra, homogeneity and transmission of the beam fields analysed. It was found that the high clinical requirements in terms of maximum penumbra and field homogeneity for the application in eye tumour therapy at HZB can be met if stronger magnetic coils were used. Model calculations were used to calculate and characterize different beam profiles for an optimized setup. It could be shown that under these optimized conditions an applicability of the active system in eye tumour therapy is possible. Furthermore, a static modulator for the irradiation site at HZB was developed in the course of this work, manufactured using a 3D printer and successfully tested.
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Computed Tomography Perfusion Imaging In Acute Ischemic Stroke: Do The Benefits Outweigh The Costs?Willows, Brooke 25 May 2017 (has links)
A Thesis submitted to The University of Arizona College of Medicine - Phoenix in partial fulfillment of the requirements for the Degree of Doctor of Medicine. / Current stroke imaging protocol at Barrow Neurological Institute calls for a noncontrast computed tomography (NCCT), a computed tomography angiography (CTA), and a computed tomography perfusion (CTP) at the time of presentation to the emergency department (ED), and follow up imaging includes magnetic resonance diffusion weighted imaging (MR‐DWI). This information is used to determine the appropriateness and safety of tissue plasminogen activator (tPA) administration. Previous studies have shown the risk for post‐tPA hemorrhagic conversion rises significantly as the size of the infarct core increases. Thus, it is of great importance to have an accurate method of measuring core infarct size in patients presenting with acute ischemic stroke. The purpose of our study is to determine if CTP correctly identifies the infarct core and if post‐tPA hemorrhagic conversion is related to the size of the infarct core and/or the accuracy of CTP in identifying the infarct core. The ultimate goal is to improve patient outcomes by decreasing the morbidity and mortality associated with tPA administration. This study is a retrospective chart review of all patients who presented to the ED during a one year period with signs and symptoms of acute ischemic stroke who then subsequently received tPA. Imaging was also reviewed, including the NCCT, CTA, CTP, and MRDWI for each patient. In this study, MR‐DWI is used as the gold standard for determining the presence or absence of an infarct core. CTP and MR‐DWI are in agreement of the presence of an infarct core in 7 patients, or 10 percent of the time. Similarly, CTP and MR‐DWI are in agreement of the absence of an infarct core in 31 patients, or 44 percent of the time. In the other 32 patients, CTP and MR‐DWI are in disagreement. The percent correlation between CTP and MR‐DWI was found to be 24 percent with a p‐value < 0.05. As for post‐tPA hemorrhagic conversion, 12 percent of patients had hemorrhagic conversion, and when the hemorrhage rate was compared to the size of the infarct core, the odds of post‐tPA hemorrhagic conversion were 56 times higher in the group of patients with infarct cores larger than one‐third of a vascular territory than in patients with smaller infarct cores with a p‐value < 0.001. Although no significant correlation was found between the accuracy of CTP data and the rate of post‐tPA hemorrhagic conversion, patients with concordant CTP and MR data had a 46% lower likelihood of post‐tPA hemorrhagic conversion than did patients with contradictory CTP and MR‐DWI data. Conclusion: Because patients with infarct cores larger than one‐third of a vascular territory are 56 times more likely to hemorrhage than patients with smaller infarct cores and CTP is less accurate than MR‐DWI in identifying the infarct core in patients presenting with acute ischemic stroke, CTP studies should not be part of the acute stroke imaging protocol. Another imaging modality, such as MR‐DWI, may be preferential in the setting of acute ischemic stroke to identify the infarct core.
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Cerebral ischemia studied with positron emission tomography and microdialysisFrykholm, Peter January 2002 (has links)
<p>Stroke is the third leading cause of morbidity and mortality in the industrialized world. Subarachnoid hemorrhage (SAH), the least common form of stroke, is one of the most demanding diseases treated in neurointensive care units. Cerebral ischemia may develop rapidly, and has a major influence on outcome.To be able to save parts of the brain that are at risk for ischemic brain damage, there is a need for reliable monitoring techniques. Understanding the pathophysiology of cerebral ischemia is a prerequisite both for the correct treatment of these diseases and for the development of new monitoring techniques and treatment modalities. The main aim of this thesis was to gain insight into the mechanisms of cerebral ischemia by studying early hemodynamic and metabolic changes with positron emission tomography and neurochemical changes with microdialysis. A secondary aim was to evaluate the potential of these techniques for detecting ischemia and predicting the degree of reversibility of ischemic changes.</p><p>Early changes in cerebral blood flow (CBF) and metabolism (CMRO<sub>2</sub>) were studied with repeated positron emission tomography in an experimental model (MCAO) of transient focal ischemia, and in SAH patients. CMRO<sub>2</sub> was superior to CBF in discriminating between tissue with irreversible damage and tissue with the potential for survival in the experimental model. A metabolic threshold of ischemia was found. Neurochemical changes in the ischemic regions were studied simultaneously with microdialysis. Extracellular concentrations of glucose, lactate, hypoxanthine, glutamate and glycerol were measured, and the lactate/pyruvate (LP) and lactate/glucose ratios were calculated. Changes in all the microdialysis parameters were related to the degree of ischemia (severe ischemia or penumbra). Especially the LP ratio and glycerol were found to be robust and specific markers of ischemia. In the patients, hemodynamic and metabolic changes were common, but diverse in the acute phase of SAH, and it was suggested that these changes may contribute to an increased vulnerability for secondary events and the development of secondary ischemic brain damage.</p>
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Cerebral ischemia studied with positron emission tomography and microdialysisFrykholm, Peter January 2002 (has links)
Stroke is the third leading cause of morbidity and mortality in the industrialized world. Subarachnoid hemorrhage (SAH), the least common form of stroke, is one of the most demanding diseases treated in neurointensive care units. Cerebral ischemia may develop rapidly, and has a major influence on outcome.To be able to save parts of the brain that are at risk for ischemic brain damage, there is a need for reliable monitoring techniques. Understanding the pathophysiology of cerebral ischemia is a prerequisite both for the correct treatment of these diseases and for the development of new monitoring techniques and treatment modalities. The main aim of this thesis was to gain insight into the mechanisms of cerebral ischemia by studying early hemodynamic and metabolic changes with positron emission tomography and neurochemical changes with microdialysis. A secondary aim was to evaluate the potential of these techniques for detecting ischemia and predicting the degree of reversibility of ischemic changes. Early changes in cerebral blood flow (CBF) and metabolism (CMRO2) were studied with repeated positron emission tomography in an experimental model (MCAO) of transient focal ischemia, and in SAH patients. CMRO2 was superior to CBF in discriminating between tissue with irreversible damage and tissue with the potential for survival in the experimental model. A metabolic threshold of ischemia was found. Neurochemical changes in the ischemic regions were studied simultaneously with microdialysis. Extracellular concentrations of glucose, lactate, hypoxanthine, glutamate and glycerol were measured, and the lactate/pyruvate (LP) and lactate/glucose ratios were calculated. Changes in all the microdialysis parameters were related to the degree of ischemia (severe ischemia or penumbra). Especially the LP ratio and glycerol were found to be robust and specific markers of ischemia. In the patients, hemodynamic and metabolic changes were common, but diverse in the acute phase of SAH, and it was suggested that these changes may contribute to an increased vulnerability for secondary events and the development of secondary ischemic brain damage.
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Contour Collimation Systems to be Used for Murine IrradiationUhlemeyer, James Richard 03 October 2013 (has links)
Three collimators were designed and built with mouse irradiation in mind. They were made to have a shapeable aperture that could deliver strange or complex dose shapes to spots on the animals. Current collimators are either custom-built, expensive, or only provide limited dose shapes. These provide self-customizable collimation at a minimum of cost.
A mouse holder was also devised to reproducibly hold a mouse under the collimator. Construction of the holder and of each collimator is also covered. Each collimator was analyzed for flaws, holes, and penumbral width across various shapes of interest. A Norelco MG300 X-ray generator at the Texas A&M Nuclear Science Center was used in these tests.
The lead collimator had a radial penumbra of 1.2 mm. The clay / lead shot collimator had a radial penumbra of 1.6 mm. The brass collimator had a radial penumbra of 1.75 mm. Vertical and horizontal penumbras are dependent on distance from the center of the beam. All readings are + 0.3 mm according to the resolution of the scanner used in this experiment. Each collimator is useful for different purposes.
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Three-dimensional mapping of fine structure in the solar atmosphereHenriques, Vasco M. J. January 2013 (has links)
The effects on image formation through a tilted interference filter in a converging beam are investigated and an adequate compensation procedure is established. A method that compensates for small-scale seeing distortions is also developed with the aim of co-aligning non-simultaneous solar images from different passbands. These techniques are applied to data acquired with a narrow tiltable filter at the Swedish 1-meter Solar Telescope. Tilting provides a way to scan the wing of the Ca II H line. The resulting images are used to map the temperature stratification and vertical temperature gradients in a solar active region containing a sunspot at a resolution approaching 0''10. The data are compared with hydro-dynamical quiet sun models and magneto-hydrodynamic models of plage. The comparison gives credence to the observational techniques, the analysis methods, and the simulations. Vertical temperature gradients are lower in magnetic structures than in non-magnetic. Line-of-sight velocities and magnetic field properties in the penumbra of the same sunspot are estimated using the CRISP imaging spectropolarimeter and straylight compensation adequate for the data. These reveal a pattern of upflows and downflows throughout the entire penumbra including the interior penumbra. A correlation with intensity positively identifies these flows as convective in origin. The vertical convective signatures are observed everywhere, but the horizontal Evershed flow is observed to be confined to areas of nearly horizontal magnetic field. The relation between temperature gradient and total circular polarization in magnetically sensitive lines is investigated in different structures of the penumbra. Penumbral dark cores are prominent in total circular polarization and temperature gradient maps. These become longer and more contiguous with increasing height. Dark fibril structures over bright regions are observed in the Ca II H line core, above both the umbra and penumbra. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 3: Manuscript.</p>
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