Global ETD Search

101	The influence of attention on the processing of transparent motion in primate visual cortex / Aufmerksamkeitseinfluss auf transparente Bewegung im visuellen Primaten-Kortex Lochte, Anja 03 November 2010 (has links) Im Rahmen dieser Dissertationsschrift wird die Frage, wie Aufmerksamkeit die Verarbeitung von visueller Information beeinflusst, behandelt. Hierbei dient die hochentwickelte Fähigkeit von Primaten, visuelle Bewegungsinformation zu verarbeiten, als Modellsystem. Der Hauptteil dieser Arbeit besteht aus zwei aufeinander aufbauenden Studien, die Einzelzellableitung in dem Areal MT von wachen Rhesusaffen beinhalten und einem psychophysischen Experiment mit Humanprobanden. Alle drei Studien wurden mit dem Ziel entworfen, Aufmerksamkeitsmodulation bidirektionaler Bewegungsmuster zu untersuchen. Dieses Kapitel liefert eine generelle Einleitung zum visuellen System von Primaten mit einer Darstellung des Bewegungsverarbeitungspfades und von Aufmerksamkeitseinflüssen auf visuelle Verarbeitung. Einen Schwerpunkt des Einleitungsteils bildet die Übersicht der Verarbeitungsmechanismen bidirektionaler Bewegungsmuster im visuellen System und deren Aufmerksamkeitsmodulation. Das zweite Kapitel besteht aus drei Manuskripten, deren Zielsetzung und Haupterkenntnisse in kurzen Abschnitten zusammenfassend vorangestellt sind. Das dritte Kapitel bietet eine Zusammenfassung der Erkenntnisse, die im Rahmen dieser Dissertation gewonnen wurden. 500 Naturwissenschaften Aufmerksamkeit Primaten Areal MT Attention Primates Area MT 42 Biologie
102	Synthesis of new dicinnamoyl quinic acid derivatives and analogs and the evaluation of their potential as biopesticides / Synthèse de dérivés et analogues des acides dicinnamoyl quiniques nouvelle et évaluation de leur activité insecticide Li, Xiubin 28 April 2016 (has links) L'utilisation de pesticides conventionnels, en particulier les pesticides chimiques de synthèse, a considérablement réduit les pertes de récoltes et a connu un succès commercial. Cependant, l'utilisation excessive de pesticides chimiques qui manquent de toxicité spécifique a provoqué une série de problèmes environnementaux et de santé publique. L'intérêt de la recherche vers de nouveaux biopesticides naturels avec de nouveaux modes d'actions vise à un meilleur équilibre entre l'efficacité des pesticides et la réduction des méfaits possibles pour l'environnement et les humains. Les plantes sont une source importante de biopesticides. Les acides chlorogéniques (CQA), isolés à partir de diverses plantes et présentent in vivo et in vitro un large spectre d'activités biologiques, ont attiré l'attention avec un potentiel comme biopesticides basé sur la toxicité brevetée de l'acide 3,5-di-O-caféoylquinique contre les larves de Myzus persicae. L'étude des propriété insecticides notamment la mode d'action et l'étude de certaines relations structure-activité pourrait bénéficier de la synthèse de différents dérivés et analogues de CQA. Des analogues des acides 4-désoxy-3,5-dicinnamoy quiniques et 3,4- et 4,5-dicinnamoylquiniques naturels ont été synthétisés. Sept analogues dans la série 4-désoxy ont été soumis à des essais insecticides et deux composés présentent une activité insecticide plus élevée que l'acide 3,5-dicaféoylquinique naturel. Comme perspectives à ce travail, confirmer l'activité des composés synthétisés sur d'autres espèces de pucerons d'importance agronomique pourrait être réalisé. De plus, d’autres collaborations avec des biologistes pourraient être établies afin d’évaluer d'autres activités des composés synthétisés ou les utiliser comme outils pour étudier des mécanismes de biosynthése. / The use of conventional pesticides, especially the synthetic chemical pesticides, has greatly reduced the crop losses and gained a commercial success. However, the excessive use of pesticides lacking toxic specificity has caused a series of environmental and public health problems. The research interest toward new naturally-occurring biopesticides with novel modes of actions aims at a better balance between the efficiency of pesticide and reducing possible harms to environment and humans. Botanicals are an important source of biopesticides. Cinnamoyl quinic acids (CQA), isolated from various plants and shown to exhibit in vivo and in vitro a wide spectrum of biological activities, have attracted the attention with potential as biopesticides based on the patented toxicity of 3,5-di-O-caffeoylquinic acid against the larvae of Myzus persicae. The investigation of the insecticidal activity of CQA including their mode of action and the study of some structure-activity relationships could benefit from the synthesis of different CQA derivatives and analogs. A series of natural CQA derivatives natural 3,4- and 4,5-dicinnmamoylquinic acid derivatives but also analogs like 4-deoxy-3,5-dicinnamoylquinic acids were so synthesized. Seven targeted 4-deoxy CQA analogs were subjected to insecticidal assays, and two compounds were found to exhibit higher insecticidal activities than natural 3,5-dicaffeoylquinic acid. As perspectives to this work, confirming the activity of the synthesized compounds on other aphid species of agronomic importance could be performed. Furthermore, other collaborations could be established with biologists dedicated to measure other bioactivities of the synthesized compounds or use them as tools to investigate various biological pathways. Biosciences Agriculture Protection des cultures Biopesticide Acides chorogéniques Essais insecticides Bioscience Agricutlure Crop protection Biopesticide Chorogenic acides Insecticidal assays 595.707 2
103	Anabolic Androgenic Steroids and the Brain : Studies of Neurochemical and Behavioural Changes Using an Animal Model Steensland, Pia January 2001 (has links) <p>A new group of anabolic androgenic steroid (AAS) users has developed during the last two decades. This group consists primarily of young men interested in improving their physical appearance. Within this group, AAS are sometimes used together with other illicit drugs, alcohol and nicotine. Brutal and violent crimes have been committed under the influence of AAS, possibly because of AAS psychiatric side effects, ranging from increased aggression and psychosis to depression. Unfortunately, the biochemical mechanisms behind these effects are poorly understood.</p><p>In this thesis we used an animal model to study biochemical and behavioural effects of chronic AAS treatment (15 mg/kg/day of nandrolone decanoate for 14 days). The effect on the endogenous opioid peptides and the expression of immediate-early gene protein Fos in various brain regions were studied using radioimmunoassay and immunohistochemistry, respectively. In addition, we studied AAS effect on voluntary alcohol consumption and defensive behaviours, including aggression. The results show that AAS enhance endogenous opioid activity and Fos expression in brain regions regulating reward, aggression and disinhibitory behaviours. An imbalance between two opioid systems with generally opposing effects, the enkephalins with euphoric and the dynorphins with dysphoric effects, was also found. This implies that AAS alter the ability to maintain a stable state of mind and the response to other drugs of abuse. The AAS pre-treated animals enhanced their alcohol intake, were more aggressive and showed lower fleeing and freezing reaction than the controls. In addition, AAS enhanced amphetamine-induced aggression when the amphetamine was given three weeks after the last AAS injection.</p><p>The behavioural and biochemical results found in this thesis, support the hypothesis that use of AAS might lead to the development of dependence and may induce changes in the brain leading to disinhibitory behaviours.</p> Pharmaceutical biosciences Anabolic Androgenic Steroids (AAS) aggression alcohol intake defensive behaviours dependence opioid peptides Farmaceutisk biovetenskap Biopharmacy Biofarmaci
104	Direct Thrombin Inhibitors in Treatment and Prevention of Venous Thromboembolism: Dose – Concentration – Response Relationships Cullberg, Marie January 2006 (has links) <p>For prevention and treatment of thrombotic diseases with an anticoagulant drug it is important that an adequate dose is given to avoid occurrence or recurrence of thrombosis, without increasing the risk of bleeding and other adverse events to unacceptable levels. The aim of this thesis was to develop mathematical models that describe the dose-concentration (pharmacokinetic) and concentration-response (pharmacodynamic) relationships of direct thrombin inhibitors, in order to estimate optimal dosages for treatment and long-term secondary prevention of venous thromboembolism (VTE).</p><p>Population pharmacokinetic-pharmacodynamic models were developed, based on data from clinical investigations in healthy volunteers and patients receiving intravenous inogatran, subcutaneous melagatran and/or its oral prodrug ximelagatran. The benefit-risk profiles of different ximelagatran dosages were estimated using clinical utility functions. These functions were based on the probabilities and fatal consequences of thrombosis, bleeding and elevation of the hepatic enzyme alanine aminotransferase (ALAT).</p><p>The studies demonstrate that the pharmacokinetics of melagatran and ximelagatran were predictable and well correlated to renal function. The coagulation marker, activated partial thromboplastin time (APTT), increased non-linearly with increasing thrombin inhibitor plasma concentration. Overall, the systemic melagatran exposure (AUC) and APTT were similarly predictive of thrombosis and bleedings. The identified relationship between the risk of ALAT-elevation and melagatran AUC suggests that the incidence approaches a maximum at high exposures. The estimated clinical utility was favourable compared to placebo in the overall study population and in special subgroups of patients following fixed dosing of ximelagatran for long-term secondary prevention of VTE. Individualized dosing was predicted to add limited clinical benefit in this indication.</p><p>The models developed can be used to support the studied dosage and for selection of alternative dosing strategies that may improve the clinical outcome of ximelagatran treatment. In addition, the models may be extrapolated to aid the dose selection in clinical trials with other direct thrombin inhibitors.</p> Pharmaceutical biosciences Ximelagatran pharmacokinetic pharmacodynamic activated partial thromboplastin time utility function dosing strategy venous thromboembolism NONMEM Farmaceutisk biovetenskap
105	Blood-Brain Barrier Transport : Investigation of Active Efflux using Positron Emission Tomography and Modelling Studies Syvänen, Stina January 2008 (has links) <p>This thesis examines the transport of exogenous molecules across the blood-brain barrier (BBB), focusing on active efflux, using positron emission tomography (PET), computer simulation and modelling. P-glycoprotein (P-gp) inhibition was studied using [<sup>11</sup>C]verapamil and [<sup>11</sup>C]hydroxyurea was investigated as a new marker for active efflux transport. Simulations were carried out to explore the importance of the efflux transporter location in the BBB. Brain concentrations of [<sup>11</sup>C]verapamil, [<sup>11</sup>C]GR205171 and [<sup>18</sup>F]altanserin were compared in various laboratory animal species and in humans.</p><p>A central aspect of the studies has been the novel combination of dynamic PET imaging of the brain pharmacokinetics of a labelled drug, administered through an exponential infusion scheme allowing time-resolved consequence analysis of P-gp inhibition, and mathematical modelling of the obtained data. The methods are applicable to drugs under development and can be used not only in rodents but also in higher species, potentially even in humans, to investigate the effects of P-gp or other transporters on drug uptake in the brain.</p><p>The inhibition of P-gp by cyclosporin A (CsA) and the subsequent change in brain concentrations of [<sup>11</sup>C]verapamil occurred rapidly in the sense that [<sup>11</sup>C]verapamil uptake increased rapidly after CsA administration but also in the sense that the increased uptake was rapidly reversible. The P-gp inhibition was best described by an inhibitory indirect effect model in which CsA decreased the transport of [<sup>11</sup>C]verapamil out of the brain. The model indicated that approximately 90% of the transport of [<sup>11</sup>C]verapamil was P-gp-mediated. The low brain concentrations of [<sup>11</sup>C]hydroxyurea appeared to be a result of slow transport across the BBB rather than active efflux. This exemplifies why the extent and the rate of brain uptake should be approached as two separate phenomena. The brain-to-plasma concentration ratios for the three studied radiotracers differed about 10-fold be-tween species, with lower concentrations in rodents than in humans, monkeys and pigs. The increase in brain concentrations after P-gp inhibition was somewhat greater in rats than in the other species. </p><p>The findings demonstrate a need to include the dynamics of efflux inhibition in the experimental design and stress the importance of the choice of species in preclinical studies of new drug candidates. </p> Pharmaceutical biosciences pharmacokinetics P-glycoprotein blood-brain barrier modelling PET active efflux species differences [11C]verapamil drug development Farmaceutisk biovetenskap
106	Blood-Brain Barrier Transport : Investigation of Active Efflux using Positron Emission Tomography and Modelling Studies Syvänen, Stina January 2008 (has links) This thesis examines the transport of exogenous molecules across the blood-brain barrier (BBB), focusing on active efflux, using positron emission tomography (PET), computer simulation and modelling. P-glycoprotein (P-gp) inhibition was studied using [11C]verapamil and [11C]hydroxyurea was investigated as a new marker for active efflux transport. Simulations were carried out to explore the importance of the efflux transporter location in the BBB. Brain concentrations of [11C]verapamil, [11C]GR205171 and [18F]altanserin were compared in various laboratory animal species and in humans. A central aspect of the studies has been the novel combination of dynamic PET imaging of the brain pharmacokinetics of a labelled drug, administered through an exponential infusion scheme allowing time-resolved consequence analysis of P-gp inhibition, and mathematical modelling of the obtained data. The methods are applicable to drugs under development and can be used not only in rodents but also in higher species, potentially even in humans, to investigate the effects of P-gp or other transporters on drug uptake in the brain. The inhibition of P-gp by cyclosporin A (CsA) and the subsequent change in brain concentrations of [11C]verapamil occurred rapidly in the sense that [11C]verapamil uptake increased rapidly after CsA administration but also in the sense that the increased uptake was rapidly reversible. The P-gp inhibition was best described by an inhibitory indirect effect model in which CsA decreased the transport of [11C]verapamil out of the brain. The model indicated that approximately 90% of the transport of [11C]verapamil was P-gp-mediated. The low brain concentrations of [11C]hydroxyurea appeared to be a result of slow transport across the BBB rather than active efflux. This exemplifies why the extent and the rate of brain uptake should be approached as two separate phenomena. The brain-to-plasma concentration ratios for the three studied radiotracers differed about 10-fold be-tween species, with lower concentrations in rodents than in humans, monkeys and pigs. The increase in brain concentrations after P-gp inhibition was somewhat greater in rats than in the other species. The findings demonstrate a need to include the dynamics of efflux inhibition in the experimental design and stress the importance of the choice of species in preclinical studies of new drug candidates. Pharmaceutical biosciences pharmacokinetics P-glycoprotein blood-brain barrier modelling PET active efflux species differences [11C]verapamil drug development Farmaceutisk biovetenskap
107	Anabolic Androgenic Steroids and the Brain : Studies of Neurochemical and Behavioural Changes Using an Animal Model Steensland, Pia January 2001 (has links) A new group of anabolic androgenic steroid (AAS) users has developed during the last two decades. This group consists primarily of young men interested in improving their physical appearance. Within this group, AAS are sometimes used together with other illicit drugs, alcohol and nicotine. Brutal and violent crimes have been committed under the influence of AAS, possibly because of AAS psychiatric side effects, ranging from increased aggression and psychosis to depression. Unfortunately, the biochemical mechanisms behind these effects are poorly understood. In this thesis we used an animal model to study biochemical and behavioural effects of chronic AAS treatment (15 mg/kg/day of nandrolone decanoate for 14 days). The effect on the endogenous opioid peptides and the expression of immediate-early gene protein Fos in various brain regions were studied using radioimmunoassay and immunohistochemistry, respectively. In addition, we studied AAS effect on voluntary alcohol consumption and defensive behaviours, including aggression. The results show that AAS enhance endogenous opioid activity and Fos expression in brain regions regulating reward, aggression and disinhibitory behaviours. An imbalance between two opioid systems with generally opposing effects, the enkephalins with euphoric and the dynorphins with dysphoric effects, was also found. This implies that AAS alter the ability to maintain a stable state of mind and the response to other drugs of abuse. The AAS pre-treated animals enhanced their alcohol intake, were more aggressive and showed lower fleeing and freezing reaction than the controls. In addition, AAS enhanced amphetamine-induced aggression when the amphetamine was given three weeks after the last AAS injection. The behavioural and biochemical results found in this thesis, support the hypothesis that use of AAS might lead to the development of dependence and may induce changes in the brain leading to disinhibitory behaviours. Pharmaceutical biosciences Anabolic Androgenic Steroids (AAS) aggression alcohol intake defensive behaviours dependence opioid peptides Farmaceutisk biovetenskap Biopharmacy Biofarmaci
108	Direct Thrombin Inhibitors in Treatment and Prevention of Venous Thromboembolism: Dose – Concentration – Response Relationships Cullberg, Marie January 2006 (has links) For prevention and treatment of thrombotic diseases with an anticoagulant drug it is important that an adequate dose is given to avoid occurrence or recurrence of thrombosis, without increasing the risk of bleeding and other adverse events to unacceptable levels. The aim of this thesis was to develop mathematical models that describe the dose-concentration (pharmacokinetic) and concentration-response (pharmacodynamic) relationships of direct thrombin inhibitors, in order to estimate optimal dosages for treatment and long-term secondary prevention of venous thromboembolism (VTE). Population pharmacokinetic-pharmacodynamic models were developed, based on data from clinical investigations in healthy volunteers and patients receiving intravenous inogatran, subcutaneous melagatran and/or its oral prodrug ximelagatran. The benefit-risk profiles of different ximelagatran dosages were estimated using clinical utility functions. These functions were based on the probabilities and fatal consequences of thrombosis, bleeding and elevation of the hepatic enzyme alanine aminotransferase (ALAT). The studies demonstrate that the pharmacokinetics of melagatran and ximelagatran were predictable and well correlated to renal function. The coagulation marker, activated partial thromboplastin time (APTT), increased non-linearly with increasing thrombin inhibitor plasma concentration. Overall, the systemic melagatran exposure (AUC) and APTT were similarly predictive of thrombosis and bleedings. The identified relationship between the risk of ALAT-elevation and melagatran AUC suggests that the incidence approaches a maximum at high exposures. The estimated clinical utility was favourable compared to placebo in the overall study population and in special subgroups of patients following fixed dosing of ximelagatran for long-term secondary prevention of VTE. Individualized dosing was predicted to add limited clinical benefit in this indication. The models developed can be used to support the studied dosage and for selection of alternative dosing strategies that may improve the clinical outcome of ximelagatran treatment. In addition, the models may be extrapolated to aid the dose selection in clinical trials with other direct thrombin inhibitors. Pharmaceutical biosciences Ximelagatran pharmacokinetic pharmacodynamic activated partial thromboplastin time utility function dosing strategy venous thromboembolism NONMEM Farmaceutisk biovetenskap
109	Safety and Efficacy Modelling in Anti-Diabetic Drug Development Hamrén, Bengt January 2008 (has links) A central aim in drug development is to ensure that the new drug is efficacious and safe in the intended patient population. Mathematical models describing the pharmacokinetic-pharmacodynamic (PK-PD) properties of a drug are valuable to increase the knowledge about drug effects and disease and can be used to inform decisions. The aim of this thesis was to develop mechanism-based PK-PD-disease models for important safety and efficacy biomarkers used in anti-diabetic drug development. Population PK, PK-PD and disease models were developed, based on data from clinical studies in subjects with varying degrees of renal function, non-diabetic subjects with insulin resistance and patients with type 2 diabetes mellitus (T2DM), receiving a peroxisome proliferator-activated receptor (PPAR) α/γ agonist, tesaglitazar. The PK model showed that a decreased renal elimination of the metabolite in renally impaired subjects leads to increased levels of metabolite undergoing interconversion and subsequent accumulation of tesaglitazar. Tesaglitazar negatively affects the glomerular filtration rate (GFR), and since renal function affects tesaglitazar exposure, a PK-PD model was developed to simultaneously describe this interrelationship. The model and data showed that all patients had decreases in GFR, which were reversible when discontinuing treatment. The PK-PD model described the interplay between fasting plasma glucose (FPG), glycosylated haemoglobin (HbA1c) and haemoglobin in T2DM patients. It provided a mechanistically plausible description of the release and aging of red blood cells (RBC), and the glucose dependent glycosylation of RBC to HbA1c. The PK-PD model for FPG and fasting insulin, incorporating components for β-cell mass, insulin sensitivity and impact of disease and drug treatment, realistically described the complex glucose homeostasis in the heterogeneous patient population. The mechanism-based PK, PK-PD and disease models increase the understanding about T2DM and important biomarkers, and can be used to improve decision making in the development of future anti-diabetic drugs. Pharmaceutical biosciences pharmacokinetic pharmacodynamic mechanism-based modelling type 2 diabetes mellitus tesaglitazar PPAR drug development NONMEM Farmaceutisk biovetenskap
110	Reconstituted SNARE-mediated fusion: towards a mechanistic understanding / Rekonstitution SNARE-vermittelter Fusion: zum besseren Verständnis des Mechanismus Hernandez, Javier Matias 28 March 2011 (has links) No description available. 500 Naturwissenschaften SNARE Membranfusion SNARE membrane fusion Biologie Biologie

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