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Etude de la perfusion médullaire après lésion traumatique de la moelle épinière à dure-mère intacte / Study of spinal cord blood flow after spinal cord injury with intact dura materSoubeyrand, Marc 10 October 2012 (has links)
Après un traumatisme de la moelle épinière (TM), l’ischémieest un facteur d’aggravation des lésions. Cette ischémie peut être aggravée par l’augmentation depression du liquide cérébro-spinal (LCS) par le biais d’un effet tamponnade. Or chez l’homme,après un TM avec préservation de l’intégrité de la dure-mère, la pression de LCS augmentesignificativement. On suppose donc que le maintien d’une pression de LCS à des valeursphysiologique pourrait être une méthode de limitation de l’ischémie post-traumatique et doncd’amélioration du pronostic fonctionnel. Afin de pouvoir réaliser une étude expérimentale de cesphénomènes, nous avons consacré la première partie expérimentale de cette thèse à la mise au pointd’un modèle de TM à dure-mère intacte chez le rat permettant la mesure simultanée de la pressionde LCS et de la perfusion médullaire. Nous avons confirmé expérimentalement que la pression deLCS augmente après TM. Dans la seconde partie expérimentale, nous avons mis au point unetechnique expérimentale de quantification spatiale et temporelle de la perfusion médullaire grâce àl’échographie de contraste. Cette technique permettait aussi un suivi en temps réel de l’évolution dusaignement intra-parenchymateux induit par le TM. Dans la troisième partie expérimentale, nousavons utilisé notre modèle couplé avec l’échographie de contraste et le laser Doppler pour évaluerles effets de la noradrénaline injectée à la phase aigüe d’un TM sur la perfusion médullaire et lesaignement intra-parenchymateux. Nous avons montré que la noradrénaline augmentait trèslégèrement le flux sanguin superficiel mais pas le flux sanguin profond et qu’elle augmentait lataille du saignement. / After spinal cord injury (SCI), ischaemia aggravates lesions.Increase in cerebrospinal fluid (CSF) pressure can worsens ischaemia through a tamponnade effect.In humans, it has been shown that after SCI with intact dura mater, CSF pressure significantlyincreases. Therefore, preserving CSF pressure within a physiological range may limit post-traumaischaemia and improve neurological outcome. In order to experimentally study these phenomenon,we have dedicated the first part of that work to create a model of SCI in rats preserving dura’sintegrity and allowing simultaneous measurement of spinal cord blood flow (SCBF) and CSFpressure. We have confirmed that CSF pressure increases after SCI with intact dura. In the secondexperimental part, we have developed a technique allowing to perform spatial and temporalmeasurement of SCBF thanks to contrast enhanced ultrasonography (CEU). Moreover, thistechnique allows real-time measurement of the size of the parenchymal hemorrhage. In the thirdexperimental part, we have used our experimental model in association with CEU and LaserDoppler to assess the effects of early injection of norepinephrine on SCBF and parenchymalhemorrhage. We found that norepinephrine induces a slight increase in superficial SCBF while itdoesn’t modify deep SCBF and significantly increases the size of parenchymal hemorrhage.
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LDL-Apherese verbessert die Mikrozirkulation der oberen Extremitäten / Lipid-Apheresis Improves Microcirculation of the Upper LimbsRossenbach, Jannik 05 March 2012 (has links)
No description available.
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Impact de l'hypoxie intermittente chronique sur la rétine et le nerf optique du rat : aspects vasculaire et inflammatoire. / Chronic intermittent hypoxia impact on rat retina and optic nerve : vascular and inflammatory aspects.Mentek, Marielle 14 December 2015 (has links)
Le syndrome d’apnées obstructives du sommeil (SAOS) est associé à la survenue de neuropathies optiques, en particulier la neuropathie optique ischémique antérieure aigue non artéritique (NOIAA-NA). Parmi les mécanismes d’apparition de cette neuropathie et potentiellement associés au SAOS, la dysrégulation et l’inflammation vasculaires pourraient jouer un rôle. Il n’existe aucune donnée dans la littérature sur l’effet de l’hypoxie intermittente (HI) chronique sur la fonction vasculaire de l’œil.Le but de ce travail était de développer des techniques d’évaluation de la fonction vasculaire oculaire chez le rat et de les appliquer à l’étude des conséquences vasculaires oculaires de l’HI. Ainsi, deux approches complémentaires ont été développées : 1) un prototype de fluxmètre laser Doppler (LDF) adapté au rongeur pour l’évaluation in vivo de la perfusion sanguine rétinienne et de la tête du nerf optique (TNO) et 2) le modèle d’étude de l’artère ophtalmique (AO) du rat par myographie vasculaire, in vitro.La mise au point du LDF chez le rat sain a permis de valider la pertinence du signal provenant des artères rétiniennes. A l’inverse, nos données invalident l’intérêt de la mesure au niveau de la TNO. En réponse à l’inhalation d’oxygène pur, nous observons une diminution de 17,0 ± 13,7 % de la vélocité artérielle rétinienne (VelART). Nous n’observons pas de variation significative de VelART lors d’injection intra-carotidienne d’endothéline 1 (ET-1) malgré une forte vasoconstriction des vaisseaux rétiniens. Les perspectives consistent à associer une caméra de haute résolution à un système bidirectionnel de LDF. L’étude de la réactivité de l’AO par myographie chez le rat soumis à 14 jours d’HI a mis en évidence une augmentation de la contraction à l’ET-1, associée à une augmentation de la réponse médiée par les récepteurs de type A (ETRA)et à une surexpression des ETRA au sein de l’AO. La relaxation NO-dépendante était diminuée chez le rat HI, et associée à un effet prédominant des produits vasoconstricteurs du cytochrome P450. Ces réponses étaient associées à une augmentation de la présence d’anions superoxyde dans la paroi de l’AO. Des études complémentaires sont nécessaires pour explorer les mécanismes à l’origine des ces altérations vasculaires, en particulier le rôle du stress oxydant. / Obstructive sleep apnea (OSA) has recently been associated with the occurrence of optic neuropathies, especially acute non-arteritic anterior ischemic optic neuropathy (NAION). Among the mechanisms of NAION onset potentially associated with OSA, vascular dysregulation and inflammation may play a role. There is still no data on the effect of chronic intermittent hypoxia (IH) on vascular function of the eye. The purpose of this work was to develop techniques for assessing rat ocular vascular function and apply them to the study of the ocular vascular consequences of IH. Thus, two complementary models have been developed: 1) a laser Doppler flowmeter (LDF) prototype adapted for rodents, to evaluate in vivo retinal and optic nerve head (ONH) blood perfusion and 2) in vitro model of rat ophthalmic artery (OA) study by myography. Preliminary work on healthy rat enabled us to validate the relevance of retinal arteries LDF signal, but not that of the ONH. Retinal blood velocity (VelART) dropped by 17.0 ± 13.7% in response to pure oxygen inhalation. We did not observe any significant change in VelART signal after intracarotidian endothelin 1 (ET -1) injection, despite strong vasoconstriction of retinal vessels. OA reactivity study by myography in rats exposed to a 14-day IH showed increased contraction to ET-1, associated with an increased endothelin receptor A-mediated (ETRA) response and ETRA overexpression within the AO. NO-dependent relaxation is reduced in IH rats, and associated with a shift towards vasoconstrictive effects of cytochrome P450 products. These responses were associated with an increase in superoxide anions in the OA wall. Further studies are needed to explore the underlying mechanisms of these vascular changes, particularly the role of oxidative stress. Understanding of the LDF signal is partial and should be further explored to permit application to the study of IH rat.
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Analyse d’un mélange gazeux issu d’une instabilité de Richtmyer-Meshkov / Study of the gaseous mixing induced by the Richtmyer-Meshkov instabilityBouzgarrou, Ghazi 22 September 2014 (has links)
Ce travail s’intéresse à l’analyse expérimentale du développement de la zone de mélange turbulente (ZMT) produite par une instabilité de Richtmyer-Meshkov (IRM). Les expériences sont réalisées au sein d’un tube à chocs vertical, et l’analyse s’appuie sur des mesures simultanées mettant en œuvre des techniques expérimentales de type capteurs de pression pariétaux, visualisations strioscopiques résolues en temps et mesures de vitesse par Vélocimétrie Laser Doppler (LDV). Une caractérisation de l’installation expérimentale est tout d’abord effectuée en situation homogène (air pur, sans mélange), afin de déterminer la qualité de l’écoulement de base et connaître le niveau de turbulence de fond du tube à chocs. Les configurations de mélange, principalement entre de l’air et de l’hexafluorure de soufre (SF6), sont ensuite abordées. On s’intéresse dans un premier temps aux caractéristiques globales de la zone de mélange : en particulier à l’évolution de son épaisseur et à son taux de croissance. Plusieurs configurations de mélange sont étudiées en faisant varier différents paramètres expérimentaux tels que la hauteur de la veine d’essais du tube à chocs, la forme de la perturbation initiale de l’interface entre les deux gaz et le nombre d’Atwood, dans le but de déterminer leur influence sur le développement de la ZMT. On montre ainsi une sensibilité du taux de croissance post-rechoc à plusieurs de ces paramètres. Des comparaisons avec des simulations numériques réalisées par nos partenaires du Commissariat à l’Énergie Atomique (CEA) montrent des tendances similaires entre expériences et simulations sur ce point. L’étude est ensuite complétée par une caractérisation plus locale de la ZMT, en mesurant les niveaux de turbulence en différents points de la veine d’essais à l’aide de la LDV. Après avoir quantifié les contraintes de convergence statistique imposées par l’expérience pour ce type de mesures, on donne une estimation des intensités turbulentes produites par l’écoulement de mélange à différents stades de son développement. / This experimental study sheds some light on the development of the turbulent mixing zone (TMZ) arising from a Richtmyer-Meshkov instability (RMI). The experiments are conducted in a vertical shock tube, and the analysis relies on simultaneous measurements involving pressuretransducers, time-resolved Schlieren visualizations and Laser Doppler Velocimetry (LDV). In a first step, a thorough characterization of the experimental apparatus is conducted in order to qualify the basic flow configuration corresponding to homogeneous situations (pure air withoutmixing), and to evaluate the « background » turbulence level of the shock tube. Mixing configurations (mainly between air and sulfur hexafluoride, SF6) are then investigated. We first focus on a global description of the mixing zone such as the time evolution of its thickness and the corresponding growth rate. We consider several mixing configurations, varying the length of the test section, the shape of the initial interface between the two gases and the Atwood number. A clear influence of some of these parameters is shown on the the post-reshock increasing rate of the mixing zone, in good accordance with numerical results obtained from the Commissariat à l’Energie Atomique (CEA, french atomic energy commission). A more local description of the flow is then obtained in a second step by measuring the turbulence levels at different locations inside the test section thanks to the LDV technique. After quantifying the issues linked to the statistical convergence of the turbulent quantities in such specific configurations, we provide an estimation of the turbulent intensities produced by the mixing at various stages of its development.
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Avaliação da reatividade microvascular e da rigidez arterial em pacientes com diabetes tipo 1 / Microvascular reactivity and atrial stiffness assessment in tipe 1 diabetesAlessandra Saldanha Matheus Fernandes da Costa 03 March 2010 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A disfunção endotelial tem sido sugerida como evento precoce na patogênese das complicações vasculares do DM1. O presente estudo objetivou avaliar a função endotelial na microcirculação e rigidez arterial no diabetes tipo 1 comparando com controles não diabéticos e correlacionando com variáveis clínicas, demográficas e laboratoriais. Foram avaliados 57 pacientes com diabetes tipo 1 com idade de 32,5 (13-61) anos e duração de doença de 15 (1-48) anos e 53 controles através de fluxometria cutânea por laser-Doppler após iontoforese de Acetilcolina(ACh) (resposta endotélio dependente), hiperemia reativa pós oclusiva(HRPO) e a capacidade máxima de vasodilatação após hiperemia térmica. Já a resposta endotélio independente foi avaliada após iontoforese de Nitroprussiato de sódio (NPS). A rigidez arterial foi mensurada através da análise da onda de pulso digital com os índices de rigidez arterial e de reflexão. Os pacientes diabéticos foram submetidos à avaliação clínica e laboratorial (histórico de tabagismo, dose diária de insulina, duração do diabetes, uso de drogas que alteram a função endotelial como anti-hipertensivos e estatinas, níveis pressóricos, índice de massa corporal, excreção urinária de albumina, perfil lipídico, controle glicêmico e níveis de proteína C-reativa). O fluxo microvascular médio em repouso não foi diferente entre pacientes e controles , assim como a complacência arterial mensurada através do índice de rigidez arterial e do índice de reflexão. A resposta vascular a vasodilatação mediada pela ACh encontrou-se significantemente reduzida nos pacientes (p=0,002). No entanto, apesar da diferença verificada na área abaixo da curva de NPS em relação ao controle, a análise por medidas repetidas não apontou diferença entre os grupos em relação às doses entre os grupos (p=0,15). A vasodilatação cutânea máxima induzida pela hiperemia térmica foi maior entre os controles em comparação com os diabéticos 93,6(24,5-379-,9) e 56,6(31,5-204,5), respectivamente p=0,04. Por outro lado, durante a HRPO, o aumento máximo no fluxo e a área abaixo da resposta hiperêmica não divergiram entre pacientes e controles, embora o tempo para alcançar o fluxo máximo tenha sido maior nos diabéticos do que nos controles(p=0,02). As principais variáveis correlacionadas com a microcirculação foram o ácido úrico, a hemoglobina glicada, a idade e a proteína C reativa, e com a rigidez arterial, foram a duração do Diabetes, a Pressão arterial diastólica e o HDL. Apesar da correlação entre o uso de drogas com propriedades hemorreológicas e a rigidez arterial, a exclusão dos pacientes usuários daqueles medicamentos não alterou os resultados obtidos. Concluímos que, na população de diabéticos tipo 1 estudada, a resposta vascular endotélio dependente, e a capacidade máxima de vasodilatação estão significativamente reduzidas. Não houve diferença entre diabéticos e controles quanto à rigidez arterial. Ademais, a vasodilatação microcirculatória mediada pela Acetilcolina pode ser correlacionada com a rigidez arterial em diabéticos. Estudos posteriores devem ser realizados no intuito de avaliar a influência exercida pelas drogas que alteram a função endotelial sobre a reatividade micro e macrovascular. / Endothelial dysfunction in patients with type 1 diabetes appears to be an early event in the genesis of vascular complications. The purpose of the present study is to assess endothelial function in the microcirculation and arterial stiffness, by comparing with non-diabetic controls, and correlating with clinical, demographic and laboratorial parameters. We evaluated 57 patients with type 1 diabetes aged 32.5 (13-61) years and with a disease duration of 15 (1-48)years, and 53 controls using laser Doppler flowmetry during low-current iontophoresis of acetylcholine (ACh) (endothelium dependent response), post occlusive reactive hyperemia(PORH) and maximum vasodilator function during thermal hyperemia. Endothelium-independent response was measured after iontophoresis of sodium nitroprusside (SNP).The peripheral pressure waveform was analyzed to assess the arterial stiffness. Diabetic patients underwent clinical and laboratory evaluation (smoking, disease duration, daily insulin dose, use of medications that could improve endothelial function such as antihypertensive drugs and statins, blood pressure, body mass index, urinary albumin excretion, lipid profile, glycemic control and C-reactive protein levels-CRP). Mean resting microvascular flux did not differ between control subjects and patients with type 1 diabetes, as well as arterial stiffness assessed through stiffness index and reflection index. Microvascular response to ACh was significantly reduced in patients (p=0,002). However, despite the reduction ofAUC NPS, the analysis with repeated measures disclosed no difference between the groups in relation to the doses (p=0,15). Maximal skin microvascular vasodilation induced by thermal hyperemia was found to be higher in the control group than among patients (93,6(24,5-379-,9) e 56,6(31,5-204,5), respectively p=0,04). On the other hand, during PORH, maximal increase in flux and area under the curve of the hyperemic response did not differ between patients and controls, although the time frame to reach maximum flux and the time to half recovery after hyperemia was longer in patients than in controls (P=0.02) . Uric acid, hba1c, age and CRP were the most important contributing factors to the variation of microvascular reactivity, while disease duration, the diastolic arterial pressure and HDL cholesterol were independently associated to arterial stiffness. Despite the correlation between drugs with hemorheologycal properties and arterial stiffness, the exclusion of patients who were taking such substances did not affect the results. We conclude that in the studied population of type 1 diabetic patients, the endothelium-dependent vascular responses and maximal vasodilator capacity are significantly reduced. In what concerns arterial stiffness, our study disclosed no difference between diabetics and controls. Moreover, Acetylcholine response can be correlated to arterial stiffness in diabetics, and further studies aiming at the evaluation of the micro and macrovascular reactivity should be performed with consumers of drugs which may be likely to affect the endothelial function.
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Avaliação da reatividade microvascular e da rigidez arterial em pacientes com diabetes tipo 1 / Microvascular reactivity and atrial stiffness assessment in tipe 1 diabetesAlessandra Saldanha Matheus Fernandes da Costa 03 March 2010 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A disfunção endotelial tem sido sugerida como evento precoce na patogênese das complicações vasculares do DM1. O presente estudo objetivou avaliar a função endotelial na microcirculação e rigidez arterial no diabetes tipo 1 comparando com controles não diabéticos e correlacionando com variáveis clínicas, demográficas e laboratoriais. Foram avaliados 57 pacientes com diabetes tipo 1 com idade de 32,5 (13-61) anos e duração de doença de 15 (1-48) anos e 53 controles através de fluxometria cutânea por laser-Doppler após iontoforese de Acetilcolina(ACh) (resposta endotélio dependente), hiperemia reativa pós oclusiva(HRPO) e a capacidade máxima de vasodilatação após hiperemia térmica. Já a resposta endotélio independente foi avaliada após iontoforese de Nitroprussiato de sódio (NPS). A rigidez arterial foi mensurada através da análise da onda de pulso digital com os índices de rigidez arterial e de reflexão. Os pacientes diabéticos foram submetidos à avaliação clínica e laboratorial (histórico de tabagismo, dose diária de insulina, duração do diabetes, uso de drogas que alteram a função endotelial como anti-hipertensivos e estatinas, níveis pressóricos, índice de massa corporal, excreção urinária de albumina, perfil lipídico, controle glicêmico e níveis de proteína C-reativa). O fluxo microvascular médio em repouso não foi diferente entre pacientes e controles , assim como a complacência arterial mensurada através do índice de rigidez arterial e do índice de reflexão. A resposta vascular a vasodilatação mediada pela ACh encontrou-se significantemente reduzida nos pacientes (p=0,002). No entanto, apesar da diferença verificada na área abaixo da curva de NPS em relação ao controle, a análise por medidas repetidas não apontou diferença entre os grupos em relação às doses entre os grupos (p=0,15). A vasodilatação cutânea máxima induzida pela hiperemia térmica foi maior entre os controles em comparação com os diabéticos 93,6(24,5-379-,9) e 56,6(31,5-204,5), respectivamente p=0,04. Por outro lado, durante a HRPO, o aumento máximo no fluxo e a área abaixo da resposta hiperêmica não divergiram entre pacientes e controles, embora o tempo para alcançar o fluxo máximo tenha sido maior nos diabéticos do que nos controles(p=0,02). As principais variáveis correlacionadas com a microcirculação foram o ácido úrico, a hemoglobina glicada, a idade e a proteína C reativa, e com a rigidez arterial, foram a duração do Diabetes, a Pressão arterial diastólica e o HDL. Apesar da correlação entre o uso de drogas com propriedades hemorreológicas e a rigidez arterial, a exclusão dos pacientes usuários daqueles medicamentos não alterou os resultados obtidos. Concluímos que, na população de diabéticos tipo 1 estudada, a resposta vascular endotélio dependente, e a capacidade máxima de vasodilatação estão significativamente reduzidas. Não houve diferença entre diabéticos e controles quanto à rigidez arterial. Ademais, a vasodilatação microcirculatória mediada pela Acetilcolina pode ser correlacionada com a rigidez arterial em diabéticos. Estudos posteriores devem ser realizados no intuito de avaliar a influência exercida pelas drogas que alteram a função endotelial sobre a reatividade micro e macrovascular. / Endothelial dysfunction in patients with type 1 diabetes appears to be an early event in the genesis of vascular complications. The purpose of the present study is to assess endothelial function in the microcirculation and arterial stiffness, by comparing with non-diabetic controls, and correlating with clinical, demographic and laboratorial parameters. We evaluated 57 patients with type 1 diabetes aged 32.5 (13-61) years and with a disease duration of 15 (1-48)years, and 53 controls using laser Doppler flowmetry during low-current iontophoresis of acetylcholine (ACh) (endothelium dependent response), post occlusive reactive hyperemia(PORH) and maximum vasodilator function during thermal hyperemia. Endothelium-independent response was measured after iontophoresis of sodium nitroprusside (SNP).The peripheral pressure waveform was analyzed to assess the arterial stiffness. Diabetic patients underwent clinical and laboratory evaluation (smoking, disease duration, daily insulin dose, use of medications that could improve endothelial function such as antihypertensive drugs and statins, blood pressure, body mass index, urinary albumin excretion, lipid profile, glycemic control and C-reactive protein levels-CRP). Mean resting microvascular flux did not differ between control subjects and patients with type 1 diabetes, as well as arterial stiffness assessed through stiffness index and reflection index. Microvascular response to ACh was significantly reduced in patients (p=0,002). However, despite the reduction ofAUC NPS, the analysis with repeated measures disclosed no difference between the groups in relation to the doses (p=0,15). Maximal skin microvascular vasodilation induced by thermal hyperemia was found to be higher in the control group than among patients (93,6(24,5-379-,9) e 56,6(31,5-204,5), respectively p=0,04). On the other hand, during PORH, maximal increase in flux and area under the curve of the hyperemic response did not differ between patients and controls, although the time frame to reach maximum flux and the time to half recovery after hyperemia was longer in patients than in controls (P=0.02) . Uric acid, hba1c, age and CRP were the most important contributing factors to the variation of microvascular reactivity, while disease duration, the diastolic arterial pressure and HDL cholesterol were independently associated to arterial stiffness. Despite the correlation between drugs with hemorheologycal properties and arterial stiffness, the exclusion of patients who were taking such substances did not affect the results. We conclude that in the studied population of type 1 diabetic patients, the endothelium-dependent vascular responses and maximal vasodilator capacity are significantly reduced. In what concerns arterial stiffness, our study disclosed no difference between diabetics and controls. Moreover, Acetylcholine response can be correlated to arterial stiffness in diabetics, and further studies aiming at the evaluation of the micro and macrovascular reactivity should be performed with consumers of drugs which may be likely to affect the endothelial function.
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Laser Doppler Assessment of Vasomotor Axon Reflex Responsiveness to Evaluate Neurovascular FunctionKubasch, Marie Luise, Kubasch, Anne Sophie, Torres Pacheco, Juliana, Buchmann, Sylvia J., Illigens, Ben Min-Woo, Barlinn, Kristian, Siepmann, Timo 26 October 2017 (has links)
The vasomotor axon reflex can be evoked in peripheral epidermal nociceptive C-fibers to induce local vasodilation. This neurogenic flare response is a measure of C-fiber functional integrity and therefore shows impairment in patients with small fiber neuropathy. Laser Doppler flowmetry (LDF) and laser Doppler imaging (LDI) are both techniques to analyze vasomotor small fiber function by quantifying the integrity of the vasomotor-mediated axon reflex. While LDF assesses the flare response following acetylcholine iontophoresis with temporal resolution at a single defined skin point, LDI records flare responses with spatial and temporal resolution, generating a two-dimensional map of superficial blood flow. LDF is characterized by a high intra- and interindividual measurement variability, which is smaller in LDI due to its spatial resolution. Nevertheless, LDI still lacks standardized methods for image analysis. Consequently, use of the technique currently remains on an experimental level. Here, we sought to review the current literature on laser Doppler assessment of vasomotor function and discuss potential future applications of established techniques as well as those that are still experimental.
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Interferometric velocity measurements through a fluctuating interface using a Fresnel guide star-based wavefront correction systemRadner, Hannes, Büttner, Lars, Czarske, Jürgen 01 September 2020 (has links)
To improve optical measurements, which are degraded by optical distortions, wavefront correction systems can be used. Generally, these systems evaluate a guide star in transmission. The guide star emits wellknown wavefronts, which sample the distortion by propagating through it. The system is able to directly measure the distortion and correct it. There are setups, where it is not possible to generate a guide star behind the distortion. Here, we consider a liquid jet with a radially open surface. A Mach–Zehnder interferometer is presented where both beams are stabilized through a fluctuating liquid jet surface with the Fresnel guide star (FGS) technique. The wavefront correction system estimates the beam path behind the surface by evaluating the incident beam angle and reflected beam angle of the Fresnel reflex with an observer to control the incident angle for the desired beam path. With this approach, only one optical access through the phase boundary is needed for the measurement, which can be traversed over a range of 250 μm with a significantly increased rate of valid signals. The experiment demonstrates the potential of the FGS technique for measurements through fluctuating phase boundaries, such as film flows or jets.
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Measurement uncertainty budget of an interferometric flow velocity sensorBermuske, Mike, Büttner, Lars, Czarske, Jürgen 06 September 2019 (has links)
Flow rate measurements are a common topic for process monitoring in chemical engineering and food industry. To achieve the requested low uncertainties of 0:1% for flow rate measurements, a precise measurement of the shear layers of such flows is necessary. The Laser Doppler Velocimeter (LDV) is an established method for measuring local flow velocities. For exact estimation of the flow rate, the flow profile in the shear layer is of importance. For standard LDV the axial resolution and therefore the number of measurement points in the shear layer is defined by the length of the measurement volume. A decrease of this length is accompanied by a larger fringe distance variation along the measurement axis which results in a rise of the measurement uncertainty for the flow velocity (uncertainty relation between spatial resolution and velocity uncertainty). As a unique advantage, the laser Doppler profile sensor (LDV-PS) overcomes this problem by using two fan-like fringe systems to obtain the position of the measured particles along the measurement axis and therefore achieve a high spatial resolution while it still offers a low velocity uncertainty. With this technique, the flow rate can be estimated with one order of magnitude lower uncertainty, down to 0:05% statistical uncertainty.1 And flow profiles especially in film flows can be measured more accurately. The problem for this technique is, in contrast to laboratory setups where the system is quite stable, that for industrial applications the sensor needs a reliable and robust traceability to the SI units, meter and second. Small deviations in the calibration can, because of the highly position depending calibration function, cause large systematic errors in the measurement result. Therefore, a simple, stable and accurate tool is needed, that can easily be used in industrial surroundings to check or recalibrate the sensor. In this work, different calibration methods are presented and their in uences to the measurement uncertainty budget of the sensor is discussed. Finally, generated measurement results for the film flow of an impinging jet cleaning experiment are presented.
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Design and application of a novel Laser-Doppler Velocimeter for turbulence structural measurements in turbulent boundary layersLowe, K. Todd 20 November 2006 (has links)
An advanced laser-Doppler velocimeter is designed to acquire fully-resolved turbulence structural measurements in high Reynolds number two- and three-dimensional turbulent boundary layers. The new instrument combines, for the first time, new techniques allowing for the direct measurement of particle acceleration and sub-measurement-volume-scale position resolution so that second-order 3D particle trajectories may be measured at high repetitions. Using these measurements, several terms in the Reynolds stress transport equations may be directly estimated, giving new data for modeling and understanding the processes leading to the transport of turbulence in boundary layer flows.
Due to the unique performance of the probe, many aspects of LDV instrumentation development were addressed. The LDV configuration was optimized for lowest uncertainties by considering the demanding applications of particle position and acceleration measurements. Low noise light detection and signal conditioning was specified for the three electronic channels. A high-throughput data acquisition system allows for exceptional burst rate acquisition. Signal detection and processing algorithms have been implemented which draw from previous techniques but also address distinctive problems with the current system. In short, the instrument was designed to advance the state-of-the-art in LDV systems.
Measurements presented include turbulence dissipation rate and fluctuating velocity-pressure gradient correlations that have been measured in 2D and 3D turbulent boundary layers using the unique capabilities of the CompLDV--many of these measurements are the first of their kind ever acquired in high Reynolds number turbulent flows. The flat-plate turbulent boundary layer is studied at several momentum thickness Reynolds numbers up to 7500 to examine Reynolds numbers effects on terms such as the velocity-pressure gradient correlation and the dissipation rate in the Reynolds transport equations. Measurements are also presented in a pressure-driven three-dimensional turbulent boundary layer created upstream from a wing-body junction. The current results complement the extensive data from previous studies and provide even richer depth of knowledge on the most-completely-documented 3D boundary layer flow in existence. Further measurements include the wakes of three circular-cylinder protuberances submerged in a constant pressure turbulent boundary layer. / Ph. D.
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