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Showing 101 to 110 of 110 (0.139 seconds)Spelling suggestions: "subject:"[een] CHRONIC STRESS"" "subject:"[enn] CHRONIC STRESS""
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« Étude du lien entre les comportements non verbaux émis par de jeunes hommes soumis à un test de stress (TSST) et leur niveau de stress physiologique : influence des expériences passées de maltraitance »Dufour, Pierre 02 1900 (has links)
No description available.
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Salivary alpha-amylase: More than an enzyme Investigating confounders of stress-induced and basal amylase activityStrahler, Jana 18 August 2010 (has links)
Summary: Salivary alpha-amylase: More than an enzyme - Investigating confounders of stress-induced and basal amylase activity (Dipl.-Psych. Jana Strahler)
The hypothalamus-pituitary-adrenal (HPA) axis and the autonomic nervous system (ANS) are two of the major systems playing a role in the adaptation of organisms to developmental changes that threaten homeostasis. The HPA system involves the secretion of glucocorticoids, including cortisol, into the circulatory system. Numerous studies have been published that introduced salivary cortisol to assess HPA axis activity and therefore strengthens its role as an easy obtainable biomarker in stress research that can be monitored easily and frequently. Recent findings suggest a possible surrogate marker of autonomic activity due to autonomic innervation of salivary glands: salivary alpha-amylase (sAA). Up to date, additional methodological research is needed for a better understanding of the advantages and disadvantages of sAA activity in comparison to already established markers of ANS activity. The aim of the present thesis is to further our knowledge of confounders of sAA activity under basal and acute stress conditions and to strengthen the validity of this enzyme as an easy obtainable alternative for ANS testing.
After introducing classical and modern stress concepts and stress system physiology (chapter 2), the reader is acquainted with anatomical basics of salivary gland innervation and secretion of salivary proteins, including sAA, due to autonomic innervation (chapter 3 and 4). Afterwards, a more nuanced review of methodological considerations of sAA determination shows gaps of knowledge concerning its usefulness as a marker of ANS activity (chapter 5). Given the fact that the integration of sAA into developmental and aging research is a relative recent phenomenon, several issues have to be addressed before a final conclusion could be drawn. Therefore, we conducted a series of studies incorporating these considerations regarding behavioral correlates of inter- and intraindividual differences in sAA activity with a special emphasis on older adults.
Chapter 7 deals with sAA activity under psychological stress conditions in different age groups. Since vulnerability to disease and disease prevalence patterns change with age, it is important to investigate stress reactivity of people in different age groups. We therefore investigated children between 6 and 10 years, because childhood is a sensitive period of growth and development, and thus plays an important role for later life health. Young adults were included to represent the most studied human age group as a reference. Older adults between 59 and 61 years were investigated, because at this age the course is set for the further development of a person’s health in later life, and because autonomic stress responses in older age might be important determinants of cardiovascular and inflammatory aging. Our goal is to test for associations of sAA with more established stress system markers, i.e., salivary cortisol as outcome measurement of HPA reactivity, heart rate (HR) and heart rate variability (HRV) as markers for autonomic reactivity, and to directly compare these responses between different age groups across the life span. Secretion of sAA and cortisol was repeatedly assessed in 62 children, 78 young adults, and 74 older adults after exposure to a standardized psychosocial stressor, the Trier Social Stress Test. In addition, cardiovascular activity was measured in both adult groups. Older adults showed attenuated sAA, HR, and HRV responses. Furthermore, we found higher sAA but lower cortisol at baseline as well as lower sAA and cortisol responses in children. Age by sex interactions were observed only for cortisol with higher responses in older male participants. No associations between the parameters were found. Results in children and young adults confirm previous results. Overall, findings implicate sAA as an alternative or additional autonomic stress marker throughout the life span, with marked and rapid responsiveness to stress in three relevant age groups.
The impact of age and chronic stress on basal sAA activity is the center of interest in chapter 8. We therefore assessed diurnal profiles of sAA and salivary cortisol in 27 younger and 31 older competitive ballroom dancers as well as 26 younger and 33 older age- and sex-matched controls. According to the Allostatic Load concept, repeated, non-habituating responses to social-evaluative conditions, which characterize the lives of competitive ballroom dancers, should be associated with stress system dysregulations. Furthermore, we expect to see an increased sympathetic drive associated higher overall alpha-amylase activity in older adults. Analyses revealed an elevated daily overall output of sAA in older adults while there was no effect of age on mean cortisol levels. Alterations of diurnal rhythms were only seen in younger male dancers showing a flattened diurnal profile of sAA and younger dancers and female older dancers showing a blunted diurnal rhythmicity of cortisol. Furthermore, we found a negative correlation between summary indices of basal sAA and the amount of physical activity. In conclusion, higher overall output of sAA in older adults was in line with the phenomenon of a “sympathetic overdrive” with increasing age. Furthermore, a lower output of sAA in people who are more physical active was in line with the hypothesis of an exercise-induced decrease of sympathetic activity.
Taken together, results of chapter 7 and 8 show a clear impact of age on sAA activity, either under acute stress or basal conditions. One problem when integrating sAA into developmental and aging research is the use of adrenergic agonists and antagonists what is very common in older adults, i.e. antihypertensive drugs (AD). As well, the previously shown sympathetic overactivity that occurs with normal aging is associated with higher blood pressure (BP). Therefore, chapter 9 deals with a possible impact of high BP and AD on diurnal sAA activity in 79 older adults (33 normotensive adults, 16 medicated vs. 45 hypertensive adults, 34 medicated). Results showed a pronounced rhythm of sAA in all groups. Diurnal profiles differed significantly between men and women with men lacking the typical decrease of sAA in the morning and showing more pronounced alterations throughout the day. An effect of AD on sAA profiles and area under the curve values indicates that subjects not using AD´s show a heightened diurnal profile and a higher total output of sAA. Descriptively, this was also true for hypertensive older adults. Hypertensive subjects and those not using AD showed the highest diurnal output of sAA and the steepest slope. In sum, our results show an impact of antihypertensive medication and a difference between normotensive and hypertensive subjects on characteristics of diurnal sAA activity. Hence, findings are of particular interest in research using sAA as a prognostic indicator of pathological states and processes.
Given the fact that hypertension was also shown to be associated with substantial changes of transmitters within the suprachiasmatic nucleus (SCN) - the “biological clock” that receives photic input from retinal glands via the retinohypothalamic pathway - and an altered output from the SCN to the sympathetic nervous system, we broaden the idea of a possible effect of different lighting conditions on morning sAA profiles in chapter 10. In a counterbalanced within-subjects design six men and 16 women of different ages collected sAA morning profiles on two consecutive days with leaving their shutters closed on the one day (= dark) and open their shutters on the other day (= bright). We were able to replicate earlier findings of light-induced changes of salivary cortisol with higher responses during the bright condition. On either day, women showed larger cortisol increases than men. Despite multisynaptic autonomic connections arising from the SCN projecting to multiple organs of the body, we could not find an effect of sunlight on sAA morning profiles. Evidence for circadian clock gene expression in human oral mucosa might account for this result and indicates that peripheral oscillators may act more like integrators of multiple different time cues, e.g. light, food intake, instead of a “master” oscillator (SCN).
Results of chapter 7 to 10 provide clear evidence that sAA is heightened in states of autonomic arousal, i.e. stress, aging and hypertension, and that its circadian rhythmicity seems to be regulated rather integrative than directly via efferent input from hypothalamic SCN neurons. In chapter 11 this thesis tries to approach one central question: What is the biological meaning of the findings made? According to this enzyme´s anti-bacterial and digestive action short term changes might not have a biological meaning itself but rather reflect just a small part of multiple coordinated body responses to stressful stimuli. While the sympathetic branch of the ANS mainly stimulates protein secretion, the parasympathetic branch stimulates saliva flow. Acute stress responses might therefore be interpreted as reflecting predominant sympathetic activity together with parasympathetic withdrawal. The same mechanism could also be suitable for the finding of higher diurnal levels of sAA in older adults or hypertensive subjects reflecting a higher peripheral sympathetic tone in these groups. Diurnal profiles of sAA itself may reflect circadian changes in autonomic balance. Circadian rhythms are of great advantage since they enable individuals to anticipate. This pre-adaptation enables the individual to cope with upcoming demands and challenges. Our finding of a relationship between sAA and salivary cortisol what strengthens the relevance of glucocorticoids that were previously shown to be able to phase shift circadian rhythms in cells and tissue. Within a food-related context there is evidence that decreasing levels of sAA in the morning could reflect increases of feeling hungry since sAA systematically increases during food consumption and with the subjective state of satiety. So far, much more research is needed to identify underlying physiological mechanisms of circadian sAA rhythmicity.
Taking the next step, future studies will have to focus on the integration of sAA assessment into longitudinal studies and different disease states to prove its applicability as a marker of sympathetic neural functioning in the genesis and prognosis of disease.:Table of Contents
1. Introduction 1
2. Stress 3
2.1. Stress concepts 3
2.1.1. Traditional concepts of stress 3
2.1.2. Allostasis and Allostatic Load 4
2.2. Stress system physiology 6
2.2.1. The hypothalamic-pituitary-adrenal (HPA) axis 6
2.2.1.1. Physiology 6
2.2.1.2. HPA axis activity indicators 6
2.2.2. The autonomic nervous system (ANS) 7
2.2.2.1. Physiology 7
2.2.2.2. ANS activity indicators 8
2.2.3. Relationships between stress systems 10
3. Saliva and salivary glands 11
3.1. Physiology 11
3.1.1. Anatomy, origin, and composition 11
3.1.2. Innervation 12
3.1.3. Salivary gland physiology with aging 13
3.2. Saliva and salivary flow 13
3.3. Protein secretion 14
4. Alpha-amylase in saliva 15
4.1. Chemical characteristics 15
4.2. Secretion of alpha-amylase 15
4.3. Diagnostic value of alpha-amylase 16
5. Methodological considerations of alpha-amylase determination 17
5.1. Collection methods and preparation 17
5.1.1. Saliva collection 17
5.1.2. Impact of flow rate 17
5.1.3. Impact of pH-value 18
5.2. Biochemical determination 18
5.3. Interindividual differences in sAA activity 19
5.3.1. Basal activity 20
5.3.2. Acute responses 20
5.3.3. Age effects 21
5.3.3.1. Basal amylase activity 21
5.3.3.2. Stress-induced amylase activity 21
5.3.4. Sex differences 22
5.3.4.1. Basal amylase activity 22
5.3.4.2. Stress-induced amylase activity 23
5.3.5. Modulating factors influencing amylase (re-)activity 24
5.3.5.1. Impact of smoking 24
5.3.5.2. Impact of alcohol 25
5.3.5.3. Impact of caffeine 25
5.3.5.4. Impact of high body fat and obesity 26
5.3.5.5. Impact of food intake 26
5.3.5.6. Impact of physical exercise 27
5.3.5.7. Impact of somatic and psychiatric diseases 27
5.3.5.8. Impact of medical drugs 29
5.3.5.9. Impact of sunlight on diurnal amylase 29
6. Aims and outline of the present work 31
7. Salivary alpha-amylase stress reactivity across different age groups 32
7.1. Introduction 32
7.2. Methods 35
7.2.1. Participants 35
7.2.2. Study Protocol 35
7.2.3. Measures 36
7.2.3.1. Saliva sampling 36
7.2.3.2. Heart rate and heart rate variability 36
7.2.3.3. Biochemical analyses 37
7.2.3.4. Psychometrical analyses 37
7.2.4. Statistical analyses 38
7.3. Results 38
7.3.1. Sample characteristic 38
7.3.2. Subjective stress response 39
7.3.3. Physiological stress response 39
7.3.3.1. Salivary alpha-amylase 39
7.3.3.2. Salivary cortisol 40
7.3.3.3. Heart rate 42
7.3.3.4. Heart rate variability 43
7.3.3.5. Determinants of the salivary alpha-amylase stress response 45
7.4. Discussion 45
7.5. Conclusion 48
8. Aging diurnal rhythms and chronic stress: Distinct alteration of diurnal rhythmicity of salivary alpha-amylase and cortisol 49
8.1. Introduction 49
8.2. Methods 52
8.2.1. Participants 52
8.2.2. Study protocol 53
8.2.3. Measures 53
8.2.3.1. Saliva sampling 53
8.2.3.2. Biochemical parameters 54
8.2.3.3. Psychological parameters 54
8.2.4. Statistical analyses 54
8.2.4.1. Preliminary analyses 54
8.2.4.2. Diurnal course of salivary alpha-amylase 55
8.3. Results 56
8.3.1. Sample characteristic 56
8.3.2. Preliminary analyses: impact of oral contraceptives, blood pressure, and lipid lowering medication on diurnal profiles 56
8.3.3. Diurnal course of salivary alpha-amylase 57
8.3.3.1. Salivary alpha-amylase over the day 57
8.3.3.2. Salivary alpha-amylase after awakening 58
8.3.4. Diurnal course of salivary cortisol 59
8.3.4.1. Salivary cortisol over the day 59
8.3.4.2. Salivary cortisol after awakening 60
8.3.5. Diurnal course of salivary biomarkers: associations and determinants 61
8.4. Discussion 62
8.5. Conclusion 65
9. Impact of blood pressure and antihypertensive drugs on diurnal alpha-amylase activity: A novel marker of sympathetic drive 67
9.1. Introduction 67
9.2. Methods 68
9.2.1. Participants 68
9.2.2. Study protocol 69
9.2.3. Measures 69
9.2.3.1. Saliva sampling 69
9.2.3.2. Biochemical parameters 69
9.2.3.3. Blood pressure assessment 70
9.2.4. Statistical analyses 70
9.3. Results 70
9.3.1. Participants 70
9.3.2. Salivary alpha-amylase 71
9.3.2.1. Salivary alpha-amylase over the day 71
9.3.2.2. Salivary alpha-amylase after awakening 74
9.4. Discussion 75
9.5. Perspectives 76
10. Light affects morning salivary cortisol, but not salivary
alpha-amylase 77
10.1. Introduction 77
10.2 Methods 79
10.2.1. Participants 79
10.2.2. Study protocol 80
10.2.3. Measures 80
10.2.3.1. Saliva sampling 80
10.2.3.2. Biochemical parameters 81
10.2.4. Statistical analyses 81
10.3. Results 82
10.3.1. Sociodemographics 82
10.3.2. Salivary alpha-amylase 82
10.3.3. Salivary cortisol 84
10.3.4. Associations between biochemical parameters 85
10.4. Discussion 86
10.5. Conclusion 89
11. General discussion 90
11.1. Summary of the results 90
11.1.1. Salivary alpha-amylase stress reactivity across different age groups 91
11.1.2. Aging diurnal rhythms and chronic stress: Distinct alteration of diurnal rhythmicity of salivary alpha-amylase and cortisol 91
11.1.3. Impact of blood pressure and antihypertensive drugs on diurnal alpha-amylase activity: A novel marker of sympathetic drive 92
11.1.4. Light affects salivary morning cortisol, but not salivary alpha-amylase 93
11.2. Integration of main findings 93
11.3. Stress-induced amylase activity, basal rhythm, and its biological meaning 95
11.4. Methodological consequences 97
11.4.1. Circadian variation 97
11.4.2. Longitudinal variation 98
11.4.3. Short-term variation and stability 98
11.4.4. Long-term change 99
11.5. Outlook 100
12. References 102
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L’évolution à long terme, le fonctionnement de l’intestin et la qualité de vie des patients affectés par la maladie de Hirschsprung : étude prospective cas-témoinsRighini-Grunder, Franziska 08 1900 (has links)
Introduction
L’évolution à long terme de la maladie de Hirschsprung (HSCR) est souvent associée à des complications et à un dysfonctionnement de l’intestin, source de conséquences importantes sur la qualité de vie (QdV). L’objectif principal de cette étude est, dans une cohorte québécoise de HSCR, d’étudier la QdV en utilisant un outil spécifique et d’en déterminer les facteurs prédictifs.
Méthodes
Étude prospective de cohorte et cas-témoins. Les questionnaires 'HAQL' (QdV spécifique de HSCR), 'PedsQL’ (QdV générale), sur le stress et sur la situation sociale ont été administrés, ainsi qu’un journal des selles. Le contenu en cortisol des cheveux (CCC) (mesure du stress chronique) a été quantifié par dosage immuno-enzymatique (ELISA).
Résultats
72 patients (72% garçons) et 117 contrôles (65% garçons) ont été analysés. L'âge médian [IQR1-IQR3] à l'inclusion était de 12,1 ans [8-17,5] et 12,6 ans [10,2-15,1] respectivement. La QdV liée à la santé globale était comparable entre les patients et les contrôles. Parmi les patients, la QdV spécifique à la HSCR mesurée par le HAQL était inférieure chez les enfants de 8 à11 ans par rapport aux adolescents de 12 à 16 ans (valeurs moyenne 539,3±66,5/700 vs. 622,6± 54,6/700; p=0,002). La dimension ‘Continence fécale pendant la journée’ était la plus affectée chez les patients âgés de 8 à 11 ans (valeur moyenne 52,6±25,3 sur 100). Chez les patients 12 à 16 ans, la dimension la plus affectée était le ‘Fonctionnement physique’. La prévalence de l'incontinence fécale mesurée chez les patients était de 85% chez les enfants, de 40% chez les adolescents et de 12% chez les adultes. Une association significative entre incontinence fécale et jeune âge était vu (p=<0,0001). Aucune association n'a été démontrée entre incontinence fécale et stress chronique (HCC, événements stressants) ou situation sociale chez les patients.
Conclusion
L’étude de la QdV par un outil spécifique de la HSCR est nécessaire pour une évaluation adéquate de l’état psychosocial dans cette population qui est à risque d’un dysfonctionnement de l’intestin à long terme. / Introduction
Multimorbidity and bowel dysfunction are affecting patients with Hirschsprung disease (HSCR) on long-term follow-up, having an important impact on quality of life (QoL). The primary aim of this study is to evaluate the disease-specific QoL with determination of its predictive factors in a French-Canadian cohort of HSCR patients.
Methods
Prospective cohort and case-control study. The questionnaires ‘HAQL’ (disease-specific QoL questionnaire), 'PedsQL’ (global health related QoL), ‘Stressful life events’, a questionnaire about the socio-economic state and a stool diary were requested to fill in. Hair cortisol concentration (HCC) (measure of chronic stress) was measured using an enzyme-linked immunosorbent assay kit (ELISA).
Results
72 patients (72% males) and 117 controls (65% males) were analyzed. Median [IQR1, IQR3] age at study inclusion was 12.1 years [8,17.5] in patients and 12.6 years [10.2,15.1] in controls. General health related QoL was comparable between patients and controls. In the patient’s group, children 8 to 11 years reported lower disease-specific QoL than adolescents (12 to 16 years) (mean scores 539.3±66.5/700 vs. 622.6±54.6/700; p=0.002). The dimension ‘Fecal continence during daytime’ was the most affected one in children (mean score 52.6± 25.3/100) and the dimension ‘Physical functioning’ was the most affected one in adolescents. Prevalence of fecal incontinence/soiling in the patient’s group was 85% in children, 40% in adolescents and 12% in adults. Younger age was associated with a higher prevalence of fecal incontinence (p=<0,0001). No association was seen between presence of fecal soiling/incontinence and chronic stress (HCC, Stressful live events) or social situation.
Conclusion
Disease-specific QoL investigation is mandatory in HSCR patients, to encounter and evaluate adequately psychosocial problems related to long term bowel dysfunction.
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Ecological and Physiological Effects of Proximity to Roads in Eastern Box Turtles (<i>Terrapene carolina carolina</i>)Weigand, Nicole Marcel 01 October 2018 (has links)
No description available.
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POTENTIAL EFFECTS OF PARENTAL HEAT STRESS EXPOSURE ON HYPOTHALAMIC-PITUITARY-ADRENAL AXIS SENSITIVITY THROUGH EPIGENETIC PROCESSES.Esther Mary Oluwagbenga (15354481) 29 April 2023 (has links)
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<p>Heat stress affects breeder ducks raised in North America and other parts of the world, but the effects of such stress on the progenies is not known. Therefore, the objectives of this study were to investigate: 1) The objectives of this thesis were to first investigate the effect of heat stress or exposure to exogenous glucocorticoid (GC) on fertility, production performance, egg biochemistry, egg quality, and welfare of breeder Pekin ducks. 2) the effects of maternal GC on phenotypic plasticity and behavior of the F1 generation. Three studies were carried out to investigate these objectives.</p>
<p>The first experiment was conducted to test the hypothesis that chronic treatment with low levels of either corticosterone or cortisol would alter heterophil to lymphocyte ratio (HLR) and immune organ morphometrics. Further, we wanted to determine if chronic treatment with either GC would elicit an increase in cortisol levels in egg albumen. To test our hypotheses, we implanted silastic capsules subcutaneously under the skin of the neck of adult ducks (n = 5/sex/dose) using propofol anesthesia. Capsules contained corticosterone, cortisol, or empty capsules as controls. Over the course of 2 weeks, blood serum, blood smears, body weights, and egg quality data were collected. After 2 weeks, ducks were euthanized using pentobarbital (FatalPlus, 396 mg/ml/kg) and body weight, weights of spleens, livers, and the number of active follicles were recorded. Blood smears were analyzed for HLR by a lab unaware of the treatment groups. Albumen GC levels were assessed using mass spectrometry. Data were analyzed using a 2- or 3-way ANOVA as appropriate and <em>post hoc </em>with Fishers protected least squares difference (PLSD). There were no treatment effects on egg quality measures or body weight. Corticosterone treatment did elicit an increase in serum corticosterone (p < 0.05), but not cortisol levels, compared to controls in both sexes. Both cortisol and corticosterone treatments increased (p < 0.05) serum levels of cortisol compared to controls. Relative spleen weights were higher (p < 0.05) in hens following corticosterone but not cortisol treatment. No other organs showed any differences among the treatment groups. Both GCs elicited an increase (p < 0.001) in HLR in hens at all time-points over the 2-week treatment period compared to controls. Cortisol, not corticosterone, elicited an increase in HLR for drakes (p < 0.05) compared to controls at day 1 after implants. Chronic treatment with cortisol, but not corticosterone, elicited an increase (p < 0.01) in egg albumen cortisol levels compared to other groups. Corticosterone was not detected in any albumen samples.</p>
<p>The goal of our second experiment was to test the hypothesis that heat stress (HS) would alter welfare, egg quality, and morphometrics of breeder ducks. Furthermore, we wanted to test if HS would increase cortisol levels in egg albumen due to recent exciting findings that cortisol, not corticosterone, is isolated in egg albumen. To test our hypothesis, adult Pekin ducks were randomly assigned to two different rooms at 85% lay with 60 hens and 20 drakes per room. Baseline data including body weight, body condition scores (BCS) (such as footpad quality, eyes, nostrils, feather cleanliness, and feather quality scores), and egg production/quality were collected the week preceding heat treatment. Ducks were subjected to cyclic HS of 350C for 10h/day and to 29.50C for the remaining 14h/day for 3 weeks while the control room was maintained at 220C. Eggs were collected daily, and body weights were taken on days 0 and 21 relative to the onset of heat treatment. BCS were collected weekly. Eggs were collected weekly for quality assessment and albumen glucocorticoid (GCs) levels assessment using mass spectrometry. One week before the exposure to HS, 10 hens and 5 drakes were euthanized and the same number again after 3 weeks of HS or control exposures using pentobarbital and birds necropsied. Body weight, weights of the liver, spleen, and the number of maturing follicles were recorded. Data analyses were done by 2- or 3-way ANOVA as appropriate with a Tukey-Kramer post hoc test. BCS were analyzed using a chi-squared test. A p value ≤ 0.05 was considered significant. Circulating levels of corticosterone were significantly (p < 0.01) elevated at week 1 only in the HS hens while there was no significant difference in the circulating levels of corticosterone in drakes compared to the controls. The circulating levels of cortisol increased significantly at week 1 (p < 0.05), week 2 (p < 0.05), and week 3 (p < 0.01) in the hens and at week 2 and 3 only (p < 0.05) in the drakes compared to the controls. Feather quality scores (p < 0.01), feather cleanliness scores (p < 0.001) and footpad quality scores (p < 0.05) increased significantly in the HS group compared to controls, higher BCS indicate a decline in welfare. HS elicited a significant (p < 0.001) decrease in egg production at weeks 1 and 3 and a descriptive decrease in the number of fertile eggs upon candling at 10 days of incubation, numeric decrease hatchability and increase in the number of dead embryos in the HS group after the incubation period. Hens in the HS group showed a significantly decreased BW (p < 0.001), and number of ovarian follicles (p < 0.05) compared to controls. Shell weight decreased significantly at week 1 (p < 0.05) compared to controls. Yolk weight decreased significantly at week 3 (p < 0.01) compared to controls. HS elicited a significant increase in albumen cortisol levels at week 1 (p < 0.05) and week 3 (p < 0.05).</p>
<p>The third experiment was conducted to determine if parental exposure to heat stress would impair performance, hypothalamic pituitary adrenal (HPA) axis response, welfare, or behavior of their offspring. To achieve these goals, we treated adult drakes and hens at peak lay to heat stress or control temperature for 3 weeks and incubated eggs collected from the last 3 days of the experiment. A total of 76 ducklings were placed into pens from each parental treatment group: control (CON-F1) and heat stress (HS-F1) and raised as grow-out ducks. Weekly data for body weights, body condition scores (BCS), and novel object test (NOT) were collected weekly. At 3 weeks of age, ducks (n = 6 per treatment group) were subjected to adrenocorticotropic hormone (ACTH) (ACTH/cosyntropin, 0.0625 mg/kg) challenge or vehicle as control. Blood samples were collected from the metatarsal vein into serum-separator tubes at 0, 1, 2, 3, and 4 hours relative to treatment for the determination of serum glucocorticoids. Blood smears were also produced from these same samples to determine heterophil to lymphocyte ratios (HLR). All injected birds were euthanized with pentobarbital on the second day relative to ACTH administration, spleen and bursa were removed and weighed immediately. Duck level analyses were completed using 1-, or 2 -way ANOVA as appropriate. BCS were analyzed using a chi-squared test. We observed that HS-F1 had a lower hatch weight (p < 0.05) compared to CON-F1. However, growth rates during the 5-week grow-out period were not significantly different between the two flocks. NOT (N = 4) analyses showed that the HS-F1 had a greater fear response (P< 0.001) compared to CON-F1. Similarly, an ACTH stimulation test showed that the HS-F1 ducks had significantly heightened corticosterone and HLR responses compared to CON-F1 ducks (p < 0.05). The HS-F1 showed altered baseline and ACTH-stimulated levels of cortisol compared to controls.</p>
<p>In conclusion, GC elicit differential effects and although corticosterone has been stated to be the predominant GC in avian species, cortisol may provide critical information to further understand and improve welfare. HS decreased performance, fertility, and productivity of breeder ducks. In addition, HS and exogenous GC elicited a selective deposition of cortisol, not corticosterone, in the egg albumen. The maternal cortisol deposited in eggs alter the hypothalamic-pituitary adrenal (HPA) axis and behavioral responses of the F1 generation. This suggests that maternal hormones can alter the phenotypic plasticity of the offspring and can be used to produce offspring that have better adaptation to the rising temperatures as a result of climate change. Finally, the measure of cortisol in egg albumen can be used as a non-invasive marker of stress.</p>
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Sex-specific differences in hippocampal development : impact on stress and epileptogenesisWolf, Daniele 01 1900 (has links)
Les différences sexuelles ne se limitent pas uniquement aux organes de
reproduction, elles sont aussi très marquées dans plusieurs pathologies humaines. De ce
fait, les études impliquant un seul sexe ne pourraient jamais permettre d’élucider les
mécanismes qui sous-tendent ces pathologies. De plus, l’exclusion des
femelles/filles/femmes des protocoles de recherche a des impacts négatifs sur la qualité
de vie des patients, plus spécifiquement celle des filles et femmes.
Des études récentes ont suggéré que la testostérone et ses métabolites affectent
le développement de l’hippocampe aux niveaux biochimique, morphologique et
fonctionnel. En revanche, les données ne sont pas aussi extensives que celles de leurs
rôles chez les adultes. Ainsi, une meilleure compréhension des mécanismes par lesquels
l’hormone stéroïdienne influence le développement du cerveau facilitera l’identification
des cibles thérapeutiques de plusieurs maladies neurodéveloppementales qui affectent
le fonctionnement de l’hippocampe.
Afin de se développer adéquatement, le cerveau mâle requiert une exposition aux
hormones sexuelles mâles pendant une période de temps donnée. En revanche, le
cerveau femelle possède une phase critique peu après la naissance au cours de laquelle
une exposition aux hormones sexuelles mâles le masculinise en produisant des
caractéristiques comparables à celles rencontrées chez des mâles biologiques. Ainsi, la
capacité de manipuler les cerveaux femelles dans le but de les masculiniser représente
un outil expérimental important pour investiguer les différences sexuelles. Du fait que les
hormones sexuelles telles que la testostérone et l’estradiol représentent respectivement
l’élément caractéristique de chacun des sexes, cette thèse a pour objectif de disséquer
l’implication de la testostérone dans le développement et le fonctionnement du cerveau
en étudiant en plus des rats mâles et femelles, des femelles traitées avec la testostérone
ainsi que des mâles rendus insensibles à la testostérone.
En premier lieu, nous avons investigué sur un système de neurotransmission
spécifique, à savoir le système GABAergique, qui est important pour le contrôle des convulsions communément observées dans l’épilepsie. Ce système possède des
particularités notables en fonction du sexe, particularités qui pourraient être l’une des
causes de la prédisposition des mâles à l’épilepsie. En effet, notre étude révèle qu’au
niveau basal, les femelles ainsi que les mâles insensibles à la testostérone montrent très
tôt au cours de leur développement une localisation à la membrane du co-transporteur
KCC2 qui régule la force de la neurotransmission inhibitrice. Par ailleurs, nous avons
aussi détecté des niveaux élevés du neurotrophine BDNF qui est un puissant modulateur
du fonctionnement des cellules GABAergiques, ceci, au cours de la première semaine
postnatale. Par ailleurs, chez les adultes, nous avons trouvé que les femelles ainsi que
les mâles insensibles à la testostérone montrent une augmentation de la transmission
GABergique spontanée comparativement aux mâles et aux femelles qui ont été exposées
à la testostérone. En somme, ces données démontrent que le fonctionnement de la
circuiterie GABAergique est modulé par le niveau de testostérone périnatal, ce qui
suggère d’un rôle des hormones sexuelles dans la régulation de l’excitabilité cellulaire.
De plus, les différences sexuelles dans le cerveau sont largement déterminées par
des facteurs extrinsèques. Parmi ces derniers, le stress du début de la vie est un facteur
extrinsèque puissant qui altère l’habileté à contrôler la rétroaction négative des
glucocorticoïdes sur l’axe hypothalamo-hypophyso-surrénalien (HHS). Le stress est
également connu pour affecter différentiellement les rats mâles comparativement aux
femelles. Nous démontrons alors que la corticostérone rend l’hippocampe vulnérable à
une seconde insulte, telle que les épilepsies induites par l’hyperthermie. En effet, chez
les rats traités à la corticostérone, la latence d’induction des épilepsies par hyperthermie
est réduite, le temps de récupération plus long et le nombre d’évènements épileptiques
plus nombreux. En outre, nous avons trouvé que tous ces effets sont plus proéminents
chez les mâles que chez les femelles. Ces données confirment l’existence d’un lien entre
le stress du début de la vie et la susceptibilité aux convulsions hyperthermiques chez les
rats mâles et femelles. Une meilleure compréhension des conséquences des convulsions
fébriles pourrait aider dans le pronostic et le traitement des patients souffrant d’épilepsie.
Somme toute, cette thèse met en lumière le rôle complexe des hormones sexuelles dans
la régulation des circuits GABAergiques, des réponses au stress et de l’hyperexcitabilité du cerveau en développement. Une meilleure compréhension des mécanismes
pathologiques propres aux modèles animaux mâles et femelles résulterait en de
meilleures interventions et thérapies aussi bien chez les hommes que les chez les
femmes. / Sex differences extend far beyond reproductive health — there is a widespread
prevalence of sex differences in many human diseases and conditions. Therefore, studies
limited to a single-sex cannot fully give a comprehensive picture of the underlying disease
mechanisms, and the neglect of females/girls/women in biological research negatively
impacts patients' quality of life, especially women.
Recent data suggest that testosterone and its metabolites affect the hippocampus
during development at the biochemical, morphological, and functional levels, although the
data are not nearly as extensive as what is known in adults. Therefore, a better
understanding of these effects will elucidate steroid hormone-dependent mechanisms of
brain development and, possibly, help identifying ways to mitigate the burden of the many
neurodevelopmental disorders that involve hippocampal function.
The male brain is unique in that it must be exposed to male sex hormones for a
fixed period of time, which is so-called critical period. This is deemed a critical period
because if androgens levels do not rise at this time in males, the brain will fail to be
masculinized. The female brain, on the other hand, has a sensitive period shortly after
birth, during which exposure to male sex hormones may masculinize the brain and
produce features comparable to those seen in biological males. This capacity to
manipulate females toward more masculinized brains represent an important
experimental tool to investigate sex differences. Because sexual hormones, such as
testosterone and estradiol, are a distinct point of divergence between sexes, my thesis
proposes to study the implication of testosterone by using, in addition to male and female
animals, females treated with testosterone as well as testosterone-insensitive male rats.
First, we investigated a specific neurotransmitter system, the GABAergic system,
which contributes to the control of seizures commonly observed in epilepsies. This system
shows robust differences between males and females, which may be involved with the
predisposition to epilepsy observed in males. Our study revealed that at baseline
conditions female and testosterone-insensitive male rats show an earlier localization at the membrane of the chloride co-transporter KCC2, which regulates the strengths of
inhibitory neurotransmission, and higher levels of the neurotrophin BDNF, which is a
powerful modulator of GABAergic cell function, during the first postnatal week. In addition,
we found that female and testosterone-insensitive male rats show enhanced spontaneous
GABA synaptic transmission when compared to males and testosterone-exposed females
in adults. Overall, these data show that perinatal testosterone levels modulate GABAergic
circuit function, suggesting a role of sex hormones in regulating cell excitability.
Second, sex differences in the brain are largely determined by extrinsic factors.
Early-life stress is one such powerful extrinsic factor that impairs the ability to control
glucocorticoid negative feedback on the HPA axis. Stress is also known to differentially
affect male and female rats. Here, we show that corticosterone alone renders the
hippocampus vulnerable to a second insult, namely hyperthermia-induced seizures, in fact
in corticosterone-treated rats the latency to hyperthermia-induced seizures was shorter,
the recovery time longer, and a larger number of hyperthermia-induced seizures. Further,
these effects were a lot more prominent in males than in females. These findings support
a link between early-life stress and hyperthermic seizure susceptibility in both male and
female rats. A better understanding of the consequences of febrile seizures could help
improve the prognosis and treatment of patients with epilepsy.
Altogether, these findings shed light on the complex roles of sex hormones in
regulating GABAergic circuits, stress responses and circuit hyper-excitability in the
developing brain. A better understanding of disease-mechanisms underlying male and
female animal models could lead to better interventions and therapeutics in both men and
women.
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Sex Differences in the Rapid and the Sustained Antidepressant-like Effects of Ketamine in Stress-naive and “Depressed” Mice Exposed to Chronic Mild StressFranceschelli, Anthony Albert 27 May 2015 (has links)
No description available.
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Pistes de prévention en santé mentale pour les étudiants en relation d’aide : influence de facteurs de risque et de protection sur des indicateurs de santé mentaleBoisvert, Charles 08 1900 (has links)
No description available.
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Pathogénicité du stress chronique chez l'adulte dans un modèle murin : impact à long terme et rôle de la somatostatine / Pathogenicity of chronic stress during adulthood in a mouse model : long-term impact and role of somatostatinPrévot, Thomas 15 December 2015 (has links)
Le stress a une fonction adaptative mais son influence délétère sur la santé physique,cognitive et mentale lorsqu’il se présente de façon excessive et/ou chronique est aujourd’huireconnue. De très nombreux travaux ont démontré que le jeune enfant, l’adolescent et le sujetâgé y sont particulièrement vulnérables. L’objectif de cette thèse a été de déterminer s’ilexiste une sensibilité au stress chronique chez l’adulte selon l’âge au moment de l’exposition.Le modèle de stress chronique léger et imprédictible mis au point chez la souris a été utilisé.Les impacts à court et long-terme (sujet âgé), ont été déterminés en analysant les troublessomatiques, hédoniques, anxieux, dépressifs et cognitifs, caractéristiques du syndrome destress. Contrairement à l’idée selon laquelle l’adulte serait plus résistant et plus résilient auxperturbations induites par le stress, les résultats de cette thèse démontrent qu’une période destress à l’âge adulte produit des effets délétères drastiques non seulement immédiats maiségalement à long terme. Toutefois, l’adulte d’âge moyen serait plus résistant et plus résilientrelativement aux adultes jeunes ou d’âge avancé qui présentent une symptomatologie plusmarquée. La sévérité des symptômes anxieux initialement générés par le stress est corrélée àla fois avec la persistance des troubles et la modification des marques de répression géniquedans l’hippocampe indiquant la présence d’une signature épigénétique de l’épisode de stress àlong terme. Des études récentes ont suggéré l’implication de la somatostatine centrale dans lesrégulations émotionnelles et relient la vulnérabilité au stress chronique des neuronessomatostatinergiques avec le développement de troubles anxio-dépressifs. Les résultats decette thèse ont permis d’identifier l’inhibition à la fois de l’axe HPA et des comportementsanxio-dépressifs par les récepteurs sst2 et sst4 de l’hippocampe. Les profils comportementauxinduits par l’utilisation d’agonistes sélectifs ou par la délétion de ces deux récepteurssuggèrent l’existence de deux voies de régulation interagissant respectivement avec lessystèmes sérotoninergique (voie sst2) et noradrénergique (voie sst4), l’une régulantprincipalement l’état anxieux, l’autre les désordres dépressifs et cognitifs. Ainsi, cette thèseétaye l’importance de la pathogénicité du stress chronique chez l’adulte et l’importance desrégulations neuroendocriniennes et cognitivo-émotionnelles par les récepteurs sst2 et sst4, unespécificité qui doit être prise en considération dans l’utilisation et le développement destraitements somatostatinergiques ciblant / Stress has an adaptive function but it can have also deleterious effects on physical,cognitive and mental health when its intensity and/or chronicity increase. A large body ofevidence supports the idea that young children, adolescents and aged people are highlysensitive to stress. The aim of this study was to determinate if a critical period of sensitivity tostress may be evidenced during adulthood. The Unpredictable Chronic Mild Stress protocoldeveloped in the mouse was used. Short and long-term impacts of stress were quantified byassessing somatic, hedonic, anxious, depressive and cognitive troubles which arecharacteristic of a stress syndrome. Unlike the view that adults are resistant and resilient tostress, the results presented in this thesis show that a stress period during adulthood inducesimmediate and long-lasting deleterious effects. However, middle-aged adults were moreresistant and more resilient than younger or older subjects which both displayed a more severesymptomatology. The anxiety level initially induced by chronic stress is correlated with thepersistence of troubles and with modifications of gene repression marks in the hippocampus,indicating the presence of an epigenetic signature of the chronic stress episode in the longterm.Recent studies have suggested that central somatostatin is involved in emotionalregulations, linking the vulnerability of somatostatinergic neurons to chronic stress with theinstatement of anxio-depressive disorders. We showed herein that hippocampal sst2 and sst4receptor subtypes mediate the inhibition of HPA axis and improve anxio-depressivebehaviors. Behavioral patterns induced by either selective agonists or deletions of thesereceptors suggest that two regulatory pathways respectively interact with the serotoninergicsystem (sst2) and the noradrenergic system (sst4). In addition, sst2 receptors mainly regulateanxiety whereas sst4 is mainly involved in the regulation of cognitive and depressivedisorders. As a whole, this thesis corroborates the idea that chronic stress has pathogeniceffects even in adulthood and highlights the importance of neuroendocrine and cognitivoemotionalregulations by sst2 and sst4 receptor subtypes, a specificity that has to beconsidered in the use and the development of somatostatin treatments targeting HPAderegulations and stress-related disorders.
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The influence of early life contexts on child self-regulation: A key to life course wellnessBates, Randi Ann 27 August 2019 (has links)
No description available.
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