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The Global ETD Search service is a free service for researchers
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Showing 201 to 204 of 204 (0.145 seconds)Spelling suggestions: "subject:"neuropeptide"" "subject:"neuropeptides""
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Studying individual differences and emotion regulation effects on PTSD-like responding and recovery : a psychophysiological VR-trauma paradigmRumball, Freya January 2013 (has links)
Despite a high proportion of the population experiencing traumatic events within their lifetime, the number of individuals who go on to develop posttraumatic stress disorder (PTSD) is comparatively small; herein highlighting the importance of individual differences in imparting risk and resilience towards the development and maintenance of PTSD. Existing literature illustrates that biological and ecological factors are important in predicting PTSD development, with pathological vulnerabilities excepting their effects at pre- peri- and post trauma stages. Whilst cognitive and emotion based models of PTSD account for the role of a minority of known pre-trauma risk factors, individual differences in peri- and post trauma processes are held as critical to the development of PTSD. The broad range of risk factors implicated in the empirical literature, and necessity of traumatic exposure to PTSD, implicates the utility of a diathesis-stress conceptualisation of PTSD development. The current thesis employed an analogue VR-trauma paradigm to investigate the respective importance of vulnerability factors at each stage, in the prediction of analogue PTSD symptoms (memory problems, startle responses, re-exposure fear habituation), whilst measuring affective and electrophysiological concomitance. Findings supported the importance of peri-traumatic responses in the prediction of PTSD, where present, showing increased predictive capacities over pre- and post-trauma factors. Biological and ecological factors also illustrated important predictive associations, with genetic SNPs implicated in reflex startle and cardiac responses towards intrusive memories. Moreover, peri-traumatic HR decelerations and accelerations mediated the association between pre-trauma factors and cued recall inaccuracy and intrusion severity respectively. Results support existing cognitive and emotional models in their emphasis on peri-traumatic processes but suggest the added utility of a diathesis stress conceptualisation of the development of PTSD, in highlighting the importance of pre-trauma biological and ecological risk and resilience factors.
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Dense-core vesicle maturation at the Golgi-endosomal interface in Caenorhabditis elegans / Reifung vonHannemann, Mandy 17 April 2012 (has links)
No description available.
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Aromatase inhibitors produce hypersensitivity in experimental models of pain : studies in vivo and in isolated sensory neuronsRobarge, Jason Dennis January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Aromatase inhibitors (AIs) are the current standard of care for the treatment of hormone receptor positive breast cancer in postmenopausal women. Nearly one-half of patients receiving AI therapy develop musculoskeletal toxicity that is characterized by joint and/or muscle pain and approximately one-fourth of patients discontinue their therapy as a result of musculoskeletal pain. Since there are no effective strategies for prevention or treatment, insight into the mechanisms of AI-induced pain is critical to improve treatment. However, there are few studies of AI effects in animal models of nociception. To determine whether AIs produce hypersensitivity in animal models of pain, I examined the effects of AI administration on mechanical, thermal, and chemical sensitivity in rats. The results demonstrate that (1) repeated injection of 5 mg/kg letrozole in male rats produces mechanical, but not thermal, hypersensitivity that extinguishes when drug dosing is stopped; (2) administering a single dose of 1 or 5 mg/kg letrozole in ovariectomized (OVX) rats also induces mechanical hypersensitivity, without altering thermal sensitivity and (3) a single dose of 5 mg/kg letrozole or daily dosing of letrozole or exemestane in male rats augments flinching behavior induced by intraplantar ATP injection. To determine whether the effects of AIs on nociceptive behaviors are mediated by activation or sensitization of peptidergic sensory neurons, I determined whether letrozole exposure alters release of calcitonin gene-related peptide (CGRP) from isolated rat sensory neurons and from sensory nerve endings in rat spinal cord slices. No changes in basal, capsaicin-evoked or high extracellular potassium-evoked CGRP release were observed in sensory neuronal cultures acutely or chronically exposed to letrozole. Furthermore, letrozole exposure did not alter the ability of ATP to augment CGRP release from sensory neurons in culture. Finally, chronic letrozole treatment did not augment neuropeptide release from spinal cord slices. Taken together, these results do not support altered release of this neuropeptide into the spinal cord as mediator of letrozole-induced mechanical hypersensitivity and suggest the involvement of other mechanisms. Results from this dissertation provide a new experimental model for AI-induced hypersensitivity that could be beneficial in delineating mechanisms mediating pain during AI therapy.
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Peptiderge Mediatoren und ihr Beitrag zur Pathophysiologie entzündlicher ErkrankungenGroneberg, Jan David Alexander 24 March 2004 (has links)
Peptiderge Mediatoren sind neben ihrer Funktion bei der Aufrechterhaltung der körpereigenen Homöostase unter physiologischen Bedingungen auch bei der Regulation pathopysiologischer und pathobiochemischer Prozesse chronisch-entzündlicher Erkrankungen maßgeblich beteiligt. In der vorliegenden Arbeit wurde diese Rolle durch Untersuchung des Expressionsprofils peptiderger Mediatoren und ihrer Rezeptoren unter normalen Bedingungen charakterisiert und auf dieser Grundlage Veränderungen des Mediatorstoffwechsels bei entzündlichen Erkrankungen erfasst. Aufgrund der geringen Kenntnisse bezüglich der Rolle anti-inflammatorischer Mediatoren wurde dabei insbesondere die Expression und Genregulation des Mediators VIP und seiner Rezeptoren untersucht. Dabei wurden molekularbiologische Methoden verwandt, um definierte Rezeptoren für VIP und verwandte Mediatoren in den Atemwegen und der Haut zu identifizieren. Im Anschluss daran wurde anhand verschiedener entzündlicher Erkrankungen der oberen Atemwege nachgewiesen, dass sich das peptiderge Mediatorprofil krankheitsspezifisch ändert und diese Subgruppen-spezifischen Änderungen nicht als ein universelles Epiphänomen der Entzündungsreaktion zu sehen sind. Ebenso konnte die Veränderung der Genexpression von Rezeptoren für peptiderge Mediatoren untersucht werden, wobei am Beispiel der Hypoxie die Induktion eines in den Atemwegen exprimierten Rezeptors nachgewiesen wurde. Am Beispiel der atopischen Dermatitis konnte darüber hinaus bewiesen werden, dass die Expression von VIP-Rezeptoren im Rahmen einer allergischen Erkrankung vermindert sein kann. Letztlich wurden ebenfalls mit VIP interferierende Transduktionsmechanismen untersucht, wobei die genauen Interaktionen peptiderger Mediatoren mit diesen intrazellulären Molekülen im Rahmen entzündlicher Erkrankungen noch aufzuschlüsseln sind. Die Ergebnisse der vorliegenden kumulativen Arbeit weisen in ihrer Gesamtheit auf eine wesentliche Bedeutung neurogener Mediatoren für pathophysiologische Mechanismen allergisch-entzündlicher Erkrankungen der Atemwege und Haut hin und lassen zukünftige therapeutische Ansätze auf Basis neuro-immunmodulierender Mechanismen sinnvoll erscheinen. / Peptidergic mediators participate next to their physiological role for numerous aspects of systemic and local homeostasis also in the regulation of pathophysiological and pathobiochemical processes in chronic inflammatory diseases. In the present study this role was investigated by assessing the expression profiles of peptidergic mediators and their receptors under physiological conditions. Basing on these findings differences of the mediator expression in inflammatory diseases were examined. Due to the relatively little knowledge on the role of potentially anti-inflammatory mediators the expression and gene regulation of the mediator VIP und its receptors were analysed. In this respect molecular techniques were used to assess distinct receptors for VIP and related mediators in the airways and skin. IN a next Step inflammatory diseases of the upper respiratory tract were examined and it was shown that the peptidergic mediators profile changes in relation to the disease entity and that this disease subtype-specific change is not a universal epiphenomenon of the ongoing inflammation. Also, alterations in the gene expression of peptidergic mediator receptors were analysed. Using hypoxia as an example the gene induction of airway-expressed receptors was demonstrated in relation to this stimulus. In further studies involving atopic dermatitis tissues a down-regulation of VIP receptor expression was demonstrated for allergic inflammatory conditions. In a last step VIP interfering signal transduction mechanisms were examined and future studies need to be carried out to fully assess the regulation of these interactions in relation to chronic inflammatory processes. The present results demonstrate an important role of neurogenic mediators in the pathophysiology of allergic inflammatory diseases of the airways and the skin and point to a potential use of neuro-immunomodulation in the future therapy of these diseases.
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