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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

On the pathophysiology of idiopathic adult hydrosephalus syndrome : energy metabolism, protein patterns, and intracranial pressure

Ågren Wilsson, Aina January 2005 (has links)
The symptoms in Idiopathic Adult Hydrocephalus Syndrome (IAHS) – gait disturbance, incontinence, and cognitive deficit – correlate anatomically to neuronal dysfunction in periventricular white matter. The pathophysiology is considered to include a cerebrospinal fluid (CSF) hydrodynamic disturbance, including pressure oscillations (“B waves”), in combination with cerebrovascular disease. IAHS and Subcortical Arteriosclerotic Encephalopathy (SAE) show clinical similarities, which constitutes a diagnostic problem. The aim of this thesis was to investigate biochemical markers in CSF, possibly related to the pathophysiology, and their usefulness in diagnosis, to investigate the effect of ICP changes on glucose supply and metabolism in periventricular deep white matter, and to present criteria for objective, computerised methods for evaluating the content of B waves in an intracranial pressure (ICP) registration. CSF samples from 62 IAHS patients, 26 SAE patients, and 23 controls were analysed for sulfatide, total-tau (T-tau) hyperphosphorylated tau (P-tau), neurofilament protein light (NFL), and beta-amyloid-42 (Aß42). In ten IAHS patients, recordings of ICP, brain tissue oxygen tension (PtiO2), and samplings of brain extracellular fluid from periventricular white matter by way of microdialysis were performed, at rest and during a CSF infusion and tap test. Microdialysis samples were analysed for glucose, lactate, pyruvate, glutamate, glycerol, and urea. Patterns before and after spinal tap were analysed and changes from increasing ICP during the infusion test were described. The long term ICP registration was used to evaluate two computerised methods according to optimal amplitude threshold, monitoring time, and correlation to the manual visual method. In CSF, NFL was elevated in both IAHS and SAE patients, reflecting the axonal damage. In a multinominal logistic regression model, the combined pattern of high NFL, low P-tau and low Aß42 in CSF was shown to be highly predictive in distinguishing between IAHS, SAE and controls. Analysis of microdialysis samples for glucose, lactate, and pyruvate showed, in combination with PtiO2, a pattern of low-grade ischemia. After the spinal tap of CSF, the pattern changed, indicating increased glucose metabolic rate. During the infusion test, there were prompt decreases in the microdialysis values of glucose, lactate and pyruvate during ICP increase, but no sign of hypoxia. The values normalised immediately when ICP was lowered, indicating that the infusion test is not causing damage. One of the computerised methods, with an amplitude threshold set to 1 mm Hg, was shown robust in evaluating B wave content in an ICP registration. At least 5 hours registration time was needed. The highly predictive pattern of biochemical markers in CSF indicates a possibility of identifying simple tests in diagnosing and selecting patients for surgical treatment. The results of microdialysis and PtiO2 indicate low-grade ischemia in the periventricular white matter, which is ameliorated from CSF removal, and that glucose supply and metabolism are sensitive to short-term ICP elevations, thus proposing a link between ICP oscillations and symptoms from neuronal disturbance. A computerised method for evaluation of B waves is a prerequisite for evaluating the impact of pressure oscillations in the pathophysiology of IAHS.
2

Exploring Intestinal Ischemia : An experimental study

Fröjse, Rolf January 2005 (has links)
Background and aims: Unrecognized intestinal mucosal ischemia in severely ill patients may trigger development of multiple organ failure. Such ischemia can be evaluated by intraluminal tonometry reflecting mucosal PCO2 and intramucosal pH (pHi). The aims were to develop an apparatus for continuous saline tonometry (CST), to analyse circulatory control mechanisms during intestinal hypoperfusion and to evaluate the effect of dopexamine on intestinal circulation. Methods: A modified standard tonometry catheter was integrated in a closed system with circulating saline. By measuring saline PCO2 in a measurement unit pHi could be calculated. This novel system was tested in vitro and in vivo. In a porcine study, CST was evaluated against standard saline tonometry, tissue oxygenation (PO2 TISSUE), jejunal mucosal perfusion (laser doppler flowmetry; LDF) and mesenteric net lactate flux during graded reductions of superior mesenteric arterial pressure (PSMA). Local control mechanisms for maintenance of intestinal oxygenation were analysed. Effects of dopexamine on the intestinal vascular bed were explored. Mucosal lactate production was assessed by microdialysis. Results: CST measured accurate PCO2 values and changes in pHi during restricted intestinal circulation and at reperfusion. Local control mechanisms were insufficient at a PSMA of 30 mmHg, pHi was reduced to 7.10 and intestinal net lactate production was demonstrated. Absence of anaerobic intestinal metabolism was verified at PSMA ≥ 50 mmHg, pHi ≥ 7.22 and a PCO2 gap ≤ 15.8 mmHg. Dopexamine induced negative regional metabolic effects at the lowest PSMA, as expressed by decreased PO2 TISSUE and pHi, increased PCO2 gap and intestinal net lactate production. Conclusions: CST reflected changes in pHi, induced by intestinal hypoperfusion and at reperfusion. Levels of PSMA, pHi and PCO2 gap as indicators of aerobic conditions were defined. Dopexamine induced a decrease of PO2 TISSUE and pHi as well as an increase in lactate flux at the lowest PSMA level.
3

Intestinal effects of lung recruitment maneuvers

Claesson, Jonas January 2007 (has links)
Background and aims: Lung recruitment maneuvers (brief episodes of high airway pressure) are a modern treatment alternative to achieve open lung conditions under mechanical ventilation of patients with acute lung injury. It is well known that positive pressure ventilation with high airway pressures cause negative circulatory effects, and that the effects on regional vascular beds can be even more pronounced than the systemic effects. Hypoperfusion of the mesenteric vascular bed can lead to tissue ischemia and local inflammation. This intestinal inflammation has been associated with subsequent development of multiple organ dysfunction syndrome, a syndrome that still carries a high mortality and is a leading cause of death for intensive care patients. The aim of this thesis was therefore to investigate whether lung recruitment maneuvers would cause negative effects on mesenteric circulation, oxygenation or metabolism. Methods and results: In an initial study on ten patients with acute lung injury, we could demonstrate a trend towards a decreased gastric mucosal perfusion during three repeated lung recruitment maneuvers. To more closely examine this finding, we set up an oleic acid lung injury model in pigs, and in our second study we established that this model was devoid of inherent intestinal effects and was adequate for subsequent studies of intestinal effects of lung recrutiment maneuvers. In the acute lung injury model, we also tested the effect of an infusion of a vasodilating agent concurrent with the recruitment maneuvers, the hypothesis being that a vasodilating agent would prevent intestinal vasoconstriction and hypoperfusion. We could show that three repeated lung recruitment maneuvers induced short term negative effects on mesenteric oxygenation and metabolism, but that these findings were transient and short lasting. Further, the effects of prostacyclin were minor and opposing. These findings of relative little impact on the intestines of lung recruitment maneuvers, lead us to investigate the hypothesis that repeated recruitment maneuvers maybe could elicite a protective intestinal preconditioning response, a phenomenon previously described both in the rat and in the dog. However, in our fourth study, using both classical ischemic preconditioning with brief periods of intestinal ischemia or repeated lung recrutiment maneuvers, we could not demonstrate the phenomenon of intestinal preconditioning in the pig. Conclusions: We conclude, that from a mesenteric point of view, lung recruitment maneuvers are safe, and only induce transient and short lasting negative effects. We also conclude that the cause of the minor effects of lung recruitment maneuvers is not dependent on intestinal preconditioning.

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