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The Role of AMP-Activated Protein Kinase (AMPK) in Hypoxic Chemotransduction by the Carotid BodyJordan, Heidi Lynn 13 June 2012 (has links)
No description available.
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The Effects of Carotid Body Neurotransmitters on the Efferent Glossopharyngeal NeuronsDookhoo, Leema January 2008 (has links)
<p> The carotid body (CB) is the main peripheral chemoreceptor organ that maintains
homeostatic control of the O2, CO2, glucose and pH levels in the blood. It is innervated by nerve fibers from the carotid sinus nerve (CSN) that consists of sensory afferents from the petrosal ganglion (PG) and "inhibitory" efferents from the glossopharyngeal nerve (GPN). The efferent innervation forms an elaborate network that is immuno-positive for neuronal nitric oxide synthase (nNOS), and is thought to inhibit the CB via release of nitric oxide (NO). The purpose of this study is to further understand the underlying mechanisms of this inhibition. Since the CB possesses various neurotransmitters, including the excitatory neurotransmitter, acetylcholine (ACh), I tested the hypothesis that the CB drives its own modulation during chemoexcitation by secreting ACh, which would directly act on receptors located on the GPN neurons (GPNs) and lead to nNOS activation via calcium entry and the subsequent release of NO. To address this, molecular and calcium imaging techniques were used to demonstrate the specific types of nicotinic ACh receptors (nAChRs) expressed in GPN neurons. It was shown that GPN neurons expressed the mRNA for ten subunits: α2-α9, excluding α8 and β2-β4 and they responded to ACh and nicotine, a nAChR agonist, in a dose-dependent manner via an
increase in intracellular calcium. The EC50 for ACh and nicotine were ~ 9.9 and 20.5 μM
respectively. The nicotine-induced calcium transients were inhibited by mecamylamine, a nAChR competitive antagonist, with an IC50 of ~ 1.2 μM. Studies using subunit-specific
antagonists, dihydro-β-erythroidine (specific for α4β2 and α3β4 in particular dose ranges) and methyllycaconitine (MLA) and α-bungarotoxin (BTX; both specific for α7) revealed that the major functional nAChR expressed in GPNs were the α4β2 and α3β4 nAChRs. The results of this study show that GPN neurons respond to ACh stimulation with an increase in intracellular calcium and thus raise the possibility that ACh secreted after stimulation/activation of receptors on the CB may contribute to the synthesis of NO and negative feedback inhibition of CB function via stimulation of GPN efferent nerve fibers.</p> / Thesis / Master of Science (MSc)
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Measuring the Acute Physiological Effects of Leptin in the Carotid BodyPye, Richard Laurence 21 December 2015 (has links)
No description available.
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Alterações estruturais de corpos carotídeos de ratos expostos à hiperoxigenação hiperbárica / Structural alterations of rat carotid body exposed to hyperbaric oxygenationLeite, Magno Santos 07 November 2006 (has links)
Procurou-se confirmar a existência de alterações estruturais em corpos carotídeos de ratos expostos à hiperóxia que pudessem explicar a atenuação da resposta fisiológica à hipóxia nessas condições descrita na literatura. Também testamos a hipótese de haver um desvio de fluxo sanguíneo para os capilares intraglômicos em situações de hiperoxigenação hiperbárica.15 ratos machos Wistar adultos foram divididos em 3 grupos e expostos a 2,4 ATA por 6 horas, a 3,0 ATA por 6 horas e a ar ambiente (grupo controle). Os resultados obtidos através de análise histológica e morfométrica mostraram: a) nenhuma alteração da arquitetura dos corpos carotídeos, mas as células expostas à dose mais elevada apresentaram-se com citoplasma desarranjado, confirmado pela microscopia eletrônica; b) um aumento significativo da densidade volumétrica de capilares preenchidos por hemácias, mas não do estroma intersticial, no grupo exposto à dose mais elevada de O2 c) uma vasoconstricção significativa das arteríolas maiores em todas as doses de oxigênio empregadas no estudo e das arteríolas menores na dose mais elevada de O2; d) variações significativas na proporção das variantes de células glômicas no grupo exposto a menor dose de O2; e) mitocôndrias com poucas cristas, tanto nas células glômicas quanto nas terminações nervosas, embora nas primeiras apresentem-se bem deformadas; f) proliferação membranosa citoplasmática com aumento de REG e Golgi nas células glômicas e sustentaculares. Esses resultados sugerem um desvio do fluxo dos vasos mais calibrosos em direção aos capilares intraglômicos, confirmando nossa hipótese inicial e indicam que o oxigênio, dependendo da dose utilizada, exerce um efeito tóxico importante sobre os corpos carotídeos, com alterações significativas da ultraestrutura das células glômicas e terminações nervosas. / We sough to confirm the existence of structural alterations in rat carotid bodies exposed to hyperoxia that could explain the attenuation of the ventilatory hypoxic drive (HD) by hyperoxic conditions described in the literature. We also tested the hypothesis of there being a deviation of blood flow toward intraglomic capillaries in situations of hyperbaric oxygenation (HBO).15 adult male Wistar rats were divided in 3 groups and exposed to O2 at 2.4 ATA for 6 hours, at 3.0 ATA for 6 hours and to air at 1.0 ATA (control group). The results obtained through histological and morphometric analysis showed: a) no alteration in the architecture of the carotid bodies, but the cytoplasm of the cells exposed to the highest dose were disarranged, a feature confirmed by electron microscopy; b) a significant increase in volume density of capillaries filled out by red blood cells but not of interstitial stroma in the group exposed to O2 at the highest dose; c) a significant vasoconstriction of larger arterioles in all doses of oxygen employed in the study and of smaller arterioles at the highest dose of O2; d) significant variations in the proportion of glomic cell variants in the group exposed to the lowest dose of O2; e) mitochondria with few cristae, so in glomic cells as in nerve-endings, although in the former they were very deformed; f) cytoplasmic membranous proliferation with an increase of endoplasmic reticulum and Golgi apparatus in glomic and sustentacular cells. These results suggest a deviation of blood flow from more calibrated vessel toward intraglomic capillaries, confirming our initial hypothesis and indicate that oxygen, depending on the dose used, exerts an important toxic effect on rat carotid body with significant alterations of glomic cell and nerve-endings ultrastructure.
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O papel do corpúsculo carotídeo na insuficiência cardíaca induzida pela doxorrubicina / The role of the carotid corpuscle in heart failure induced by doxorubicinArnold, Alexandre José Tavolari 05 March 2018 (has links)
A insuficiência cardíaca (IC) é o estágio final de diversas patologias cardíacas e apresenta alta morbimortalidade. Dentre as causas, estão os efeitos cardiotóxicos em pacientes tratados com doxorrubicina (Dox). A fisiopatologia da IC apresenta aumento da atividade barorreflexa e marcada hiperatividade simpática (HS), estado compensatório à redução do débito cardíaco. Porém, a HS prolongada culmina em alterações deletérias para o sistema cardiovascular (SC) com piora do quadro de sintomas. Atualmente muito se discute sobre o papel dos corpúsculos carotídeos (CC) na fisiopatologia da IC devido ao seu reflexo simpatotônico e a melhora de pacientes portadores de IC após a remoção dos CC. O nosso objetivo foi avaliar a influência do CC na evolução da IC induzida pela DOX. Para tal, 35 ratos Wistar machos foram dispostos em 4 grupos: controle Salina (CSAL; n=7) e Controle Dox (CDOX; n=12), Desnervado Salina (DSAL; n=4) e Desnervado Doxo (DDOX; n=12). A desnervação consistiu na ressecção do nervo sinusal bilateral prévia à administração de Dox; a indução da IC ocorreu através de 6 aplicações de Dox, na dose de 2.5mg/kg, pela via IP a cada 4 dias. Após 15 dias do término da indução, os animais foram avaliados pelo ecocardiograma e canulados para registro de pressão arterial invasiva e avaliação hemodinâmica, autonômica, barorreflexa e quimiorreflexa. A análise dos resultados mostra que o grupo CDOX apresentou redução do peso corporal, da sensibilidade baro e quimiorreflexa, hiperatividade simpática acompanhada de redução vagal, redução da morfologia cardíaca associada à disfunção diastólica e sistólica e redução do peso bruto cardíaco e ventricular. A desnervação não foi capaz de reverter os efeitos deletérios causados pela Dox, inclusive a desnervação acentuou a disfunção diastólica e sistólica induzida pela Dox. Concluiu-se que a desnervação carotídea não foi eficiente em melhorar a insuficiência cardíaca induzida pela Dox no modelo experimental proposto / Heart failure (HF) is the final stage of several cardiac pathologies and results in high morbimortality. Among the causes, we can mention the cardiotoxic effects in patients treated with doxorubicin (Dox). The pathophysiology of HF has increased baroreflex activity and marked sympathetic hyperactivity (HS), a compensatory state to the reduction of cardiac output. However, prolonged HS results in worsening of the symptoms. Currently, the role of carotid corpuscles (CC) in the pathophysiology of HF is discussed due improvement of sympathetic reflex presents in patients with HF after CC removal. The objective of this study was to evaluate the influence of CC on the evolution of HF induced by DOX for this method 35 Male Wistar rats arranged in 4 groups: Salina control (CSAL; n = 7) and Dox Control (CDOX; n = 12) Salina Denerved (DSAL; n = 4) and Dox Denerved (DDOX; n = 12). A denervation consisted of bilateral sinus nerve resection prior to Dox administration, induction of HF through 6 Dox applications at a dose of 2.5mg / kg, via IP every 4 days. After 15 days of the end of the induction, the animals were evaluated by echocardiogram and cannulated to record invasive blood pressure and hemodynamic, autonomic, baroreflex and chemorreflex evaluation. Our experiment demonstrated that the CDOX group had reduction of body weight, baro and chemoreflex sensitivity, sympathetic hyperactivity accompanied by vagal reduction, reduction of cardiac morphology associated with diastolic and systolic dysfunction and reduction of gross cardiac and ventricular weight. The denervation is not able to reverse the deleterious effects caused by Dox, including denervation accentuated by Dox-induced diastolic and systolic dysfunction. Based on our results on a carotid denervation it was not effective in improving heart failure induced by Dox
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Alterações estruturais de corpos carotídeos de ratos expostos à hiperoxigenação hiperbárica / Structural alterations of rat carotid body exposed to hyperbaric oxygenationMagno Santos Leite 07 November 2006 (has links)
Procurou-se confirmar a existência de alterações estruturais em corpos carotídeos de ratos expostos à hiperóxia que pudessem explicar a atenuação da resposta fisiológica à hipóxia nessas condições descrita na literatura. Também testamos a hipótese de haver um desvio de fluxo sanguíneo para os capilares intraglômicos em situações de hiperoxigenação hiperbárica.15 ratos machos Wistar adultos foram divididos em 3 grupos e expostos a 2,4 ATA por 6 horas, a 3,0 ATA por 6 horas e a ar ambiente (grupo controle). Os resultados obtidos através de análise histológica e morfométrica mostraram: a) nenhuma alteração da arquitetura dos corpos carotídeos, mas as células expostas à dose mais elevada apresentaram-se com citoplasma desarranjado, confirmado pela microscopia eletrônica; b) um aumento significativo da densidade volumétrica de capilares preenchidos por hemácias, mas não do estroma intersticial, no grupo exposto à dose mais elevada de O2 c) uma vasoconstricção significativa das arteríolas maiores em todas as doses de oxigênio empregadas no estudo e das arteríolas menores na dose mais elevada de O2; d) variações significativas na proporção das variantes de células glômicas no grupo exposto a menor dose de O2; e) mitocôndrias com poucas cristas, tanto nas células glômicas quanto nas terminações nervosas, embora nas primeiras apresentem-se bem deformadas; f) proliferação membranosa citoplasmática com aumento de REG e Golgi nas células glômicas e sustentaculares. Esses resultados sugerem um desvio do fluxo dos vasos mais calibrosos em direção aos capilares intraglômicos, confirmando nossa hipótese inicial e indicam que o oxigênio, dependendo da dose utilizada, exerce um efeito tóxico importante sobre os corpos carotídeos, com alterações significativas da ultraestrutura das células glômicas e terminações nervosas. / We sough to confirm the existence of structural alterations in rat carotid bodies exposed to hyperoxia that could explain the attenuation of the ventilatory hypoxic drive (HD) by hyperoxic conditions described in the literature. We also tested the hypothesis of there being a deviation of blood flow toward intraglomic capillaries in situations of hyperbaric oxygenation (HBO).15 adult male Wistar rats were divided in 3 groups and exposed to O2 at 2.4 ATA for 6 hours, at 3.0 ATA for 6 hours and to air at 1.0 ATA (control group). The results obtained through histological and morphometric analysis showed: a) no alteration in the architecture of the carotid bodies, but the cytoplasm of the cells exposed to the highest dose were disarranged, a feature confirmed by electron microscopy; b) a significant increase in volume density of capillaries filled out by red blood cells but not of interstitial stroma in the group exposed to O2 at the highest dose; c) a significant vasoconstriction of larger arterioles in all doses of oxygen employed in the study and of smaller arterioles at the highest dose of O2; d) significant variations in the proportion of glomic cell variants in the group exposed to the lowest dose of O2; e) mitochondria with few cristae, so in glomic cells as in nerve-endings, although in the former they were very deformed; f) cytoplasmic membranous proliferation with an increase of endoplasmic reticulum and Golgi apparatus in glomic and sustentacular cells. These results suggest a deviation of blood flow from more calibrated vessel toward intraglomic capillaries, confirming our initial hypothesis and indicate that oxygen, depending on the dose used, exerts an important toxic effect on rat carotid body with significant alterations of glomic cell and nerve-endings ultrastructure.
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O papel do corpúsculo carotídeo na insuficiência cardíaca induzida pela doxorrubicina / The role of the carotid corpuscle in heart failure induced by doxorubicinAlexandre José Tavolari Arnold 05 March 2018 (has links)
A insuficiência cardíaca (IC) é o estágio final de diversas patologias cardíacas e apresenta alta morbimortalidade. Dentre as causas, estão os efeitos cardiotóxicos em pacientes tratados com doxorrubicina (Dox). A fisiopatologia da IC apresenta aumento da atividade barorreflexa e marcada hiperatividade simpática (HS), estado compensatório à redução do débito cardíaco. Porém, a HS prolongada culmina em alterações deletérias para o sistema cardiovascular (SC) com piora do quadro de sintomas. Atualmente muito se discute sobre o papel dos corpúsculos carotídeos (CC) na fisiopatologia da IC devido ao seu reflexo simpatotônico e a melhora de pacientes portadores de IC após a remoção dos CC. O nosso objetivo foi avaliar a influência do CC na evolução da IC induzida pela DOX. Para tal, 35 ratos Wistar machos foram dispostos em 4 grupos: controle Salina (CSAL; n=7) e Controle Dox (CDOX; n=12), Desnervado Salina (DSAL; n=4) e Desnervado Doxo (DDOX; n=12). A desnervação consistiu na ressecção do nervo sinusal bilateral prévia à administração de Dox; a indução da IC ocorreu através de 6 aplicações de Dox, na dose de 2.5mg/kg, pela via IP a cada 4 dias. Após 15 dias do término da indução, os animais foram avaliados pelo ecocardiograma e canulados para registro de pressão arterial invasiva e avaliação hemodinâmica, autonômica, barorreflexa e quimiorreflexa. A análise dos resultados mostra que o grupo CDOX apresentou redução do peso corporal, da sensibilidade baro e quimiorreflexa, hiperatividade simpática acompanhada de redução vagal, redução da morfologia cardíaca associada à disfunção diastólica e sistólica e redução do peso bruto cardíaco e ventricular. A desnervação não foi capaz de reverter os efeitos deletérios causados pela Dox, inclusive a desnervação acentuou a disfunção diastólica e sistólica induzida pela Dox. Concluiu-se que a desnervação carotídea não foi eficiente em melhorar a insuficiência cardíaca induzida pela Dox no modelo experimental proposto / Heart failure (HF) is the final stage of several cardiac pathologies and results in high morbimortality. Among the causes, we can mention the cardiotoxic effects in patients treated with doxorubicin (Dox). The pathophysiology of HF has increased baroreflex activity and marked sympathetic hyperactivity (HS), a compensatory state to the reduction of cardiac output. However, prolonged HS results in worsening of the symptoms. Currently, the role of carotid corpuscles (CC) in the pathophysiology of HF is discussed due improvement of sympathetic reflex presents in patients with HF after CC removal. The objective of this study was to evaluate the influence of CC on the evolution of HF induced by DOX for this method 35 Male Wistar rats arranged in 4 groups: Salina control (CSAL; n = 7) and Dox Control (CDOX; n = 12) Salina Denerved (DSAL; n = 4) and Dox Denerved (DDOX; n = 12). A denervation consisted of bilateral sinus nerve resection prior to Dox administration, induction of HF through 6 Dox applications at a dose of 2.5mg / kg, via IP every 4 days. After 15 days of the end of the induction, the animals were evaluated by echocardiogram and cannulated to record invasive blood pressure and hemodynamic, autonomic, baroreflex and chemorreflex evaluation. Our experiment demonstrated that the CDOX group had reduction of body weight, baro and chemoreflex sensitivity, sympathetic hyperactivity accompanied by vagal reduction, reduction of cardiac morphology associated with diastolic and systolic dysfunction and reduction of gross cardiac and ventricular weight. The denervation is not able to reverse the deleterious effects caused by Dox, including denervation accentuated by Dox-induced diastolic and systolic dysfunction. Based on our results on a carotid denervation it was not effective in improving heart failure induced by Dox
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Anatomical Characterization and Cellular Physiology of Rat Aortic Body ChemoreceptorsPiskuric, Nikol A. 10 1900 (has links)
<p>Aortic bodies (ABs) are putative peripheral arterial chemoreceptors located near the aortic arch. They are hypothesized to contribute to O<sub>2</sub> homeostasis by sensing arterial O<sub>2</sub> content and initiating cardiovascular reflexes during hypoxia; however, information on their cellular physiology is lacking. The primary goal of this thesis was to elucidate chemosensory mechanisms among mammalian (rat) AB cells, located specifically at the bifurcation of the left vagus nerve and recurrent laryngeal nerve (RLN), where they are found in association with a group of local neurons (>30). In vagus nerve-RLN whole-mounts, AB chemoreceptor (type I) cells were immunoreactive against the vesicular acetylcholine (ACh) transporter, and were surrounded by nerve terminals immunopositive for purinergic P2X2 and P2X3 receptor subunits, suggesting that ACh and ATP may act as neurotransmitters as in the related carotid body. In a novel dissociated AB culture model, subsets of type I cells exhibited elevated intracellular Ca<sup>2+</sup> responses to hypoxia, isohydric hypercapnia, isocapnic acidosis, and acidic hypercapnia, demonstrating their direct chemosensitivity for the first time. Interestingly, surviving local neurons also responded to these chemostimuli, suggesting that they are sensory. Patch clamp electrophysiological and Ca<sup>2+</sup> imaging studies revealed functional heteromeric P2X2/3 and nicotinic ACh receptors on local neurons, consistent with ACh and/or ATP mediating chemotransmission between receptor cells and local neurons. These neurons were also found to be interconnected by electrical synapses. Finally, the short-term survival of red blood cells (RBCs) in AB cultures, along with the finding that blood-borne factors (e.g. ATP released from RBCs) may have access to AB nerve terminals <em>in situ</em>, implicates RBCs as O<sub>2</sub>-sensors in AB function. Altogether, these results suggest an important role for purinergic P2X2/3 receptors on local neurons/nerve terminals and ATP release from type I cells and RBCs, in the unique ability of ABs to sense and process information about blood O<sub>2</sub> content.</p> / Doctor of Philosophy (PhD)
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Measuring the Effects of High-Fat Diet on Breathing and Oxygen-Sensitivity of the Carotid Body Type I CellRakoczy, Ryan J. 20 December 2017 (has links)
No description available.
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Acute Oxygen-Sensing by the Carotid Bodies: The Thermal Microdomain ModelRakoczy, Ryan Joseph 26 August 2021 (has links)
No description available.
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