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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.
1

The Influence of Osmoreceptors and Baroreceptors on Heat Loss Responses during a Whole-body Passive Heat Stress

Lynn, Aaron 08 November 2011 (has links)
Exercise and/or heat-induced dehydration is associated with decreases in plasma volume (hypovolemia) and increases in plasma osmolality (hyperosmolality), which are thought to stimulate peripheral baroreceptors and central osmoreceptors respectively. Independently, plasma hyperosmolality and baroreceptor unloading have been shown to attenuate sweating and cutaneous vasodilation during heat stress, and therefore, negatively impact body temperature regulation. However, to date little is known regarding the combined influence of plasma hyperosmolality and baroreceptor unloading on thermoefferent activity. Therefore, we evaluated the separate and combined effects of baroreceptor unloading (via lower body negative pressure, LBNP) and plasma hyperosmolality (via infusion of 3% NaCl saline) on heat loss responses of sweating and cutaneous vascular conductance (CVC) during progressive whole-body heating. We show that the combined nonthermal influences of plasma hyperosmolality and baroreceptor unloading additively delay the onset threshold for CVC, relative to their independent effects. In contrast, baroreceptor unloading has no influence on the sweating response regardless of osmotic state. These divergent roles of plasma hyperosmolality and the baroreflex on heat loss responses might serve to enhance blood pressure and body core temperature regulation during dehydration and heat stress.
2

The Influence of Osmoreceptors and Baroreceptors on Heat Loss Responses during a Whole-body Passive Heat Stress

Lynn, Aaron 08 November 2011 (has links)
Exercise and/or heat-induced dehydration is associated with decreases in plasma volume (hypovolemia) and increases in plasma osmolality (hyperosmolality), which are thought to stimulate peripheral baroreceptors and central osmoreceptors respectively. Independently, plasma hyperosmolality and baroreceptor unloading have been shown to attenuate sweating and cutaneous vasodilation during heat stress, and therefore, negatively impact body temperature regulation. However, to date little is known regarding the combined influence of plasma hyperosmolality and baroreceptor unloading on thermoefferent activity. Therefore, we evaluated the separate and combined effects of baroreceptor unloading (via lower body negative pressure, LBNP) and plasma hyperosmolality (via infusion of 3% NaCl saline) on heat loss responses of sweating and cutaneous vascular conductance (CVC) during progressive whole-body heating. We show that the combined nonthermal influences of plasma hyperosmolality and baroreceptor unloading additively delay the onset threshold for CVC, relative to their independent effects. In contrast, baroreceptor unloading has no influence on the sweating response regardless of osmotic state. These divergent roles of plasma hyperosmolality and the baroreflex on heat loss responses might serve to enhance blood pressure and body core temperature regulation during dehydration and heat stress.
3

The Influence of Osmoreceptors and Baroreceptors on Heat Loss Responses during a Whole-body Passive Heat Stress

Lynn, Aaron 08 November 2011 (has links)
Exercise and/or heat-induced dehydration is associated with decreases in plasma volume (hypovolemia) and increases in plasma osmolality (hyperosmolality), which are thought to stimulate peripheral baroreceptors and central osmoreceptors respectively. Independently, plasma hyperosmolality and baroreceptor unloading have been shown to attenuate sweating and cutaneous vasodilation during heat stress, and therefore, negatively impact body temperature regulation. However, to date little is known regarding the combined influence of plasma hyperosmolality and baroreceptor unloading on thermoefferent activity. Therefore, we evaluated the separate and combined effects of baroreceptor unloading (via lower body negative pressure, LBNP) and plasma hyperosmolality (via infusion of 3% NaCl saline) on heat loss responses of sweating and cutaneous vascular conductance (CVC) during progressive whole-body heating. We show that the combined nonthermal influences of plasma hyperosmolality and baroreceptor unloading additively delay the onset threshold for CVC, relative to their independent effects. In contrast, baroreceptor unloading has no influence on the sweating response regardless of osmotic state. These divergent roles of plasma hyperosmolality and the baroreflex on heat loss responses might serve to enhance blood pressure and body core temperature regulation during dehydration and heat stress.
4

The Influence of Osmoreceptors and Baroreceptors on Heat Loss Responses during a Whole-body Passive Heat Stress

Lynn, Aaron January 2011 (has links)
Exercise and/or heat-induced dehydration is associated with decreases in plasma volume (hypovolemia) and increases in plasma osmolality (hyperosmolality), which are thought to stimulate peripheral baroreceptors and central osmoreceptors respectively. Independently, plasma hyperosmolality and baroreceptor unloading have been shown to attenuate sweating and cutaneous vasodilation during heat stress, and therefore, negatively impact body temperature regulation. However, to date little is known regarding the combined influence of plasma hyperosmolality and baroreceptor unloading on thermoefferent activity. Therefore, we evaluated the separate and combined effects of baroreceptor unloading (via lower body negative pressure, LBNP) and plasma hyperosmolality (via infusion of 3% NaCl saline) on heat loss responses of sweating and cutaneous vascular conductance (CVC) during progressive whole-body heating. We show that the combined nonthermal influences of plasma hyperosmolality and baroreceptor unloading additively delay the onset threshold for CVC, relative to their independent effects. In contrast, baroreceptor unloading has no influence on the sweating response regardless of osmotic state. These divergent roles of plasma hyperosmolality and the baroreflex on heat loss responses might serve to enhance blood pressure and body core temperature regulation during dehydration and heat stress.
5

Secreção de vasopressina e ocitocina após estímulo osmótico e hipovolêmico em animais sobreviventes à sepse / Vasopressin and oxytocin secretion after osmotic and hypovolemic stimuli in sepsis surviving animals

Tazinafo, Lucas Favaretto 14 November 2014 (has links)
Vários estudos clínicos e experimentais relatam o aumento das concentrações plasmáticas de vasopressina (AVP) na fase inicial da sepse, como tentativa de restabelecer a pressão sanguínea que nesta fase começa a diminuir. Porém em uma fase mais tardia da doença, as concentrações do hormônio estão reduzidas mesmo sob um quadro de hipotensão progressiva, um dos principais estímulos para aumento da secreção deste hormônio. Este padrão de secreção hormonal alterada também parece ocorrer com o outro hormônio neurohipofisário, ocitocina (OT). O objetivo deste trabalho foi analisar a secreção dos hormônios AVP e OT, após estímulos osmótico e hipovolêmico em animais sobreviventes à sepse. A sepse foi induzida pelo método de ligação cecal e punção (CLP) (1 perfuração com agulha 14G) e os animais observados por 10 dias. Os sobreviventes foram submetidos à estímulo osmótico por desidratação (retirada de água para beber da gaiola) por dois dias, ou hipovolêmico por injeção intraperitoneal (i.p) de Polietileno glicol (PEG) (PEG-4000, 200mg/ml de PBS) por 90 minutos. Os animais controles foram hidratados ou receberam injeção intraperitoneal de PBS 0,01M. Após os estímulos, os animais foram decapitados para coleta de sangue e neurohipófise, para as análises de hematócrito, sódio sérico, osmolalidade plasmática, e dosagem hormonal de AVP e OT plasmática e neurohipofisária. Resultados: Os animais sobreviventes à sepse mantiveram a capacidade de responder aos estímulos com relação à secreção de AVP. Porém estes animais apresentaram uma secreção diminuída de OT após desidratação embora nenhuma alteração de secreção aparente ao estímulo volêmico. Conclusão: Animais sobreviventes à sepse apresentam alterações no padrão de resposta hormonal do eixo hipotálamoneurohipofisário ao estímulo osmótico sem aparente alteração quando o estímulo é volêmico, sugerindo que seus osmorreceptores encontram-se alterados / Many clinical and experimental studies reported the increase of plasma vasopressin (AVP) concentration in the early phase of sepsis, as an attempt to restore blood pressure that begins to decrease at this stage. However, in a later stage of the disease, the hormone concentrations are reduced even under a state of progressive hypotension, one of the major stimulus for the increase of secretion of this hormone. This pattern of impaired hormonal secretion during sepsis also seems to happen to the other pituitary hormone, oxytocin (OT). The aim of this study was to evaluate the secretion of the hormones AVP and OT after osmotic and hipovolemic stimuli in sepsis surviving animals. Sepsis was induced by cecal ligation and perforation (CLP) (1 perforation with 14G needle) and the animals observed for 10 days. The survivors were submited to osmotic stimulus by dehydration (privation of drinking water from the Cage) for two days, or hipovolemic by intraperitoneal (i.p) injection of polyethylene glycol (PEG) (PEG-4000, 200mg/ml of PBS) for 90 minutes. The control animals were hydrated or that received intraperitoneal injection of PBS 0,01M. After the stimuli, the animals were decapitated for the collection of blood and neurohypophysis, for the analysis of hematocrit, serum sodium, plasma osmolality and hormonal analysis of AVP and OT in the plasma and neurohypophysis. Results: Sepsis surviving animals maintained the capacity of answering the stimulus with AVP secretion. But these animals presented a lowered secretion of OT after dehydration, while they presented no alterations in secretion after volemic stimulus. Conclusion: Sepsis surviving animals presented alterations in the pattern of hormonal answer for the osmotic stimulus, with lowered secretion of OT, apparently there are no alterations in the pattern of a hormonal secretion after hypovolemia.
6

Secreção de vasopressina e ocitocina após estímulo osmótico e hipovolêmico em animais sobreviventes à sepse / Vasopressin and oxytocin secretion after osmotic and hypovolemic stimuli in sepsis surviving animals

Lucas Favaretto Tazinafo 14 November 2014 (has links)
Vários estudos clínicos e experimentais relatam o aumento das concentrações plasmáticas de vasopressina (AVP) na fase inicial da sepse, como tentativa de restabelecer a pressão sanguínea que nesta fase começa a diminuir. Porém em uma fase mais tardia da doença, as concentrações do hormônio estão reduzidas mesmo sob um quadro de hipotensão progressiva, um dos principais estímulos para aumento da secreção deste hormônio. Este padrão de secreção hormonal alterada também parece ocorrer com o outro hormônio neurohipofisário, ocitocina (OT). O objetivo deste trabalho foi analisar a secreção dos hormônios AVP e OT, após estímulos osmótico e hipovolêmico em animais sobreviventes à sepse. A sepse foi induzida pelo método de ligação cecal e punção (CLP) (1 perfuração com agulha 14G) e os animais observados por 10 dias. Os sobreviventes foram submetidos à estímulo osmótico por desidratação (retirada de água para beber da gaiola) por dois dias, ou hipovolêmico por injeção intraperitoneal (i.p) de Polietileno glicol (PEG) (PEG-4000, 200mg/ml de PBS) por 90 minutos. Os animais controles foram hidratados ou receberam injeção intraperitoneal de PBS 0,01M. Após os estímulos, os animais foram decapitados para coleta de sangue e neurohipófise, para as análises de hematócrito, sódio sérico, osmolalidade plasmática, e dosagem hormonal de AVP e OT plasmática e neurohipofisária. Resultados: Os animais sobreviventes à sepse mantiveram a capacidade de responder aos estímulos com relação à secreção de AVP. Porém estes animais apresentaram uma secreção diminuída de OT após desidratação embora nenhuma alteração de secreção aparente ao estímulo volêmico. Conclusão: Animais sobreviventes à sepse apresentam alterações no padrão de resposta hormonal do eixo hipotálamoneurohipofisário ao estímulo osmótico sem aparente alteração quando o estímulo é volêmico, sugerindo que seus osmorreceptores encontram-se alterados / Many clinical and experimental studies reported the increase of plasma vasopressin (AVP) concentration in the early phase of sepsis, as an attempt to restore blood pressure that begins to decrease at this stage. However, in a later stage of the disease, the hormone concentrations are reduced even under a state of progressive hypotension, one of the major stimulus for the increase of secretion of this hormone. This pattern of impaired hormonal secretion during sepsis also seems to happen to the other pituitary hormone, oxytocin (OT). The aim of this study was to evaluate the secretion of the hormones AVP and OT after osmotic and hipovolemic stimuli in sepsis surviving animals. Sepsis was induced by cecal ligation and perforation (CLP) (1 perforation with 14G needle) and the animals observed for 10 days. The survivors were submited to osmotic stimulus by dehydration (privation of drinking water from the Cage) for two days, or hipovolemic by intraperitoneal (i.p) injection of polyethylene glycol (PEG) (PEG-4000, 200mg/ml of PBS) for 90 minutes. The control animals were hydrated or that received intraperitoneal injection of PBS 0,01M. After the stimuli, the animals were decapitated for the collection of blood and neurohypophysis, for the analysis of hematocrit, serum sodium, plasma osmolality and hormonal analysis of AVP and OT in the plasma and neurohypophysis. Results: Sepsis surviving animals maintained the capacity of answering the stimulus with AVP secretion. But these animals presented a lowered secretion of OT after dehydration, while they presented no alterations in secretion after volemic stimulus. Conclusion: Sepsis surviving animals presented alterations in the pattern of hormonal answer for the osmotic stimulus, with lowered secretion of OT, apparently there are no alterations in the pattern of a hormonal secretion after hypovolemia.

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