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Nutrition in Elderly Patients Undergoing Cardiac SurgeryRapp-Kesek, Doris January 2007 (has links)
<p>Many elderly undergo cardiac surgery. The prevalence of malnutrition in elderly is high and increases with comorbidity. This thesis aims to clarify some aspects on performing surgery in elderly concerning nutritional status, nutritional treatment and age-related physiology.</p><p>Study I: 886 patients were assessed preoperatively by body mass index (BMI) and S-albumin and postoperatively for mortality and morbidity.. Low BMI increased the relative hazard for death and low S-albumin increased the risk for infection. BMI and S-albumin are useful in preoperative evaluations</p><p>Study II: we followed energy intake in 31 patients for five postoperative days. Scheduled and unscheduled surgery did not differ in preoperative resting energy expenditure (REE). REE increased by 10-12% postoperatively, more in unscheduled CABG. Nutritional supplementation increased total energy intake. All patients exhibited postoperative energy deficits, less prominent in the supplemented group. There were no differences in protein synthesis or muscle degradation. </p><p>Study III: in 16 patients, .we measured stress hormones and insulin resistance before surgery and for five postoperative days Patients were insulin resistant on the first two days. We saw no clearly adverse or beneficial effects of oral carbohydrate on insulin resistance or stress hormone response. </p><p>Study IV: 73 patients, with early enteral nutrition (EN), were observed until discharge or resumed oral nutrition. EN started within three days in most patients. In a minority, problems occurred (gastric residual volumes, tube dislocation, vomiting, diarrhoea, aspiration pneumonia). In the cardiothoracic ICU individually adjusted early EN is feasible. </p><p>Study V: in 16 patients, splanchnic blood flow (SBF) enhancing treatments (dopexamine (Dpx) or EN) were compared. Dpx increased systemic blood flow, but had only a transient effect on SBF. EN had no effect on systemic blood flow or SBF. Neither Dpx, EN or the combined treatment, exhibited any difference between groups on systemic or splanchnic VO<sub>2</sub> or oxygen extraction ratio. </p>
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Social Phobia : The Family and the BrainTillfors, Maria January 2001 (has links)
The present thesis investigated family history and neurobiology of social phobia. Social phobia is a disabling disorder characterized by a marked fear of scrutiny in a variety of social situations. By using a validated questionnaire, study I related family history of excessive social anxiety to social phobia and avoidant personality disorder in epidemiologically identified probands in the Swedish general population. A two- to threefold increased relative risk of social anxiety was observed for both diagnostic groups. Thus, having an affected family member is associated with approximately a doubled risk for both social phobia and avoidant personality disorder. The neurobiological studies explored situational and anticipatory elicited anxiety by means of positron emission tomography and 15O-water. Study II examined the functional neuroanatomy of social anxiety provocation in social phobics and a healthy comparison group during a public speaking task. Social phobia symptomatology was associated with higher neural activity in the amygdaloid complex, i.e. "the alarm system" of the brain, and lower activity in the prefrontal cortex. Study III examined the neural correlates of anxiety elicited by the anticipation of public speaking in individuals with social phobia. Anticipatory anxiety was accompanied by enhanced regional cerebral blood flow in the dorsolateral prefrontal and inferior temporal cortices as well as in the amygdaloid-hippocampal region. Brain blood flow was lower in the temporal pole and in the cerebellum. These results suggest that social phobia has a neuroanatomical basis in a highly sensitive fear network centered in the amygdaloid-hippocampal region and encompassing the prefrontal cortex.
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Muscle Morphology and the Insulin Resistance Syndrome : A Population-Based Study of 70 Year-Old-Men in UppsalaHedman, Anu January 2001 (has links)
Skeletal muscle accounts for the largest part of insulin-mediated glucose uptake. Insulin resistance (IR) is the main component of insulin resistance syndrome (IRS) and is an essential cause of a number of cardiovascular risk factors. This thesis investigates the relationships between muscle morphological characteristics and IRS because skeletal muscle is responsible for the majority of glucose uptake. In this population-based sample of 70-year-old men, higher proportion of type I fibers as well as higher capillarization were related to higher insulin sensitivity and higher self-reported physical activity, which were related to a lower prevalence of type IIB fibers. Serum triglycerides, HDL cholesterol and plasminogen activator inhibitor-1 (PAI-1) activity were significantly related to fiber distribution and muscle capillarization and muscle morphology, in part, explained the association between these metabolic risk factors with physical activity level. BMI, glucose intolerance, PAI-1 activity, serum FFA concentration, proportion of type IIB fibers, HDL cholesterol level, drug treatment, physical activity level, and W/H ratio together explained 55% of the variation in the insulin sensitivity index. In addition, almost a twofold improvement of the correlations was seen after correcting for intraindividual variation. Glucose tolerant hypertensive subjects showed a lower capillary supply when compared to controls. Capillary density was negatively correlated to the increase in mean arterial pressure over two decades as well as to supine heart rate 20 years before. Interestingly, supine heart rate showed an independent inverse association to the percentage of type I fibers and a positive correlation to the percentage of type IIB muscle fibers. Capillary density and elevated serum free fatty (FFA) acid values were inversely associated with insulin-mediated blood flow and thus to endothelial dysfunction, which has been linked to IR. In fact, capillary density and serum FFA level together explained 71% of the variation in insulin-mediated leg blood flow changes. In conclusion, these population-based findings support the observations that muscle morphological features and insulin sensitivity are related to each other. Muscle morphology might explain some of the beneficial impact of physical activity on the components of IRS. Accordingly, we suggest that alterations in muscle morphology should be considered as an essential part of the IRS.
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Macula Densa Derived Nitric Oxide and Kidney FunctionOllerstam, Anna January 2002 (has links)
The kidney is the major organ regulating the extracellular fluid volume and thereby the arterial blood pressure. The neuronal isoform of nitric oxide synthase (nNOS) in the kidney is predominantly located in the macula densa cells. These cells are sensors for both renin release and the tubuloglomerular feedback mechanism (TGF), which is an important regulator of the glomerular filtration rate and afferent arteriole tone. The aim of this investigation was to elucidate the function of nNOS in the macula densa cells. Acute nNOS inhibition in rats resulted in an increased TGF responsiveness and unchanged blood pressure while, after chronic inhibition, the TGF was normalised and the blood pressure was elevated. The plasma renin concentration was elevated in rats on long-term low salt diet, but was not significantly affected by chronic nNOS inhibition. On the other hand, nNOS inhibition for four days increased plasma renin concentration in rats treated with a low salt diet. The renal vasculature of rats exhibits a diminished renal blood flow and intracellular Ca2+ response to angiotensin II after one week blockade of nNOS while angiotensin II’s effect on the renal blood flow was abolished after four weeks treatment. Acute extracellular volume expansion diminish the TGF sensitivity thus assisting the elimination of excess fluid but after acute addition of nNOS inhibitor to volume expanded rats the TGF sensitivity restored. In conclusion, the results from the present study suggest an important role for nNOS in the macula densa cells in the regulation of the arterial blood pressure and the modulation of the TGF response.
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Fear, Startle, and Fear-Potentiated Startle : Probing Emotion in the Human BrainPissiota, Anna January 2003 (has links)
The present thesis explored the neurobiological basis of three aspects of defense behaviors in humans. Positron emission tomography methodology was used, and changes in regional cerebral blood flow (rCBF) were measured as an index of neural activity. Firstly, brain function was studied in a group of patients suffering from combat-related posttraumatic stress disorder, using a symptom provocation paradigm with combat sounds in order to elicit fear. Exposure to auditory trauma reminders relative to neutral sounds was associated with increased rCBF in sensorimotor areas, the cerebellar vermis, the periaqueductal gray matter, and the right amygdala, whereas decreased activity was observed in the retrosplenial area of the posterior cingulate cortex. Secondly, the neural circuitry mediating the acoustic startle response and its habituation was studied in a group of healthy subjects. During acoustic startle stimulation as compared to a resting condition, increased rCBF was found in a medial posterior area of the pons corresponding to the nucleus reticularis pontis caudalis. As a result of startle repetition, altered activity was found in the cerebellum, pointing to its involvement in startle habituation. Thirdly, neural activity associated with startle modulation by phobic fear was studied in a group of subjects with specific animal phobias during exposure to pictures of their feared and non-feared objects, paired and unpaired with acoustic startle stimuli. As a result of startle potentiation, increased rCBF was found in the left amygdaloid-hippocampal region, and medially in the affective division of the anterior cingulate cortex. In conclusion, these results provide evidence for the involvement of limbic and paralimbic brain areas during fear provocation and fear-potentiated startle and for a similar neurocircuitry underlying startle in humans and animals.
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Cardiopulmonary Resuscitation : Pharmacological Interventions for Augmentation of Cerebral Blood FlowJohansson, Jakob January 2004 (has links)
Cardiac arrest results in immediate interruption of blood flow. The primary goal of cardiopulmonary resuscitation (CPR) is to re-establish blood flow and hence oxygen delivery to the vital organs. This thesis describes different pharmacological interventions aimed at increasing cerebral blood flow during CPR and after restoration of spontaneous circulation (ROSC). In a porcine model of cardiac arrest, continuous infusion of adrenaline generated higher cortical cerebral blood flow during CPR as compared to bolus administration of adrenaline. While bolus doses resulted in temporary peaks in cerebral blood flow, continuous infusion led to a sustained increase in this flow. Administration of vasopressin resulted in higher cortical cerebral blood flow and a lower cerebral oxygen extraction ratio as compared to continuous infusion of adrenaline during CPR. In addition, vasopressin generated higher coronary perfusion pressure during CPR and increased the likelihood of achieving ROSC. Parameters of coagulation and inflammation were measured after successful resuscitation from cardiac arrest. Immediately after ROSC, thrombin-antithrombin complex, a marker of thrombin generation, was elevated and eicosanoid levels were increased, indicating activation of coagulation and inflammation after ROSC. The thrombin generation was accompanied by a reduction in antithrombin. In addition, there was substantial haemoconcentration in the initial period after ROSC. By administration of antithrombin during CPR, supraphysiological levels of antithrombin were achieved. However, antithrombin administration did not increase cerebral circulation or reduce reperfusion injury, as measured by cortical cerebral blood flow, cerebral oxygen extraction and levels of eicosanoids, after ROSC. In a clinical study, the adrenaline dose interval was found to be longer than recommended in the majority of cases of cardiac arrest. Thus, the adherence to recommended guidelines regarding the adrenaline dose interval seems to be poor.
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Nutrition in Elderly Patients Undergoing Cardiac SurgeryRapp-Kesek, Doris January 2007 (has links)
Many elderly undergo cardiac surgery. The prevalence of malnutrition in elderly is high and increases with comorbidity. This thesis aims to clarify some aspects on performing surgery in elderly concerning nutritional status, nutritional treatment and age-related physiology. Study I: 886 patients were assessed preoperatively by body mass index (BMI) and S-albumin and postoperatively for mortality and morbidity.. Low BMI increased the relative hazard for death and low S-albumin increased the risk for infection. BMI and S-albumin are useful in preoperative evaluations Study II: we followed energy intake in 31 patients for five postoperative days. Scheduled and unscheduled surgery did not differ in preoperative resting energy expenditure (REE). REE increased by 10-12% postoperatively, more in unscheduled CABG. Nutritional supplementation increased total energy intake. All patients exhibited postoperative energy deficits, less prominent in the supplemented group. There were no differences in protein synthesis or muscle degradation. Study III: in 16 patients, .we measured stress hormones and insulin resistance before surgery and for five postoperative days Patients were insulin resistant on the first two days. We saw no clearly adverse or beneficial effects of oral carbohydrate on insulin resistance or stress hormone response. Study IV: 73 patients, with early enteral nutrition (EN), were observed until discharge or resumed oral nutrition. EN started within three days in most patients. In a minority, problems occurred (gastric residual volumes, tube dislocation, vomiting, diarrhoea, aspiration pneumonia). In the cardiothoracic ICU individually adjusted early EN is feasible. Study V: in 16 patients, splanchnic blood flow (SBF) enhancing treatments (dopexamine (Dpx) or EN) were compared. Dpx increased systemic blood flow, but had only a transient effect on SBF. EN had no effect on systemic blood flow or SBF. Neither Dpx, EN or the combined treatment, exhibited any difference between groups on systemic or splanchnic VO2 or oxygen extraction ratio.
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Nitrate, Nitrite and Nitric Oxide in Gastric Mucosal DefensePetersson, Joel January 2008 (has links)
The human stomach normally contains high levels of bioactive nitric oxide (NO). This NO derives from salivary nitrate (NO3-) that is converted to nitrite (NO2-) by oral bacteria and thereafter non-enzymatically reduced in the acidic gastric lumen to NO. Nitrate is a common component in vegetables, and after ingestion it is absorbed in the small intestine. Interestingly, circulating nitrate is then concentrated by the salivary glands. Hence, intake of nitrate-rich vegetables results in high levels of NO in the stomach. The physiological effects of the high concentration of NO gas normally present in the gastric lumen have been hitherto unknown, and the present investigations were therefore conducted to address this issue. NO produced in the gastric lumen after nitrate ingestion increased gastric mucosal blood flow and the thickness of the firmly adherent mucus layer in the stomach. The blood flow and mucus layer are essential defense mechanisms that protect the mucosa from luminal acid and noxious agents. Nonsteroidal antiinflammatory drugs (NSAID) are commonly prescribed and effective drugs for treating pain and inflammation, but are associated with severe gastrointestinal side effects. We demonstrated that a nitrate-rich diet protects against NSAID-induced gastric damage, as a result of the increased formation of NO in the stomach. We also showed that the gastroprotective effect attributed to nitrate depended completely on conversion of nitrate to nitrite by the bacterial flora colonizing the tongue, and that the oral microflora is therefore important in regulating physiological conditions in the stomach. In summary, this thesis challenges the current dogma that nitrate intake is hazardous, and on the contrary suggests that dietary nitrate plays a direct role in regulating gastric homeostasis. It is likely that a sufficient supply of nitrate in the diet together with the oral microflora is essential for preventing pathological conditions in the gastrointestinal tract.
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Aspects of Regulation of GFR and Tubular Function in the Diabetic Kidney : Roles of Adenosine, Nitric Oxide and Oxidative StressPersson, Patrik January 2013 (has links)
Diabetic nephropathy is the main cause for initiation of renal replacement therapy and early symptoms in patients include increased glomerular filtration rate (GFR), decreased oxygen tension and albuminuria, followed by a progressive decline in GFR and loss of kidney function. Experimental models of diabetes display increased GFR, decreased tissue oxygenation and nitric oxide bioavailability. These findings are likely to be intertwined in a mechanistic pathway to kidney damage and this thesis investigated their roles in the development of diabetic nephropathy. In vivo, diabetes-induced oxidative stress stimulates renal tubular Na+ transport and in vitro, proximal tubular cells from diabetic rats display increased transport-dependent oxygen consumption, demonstrating mechanisms contributing to decreased kidney oxygenation. In control animals, endogenous adenosine reduces vascular resistance of the efferent arteriole via adenosine A2-receptors resulting in reduced filtration fraction. However, in diabetes, adenosine A2-signalling is dysfunctional resulting in increased GFR via increased filtration fraction. This is caused by reduced adenosine A2a receptor-mediated vasodilation of efferent arterioles. The lack of adenosine-signaling in diabetes is likely due to reduced local adenosine concentration since adenosine A2a receptor activation reduced GFR only in diabetic animals by efferent arteriolar vasodilation. Furthermore, sub-optimal insulin treatment also alleviates increased filtration pressure in diabetes. However, this does not affect GFR due to a simultaneously induction of renal-blood flow dependent regulation of GFR by increasing the filtration coefficient. In diabetes, there is decreased bioavailability of nitric oxide, resulting in alterations that may contribute to diabetes-induced hyperfiltration and decreased oxygenation. Interestingly, increased plasma concentration of l-arginine, the substrate for nitric oxide production, prevents the development of increased GFR and proteinuria, but not increased oxygen consumption leading to sustained intra-renal hypoxia in diabetes. This thesis concludes that antioxidant treatment directed towards the NADPH oxidase as well maneuvers to promote nitric oxide production is beneficial in diabetic kidneys but is targeting different pathways i.e. transport-dependent oxygen consumption in the proximal tubule by NADPH oxidase inhibition and intra-renal hemodynamics after increased plasma l-arginine. Also, the involvement and importance of efferent arteriolar resistance in the development of diabetes-induced hyperfiltration via reduced adenosine A2a signaling is highlighted.
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Neuroprotective Drug Delivery to the Injured Spinal Cord with Hyaluronan and MethylcelluloseKang, Catherine 13 August 2010 (has links)
Traumatic spinal cord injury (SCI) is a devastating condition for which there is no effective clinical treatment. Neuroprotective molecules that minimize tissue loss have shown promising results; however systemic delivery may limit in vivo benefits due to short systemic half-life and minimal passage across the blood-spinal cord barrier. To overcome these limitations, an injectable intrathecal delivery vehicle comprised of hyaluronan and methylcellulose (HAMC) was developed, and previously demonstrated to be safe and biocompatible intrathecally. Here, HAMC was determined to persist in the intrathecal space for between 4-7 d in vivo, indicating it as an optimal delivery system for neuroprotective agents to reduce tissue degeneration after SCI. HAMC was then investigated as an in vivo delivery system for two neuroprotective proteins: erythropoietin (EPO) and fibroblast growth factor 2 (FGF2). Both proteins demonstrated a diffusive release profile in vitro and maintained significant bioactivity during release. When EPO was delivered intrathecally with HAMC to the injured spinal cord, reduced cavitation in the tissue and significantly improved neuron counts were observed relative to the conventional delivery strategies of intraperitoneal and intrathecal bolus. When FGF2 was delivered intrathecally from HAMC, therapeutic concentrations penetrated into the injured spinal cord tissue for up to 6 h. Poly(ethylene glycol) modification of FGF2 significantly increased the amount of protein that diffused into the tissue when delivered similarly. Because FGF2 is a known angiogenic agent, dynamic computed tomography was developed for small animal serial assessment of spinal cord hemodynamics. Following SCI and treatment with FGF2 from HAMC, moderate improvement of spinal cord blood flow and a reduction in permeability were observed up to 7 d post-injury, suggesting that early delivery of neuroprotective agents can have lasting effects on tissue recovery. Importantly, the entirety of this work demonstrates that HAMC is an effective short-term delivery system for neuroprotective agents by improving tissue outcomes following traumatic SCI.
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