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Studies of stroke in experimental animals have demonstrated the neuroprotective efficacy of a variety of interventions; however, most such strategies have failed to show clinical benefits in aged humans. One possible explanation for this discrepancy between animal and clinical studies may be the role that age plays in the recovery of the brain following insult. For example, the poor functional recovery of aged rats after stroke may be caused by a decline in brain plasticity. Although the incidence of ischemic stroke increases dramatically with advancing age, relatively few studies have been conducted on aged animals, which would mimic most closely the context in which stroke occurs in humans. We have shown that, at one week following stroke, there was vigorous expression of MAP1B and its mRNA, as well as MAP2 protein, in the border zone adjacent to the infarct of 3 month- and 20 month-old male Sprague Dawley rats. Hypothesis: The decline in brain plasticity is caused by an age-related decline in the upregulation of factors promoting brain plasticity (MAP1B, ßAPP) and an age-related increase in astroglial scaring and in the expression of neurotoxins such as beta amyloid. Methods: Focal cerebral ischemia was produced by reversible occlusion of the right middle cerebral artery in 3- and 20-month-old male Sprague Dawley rats. The functional outcome was assessed in neurobehavioral tests at 3, 7, 14, and 28 days post-stroke. At these time points, brains were removed and analyzed for markers of (i) brain plasticity (microtubule-associated protein 1B, MAP1B, secreted forms of fi-amyloid precursor protein); (ii) neurogenesis (BrdU-positive cells, doublecortin, nestin); (iii) neurotoxicity (B-amyloid aggregates); (iv) inflammation (microglia, astrocytes, oligodendrocytes, endothelial cells). Results: (1) There was a non-significant tendency for blood pressure to be higher in old than in young rats. By post-stroke day 3 the infarct volume covered about 15% of the cortical neurons in young and 28% in aged rats. By day 7, infarct volumes were roughly equal in the two age groups. (2) Cell counting showed increases in the number of BrdU-positive cells in the infarcted area of old rats at day 3 post-stroke. This increase became even more dramatic at day 7 post-stroke in aged rats. There was no significant contribution of apoptosis to cell death. (3) Behaviorally, young rats recovered gradually and reached a maximum of 90% of baseline performance at day 14, post-stroke while the aged rats recovered only to a maximum of 70% of pre-surgery performance by week 2 post-stroke, and remained at that level. (4) The temporal pattern of recovery correlated well with the expression of growth-associated phenotype of ßAPP as well as with MAP1B accumulation in varicosities along axons (an indicator of growth) in cortical areas affected by stroke and was at maximum between days 14 to 28 in young rats. In contrast, aged rats showed delayed (day 28) and reduced axonal remodelling as well as a delayed (day 28) expression of growth-associated ßAPP. Instead, the neurotoxic carboxy-terminal form of ßAPP steadily accumulated over time and reached a maximum at day 14 in aged rats as compared to 28d for the young rats. Nestin, a marker for immature neurons, overlapped with BrdU-labelled cells at day 7 post-stroke in corpus callosum and at the infarct border in both young and aged rats, suggesting increased stroke-induced neurogenesis. (5) In young rats there was a gradual activation of both microglia and astrocytes that peaked by days 14 to 28 with the formation of a glial scar. In contrast, aged rats showed an accelerated astrocytic and microglial reaction that peaked in week 1 post-stroke. We also noted a strong activation of oligodendrocytes at early stages of infarct development in all rats that persisted in aged rats. Evolution of astrocytic and microglial reactivity closely paralled the time course of scar formation in both young and aged rats and coincided with the stagnation in the recovery rate of aged rats. Conclusions: The time course of functional recovery in young rats correlated well with the expression of plasticity proteins such as MAP1B and ßAPP while an early and persistent expression of the neuro toxic fragment AB in conjunction with a delayed expression of MAP1B and ßAPP may impede functional recovery in aged rats. The results also suggest that a temporally anomalous glial reaction to cerebral ischemia in aged rats leads to the premature formation of scar tissue that impedes functional recovery to stroke.
Within the scope of this work, a versatile large linear magnetised plasma experiment was designed, constructed, and subsequently put into operation. The magnetised plasma was used to investigate the dispersion of whistler waves (circular polarised electromagnetic waves) with regard to the influence of the plasma boundaries. After a brief review over electromagnetic plasma waves and the three discharge modes of a helicon source, the experimental device and the diagnostic tools are explained in detail. Great attention is devoted to the identification of a reliable, calibrated magnetic fluctuation probe design. To the understanding of dynamical phenomena in ionospheric plasmas, whistler wave measurements in laboratory experiments may contribute significantly because of the ability to vary plasma parameters and to do measurements with high spatial and temporal resolution. However, the boundaries of laboratory experiments change the dispersion behaviour of whistler waves significantly if compared to the unbounded ionospheric situation. The influence of the plasma boundary is studied in the present work on three different levels of increasing complexity. First, a high density, small wavelength regime is established to make the effect of the boundary negligible. Measurements are in full agreement with whistler wave theory for unbounded plasma geometry. Measurements below the ion cyclotron frequency reveal the strong influence of the ion dynamics on whistler wave propagation, but are not straightforward to interpret in terms of dispersion theory. Second, the other limit case is examined: bounded plasma helicon modes. These waves are, mathematically speaking, eigenfunctions of the plasma-boundary system and are of great practical importance for high density plasma discharges, the helicon source. Careful measurements of the equilibrium plasma parameters as well as the magnetic fluctuation profiles of the helicon source are done in all three modes of operation, the capacitive, inductive, and helicon wave sustained mode. The first two modes are fairly well understood and the measurements are consistent with existing models. The high density helicon mode, however, is still a scientific case. The measurements partially confirm existing assumptions. It is demonstrated that the plasma production is detached from the antenna edge region. Moreover, it is shown that the plasma parameters are self-consistently determined by the antenna geometry and the discharge parameters according to basic helicon wave theory. Finally, it is ruled out that the plasma density is the control parameter determining the transition point into the high density helicon mode. The measurements rather suggest that the rf power density is the important value. As a third aspect, whistler waves in an intermediate wavelength regime are studied and the transition from unbounded to bounded plasma wave dispersion is systematically investigated. It is shown both experimentally and numerically that the wave dispersion in a plasma filled metal waveguide cannot be determined solely from wave vector measurements parallel to the magnetic field. For a correct description, the perpendicular mode profile has to be correctly taken into account. In contrast to simple helicon wave theory, it is demonstrated that the perpendicular mode profile is not only determined by the conducting vessel boundaries alone but the entire plasma-boundary system has to be considered as a unity. To summarise, this work has contributed to a better understanding of the physics of the propagation of whistler waves, where the particular role of metal boundaries acting as wave guides was highlighted. This basic science approach to the waves' dynamics is believed to be of significance in the course of the scientific debate on the physics principles of helicon discharges.
Low-pressure plasmas offer a unique possibility of confinement, control and
fine tailoring of particle properties. Hence, dusty plasmas have grown
into a vast field and new applications of plasma-processed dust particles
are emerging. There is demand for particles with special properties and
for particle-seeded composite materials. For example, the stability of
luminophore particles could be improved by coating with protective Al2O3
films which are deposited by a PECVD process using a metal-organic precursor gas.
Alternatively, the interaction between plasma and injected micro-disperse powder
particles can also be used as a diagnostic tool for the study of plasma surface
processes. Two examples will be provided: the interaction of micro-sized (SiO2)
grains confined in a radiofrequency plasma with an external ion beam as well as
the effect of a dc-magnetron discharge on confined particles during deposition
have been investigated.
Until today most social, historical and cultural studies of the American postwar era have contributed to the myth of a relatively homogeneous society and culture. Even though they understood these years as a turning point for modern American society, they failed to encompass the polyvalence and heterogeneity of American society. Focussing mostly on white and middle class males, these studies formed a onedimensional picture of sociocultural conformity, a picture in which issues of gender, race and class were largely absent. Crossing the boundaries of feminist, cultural and historical studies this dissertation starts from identifying the gaps and problems in current academic research. Those sociopolitical structures that affected non-white women are then juxtaposed with the dominant postwar discourse of womanhood. The literary texts by women of color show them grappling with the conflicting demands of socioecnomic realities and pervasive role definitions. On the surface these literary interventions seemed to submit to dominant ideologies while opposing them at the same time. Thus they are both anticipatory and antagonistic. The dissent and criticism in writings by women of color seem to have become a catalyst for the deep social transformations in the following decades.
Serbian Tertiary ultrapotassic province is part of widespread but not voluminous basaltic magmatism in Serbia. Two principal groups of ultrapotassic rocks are recognized; the lamproite affinity group (LAG) and the kamafugite affinity group (KAG). My results demonstrate three dominant low-pressure evolutional processes: magma mixing and fractional crystallization, analcimization and heteromorphism. The two suites of ultrapotassic rocks show large ranges of Sr and Nd isotopic values but a restricted variation of Pb isotopes. LAG is characterized by wide ranges of Sr and Nd isotopes (87Sr/86Sri 0.70735- 0.71299, 143Nd/144Ndi 0.51251-0.51216). KAG is isotopically homogeneous with a limited range of Sr-Nd isotopes (87Sr/86Sri 0.70599-0.70674, 143Nd/144Ndi 0.51263-0.51256). The Pb isotope compositions of both groups are similar (206Pb/204Pb 18.581-18.832, 207Pb/204Pb 15.624-15.696 and 208Pb/204Pb 38.744-38.987), and fall within the pelagic sediment field resembling Mesozoic flysch sediments from the Vardar ophiolitic composite suture zone. Highly variable Sr and Nd isotopic signatures of primitive-LAG rocks correlate with REE fractionation and enrichment of the HFSE. I explain this correlation using vein+wall-rock melting model, invoking the presence of different metasomatic domains (veins with phlogopite, Cpx and F-apatite) that are out of isotopic equilibrium with the peridotite wall rock. Relatively uniform Sr and Nd isotopic data of KAG rocks, similar trace element patterns and small but regular variations of HFSE ratios, indicate different degrees of melting of a relatively homogeneously metasomatized mantle source. Geochemical modelling implies the role of phlogopite, apatite and Ti-oxide in their mantle source.
Challenge of immunized mice with H. pylori induces protective gastric inflammation that is histologically indistinguishable from chronic H. pylori-associated gastritis in non-immune mice. To identify mechanisms of protective immunity gene expression in the gastric tissue from infected mice and mice vaccinated prior to challenge was compared by DNA array analysis. Message RNA was used to screen over 10,000 murine genes. Major Histocompatibility Complex antigens and IFN-γ dependent GTP binding proteins were strongly upregulated in both infected and immunized/challenged mice compared to naive controls. Differences in gene expression were also observed in novel T cell genes, which were exclusively upregulated in immunized/challenged mice. Both IFN I and II associated genes like the IFN-a/ßreceptor or IFN dependent transcription factors mIRF-1 and ISGF3 were also predominantly expressed in this group. These results were confirmed for several candidate genes by semi-quantitative RT-PCR. Additionally, H. pylori-stimulation of CD4+ T cells from immune mice induced significantly more IFN-γ production than stimulation of cells from infected mice. The present study provides evidence that the inflammatory infiltrate that arises in the gastric mucosa when immunized mice are challenged with H. pylori is associated with specific T cells sets and protein families that are distinct from those present in Helicobacter-associated chronic inflammation. Gene array profiles and in vitro assays indicate that immunized mice are more readily poised than infected mice to promote IFN-γ production and IFN related events and thus promote a strong proinflammatory THi response. This study supports recent findings that an immune response dominated by THi cytokines is essential for protection from H. pylori infection. This insight could facilitate the choice of the appropriate adjuvants for the development of vaccines against H. pylori, which are efficient and safe for use in humans. The mechanisms by which THi cells induce protective immunity or reduce Helicobacter colonization remain poorly understood and will be subject of future research.
Two main aspects concerning drift wave dynamics in linear, magnetized plasma devices are addressed in the work: In part I of the thesis, drift waves are studied in a helicon plasma. The plasma parameter regime is characterized by comparably high collision frequencies and comparably high plasma-p exceeding the electron-ion mass ratio. Single Langmuir probes and a poloidal probe array are used for spatiotemporal studies of drift waves as well as for characterization of background plasma parameters. The main goals are the identification of a low-frequency instability and its major destabilization mechanisms. All experimentally observed features of the instability were found to be consistent with drift waves. A new code, based on a non-local cylindrical linear model for the drift wave dispersion, was used to gain more insight into the dominating destabilzation mechanisms, and also into dependencies of mode frequencies and growth rates on different parameters. In the experiment and in the numerical model, poloidal mode structures were found to be sheared. Part II of the thesis reports about mode-selective spatiotemporal synchronization of drift wave dynamics in a low-P plasma. Active control of the fluctuations is achieved by driving a preselected drift mode to the expense of other modes and broadband turbulence. It is demonstrated that only if a resonance between the driver signal and the drift waves in both space and time is reached, the driver has a strong influence on the drift wave dynamics. The synchronization effect is qualitatively well reproduced in a numerical simulation based on a Hasegawa-Wakatani model.