Ventricular rotation and the rotation axis : a new concept in cardiac function

Gustafsson, Ulf

January 2010

Background: The twisting motion of the left ventricle (LV), with clockwise rotation at the base and counter clockwise rotation at the apex during systole, is a vital part of LV function. Even though LV rotation has been studied for decades, the rotation pattern has not been described in detail. By the introduction of speckle tracking echocardiography measuring rotation has become easy of access. However, the axis around which the LV rotates has never before been assessed. The aims of this thesis were to describe the rotation pattern of the LV in detail (study I), to assess RV apical rotation (study II), develop a method to assess the rotation axis (study III) and finally to study the effect of regional ischemia to the rotation pattern of the LV (study IV). Methods: Healthy humans were examined in study I-III and the final study populations were 40 (60±14 years), 14 (62±11 years) and 39 (57±16 years) subjects, respectively. In study IV six young pigs (32-40kg) were studied. Standard echocardiographic examinations were performed. In study IV the images were recorded before and 4 minutes after occlusion of left anterior descending coronary artery (LAD). Rotation was measured in short axis images by using a speckle tracking software. By development of custom software, the rotation axis of the LV was calculated at different levels in every image frame throughout the cardiac cycle. Results: Study I showed significant difference in rotation between basal and apical rotations, as well as significant differences between segments at basal and mid ventricular levels. The rotation pattern of the LV was associated with different phases of the cardiac cycle. Study II found significant difference in rotation between the LV and the RV. RV rotation was heterogeneous and bi-directional, creating a ´tightening belt action´ to reduce it circumference. Study III indicated that the new method could assess the rotation axis of the LV. The motion of the rotation axes in healthy humans displayed a physiological and consistent pattern. Study IV found a significant difference in the rotation pattern, between baseline and after LAD occlusion, by measuring the rotation axes, but not by conventional measurements of rotation. AV-plane displacement and wall motion score (WMS) were also significantly changed after inducing regional ischemia. Conclusion: There are normally large regional differences in LV rotation, which can be associated anatomy, activation pattern and cardiac phases, indicating its importance to LV function. In difference to the LV, the RV did not show any functional rotation. However, its heterogeneous circumferential motion could still be of importance to RV function and may in part be the result of ventricular interaction. The rotation axis of the LV can now be assessed by development of a new method, which gives a unique view of the rotation pattern. The quality measurements and results in healthy humans indicate that it has a potential clinical implication in identifying pathological rotation. This was supported by the experimental study showing that the rotation axis was more sensitive than traditional measurements of rotation and as sensitive as AV-plane displacement and WMS in detecting regional myocardial dysfunction.

Left ventricular function

right ventricular function

rotation

twist

rotation axis

transition plane

ischemia

speckle tracking echocardiography

Cardiology

Kardiologi

A Systems Level Analysis of the Transcription Factor FoxN2/3 and FGF Signal Transduction in Sea Urchin Larval Skeleton Development and Body Axis Formation

Rho, Ho Kyung

January 2011

<p>Specification and differentiation of a cell is accomplished by changing its gene expression profiles. These processes require temporally and spatially regulated transcription factors (TFs), to induce the genes that are necessary to a specific cell type. In each cell a set of TFs interact with each other or activate their targets; as development progresses, transcription factors receive regulatory inputs from other TFs and a complex gene regulatory network (GRN) is generated. Adding complexity, each TF can be regulated not only at the transcriptional level, but also by translational, and post-translational mechanisms. Thus, understanding a developmental process requires understanding the interactions between TFs, signaling molecules and target genes which establish the GRN.</p><p>In this thesis, two genes, FoxN2/3, a TF and FGFR1, a component of the FGF signaling pathway are investigated. FoxN2/3 and FGFR1 have different mechanisms that function in sea urchin development; FoxN2/3 regulates gene expression and FGFR1 changes phosphorylation of target proteins. However, their ultimate goals are the same: changing the state of an earlier GRN into the next GRN state. </p><p>First, we characterize FoxN2/3 in the primary mesenchyme cell (PMC) GRN. Expression of foxN2/3 begins in the descendants of micromeres at the early blastula stage; and then is lost from PMCs at the mesenchyme blastula stage. foxN2/3 expression then shifts to the secondary mesenchyme cells (SMCs) and later to the endoderm. Here we show that, Pmar1, Ets1 and Tbr are necessary for activation of foxN2/3 in the descendants of micromeres. The later endomesoderm expression is independent of the earlier expression of FoxN2/3 in micromeres and independent of signals from PMCs. FoxN2/3 is necessary for several steps in the formation of larval skeleton. A number of proteins are necessary for skeletogenesis, and early expression of at least several of these is dependent on FoxN2/3. Furthermore, knockdown (KD) of FoxN2/3 inhibits normal PMC ingression. PMCs lacking FoxN2/3 protein are unable to join the skeletogenic syncytium and they fail to repress the transfating of SMCs into the skeletogenic lineage. Thus, FoxN2/3 must be present for the PMC GRN to control normal ingression, expression of skeletal matrix genes, prevention of transfating, and control fusion of the PMC syncytium.</p><p>Second, we show that the FGF-FGFR1 signaling is required for the oral-aboral axis formation in the sea urchin embryos. Without FGFR1, nodal is induced in all of the cells at the early blastula stage and this ectopic expression of nodal requires active p38 MAP kinase. The loss of oral restriction of nodal expression results in the abnormal organization of PMCs and the larval skeleton; it also induces ectopic expression of oral-specific genes and represses aboral-specific genes. The abnormal oral-aboral axis formation also affected fgf and vegf expression patterns; normally these factors are expressed in two restricted areas of the ectoderm between the oral and the aboral side, but when FGFR1 is knocked down, Nodal expands, and in response the expression of the FGF and VEGF ligands expands, and this in turn affects the abnormal organization of larval skeleton.</p> / Dissertation

Developmental Biology

Body axis formation

Fibroblast growth factor

Forkhead transcription factor

Gene regulatory network

Sea urchin

Specification

Vertical Axis Wind Turbines: History, Technology and Applications

D'Ambrosio, Marco, Medaglia, Marco

January 2010

In  this  Master Thesis  a  review  of  different  type  of  vertical  axis  wind turbines (VAWT)  and  a preliminary investigation of a new kind of VAWT are presented. After an introduction about the historical background of wind power, the report deals with a more accurate analysis of the main type of VAWT, showing their characteristics and their operations. The aerodynamics of the wind turbines and a review of different type on generators that can be used to connect the wind mill to the electricity grid are reported as well. Several statistics are also presented, in order to explain how the importance of the wind energy has grown  up  during  the  last  decades  and  also  to  show  that  this development  of  the  market  of  wind power  creates  new  opportunity  also  for VAWT,  that  are  less  used  than  the  horizontal  axis  wind turbine (HAWT). In the end of 2009 a new kind of vertical axis wind turbine, a giromill 3 blades type, has been built in Falkenberg, by the Swedish company VerticalWind. The tower of this wind turbine is made by wood,  in  order  to  get  a  cheaper  and  more environment  friendly  structure,  and  a  direct  driven synchronous multipole with permanent magnents generator is located at its bottom. This 200 kW VAWT represents the intermediate step between the 12 kW prototype, built in collaboration with the Uppsala University, and the common Swedish commercial size of 2 MW, which is the goal of the company. A  preliminary  investigation  of  the  characteristics  of  this  VAWT  has  been done, focusing  in particular on the value of the frequency of resonance of the tower, an important value that must be never reached during the operative phase in order to avoid serious damage to all the structure, and on the power curve, used to evaluate the coefficient of power (Cp) of the turbine. The results of this investigation and  the steps  followed  to  get  them  are  reported.  Moreover  a  energy production analysis of the turbine has been done using WindPro, as well as a comparison with and older type on commercial VAWT.

Wind

power

turbine

vertical

axis

VAWT

Electric power engineering

Elkraftteknik

Electrical engineering

Elektroteknik

Engineering mechanics

Teknisk mekanik

Lateral torsional buckling of rectangular reinforced concrete beams

Kalkan, Ilker

10 November 2009

The study presents the results of an experimental and analytical investigation aimed at examining the lateral stability of rectangular reinforced concrete slender beams. In the experimental part of the investigation, a total of eleven reinforced concrete beams having a depth to width ratio between 10.20 and 12.45 and a length to width ratio between 96 and 156 were tested. Beam thickness, depth and unbraced length were 1.5 to 3.0 in., 18 to 44 in., and 12 to 39.75 ft, respectively. Each beam was subjected to a single concentrated load applied at midspan by means of a gravity load simulator that allowed the load to always remain vertical when the section displaces out of plane. The loading mechanism minimized the lateral translational and rotational restraints at the load application point to simulate the nature of gravity load. Each beam was simply-supported in and out of plane at the ends. The supports allowed warping deformations, yet prevented twisting rotations at the beam ends. In the analytical part of the study, a formula was developed for determining the critical loads of lateral torsional buckling of rectangular reinforced concrete beams free from initial geometric imperfections. The influences of shrinkage cracking and inelastic stress-strain properties of concrete and the contribution of longitudinal reinforcement to the lateral stability are accounted for in the critical load formula. The experiments showed that the limit load of a concrete beam with initial geometric imperfections can be significantly lower than the critical load corresponding to its geometrically perfect configuration. Accordingly, a second formula was developed for the estimation of limit loads of reinforced concrete beams with initial lateral imperfections, by introducing the destabilizing effect of sweep to the critical load formula. The experimental results were compared to the proposed analytical solution and to various lateral torsional buckling solutions in the literature. The formulation proposed in the present study was found to agree well with the experimental results. The incorporation of the geometric and material nonlinearities into the formula makes the proposed solution superior to the previous lateral torsional buckling solutions for rectangular reinforced concrete beams.

Slenderness

Long span

Lateral bending rigidity

Minor-axis bending

Bridge girders

Concrete girders

Torsional rigidity

Concrete beams

Lateral loads

Aerodynamics of Vertical Axis Wind Turbines : Development of Simulation Tools and Experiments

Dyachuk, Eduard

January 2015

This thesis combines measurements with the development of simulation tools for vertical axis wind turbines (VAWT). Numerical models of aerodynamic blade forces are developed and validated against experiments. The studies were made on VAWTs which were operated at open sites. Significant progress within the modeling of aerodynamics of VAWTs has been achieved by the development of new simulation tools and by conducting experimental studies.         An existing dynamic stall model was investigated and further modified for the conditions of the VAWT operation. This model was coupled with a streamtube model and assessed against blade force measurements from a VAWT with curved blades, operated by Sandia National Laboratories. The comparison has shown that the accuracy of the streamtube model has been improved compared to its previous versions. The dynamic stall model was further modified by coupling it with a free vortex model. The new model has become less dependent on empirical constants and has shown an improved accuracy.     Unique blade force measurements on a 12 kW VAWT were conducted. The turbine was operated north of Uppsala. Load cells were used to measure the forces on the turbine. A comprehensive analysis of the measurement accuracy has been performed and the major error sources have been identified. The measured aerodynamic normal force has been presented and analyzed for a wide range of operational conditions including dynamic stall, nominal operation and the region of high flow expansion. The improved vortex model has been validated against the data from the new measurements. The model agrees quite well with the experiments for the regions of nominal operation and high flow expansion. Although it does not reproduce all measurements in great detail, it is suggested that the presented vortex model can be used for preliminary estimations of blade forces due to its high computational speed and reasonable accuracy.

wind power

vertical axis turbine

H-rotor

simulations

streamtube model

vortex model

dynamic stall

measurements

blade

force

Involvement of kisspeptin and melatonin in the seasonal entrainment of reproduction in European sea bass (Dientrarchus labrax)

Ismail, Rania F. K.

January 2011

Aquaculture is an essential developing sector for world food production however one of the major bottlenecks for the sustainability of the aquaculture industry is the ability to control fish reproduction in captivity and to produce high quality seeds. European sea bass is a one of most commercially important species for the European fish farming industry. If broodstock management under captivity is well established, problems remain in hatcheries where survival can be low and deformity prevalence high as well as in on growing sites where fish reach puberty early especially with skewed sex ratio towards males. Sea bass displays strong seasonality in its physiology and is therefore an excellent candidate for the study of the photo-neuroendocrine control of reproduction and growth. The overall aims of this thesis were to better understand the molecular and endocrine drivers that control the Brain-Pituitary-Gonad axis in repeat spawner sea bass, and expand our knowledge of sea bass light and temperature regulation of melatonin production. First, this PhD project investigated the seasonal expression of kisspeptin, GnRH and gonadotropin genes in relation to the gonadal development throughout a reproductive cycle in male repeat spawning sea bass (Chapter 3). A partial sequence for the receptor kissr4 was isolated and described showing similarity to all other teleost species sequences available to date. QPCR molecular assays were validated to mesure the expression of a suite of genes along the BPG axis including kisspeptin related genes (Kiss1 and Kiss2 and its receptor kissr4) over a full reproductive cycle (12 months) in adult male European sea bass. Brain Kisspeptin mRNA expression levels (kiss1, 2 and kissr4) showed clear seasonal profiles and correlated well to other BPG markers (GnRHs, fshβ and lhβ), supporting a possible involvement of kisspeptin genes in the seasonal control of reproduction in repeat spawning sea bass. Moreover, clear seasonal patterns were observed for expression of the genes encoding for pituitary mRNA expression of lhβ and fshβ, with a significant correlation between expression of both subunits and GSI and steroids levels. However, no clear seasonal profiles in brain GnRHs gene expression were observed with the exception to some peaks in GnRH1 and GnRH2. The second part of this PhD project investigated the potential direct effect of the two kisspeptin core peptides (kiss1 and kiss2) on the pituitary gonadotropin gene expression (Chapter 4). The aim of this work was to better understand the mechanism by which kisspeptin acts on the BPG axis. This was done by testing the kisspeptin decapeptide core sequences on the lhβ and fshβ transcript expression in primary culture of sea bass pituitary cells using QPCR technique. The findings, as a whole, provided evidence that kisspeptin can act directly on the pituitary gonadotroph cells and modulate fshß and lhß mRNA expression in sea bass although effects were limited and not uniform. Of note, kissr4 gene expression was also detected in the sea bass pituitary. The third part of this PhD project focused on the effects of environmental signals (photoperiod and temperature) on melatonin production (Chapter 5). Environmental manipulation is routinely used in the aquaculture industry with the purpose of enhancing growth and manipulating the timing of reproduction in seasonal fish species like sea bass. Melatonin, known as the light perception and time keeping hormone, has been suggested to play key roles in the synchronisation of most physiological functions in vertebrates, although the mechanisms by which melatonin controls reproduction, growth and behaviour are still not fully understood in fish. The studies performed aimed .to determine the synergistic effects of both temperature and photoperiod on the daily phase and amplitudinal changes in melatonin production through both in vivo and in vitro trials. The results confirmed the diel melatonin rhythm in sea bass as previously reported in many teleost species with “high at night” and “low at day” melatonin profiles. Temperature showed clear effects on the amplitude of the melatonin production under both in vivo and in vitro conditions for both long day and short day photoperiods. Furthermore, no endogenous melatonin production was found under constant darkness in both in vivo and in vitro conditions. These results suggested a lack of intrapineal (or located elsewhere such as retina and/or deep brain) oscillators in sea bass, contrasting with previous reports. These results further enhance our knowledge of light perception and circadian rhythmicity in sea bass, while the circadian system remains to be characterised in sea bass and teleosts as a whole. Overall, this doctoral work broadened our understanding on the photoneuroendocrine control of reproduction in a seasonal fish species, sea bass. New knowledge gained and tools developed from this work should help to develop/optimise husbandry techniques for the sea bass farming industry with the view to increase production and profitability and thus promoting the sustainable expansion of the sea bass aquaculture in Europe. It has also the potential to help the fishery sector in the modelling of wild sea bass populations.

639.3

Analytical Aerodynamic Simulation Tools for Vertical Axis Wind Turbines

Deglaire, Paul

January 2010

Wind power is a renewable energy source that is today the fastest growing solution to reduce CO2 emissions in the electric energy mix. Upwind horizontal axis wind turbine with three blades has been the preferred technical choice for more than two decades. This horizontal axis concept is today widely leading the market. The current PhD thesis will cover an alternative type of wind turbine with straight blades and rotating along the vertical axis. A brief overview of the main differences between the horizontal and vertical axis concept has been made. However the main focus of this thesis is the aerodynamics of the wind turbine blades. Making aerodynamically efficient turbines starts with efficient blades. Making efficient blades requires a good understanding of the physical phenomena and effective simulations tools to model them. The specific aerodynamics for straight bladed vertical axis turbine flow are reviewed together with the standard aerodynamic simulations tools that have been used in the past by blade and rotor designer. A reasonably fast (regarding computer power) and accurate (regarding comparison with experimental results) simulation method was still lacking in the field prior to the current work. This thesis aims at designing such a method. Analytical methods can be used to model complex flow if the geometry is simple. Therefore, a conformal mapping method is derived to transform any set of section into a set of standard circles. Then analytical procedures are generalized to simulate moving multibody sections in the complex vertical flows and forces experienced by the blades. Finally the fast semi analytical aerodynamic algorithm boosted by fast multipole methods to handle high number of vortices is coupled with a simple structural model of the rotor to investigate potential aeroelastic instabilities. Together with these advanced simulation tools, a standard double multiple streamtube model has been developed and used to design several straight bladed rotor ranging from 2 kW to 20 kW. / Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 704

vertical axis turbine

vortex flows

conformal mapping

analytical aerodynamics

potential flows

fast multipole methods

Fluid mechanics

Strömningsmekanik

Eine Untersuchung zur Wirkung von Paroxetin versus Placebo in Kombination mit regelmäßigem Ausdauertraining oder Entspannungstraining auf den Kortisolwert im Nachturin von Patienten mit einer Panikstörung mit und ohne Agoraphobie / A Study of the Effect of Paroxetin vs. Placebo in Combination with Regular Exercise and Autogenic Training on the Cortisol Level in the Nightly Urine of Patients with Panic Disorder with or without Agoraphobia

Sprute, Alke Juliane

23 January 2010

No description available.

610 Medizin, Gesundheit

M

Medicine

Panikstörung

HPA-Achse

Paroxetin

Wirksamkeit

Panic disorder

HPA-Axis

paroxetin

effect

44.91

Prediction of the clinical response to psychostimulant by the basal and reactive salivary cortisol in children with ADHD.

Menneh, Rosalyn

08 1900

Le trouble du déficit de l’attention/hyperactivité (TDA/H) est un des troubles comportementaux le plus commun chez les enfants. TDAH a une étiologie complexe et des traitements efficaces. Le médicament le plus prescrit est le méthylphénidate, un psychostimulant qui bloque le transporteur de la dopamine et augmente la disponibilité de la dopamine dans la fente synaptique. Des études précliniques et cliniques suggèrent que le cortisol peut potentialiser les effets de la dopamine. Un dysfonctionnement du système hypothalamo-hypophyso-surrénalien (HHS) est associé avec plusieurs maladies psychiatriques comme la dépression, le trouble bipolaire, et l’anxiété. Nous avons fait l’hypothèse que le cortisol influence l’efficacité du traitement des symptômes du TDAH par le méthylphénidate. L’objectif de cette étude est de mesurer les niveaux de cortisol le matin au réveil et en réponse à une prise de sang dans un échantillon d’enfants diagnostiqué avec TDAH âgé de 8 ans. Le groupe était randomisé dans un protocole en chassé croisé et en double aveugle avec trois doses de méthylphénidate et un placebo pour une période de quatre semaines. Les enseignants et les parents ont répondu aux questionnaires SWAN et à une échelle d’évaluation des effets secondaires. Les résultats ont démontrés qu’un niveau de cortisol élevé au réveil prédit les sujets qui ne répondent pas au traitement du TDAH, si on se fie aux rapports des parents. En plus, la réactivité au stress élevé suggère un bénéfice additionnel d’une dose élevée de méthylphénidate selon les enseignants. Aussi, les parents rapportent une association entre la présence de troubles anxieux co-morbide avec le TDAH et une meilleure réponse à une dose élevée. Cette étude suggère qu’une forte réactivité de l’axe HHS améliore la réponse clinique à des doses élevées, mais qu’une élévation chronique du niveau de cortisol pourrait être un marqueur pour les non répondeurs. Les résultats de cette étude doivent être considérés comme préliminaires et nécessitent des tests plus approfondis des interactions possibles entre les médicaments utilisés pour traiter le TDAH et l’axe HHS. / ADHD is the most common behavioural disorder in children with complex aetiology and efficacious treatments. The most prescribed medication for ADHD is methylphenidate, a psychostimulant that blocks the dopamine transporter and increases dopamine availability in the synaptic cleft. Preclinical and clinical studies show that cortisol may enhance dopamine effects. Dysregulation of the hypothalamic-pituitaryadrenal axis is also associated with many psychiatric disorders such as depression, bipolar disease, and anxiety. We hypothesized that cortisol has an influence on the efficacy of the treatment of ADHD symptoms with methylphenidate. The objective of this study was to measure the salivary level of cortisol in a sample of 8-year-old children with ADHD upon waking and in response to a venipuncture. The children were then randomized to three doses of methylphenidate and a placebo in a double-blind cross-over design. Teachers and parents rated the behaviour of the children using the SWAN and a side effect rating scale. The results showed that high morning cortisol is a good predictor of a nonresponder under active medication, as reported by parents. Also, the high stress reactivity group, but not the low stress reactivity group, demonstrated a greater benefit going to a higher dose of methylphenidate, according to teachers. In addition, parents demonstrated an association between anxiety comorbid disorders and a better response to a high dose of methylphenidate. This study suggests that a strong reactivity of the HPA axis improves the clinical response at high dose, but that chronically elevated cortisol might be a marker for non responders. The results of this study should be seen as preliminary and require further testing of the possible interactions between ADHD medication and HPA activity.

TDAH

Cortisol

Méthylphénidate

Dopamine

Stress

HPA axis

ADHD

Methylphenidate

REDOX-REGULATED RELB-AR AXIS MEDIATES PROSTATE SPECIFIC ANTIGEN EXPRESSION: INSIGHT IN PROSTATE CANCER RESPONSE TO RADIATION THERAPY

Miao, Lu

01 January 2013

Although the prostate specific antigen (PSA) test is widely used in clinical settings for prostate cancer (PCa) diagnosis and post-treatment follow-up monitoring, false positive PSA test results, which contribute to over-diagnosis of PCa, and false negative results, which miss some patients with aggressive PCa, remain problems of clinical importance. Our study demonstrates that radiation therapy, which is widely used for treatment of localized PCa, generates TNF-α in tumor cells and stromal fibroblasts, redox dependently. Interestingly, TNF-α rapidly and transiently triggers the RelA-mediated NF-κB canonical pathway, but its effect on RelB expression is more robust and long lasting, which leads to sustainable suppression of PSA expression. TNF-α further amplifies endogenous reactive oxygen species (ROS) partially through NADPH oxidase activation and mediates redox-dependent downstream signaling pathways. Addition of the NADPH oxidase inhibitor or ROS scavengers such as superoxide dismutase (SOD) mimetic can abrogate TNF-α-mediated suppression of PSA expression by inhibiting the RelB-AR axis. Treatment with TNF-α suppresses PSA expression and it confers minor yet statistically significant protection to LNCap cells against irradiation, indicating that radiation-induced TNF-α may not only interfere with the PSA-based PCa diagnosis and post-treatment monitoring but may also diminish the efficacy of radiotherapy. In addition, we uncover a role for RelB in suppressing PSA expression at the advanced stage of PCa, which could be a mechanism for the low PSA level in some patients bearing aggressive PCa. Experiments with both RelB overexpression and siRNA knockdown indicate that RelB negatively regulates androgen receptor (AR) and PSA levels in human prostate cancer, LNCap, cells. RelB directly interacts with AR to form a complex on the enhancer elements of the PSA promoter. Thus, the RelB-AR axis is an important contributor to PSA suppression at the advanced stage of PCa. Overall, this study is the first to reveal a redox-mediated association among radiation-generated TNF-α, activation of the RelB-mediated alternative NF-kappaB pathway and PSA suppression. This mechanistic information provides new insights with practical and clinical implications for PSA-based PCa diagnosis and post-treatment monitoring as well as redox intervention in radiation therapy.

radiation therapy

prostate cancer

RelB-AR axis

PSA

oxidative stress

Medical Cell Biology

Medical Molecular Biology

Oncology