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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.
91

Primary Sjögren´s Syndrome. Clinical Studies with reference to Hormonal Status, Psychiatric Symptoms and Well-Being

Valtýsdóttir, Sigrídur Th. January 2001 (has links)
<p>Primary Sjögren's syndrome (pSS) is a chronic inflammatory connective tissue disease of unknown etiology. The disease primarily involves salivary and lacrimal glands which results in oral and ocular dryness (sicca symptoms). A wide spectrum of extraglandular features from various organs may be seen. </p><p>In this thesis, the frequency of psychiatric symptoms in women with primary Sjögren's syndrome was studied and an attempt was made to assess how these symptoms might influence their well being and quality of life. The main finding was that the women with pSS suffered significantly more often from symptoms of anxiety and depression when compared with age matched, healthy females and female patients with rheumatoid arthritis. The physical and mental well-being of the patients with pSS was significantly reduced compared to patient controls. </p><p>The possible link of psychiatric symptoms to the altered function of the hypothalamic-pituitary-gonadal axis and adrenal androgen secretion was elucidated. Women with pSS have intact cortisol synthesis but reduced serum concentrations of dehydroepiandrosterone sulphate (DHEA-S) (p<0.05) and an increased cortisol/DHEA-S ratio (p<0.05), compared to healthy controls. These findings may reflect a constitutional or disease-meditated influence on adrenal steroid synthesis. Positive correlation was found between DHEA-S serum levels and quality of sexual life (p<0.01) and mental well-being (p<0.01) in women with pSS. </p>
92

Primary Sjögren´s Syndrome. Clinical Studies with reference to Hormonal Status, Psychiatric Symptoms and Well-Being

Valtýsdóttir, Sigrídur Th. January 2001 (has links)
Primary Sjögren's syndrome (pSS) is a chronic inflammatory connective tissue disease of unknown etiology. The disease primarily involves salivary and lacrimal glands which results in oral and ocular dryness (sicca symptoms). A wide spectrum of extraglandular features from various organs may be seen. In this thesis, the frequency of psychiatric symptoms in women with primary Sjögren's syndrome was studied and an attempt was made to assess how these symptoms might influence their well being and quality of life. The main finding was that the women with pSS suffered significantly more often from symptoms of anxiety and depression when compared with age matched, healthy females and female patients with rheumatoid arthritis. The physical and mental well-being of the patients with pSS was significantly reduced compared to patient controls. The possible link of psychiatric symptoms to the altered function of the hypothalamic-pituitary-gonadal axis and adrenal androgen secretion was elucidated. Women with pSS have intact cortisol synthesis but reduced serum concentrations of dehydroepiandrosterone sulphate (DHEA-S) (p&lt;0.05) and an increased cortisol/DHEA-S ratio (p&lt;0.05), compared to healthy controls. These findings may reflect a constitutional or disease-meditated influence on adrenal steroid synthesis. Positive correlation was found between DHEA-S serum levels and quality of sexual life (p&lt;0.01) and mental well-being (p&lt;0.01) in women with pSS.
93

Approaches to the parametric modeling of hormone concentrations

Miller, Robert 22 July 2013 (has links) (PDF)
Transdisciplinary research in general, and stress research in particular, requires an efficient integration of methodological knowledge of all involved academic disciplines, in order to obtain conclusions of incremental value about the investigated constructs. From a psychologist’s point of view, biochemistry and quantitative neuroendocrinology are of particular importance for the investigation of endocrine stress systems (i.e., the HPA axis, and the SNS). Despite of their fundamental role for the adequate assessment of endocrine activity, both topics are rarely covered by conventional psychological curriculae. Consequently, the transfer of the respective knowledge has to rely on other, less efficient channels of scientific exchange. The present thesis sets out to contribute to this exchange, by highlighting methodological issues that are repeatedly encountered in research on stress-related endocrine activity, and providing solutions to these issues. As outlined within this thesis, modern stress research tends to fall short of an adequate quantification of the kinetics and dynamics of bioactive cortisol. Cortisol has gained considerable popularity during the last decades, as its bioactive fraction is supposed to be reliably determinable from saliva and is therefore the most conveniently obtainable marker of HPA activity. However, a substantial fraction of salivary cortisol is metabolized to its inactivated form cortisone by the enzyme 11β-HSD2 in the parotid glands, which is likely to restrict its utility. Although the commonly used antibody-based quantification methods (i.e. immunoassays) might “involuntarily” qualify this issue to some degree (due to their inherent cross-reactivity with matrix components that are structurally-related to cortisol; e.g., cortisone), they also cause differential within-immunoassay measurement bias: Salivary cortisone has (as compared to salivary cortisol) a substantially longer half-life, which leads to an overestimation of cortisol levels the more time has passed since the onset of the prior HPA secretory episode, and thus tends to distort any inference on the kinetics of bioactive cortisol. Furthermore, absolute cortisol levels also depend on the between-immunoassay variation of antibodies. Consequently, raw signal comparisons between laboratories and studies, which are favorable as compared to effect comparisons, can hardly be performed. This finding also highlights the need for the long-sought standardization of biochemical measurement procedures. The presumably only way to circumvent both issues is to rely on quantification of ultrafiltrated blood cortisol by mass-spectrometric methods. Being partly related to biochemical considerations with research on HPA activity, a second topic arises concerning the operationalization of the construct itself: In contrast to the simple outcome measures like averaged reaction times, inclined stress researchers can only indirectly infer on the sub-processes being involved in HPA activity from longitudinally sampled hormone concentrations. HPA activity can be quantified either by (a) discrete-time, or by (b) continuous-time models. Although the former is the most popular and more convenient approach (as indicated by the overly frequent encounter of ANOVAs and trapezoidal AUC calculations in the field of psychobiological stress research), most discrete time models form rather data-driven, descriptive approaches to quantify HPA activity, that assume the existence of some endocrine resting-state (i.e., a baseline) at the first sampling point and disregard any mechanistic hormonal change occurring in between all following sampling points. Even if one ignores the fact, that such properties are unlikely to pertain to endocrine systems in general, many generic discrete time models fail to account for the specific structure of endocrine data that results from biochemical hormone measurement, as well as from the dynamics of the investigated system. More precisely speaking, cortisol time series violate homoscedasticity, residual normality, and sphericity, which need to be present in order to enable (mixed effects) GLM-based analyses. Neglecting these prerequisites may lead to inference bias unless counter-measures are taken. Such counter-measures usually involve alteration of the scale of hormone concentrations via transformation techniques. As such, a fourth-root transformation of salivary cortisol (being determined by a widely used, commercially available immunoassay) is shown to yield the optimal tradeoff for generating homoscedasticity and residual normality simultaneously. Although the violation of sphericity could be partly accounted for by several correction techniques, many modern software packages for structural equation modeling (e.g., Mplus, OpenMX, Lavaan) also offer the opportunity to easily specify more appropriate moment structures via path notation and therefore to relax the modeling assumptions of GLM approaches to the analysis of longitudinal hormone data. Proceeding from this reasoning, this thesis illustrates how one can additionally incorporate hypotheses about HPA functioning, and thus model all relevant sub-processes that give rise to HPA kinetics and dynamics. The ALT modeling framework being advocated within this thesis, is shown to serve well for this purpose: ALT modeling can recover HPA activity parameters, which are directly interpretable within a physiological framework, that is, distinct growth factors representing the amount of secreted cortisol and velocity of cortisol elimination can serve to interpret HPA reactivity and regulation in a more unambiguous way, as compared to GLM effect measures. For illustration of these advantages on a content level, cortisol elimination after stress induction was found to be elevated as compared to its known pharmacokinetics. While the mechanism behind this effect requires further investigation, its detection would obviously have been more difficult upon application of conventional GLM methods. Further extension of the ALT framework allowed to address a methodological question, which had previously been dealt with by a mere rule of thumb; what’s the optimal threshold criterion, that enables a convenient but comparably accurate classification of individuals whose HPA axis is or is not activated upon encountering a stressful situation? While a rather arbitrarily chosen baseline-to-peak threshold of 2.5 nmol/L was commonly used to identify episodes of secretory HPA activity in time series of salivary cortisol concentrations, a reanalysis of a TSST meta- dataset by means of ALT mixture modeling suggested that this 2.5 nmol/L criterion is overly conservative with modern biochemical measurement tools and should be lowered according to the precision of the utilized assay (i.e., 1.5 nmol/L). In sum, parametric ALT modeling of endocrine activity can provide a convenient alternative to the commonly utilized GLM-based approaches that enables the inference on and quantification of distinct HPA components on a theoretical foundation, and thus to bridge the gap between discrete- and continuous-time modeling frameworks. The implementation of the outlined modeling approaches by the respective statistical syntaxes and practical guidelines being derived from the comparison of cortisol assays mentioned above, are provided in the appendix of the present thesis, which will hopefully help stress researchers to directly quantify the construct they actually intend to assess.
94

A Single Neonatal Injury Induces Life-Long Adaptations In Stress And Pain Responsiveness

Victoria, Nicole C 27 August 2013 (has links)
Approximately 1 in 6 infants are born prematurely each year. Typically, these infants spend 25 days in the Neonatal Intensive Care Unit (NICU) where they experience 10-18 painful and inflammatory procedures each day. Remarkably, pre-emptive analgesics and/or anesthesia are administered less than 30% of the time. Unalleviated pain during the perinatal period is associated with permanent decreases in pain sensitivity, blunted cortisol responses and high rates of neuropsychiatric disorders. To date, the mechanism(s) by which these long-term changes in stress and pain behavior occur, and whether such alterations can be prevented by appropriate analgesia at the time of injury, remains unclear. We have previously reported in rats that inflammation experienced on the day of birth permanently upregulates central opioid tone, resulting in a significant reduction in adult pain sensitivity. However, the impact on early life pain on anxiety- and stress-related behavior and HPA axis regulation is not known. Therefore the goal of this dissertation was to determine the long-term impact of a single neonatal inflammatory pain experience on adult anxiety- and stress-related responses. Neuroanatomical changes in stress-associated neurocircuits were also examined. As the endogenous pain control system and HPA axis are in a state of exaggerated developmental plasticity early in postnatal life, and these systems work in concert to respond to noxious or aversive stimuli, this dissertation research aimed to answer the following questions: (1) Does neonatal injury produce deficits in adult stress-related behavior and alter stress-related neuroanatomy through an opioid-dependent mechanism? (2) Does neonatal injury alter receptor systems regulating the activation and termination of the stress response in adulthood? (3) Are stress- and pain-related neurotransmitters altered within the first week following early life pain? (4) Is early activation of the pain system necessary for the long-term changes in anxiety- and stress-related behavior? Together these studies demonstrate the degree, severity and preventability of the long-term deficits in stress responding associated with a single painful experience early in life. The goal of this research is to promote change in the treatment of infant pain in the NICU to reduce long-term sensory and mental health complications associated with prematurity.
95

A Single Neonatal Injury Induces Life-Long Adaptations In Stress And Pain Responsiveness

Victoria, Nicole C 27 August 2013 (has links)
Approximately 1 in 6 infants are born prematurely each year. Typically, these infants spend 25 days in the Neonatal Intensive Care Unit (NICU) where they experience 10-18 painful and inflammatory procedures each day. Remarkably, pre-emptive analgesics and/or anesthesia are administered less than 30% of the time. Unalleviated pain during the perinatal period is associated with permanent decreases in pain sensitivity, blunted cortisol responses and high rates of neuropsychiatric disorders. To date, the mechanism(s) by which these long-term changes in stress and pain behavior occur, and whether such alterations can be prevented by appropriate analgesia at the time of injury, remains unclear. We have previously reported in rats that inflammation experienced on the day of birth permanently upregulates central opioid tone, resulting in a significant reduction in adult pain sensitivity. However, the impact on early life pain on anxiety- and stress-related behavior and HPA axis regulation is not known. Therefore the goal of this dissertation was to determine the long-term impact of a single neonatal inflammatory pain experience on adult anxiety- and stress-related responses. Neuroanatomical changes in stress-associated neurocircuits were also examined. As the endogenous pain control system and HPA axis are in a state of exaggerated developmental plasticity early in postnatal life, and these systems work in concert to respond to noxious or aversive stimuli, this dissertation research aimed to answer the following questions: (1) Does neonatal injury produce deficits in adult stress-related behavior and alter stress-related neuroanatomy through an opioid-dependent mechanism? (2) Does neonatal injury alter receptor systems regulating the activation and termination of the stress response in adulthood? (3) Are stress- and pain-related neurotransmitters altered within the first week following early life pain? (4) Is early activation of the pain system necessary for the long-term changes in anxiety- and stress-related behavior? Together these studies demonstrate the degree, severity and preventability of the long-term deficits in stress responding associated with a single painful experience early in life. The goal of this research is to promote change in the treatment of infant pain in the NICU to reduce long-term sensory and mental health complications associated with prematurity.
96

Hippocampal neuroplasticity and neurogenesis in major depressive disorder: a high field MRI study

Huang, Yushan Yu Xiang Unknown Date
No description available.
97

Modulation of Hypothalamic-pituitary-Adrenal Axis Parameters by Teneurin C-terminal Associated Peptide (TCAP)-1

De Almeida, Reuben Ricardo Joaquim 21 November 2012 (has links)
Teneurin C-terminal associated peptides (TCAP) are a family of bioactive peptides found on the terminal exon of the four teneurin genes. TCAP-1 is found within brain regions that modulate the activity of corticotropin-releasing factor (CRF), which is the principal neuropeptide regulator of the hypothalamic-pituitary-adrenal (HPA) axis. TCAP-1 has suppressive effects on CRF-induced anxiety behaviours in rats. However, previous studies determined that TCAP-1 does not act directly on the CRF receptors (CRFR). Thus, I postulate that TCAP-1 may act centrally to modify elements of the HPA axis. Using an immortalized mouse hippocampal cell line, I tested the hypothesis that TCAP acts either downstream of CRFR activation, or on the regulation of the glucocorticoid receptors (GCR), which modulate CRF actions. These studies indicate that TCAP-1 represents a novel peptide in the regulation of stress related systems, which acts independently of either CRF-, or glucocorticoid- mediated signal transduction and transcription.
98

Modulation of Hypothalamic-pituitary-Adrenal Axis Parameters by Teneurin C-terminal Associated Peptide (TCAP)-1

De Almeida, Reuben Ricardo Joaquim 21 November 2012 (has links)
Teneurin C-terminal associated peptides (TCAP) are a family of bioactive peptides found on the terminal exon of the four teneurin genes. TCAP-1 is found within brain regions that modulate the activity of corticotropin-releasing factor (CRF), which is the principal neuropeptide regulator of the hypothalamic-pituitary-adrenal (HPA) axis. TCAP-1 has suppressive effects on CRF-induced anxiety behaviours in rats. However, previous studies determined that TCAP-1 does not act directly on the CRF receptors (CRFR). Thus, I postulate that TCAP-1 may act centrally to modify elements of the HPA axis. Using an immortalized mouse hippocampal cell line, I tested the hypothesis that TCAP acts either downstream of CRFR activation, or on the regulation of the glucocorticoid receptors (GCR), which modulate CRF actions. These studies indicate that TCAP-1 represents a novel peptide in the regulation of stress related systems, which acts independently of either CRF-, or glucocorticoid- mediated signal transduction and transcription.
99

Hypotalamo-hypofýzo-gonádová osa a epilepsie: vzájemné vztahy / The hypothalamic-pituitary-gonadal axis and epilepsy: mutual relationships

Čuchalová, Marcela January 2018 (has links)
Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Biological and Medical Science Author: Marcela Čuchalová Supervisor: doc. MUDr. Josef Herink, DrSc. Title of diploma thesis: The hypothalamic - pituitary - gonadal axis and epilepsy: mutual relationships The content of the diploma thesis is an overview of the anatomy and physiology of the hypothalamic-pituitary-gonadal axis (HHG). Further chapters are devoted to the influence of epilepsy on HHG function, the effect of HHG hormones on epileptic activity itself. The effect of anti-epileptics on HHG functions will also be elucidated. The second part of the diploma thesis deals with separate chapters - catamenial epilepsy and epilepsy during pregnancy. Keywords: antiepileptic drugs, gonadotropin, hypothalamic-pituitary-gonadal axis, prolactin, sex hormones, temporal lobe epilepsy.
100

Variação nos genes dos receptores mineralocorticoide e glicocorticoide e suas implicações proteômicas na qualidade da carne de bovinos Nelore / Variation in the mineralocorticoid and glucocorticoid receptors genes and proteomics implications for meat quality in cattle of Nellore breed

Mirele Daiana Poleti 15 March 2013 (has links)
O eixo hipotálamo-pituitária-adrenal é o principal sistema neuroendócrino envolvido na regulação e adaptação da resposta ao estresse e, o principal hormônio secretado é o cortisol. O cortisol exerce seus efeitos por meio dos receptores mineralocorticoide (MR) e glicocorticoide (GR). Variações nos genes desses receptores têm sido associadas à sensibilidade aos glicocorticoides e mudanças no perfil metabólico. O objetivo geral desse trabalho foi compreender a variabilidade existente em relação às respostas fisiológicas de bovinos por meio da identificação de polimorfismos genéticos em genes envolvidos na resposta ao estresse e, verificar as consequências dessa variação genética em características de qualidade da carne. Dessa forma, três abordagens foram propostas: (1) avaliar a incidência de carne DFD (dark, firm and dry) e seu impacto no perfil metabólico, endócrino e características de qualidade da carne bovina, uma vez que o estresse é um dos principais fatores que levam a essa condição desfavorável; (2) avaliar a contribuição de fatores genéticos, por meio da identificação de polimorfismos de nucleotídeo único (SNPs), no gene do MR e GR, e suas associações com as características mensuradas; (3) avaliar os efeitos desses polimorfismos sobre o perfil proteico do músculo bovino. Foram utilizados 241 bovinos da raça Nelore. Os resultados evidenciaram implicações direta do pH 24 horas post-mortem nos atributos de cor e perdas por cozimento da carne. A incidência de carnes DFD (pH>=5,8) foi de 18,7%. Os polimorfismos identificados mostraram influenciar em algumas características mensuradas. Os SNPs NR3C2_1 e NR3C2_2 no gene do MR foram associados ao conteúdo de glicogênio muscular e nível plasmático do hormônio adrenocorticotrófico (ACTH) post-mortem, e o SNP NR3C1_1 no gene do GR foi associado aos níveis plasmático de cortisol post-mortem. As análises proteômicas demonstraram que a maioria das proteínas reguladas por esses SNPs estão envolvidas na contração muscular, metabolismo e defesa celular. Portanto, é possível inferir que o pH tem impacto nas características de qualidade da carne e que polimorfismos em MR e o GR levam a mudanças na atividade do eixo HPA, no perfil metabólico do organismo e no perfil proteico do músculo, sugerindo que esses genes estão envolvidos em uma complexidade de funções e podendo ser alvos de estudos em sistemas de produção que visam melhorar a produtividade. / The hypothalamic-pituitary-adrenal axis is the main neuroendocrine system involved in the regulation and adaptation in stress response and the primary hormone secreted is cortisol. Cortisol exerts its effects through the mineralocorticoid (MR) and glucocorticoid (GR) receptors. Variations in the genes of these receptors have been associated with sensitivity to glucocorticoids and changes in the metabolic profile. The general objective of this work was to understand the variability in relation to physiological responses of cattle through identification of genetic polymorphisms in genes involved in stress response and, checking the consequences of this genetic variation in meat quality traits. Thus, three approaches have been proposed: (1) evaluate the incidence of DFD meat (dark, firm and dry) and its impact on metabolics, endocrines profiles and meat quality traits, since stress is the major factor that lead to this unfavorable condition; (2) evaluate the contribution of genetic factors through identification single nucleotide polymorphisms (SNPs) in the MR and GR gene and its association with the measured traits; (3) evaluate the effects of these polymorphisms on the protein profile of bovine muscle. A total of 241 Nellore cattle were used. The results evidenced direct implications of 24 hours pH post-mortem in color attributes and cooking losses. The incidence of DFD meat (pH >= 5.8) was 18.7%. The polymorphisms identified demonstrated to influence some on measured characteristics. The NR3C2_1 and NR3C2_2 SNPs in MR gene were associated with muscle glycogen content and post-mortem adrenocorticotropic hormone (ACTH) plasma levels and, the NR3C1_1 SNP in GR was associated with post-mortem cortisol plasma levels. The proteomic analysis demonstrated that most proteins regulated by these SNPs are involved in muscle contraction, metabolism and cellular defense. Therefore, it is possible to infer that pH has impact on meat quality traits and MR and GR polymorphisms lead to changes in the HPA axis activity, metabolic profile and protein muscle profile, suggesting that these genes are involved in a complexity of functions and may be targets for studies on production systems to improve productivity.

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