• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 6
  • 3
  • Tagged with
  • 14
  • 14
  • 6
  • 6
  • 5
  • 4
  • 4
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • 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

Release of Immunoreactive Enkephalinergic Substances in the Periaqueductal Grey of the Cat During Fatiguing Isometric Contractions

Williams, C. A., Holtsclaw, L. I., Chiverton, J. A. 11 May 1992 (has links)
Antibody-coated microprobes were used to determine whether immunoreactive enkephalins were released in response to fatiguing isometric contractions of the hind-limb muscles in cats anesthetized with α-chloralose. Contractions were performed by stimulating the tibial nerve via a microprocessor-controlled stimulator. Microprobes were inserted into the periaqueductal grey (P 0.5-1.0 mm) prior to, during and following fatiguing contractions. During fatiguing contractions, mean arterial blood pressure increased by 76 ± 9 mmHg above resting and recovery levels. Levels of immunoreactive enkephalins were elevated in the dorsolateral periaqueductal grey during the isometric contraction when compared to resting levels. It is possible that isometric muscle contraction causes the release of Met-enkephalin-like substances in the periaqueductal grey.
2

Changes in Blood Pressure During Isometric Contractions to Fatigue in the Cat After Brain Stem Lesions: Effects of Clonidine

Williams, Carole A., Roberts, Jon R., Freels, Douglas B. 01 January 1990 (has links)
Study objective - The aim was to determine whether areas in the periaqueductal grey matter, medial dorsal raphé, or ventrolateral medulla might be involved with the integration of blood pressure and heart rate during isometric exercise.Design - Cats were anaesthetised with α chloralose (75 mg·kg-1) and catheters inserted into the right jugular vein and carotid artery. Isometric contractions were generated using a microprocessor controlled stimulator and sleeve electrode around the tibial nerve. Bilateral lesions were made in the dorsal periaqueductal grey matter (P1.0, LR 2.0, HD + 1.5 mm) or two sites in the ventrolateral medulla (P12.0, RL 2.0, HD -10 mm; or P12.0, RL 2.0, HD -8.5 mm). Lesions were also made in the medial dorsal raphé nuclei (P1.0, RL 0.0, HD +1.5 mm). Clonidine was injected into the cerebral aqueduct to determine whether it would exert an antipressor effect during muscle contraction after the lesions were made. Only one site of lesion was made in a group of animals. Bilateral injections of clonidine (250 ng in 0.5 μl) were made into the intact ventrolateral medulla (P11.5, RL 4.0, HD -8.5 mm) to explore its role further. Fatiguing contractions were performed before and after the lesions were made, or clonidine was injected, and changes in arterial blood pressure and heart rate were measured. Verification of the lesion sites or the microinjection sites, and the extent of the lesion or spread of the clonidine, was made from histological examination of brain tissue after each experiment.Experimental material - Adult cats of either sex, n = 20, weight 2.4 (SD 0.4) kg, were used.Measurements and main results - Fatiguing isometric contractions in control conditions caused mean arterial pressure to increase by 45-50 mm Hg and heart rates by 20-25 beats·min-1. Bilateral lesions in the dorsal periaqueductal grey matter did not alter resting mean arterial pressure but attenuated the pressor response during contractions. Injections of clonidine into the cerebral aqueduct had no further antipressor effects after the lesions. Lesions of the medial dorsal raphé nuclei or injections of clonidine into the intact medial dorsal raphé nuclei did not affect the pressor response to fatiguing isometric contractions. Injections of clonidine into the intact ventrolateral medulla eliminated the pressor response to isometric contractions. Bilateral lesions of the ventrolateral medulla near the rostral lateral border of the inferior olivary tract nuclei (P12.0, LR 2.0, HD -10 mm) also attenuated the muscle pressor response, while subsequent injections of clonidine into the cerebral aqueduct depressed the changes in blood pressure further.Conclusions - Ergoreceptor information may be processed through the periaqueductal grey matter through the ventrolateral medulla to control arterial blood pressure during isometric exercise to fatigue.
3

Evidências de projeções indiretas da substância negra compacta para o núcleo retrotrapezóide por meio da substância cinzenta periaquedutal e as alterações respiratórias observadas nesta via em um modelo da doença de Parkinson. / Evidence of indirect projections of the substantia nigra to the retrotrapezoid nucleus through the periaqueductal gray matter and the changes observed in this pathway in a model of Parkinson\'s disease.

Lima, Juliana Cristina de 31 January 2018 (has links)
A doença de Parkinson (DP) é uma desordem neurodegenerativa caracterizada clinicamente por tremor, rigidez, acinesia (ou bradicinesia) e instabilidade postural. Patofisiologicamente, a DP é classificada como uma sinucleinopatia associada à perda de neurônios dopaminérgicos na substância negra (SN), mas outros neurônios do tronco encefálico podem estar degenerados na DP, contribuindo não só para as alterações motoras, mas também não motoras observadas. Dentre as alterações não motoras, as alterações respiratórias estão presentes tais como obstrução das vias aéreas superiores, pneumonia e ainda a apnéia obstrutiva do sono uma das principais causas de morte na DP. Os mecanismos que levam à degeneração de neurônios envolvidos no controle respiratório ainda não estão bem esclarecidos, mas dados recentes do nosso laboratório mostraram que no modelo de DP induzido pela injeção no caudado-putâmen (CPu) de 6-hidroxidopamina (6-OHDA), um agente neurotóxico seletivo para células catecolaminérgicas, observou-se intensa redução na frequência respiratória e ventilação basais e induzidas pela ativação do quimiorreflexo central por hipercapnia. Além disso, observou-se também intensa redução do número de neurônios bulbares envolvidos no controle neural da respiração, como os neurônios Phox2b+ da região do núcleo retrotrapezóide (RTN), que estão envolvidos com a inspiração e o quimiorreflexo central. Dessa forma, o objetivo do presente trabalho foi investigar se a existência de uma via entre os neurônios da SN e do RTN poderia ser responsável por essa neurodegeneração. Realizamos injeções de traçadores anterógrados e retrógrados na SN e no RTN de ratos para verificar a existência de projeções diretas entre essas regiões, entretanto observamos que não há projeções diretas entre a SN e o RTN, mas há projeções indiretas entre essas duas regiões, utilizando a Substância Cinzenta Periaquedutal (PAG) como região intermediária. Além disso, observamos que no modelo de DP induzido pela injeção bilateral de 6-OHDA no CPu ocorre uma redução no número de varicosidades catecolaminérgicas na PAG e de neurônios que são ativados pelo quimiorreflexo central que se projetam da PAG para o RTN. Nossos experimentos eletrofisiológicos mostraram que a inibição bilateral da PAG pela injeção de muscimol não gera alterações respiratórias basais como ocorre no modelo da DP; entretanto, nesses animais, pudemos também observar, apesar de ser menor do que ocorre com animais submetidos ao modelo da DP, inibição de alterações respiratórias induzidas por hipercapnia. Nossos dados anatômicos mostraram que a comunicação entre os neurônios da SN e do RTN envolve neurônios da PAG e que essa via pode estar reduzida no modelo da DP, o que pode contribuir para a redução de neurônios do RTN; e que a redução neuronal desta via pode alterar as respostas respiratórias frente à ativação do quimiorreflexo central. / Parkinson\'s disease (PD) is a neurodegenerative disorder characterized clinically by tremor, rigidity, akinesia (or bradykinesia) and postural instability. Pathophysiologically, PD is classified as a synucleinopathy predominantly associated with loss of dopaminergic neurons in the substantia nigra (SN), but other brainstem neurons may also be degenerate in PD, contributing not only to the motor but also non-motor alterations observed in this pathology. Among the non-motor changes observed respiratory changes are present and can be characterized as upper airway obstruction, pneumonia and obstructive sleep apnea are one of the main causes of death in PD. The mechanisms that lead to the degeneration of neurons involved in respiratory control are still not well understood but data in the literature have demonstrated the loss of receptors in a region considered to be the respiratory rate generator in postmortem brains of humans. In the model animal DP of 6-hydroxydopamine (6-OHDA), a selective neurotoxic agent for catecholaminergic cells, there was an intense reduction in basal respiratory rate and ventilation, in addition to a intense reduction of neurons involved in neural control of breathing: Phox2b+ neurons in the retrotrapezoid nucleus (RTN) region. Thus, the aim of the present study was to investigate whether the existence of a pathway between SN and RTN neurons could be responsible for this bulbar neurodegeneration. We performed experiments using the injection of anterograde and retrograde tracers in the SN and the RTN to verify the existence of direct projections between these regions in rats. However, our results showed that there are no direct projections between the SN and the RTN, but there are indirect projections between these two regions, using Periaquedutal Gray Substance (PAG) as the intermediate region. In addition, we observed that in the PD model induced by the bilateral injection of 6-OHDA in CPu, a reduction of the projections PAG neurons for RTN and that are activated by the central chemoreflex. Our electrophysiological experiments have shown that in the 6-OHDA PD model there is a reduction of the cardiorespiratory responses induced by the activation of the central chemoreflex, since the bilateral inhibition of the PG of control animals does not alter these cardiorespiratory responses. Therefore, our anatomical results showed that the communication between SN and RTN neurons involves PAG neurons and that this pathway may be reduced in the PD model, which may contribute to the reduction of RTN neurons; and that the neuronal reduction of this pathway may alter respiratory responses to activation of the central chemoreflex.
4

Estudo da participação da matéria cinzenta periaquedutal dorsal no comportamento defensivo de camundongos através do emprego de diferentes modelos animais de ansiedade: a estimulação química e a exposição ao predador / Role of the midbrain dorsal periaqueductal gray on defensive behaviors of mice evaluated in different animal models of anxiety: the local chemical stimulation and the prey-predator exposure

Carvalho Netto, Eduardo Ferreira de 28 February 2007 (has links)
O medo e a ansiedade são emoções que apresentam claro valor adaptativo, e que tem suas origens nas reações de defesa que os animais exibem em resposta a situações de ameaça que podem comprometer sua integridade física ou sobrevivência. Recentes estudos têm indicado que a matéria cinzenta periaquedutal dorsal (MCPD) está envolvida na organização e expressão de comportamentos intempestivos do tipo fuga e luta, os quais são relacionados ao estado de medo, e também participa, juntamente com estruturas prosencefálicas (ex. córtex pré-frontal, sistema septo-hipocampal e amígdala), do controle de comportamentos defensivos mais elaborados e orientados relacionados à ansiedade. O presente estudo investigou a participação da MCPD na modulação de diferentes comportamentos defensivos (p. ex. fuga, esquiva e avaliação de risco) induzidos por métodos artificial (estimulação química) e naturalístico (exposição ao predador) em camundongos. Na primeira etapa, investigamos o padrão de resposta comportamental induzida pela infusão do ácido D,L-homocistéico (DLH, estímulo aversivo químico) na MCPD em diferentes situações ou ambientes, com e sem grande disponibilidade de espaço - o Mouse Defense Test Battery (MDTB) e a Arena (Experimento 1), respectivamente. Além disso, o presente estudo avaliou a habilidade dos animais de reagirem a estímulos aversivos (predador) durante o período inicial (nos 60 s iniciais) do efeito do ácido DLH (fuga explosiva) (Experimento 3), e imediatamente após esse período, no qual o animal apresente comportamento de congelamento ou imobilidade (Experimento 2). Nossos resultados indicaram que a fuga desencadeada pela estimulação química é a resposta predominante de camundongos e que sua exibição depende da disponibilidade de espaço, uma vez que a maioria dos saltos observados na arena está intimamente relacionada ao contato tátil do animal com as paredes do aparato. Esse perfil de respostas de fuga explosiva e saltos parece não representar o padrão comportamental defensivo natural, tal como acontece diante de uma ameaça proximal (ex. um predador), uma vez que durante a estimulação química os camundongos apresentaram um déficit na estratégia antipredador. A segunda etapa do estudo avaliou os efeitos da injeção intra-MCPD do agonista glutamatérgico ácido N-metil-D-aspártico (NMDA), do inibidor da enzima de síntese do óxido nítrico neuronial (NOSn), N?-propil-L-arginina (NPLA) (Experimento 4), e do agonista não seletivo de receptores do fator de liberação de corticotrofina (CRF), CRF ovino (oCRF) (Experimento 5), no comportamento defensivo de camundongos submetidos ao MDTB e ao teste de exposição ao rato (Rat Exposure Test; RET). Os resultados da segunda etapa demonstraram que a ativação de receptores NMDA na MCPD de camundongos intensifica comportamentos relacionados à esquiva do predador. De maneira interessante, essas alterações produzidas pelo NMDA foram consistentemente revertidas pelo inibidor da NOSn, previamente microinjetado no mesmo sítio. Além disso, efeitos intrínsecos do NPLA atenuaram as respostas de esquiva e de avaliação de risco em camundongos submetidos ao RET. Por fim, os resultados da segunda etapa também apontaram para um efeito proaversivo (nas respostas de salto e de esquiva) do agonista de receptores CRF, indicando uma participação dos sistemas glutamatérgico, nitrérgico e CRFérgico, localizados na MCPD, na modulação de diferentes estratégias defensivas (ex. esquiva, avaliação de risco e saltos) de camundongos submetidos ao confronto com o predador. Em conjunto, nossos resultados corroboram a hipótese de que a MPCD está envolvida tanto na organização e expressão de comportamentos intempestivos do tipo fuga e luta como também no controle de comportamentos defensivos mais elaborados e orientados, tais como a avaliação de risco e a esquiva. / The midbrain dorsal periaqueductal grey (DPAG) is part of the brain defensive system involved in active defense reactions to threatening stimuli. Many lines of evidence suggest that besides fundamentally controlling fear-like responses (fight and flight) the DPAG also controls responses related to anxiety, such as avoidance and risk assessment. This study investigated the role of DPAG on different defensive strategies (i.e. flight, avoidance and risk assessment) elicited by artificial (chemical stimulation, Experiments 1-3) and naturalistic (exposure to predator, Experiments 4 and 5) paradigms in mice. Firstly, D,L-Homocysteic acid (DLH) was infused into the DPAG and behavioral responses of mice were evaluated in two different situations, a rectangular novel chamber and a large oval runway, the Mouse Defense Test Battery (MDTB) apparatus (Exp. 1). We also investigated the ability of mice to react to a threatening stimulus (ex. a predator) during (Exp. 3) and immediately after (Exp. 2) the hyperactive responses (ex. jumping and running) induced by DLH injection. Our results indicated that running as opposed to jumping is the primary response in mice injected with DLH into the DPAG when the environment enables flight. However, mice did not react the predator during the flight reaction induced by chemical stimulation, suggesting the behavioral profile induced by DLH infusion into the DPAG is not related to a normal antipredator flight. In the Experiments 4 and 5, we evaluated the effects of three different compounds, N-methyl-D-Aspartate (NMDA), a NMDA receptor agonist, N?-propyl-L-arginine (NPLA), an neuronal nitric oxide synthase (nNOS) inhibitor as well as ovine CRF (oCRF), a nonspecific corticotropin-releasing factor (CRF) receptor agonist, injected into the DPAG of mice, in two predator-stress situations, the Mouse Defense Test Battery (MDTB), and the Rat Exposure Test (RET). Firstly, our results demonstrated that NMDA receptor activation into the mouse DPAG enhances antipredator reactivity (avoidance), an effect that was attenuated by prior infusion of NPLA into the same site. Moreover, the results from the Experiment 4 indicated that the NPLA treatment per se induces consistent anti-aversive effects on defensive behaviors (avoidance and risk assessment) of mice confronted by predator. Finally, our results pointed out a proaversive effect (e.g. increased jump escapes and avoidance behaviors) following intra-DPAG infusion of oCRF, suggesting an important role of glutamatergic, nitrergic and CRFergic systems into the DPAG on the defensive behaviors (risk assessment, avoidance and jumps) elicited by the confront to the predator. Taken together, present results are compatible with previous studies which have emphasized the role of the periaqueductal gray in the modulation of behavioral responses related to anxiety such as risk assessment and avoidance besides fundamentally controlling fear-like responses.
5

Estudo da participação da matéria cinzenta periaquedutal dorsal no comportamento defensivo de camundongos através do emprego de diferentes modelos animais de ansiedade: a estimulação química e a exposição ao predador / Role of the midbrain dorsal periaqueductal gray on defensive behaviors of mice evaluated in different animal models of anxiety: the local chemical stimulation and the prey-predator exposure

Eduardo Ferreira de Carvalho Netto 28 February 2007 (has links)
O medo e a ansiedade são emoções que apresentam claro valor adaptativo, e que tem suas origens nas reações de defesa que os animais exibem em resposta a situações de ameaça que podem comprometer sua integridade física ou sobrevivência. Recentes estudos têm indicado que a matéria cinzenta periaquedutal dorsal (MCPD) está envolvida na organização e expressão de comportamentos intempestivos do tipo fuga e luta, os quais são relacionados ao estado de medo, e também participa, juntamente com estruturas prosencefálicas (ex. córtex pré-frontal, sistema septo-hipocampal e amígdala), do controle de comportamentos defensivos mais elaborados e orientados relacionados à ansiedade. O presente estudo investigou a participação da MCPD na modulação de diferentes comportamentos defensivos (p. ex. fuga, esquiva e avaliação de risco) induzidos por métodos artificial (estimulação química) e naturalístico (exposição ao predador) em camundongos. Na primeira etapa, investigamos o padrão de resposta comportamental induzida pela infusão do ácido D,L-homocistéico (DLH, estímulo aversivo químico) na MCPD em diferentes situações ou ambientes, com e sem grande disponibilidade de espaço - o Mouse Defense Test Battery (MDTB) e a Arena (Experimento 1), respectivamente. Além disso, o presente estudo avaliou a habilidade dos animais de reagirem a estímulos aversivos (predador) durante o período inicial (nos 60 s iniciais) do efeito do ácido DLH (fuga explosiva) (Experimento 3), e imediatamente após esse período, no qual o animal apresente comportamento de congelamento ou imobilidade (Experimento 2). Nossos resultados indicaram que a fuga desencadeada pela estimulação química é a resposta predominante de camundongos e que sua exibição depende da disponibilidade de espaço, uma vez que a maioria dos saltos observados na arena está intimamente relacionada ao contato tátil do animal com as paredes do aparato. Esse perfil de respostas de fuga explosiva e saltos parece não representar o padrão comportamental defensivo natural, tal como acontece diante de uma ameaça proximal (ex. um predador), uma vez que durante a estimulação química os camundongos apresentaram um déficit na estratégia antipredador. A segunda etapa do estudo avaliou os efeitos da injeção intra-MCPD do agonista glutamatérgico ácido N-metil-D-aspártico (NMDA), do inibidor da enzima de síntese do óxido nítrico neuronial (NOSn), N?-propil-L-arginina (NPLA) (Experimento 4), e do agonista não seletivo de receptores do fator de liberação de corticotrofina (CRF), CRF ovino (oCRF) (Experimento 5), no comportamento defensivo de camundongos submetidos ao MDTB e ao teste de exposição ao rato (Rat Exposure Test; RET). Os resultados da segunda etapa demonstraram que a ativação de receptores NMDA na MCPD de camundongos intensifica comportamentos relacionados à esquiva do predador. De maneira interessante, essas alterações produzidas pelo NMDA foram consistentemente revertidas pelo inibidor da NOSn, previamente microinjetado no mesmo sítio. Além disso, efeitos intrínsecos do NPLA atenuaram as respostas de esquiva e de avaliação de risco em camundongos submetidos ao RET. Por fim, os resultados da segunda etapa também apontaram para um efeito proaversivo (nas respostas de salto e de esquiva) do agonista de receptores CRF, indicando uma participação dos sistemas glutamatérgico, nitrérgico e CRFérgico, localizados na MCPD, na modulação de diferentes estratégias defensivas (ex. esquiva, avaliação de risco e saltos) de camundongos submetidos ao confronto com o predador. Em conjunto, nossos resultados corroboram a hipótese de que a MPCD está envolvida tanto na organização e expressão de comportamentos intempestivos do tipo fuga e luta como também no controle de comportamentos defensivos mais elaborados e orientados, tais como a avaliação de risco e a esquiva. / The midbrain dorsal periaqueductal grey (DPAG) is part of the brain defensive system involved in active defense reactions to threatening stimuli. Many lines of evidence suggest that besides fundamentally controlling fear-like responses (fight and flight) the DPAG also controls responses related to anxiety, such as avoidance and risk assessment. This study investigated the role of DPAG on different defensive strategies (i.e. flight, avoidance and risk assessment) elicited by artificial (chemical stimulation, Experiments 1-3) and naturalistic (exposure to predator, Experiments 4 and 5) paradigms in mice. Firstly, D,L-Homocysteic acid (DLH) was infused into the DPAG and behavioral responses of mice were evaluated in two different situations, a rectangular novel chamber and a large oval runway, the Mouse Defense Test Battery (MDTB) apparatus (Exp. 1). We also investigated the ability of mice to react to a threatening stimulus (ex. a predator) during (Exp. 3) and immediately after (Exp. 2) the hyperactive responses (ex. jumping and running) induced by DLH injection. Our results indicated that running as opposed to jumping is the primary response in mice injected with DLH into the DPAG when the environment enables flight. However, mice did not react the predator during the flight reaction induced by chemical stimulation, suggesting the behavioral profile induced by DLH infusion into the DPAG is not related to a normal antipredator flight. In the Experiments 4 and 5, we evaluated the effects of three different compounds, N-methyl-D-Aspartate (NMDA), a NMDA receptor agonist, N?-propyl-L-arginine (NPLA), an neuronal nitric oxide synthase (nNOS) inhibitor as well as ovine CRF (oCRF), a nonspecific corticotropin-releasing factor (CRF) receptor agonist, injected into the DPAG of mice, in two predator-stress situations, the Mouse Defense Test Battery (MDTB), and the Rat Exposure Test (RET). Firstly, our results demonstrated that NMDA receptor activation into the mouse DPAG enhances antipredator reactivity (avoidance), an effect that was attenuated by prior infusion of NPLA into the same site. Moreover, the results from the Experiment 4 indicated that the NPLA treatment per se induces consistent anti-aversive effects on defensive behaviors (avoidance and risk assessment) of mice confronted by predator. Finally, our results pointed out a proaversive effect (e.g. increased jump escapes and avoidance behaviors) following intra-DPAG infusion of oCRF, suggesting an important role of glutamatergic, nitrergic and CRFergic systems into the DPAG on the defensive behaviors (risk assessment, avoidance and jumps) elicited by the confront to the predator. Taken together, present results are compatible with previous studies which have emphasized the role of the periaqueductal gray in the modulation of behavioral responses related to anxiety such as risk assessment and avoidance besides fundamentally controlling fear-like responses.
6

Influence of Daily Electrical Stimulation of Periaqueductal Grey on Vocalization and Depressive-like Behavior during Separation in Guinea Pigs

Dazey, Jennifer January 2012 (has links)
No description available.
7

Deep brain surgery for pain

Pereira, Erlick Abilio Coelho January 2013 (has links)
Deep brain stimulation (DBS) is a neurosurgical intervention now established for the treatment of movement disorders. For the treatment of chronic pain refractory to medical therapies, several prospective case series have been reported, but few centres worldwide have published findings from patients treated during the last decade using current standards of technology. This thesis seeks to survey the current clinical status of DBS for pain, investigate its mechanisms and their interactions with autonomic function, its clinical limitations and ablative alternatives. Presented first is a review of the current status of analgesic DBS including contemporary clinical studies. The historical background, scientific rationale, patient selection and assessment methods, surgical techniques and results are described. The clinical outcomes of DBS of the sensory thalamus and periventricular / periaqueductal grey (PAVG) matter in two centres are presented including results from several pain and quality of life measures. A series of translational investigations in human subjects receiving DBS for pain elucidating mechanisms of analgesic DBS and its effects upon autonomic function are then presented. Single photon emission tomography comparing PAVG, VP thalamus and dual target stimulation is described. Somatosensory and local field potential (LFP) recordings suggesting PAVG somatotopy are shown. ABPM results demonstrating changes with PAVG DBS are given and Portapres studies into heart rate variability changes with ventral PAVG DBS are detailed. Investigations using naloxone are then shown to hypothesise separate dorsal opioidergic and ventral parasympathetic analgesic streams in the PAVG. Finally, cingulotomy in lung cancer to relieve pain and dyspnoea results are discussed in the context of altering pain and autonomic function by functional neurosurgery. Pain and autonomic interactions and mechanisms in deep brain surgery for pain are then discussed alongside its limitations with proposals made for optimising treatment and improving outcomes.
8

Identifying neurocircuitry controlling cardiovascular function in humans : implications for exercise control

Basnayake, Shanika Deshani January 2012 (has links)
This thesis is concerned with the neurocircuitry that underpins the cardiovascular response to exercise, which has thus far remained incompletely understood. Small animal studies have provided clues, but with the advent of functional neurosurgery, it has now been made possible to translate these findings to humans. Chapter One reviews the background to the studies in this thesis. Our current understanding of the cardiovascular response to exercise is considered, followed by a discussion on the anatomy and function of various brain nuclei. In particular, the rationale for targeting the periaqueductal grey (PAG) and the subthalamic nucleus (STN) is reviewed. Chapter Two reviews the use of deep brain stimulation (DBS), in which deep brain stimulating electrodes are implanted into various brain nuclei in humans, in order to treat chronic pain and movement disorders. This technique not only permits direct electrical stimulation of the human brain, but also gives the opportunity to record the neural activity from different brain regions during a variety of cardiovascular experiments. This chapter also gives a detailed methodological description of the experimental techniques performed in the studies in this thesis. Chapter Three identifies the cardiovascular neurocircuitry involved in the exercise pressor reflex in humans using functional neurosurgery. It shows for the first time in humans that the exercise pressor reflex is associated with significantly increased neural activity in the dorsal PAG. The other sites investigated, which had previously been identified as cardiovascular active in both animals and humans, seem not to have a role in the integration of this reflex. Chapter Four investigates whether changes in exercise intensity affect the neurocircuitry involved in the exercise pressor reflex. It demonstrates that the neural activity in the PAG is graded to increases in exercise intensity and corresponding increases in arterial blood pressure. This chapter also provides evidence to suggest that neural activity in the STN corresponds to the cardiovascular changes evoked by the remote ischaemic preconditioning stimulus in humans. Chapter Five identifies the cardiovascular neurocircuitry involved during changes in central command during isometric exercise at constant muscle tension using muscle vibration. It shows that, in humans, central command is associated with significantly decreased neural activity in the STN. Furthermore, the STN is graded to the perception of the exercise task, i.e. the degree of central command. The other sites investigated appear not to have as significant a role in the integration of central command during the light exercise task that was undertaken. Chapter Six studies the changes in muscle sympathetic nerve activity (MSNA) during stimulation of various brain nuclei in humans. Regrettably, the results presented in this chapter are not convincing enough to support the hypothesis that stimulation of particular subcortical structures corresponds to changes in MSNA. However, the cardiovascular changes that were recorded during stimulation of the different subcortical structures are congruous with previous studies in both animals and humans. Chapter Seven presents a brief summary of the findings in this thesis.
9

Comportamento maternal e o papel dos receptores opióides na substância cinzenta periaquedutal de ratas lactantes. / Maternal behavior and the role of opioid receptors on periaqueductal grey in female lactating rats.

Teodorov, Elizabeth 28 March 2008 (has links)
A estimulação opioidérgica decorrente do tratamento com morfina em fêmeas reprodutoras gera efeitos moleculares e comportamentais tardios diferenciados de acordo com o estado fisiológico no momento do tratamento. Trabalhos prévios têm demonstrado um importante papel da substância cinzenta periaquedutal (PAG) neste fenômeno. Assim, investigou-se a expressão dos receptores opióides centrais, por meio de estudos da atividade dos seus genes e da presença dos respectivos produtos protéicos. Possíveis modulações decorrentes do uso agudo e crônico de agonistas dos receptores de opióides na PAG durante os períodos de gestação ou lactação no comportamento maternal em ratas também foram investigadas. Os resultados mostraram que a expressão dos receptores opióides na PAG em fêmeas é modulada tanto pelo estado fisiológico como por desafios farmacológicos com possíveis implicações para o comportamento maternal. / Morphine-induced opioidergic stimulation leads to tardive molecular and behavioral changes in female rats. Previous works have demonstrated a role for the periaqueductal grey (PAG) on opioid-mediated behavioral selection during lactation. This study was designed to investigate the maternal behavior and the physiological and pharmacological modulation of the expression of opioid receptors. The results showed that PAG opioid gene expression is modulated both by physiological status and pharmacological treatments. These data may have implications for maternal behavior.
10

Comportamento maternal e o papel dos receptores opióides na substância cinzenta periaquedutal de ratas lactantes. / Maternal behavior and the role of opioid receptors on periaqueductal grey in female lactating rats.

Elizabeth Teodorov 28 March 2008 (has links)
A estimulação opioidérgica decorrente do tratamento com morfina em fêmeas reprodutoras gera efeitos moleculares e comportamentais tardios diferenciados de acordo com o estado fisiológico no momento do tratamento. Trabalhos prévios têm demonstrado um importante papel da substância cinzenta periaquedutal (PAG) neste fenômeno. Assim, investigou-se a expressão dos receptores opióides centrais, por meio de estudos da atividade dos seus genes e da presença dos respectivos produtos protéicos. Possíveis modulações decorrentes do uso agudo e crônico de agonistas dos receptores de opióides na PAG durante os períodos de gestação ou lactação no comportamento maternal em ratas também foram investigadas. Os resultados mostraram que a expressão dos receptores opióides na PAG em fêmeas é modulada tanto pelo estado fisiológico como por desafios farmacológicos com possíveis implicações para o comportamento maternal. / Morphine-induced opioidergic stimulation leads to tardive molecular and behavioral changes in female rats. Previous works have demonstrated a role for the periaqueductal grey (PAG) on opioid-mediated behavioral selection during lactation. This study was designed to investigate the maternal behavior and the physiological and pharmacological modulation of the expression of opioid receptors. The results showed that PAG opioid gene expression is modulated both by physiological status and pharmacological treatments. These data may have implications for maternal behavior.

Page generated in 0.0894 seconds