Efeito do treinamento físico não-supervisionado na qualidade de vida, capacidade física e controle neurovascular em pacientes com insuficiência cardíaca / Effects of a home-based exercise training on the benefits of quality of life, physical capacity and neurovascular control in patients with heart failure

Franco, Fabio Gazelato de Mello

30 May 2005

INTRODUÇÃO: O benefício de um programa de treinamento físico em pacientes com insuficiência cardíaca tem sido bastante documentado. Contudo, pouco se conhece a respeito dos benefícios de um programa de treinamento fisco nãosupervisionado na qualidade de vida, capacidade física e no controle neurovascular, após uma fase inicial de treinamento físico supervisionado. Foi ainda objetivo deste estudo, analisar a efetividade de um programa de atividade física na redução dos níveis de catecolaminas plasmáticas, NT-ProBNP e Interleucina 6 em pacientes com disfunção ventricular na vigência de betabloqueadores. MÉTODOS: Trinta pacientes (idade 54±1,7 anos) com disfunção ventricular esquerda acentuada foram inicialmente selecionados para o estudo. Os pacientes foram divididos em 2 grupos: o grupo controle (n=12); e o grupo treinamento físico (n=18). No início do estudo todos tiveram a qualidade de vida avaliada pelo questionário de Minnesota, e foram dosados os níveis de Interleucina 6, NT-ProBNP, e catecolamina plasmática. A atividade nervosa simpática muscular foi registrada diretamente no nervo fibular através da técnica da microneurografia. O fluxo sangüíneo muscular em antebraço foi avaliado pela técnica da pletismografia de oclusão venosa. Ambos os procedimentos foram registrados em repouso e durante o exercício isométrico a 30% da contração voluntária máxima. A capacidade física foi avaliada por meio da ergoespirometria. O grupo treinamento foi submetido inicialmente a quatro meses de treinamento físico supervisionado composto por 3 sessões de 60 minutos por semana, mantendo uma freqüência cardíaca correspondente a 10% abaixo do ponto de descompensação respiratória determinado pela ergoespirometria. Após a fase de treinamento físico supervisionado, os pacientes foram orientados a realizar quatro meses adicionais de treinamento físico de forma não-supervisionada, na mesma freqüência e intensidade determinadas durante a fase de treinamento supervisionado. A medida da qualidade de vida, atividade nervosa simpática muscular, fluxo sangüíneo muscular e análise laboratorial foram repetidas em 4 meses em ambos os grupos e no oitavo mês apenas no grupo submetido ao treinamento físico. RESULTADOS: Após os quatro primeiros meses, o grupo treinado apresentou melhora na qualidade de vida comparado ao grupo controle (39±6 vs 42±5 pontos; p=0,014). A atividade nervosa simpática muscular em repouso e durante o exercício isométrico a 30% da contração voluntária máxima também apresentaram melhora (47±5 vs 73±6 impulsos/ 100 bat; p=0,0052) e (61±5 vs 77±6 impulsos/ 100 bat; p=0,034), respectivamente. O fluxo sangüíneo muscular em antebraço em repouso aumentou no grupo treinado (1,96±0,11 vs 1,51±0,12 ml/min/100 ml tecido; p=0,015). Quatro meses de treinamento físico não-supervisionado foram efetivos na manutenção dos benefícios na qualidade de vida (52±6 vs 36±6 vs 33±5 pontos; p=0,0001), no fluxo sangüíneo muscular em antebraço, tanto em repouso (1,62±0,47 vs 1,93±0,56 vs 2,18±0,63 ml/min/100 ml tecido; p=0,03) como durante o exercício isométrico (2,04±0,11 vs 2,69±0,18 vs 2,74 ±0,2 ml/min/100 ml tecido; p=0,0016) e na capacidade física (71±9 vs 84±9 vs 88±9 Watts; p=0,0073). Não houve diferença nas medidas seriadas de NTProBNP, Interleucina 6 e de catecolaminas plasmáticas. CONCLUSÕES: O treinamento físico não-supervisionado por quatro meses, após uma fase de treinamento físico supervisionado, foi efetivo na manutenção dos benefícios na qualidade de vida, capacidade física e no fluxo sangüíneo muscular em antebraço. Não houve diferença nas medidas laboratoriais dos pacientes com disfunção ventricular esquerda treinados por oito meses / INTRODUCTION: The benefits of a physical training program in patients with heart dysfunction have been well described. However little is know about the response of a home-based exercise training in quality of life, physical capacity and neurovascular control in patients with heart failure, after a initial four months supervised training. The second objective of this study was to analyze the effectiveness of a exercise program on catecholamine, NT-ProBNP and Interleukin 6 in patients with heart dysfunction receiving beta-blockers. METHODS: Thirty patients (age 54±1,7 years) with severe heart dysfunction were initially enrolled in the protocol. They were divided in two groups; a control group (n=12) and a exercise group (n=18). Initially, both group had the measuring of quality of life by Minnesota questionnaire, Interleukin 6, NT-ProBNP and catecholamine. Muscle sympathetic nerve activity was recorded directly from fibular nerve using the technique of microneurography. Forearm blood flow was measured by venous plethysmography. Both procedures were recorded at rest and during 30% of maximal isometric contraction. The exercise group was submitted initially to fourmonths supervised exercise training program consisted of three 60 min exercise XXIX sessions per week, at heart rate levels that corresponded up to 10% below the respiratory compensation point. After the supervised period, the exercise group was instructed to perform an additional four-months home-based exercise training in the same frequency and intensity they had usually done. The quality of life, muscle sympathetic nerve activity, forearm blood flow and laboratory analysis were repeated at four months in both groups and only in the exercise group at eight months. RESULTS: After the initial 4 months the exercise group improved the quality of life compared to the control group (39±6 vs 42±5 units; p=0,014). The muscle sympathetic nerve activity at rest and during 30% of the maximum isometric contraction was also improved (47±5 vs 73±6 bursts/100 heart beat; p=0,0052) and (61±5 vs 77±6 bursts/100 heart beat; p=0,0276), respectively. The forearm blood flow at rest reduced in the exercise group (1,96±0,11 vs 1,51±0,11ml/min/100 ml tissue; p=0,015). An additional 4 month home-based exercise training was effective on the maintenance of the benefits on quality of life ( 52±6 vs 36±6 vs 33±5 points; p=0,0001), forearm blood flow at rest (1,62±0,47 vs 1,93±0,56 vs 2,18±0,63 ml/min/100 ml tissue; p=0,03), and during 30% of the maximum isometric contraction (2,04±0,11 vs 2,69±0,18 vs 2,74 ±0,2 ml/min/100 ml tissue; p=0,0016) and on physical capacity (71±9 vs 84±9 vs 88±9 Watts; p=0,0073). There was no difference on the measurements of NT-ProBNP, Interleukin 6 and catecholamine. CONCLUSIONS: A home-based exercise training for four months, after a supervised phase, was effective on the maintenance of the benefits of quality of life, physical capacity and forearm blood flow. There was no difference on the laboratorial measurements after an eight months physical training on patients with heart dysfunction

Aptidão física

Congestive heart failure/therapy

Control group

Exercício

Exercise

Grupos controle

Hemodinâmica

Hemodynamic

Physical capacity

Qualiidade de vida

Quality of life

Resultado de tratamento

Sistema nervoso simpático

Sympathetic nervous system

Treatment results

Data assimilation and uncertainty quantification in cardiovascular biomechanics / Assimilation de données et quantification des incertitudes en biomécanique cardiovasculaire

Lal, Rajnesh

14 June 2017

Les simulations numériques des écoulements sanguins cardiovasculaires peuvent combler d’importantes lacunes dans les capacités actuelles de traitement clinique. En effet, elles offrent des moyens non invasifs pour quantifier l’hémodynamique dans le cœur et les principaux vaisseaux sanguins chez les patients atteints de maladies cardiovasculaires. Ainsi, elles permettent de recouvrer les caractéristiques des écoulements sanguins qui ne peuvent pas être obtenues directement à partir de l’imagerie médicale. Dans ce sens, des simulations personnalisées utilisant des informations propres aux patients aideraient à une prévision individualisée des risques. Nous pourrions en effet, disposer des informations clés sur la progression éventuelle d’une maladie ou détecter de possibles anomalies physiologiques. Les modèles numériques peuvent fournir également des moyens pour concevoir et tester de nouveaux dispositifs médicaux et peuvent être utilisés comme outils prédictifs pour la planification de traitement chirurgical personnalisé. Ils aideront ainsi à la prise de décision clinique. Cependant, une difficulté dans cette approche est que, pour être fiables, les simulations prédictives spécifiques aux patients nécessitent une assimilation efficace de leurs données médicales. Ceci nécessite la solution d’un problème hémodynamique inverse, où les paramètres du modèle sont incertains et sont estimés à l’aide des techniques d’assimilation de données.Dans cette thèse, le problème inverse pour l’estimation des paramètres est résolu par une méthode d’assimilation de données basée sur un filtre de Kalman d’ensemble (EnKF). Connaissant les incertitudes sur les mesures, un tel filtre permet la quantification des incertitudes liées aux paramètres estimés. Un algorithme d’estimation de paramètres, basé sur un filtre de Kalman d’ensemble, est proposé dans cette thèse pour des calculs hémodynamiques spécifiques à un patient, dans un réseau artériel schématique et à partir de mesures cliniques incertaines. La méthodologie est validée à travers plusieurs scenarii in silico utilisant des données synthétiques. La performance de l’algorithme d’estimation de paramètres est également évaluée sur des données expérimentales pour plusieurs réseaux artériels et dans un cas provenant d’un banc d’essai in vitro et des données cliniques réelles d’un volontaire (cas spécifique du patient). Le but principal de cette thèse est l’analyse hémodynamique spécifique du patient dans le polygone de Willis, appelé aussi cercle artériel du cerveau. Les propriétés hémodynamiques communes, comme celles de la paroi artérielle (module de Young, épaisseur de la paroi et coefficient viscoélastique), et les paramètres des conditions aux limites (coefficients de réflexion et paramètres du modèle de Windkessel) sont estimés. Il est également démontré qu’un modèle appelé compartiment d’ordre réduit (ou modèle dimension zéro) permet une estimation simple et fiable des caractéristiques du flux sanguin dans le polygone de Willis. De plus, il est ressorti que les simulations avec les paramètres estimés capturent les formes attendues pour les ondes de pression et de débit aux emplacements prescrits par le clinicien. / Cardiovascular blood flow simulations can fill several critical gaps in current clinical capabilities. They offer non-invasive ways to quantify hemodynamics in the heart and major blood vessels for patients with cardiovascular diseases, that cannot be directly obtained from medical imaging. Patient-specific simulations (incorporating data unique to the individual) enable individualised risk prediction, provide key insights into disease progression and/or abnormal physiologic detection. They also provide means to systematically design and test new medical devices, and are used as predictive tools to surgical and personalize treatment planning and, thus aid in clinical decision-making. Patient-specific predictive simulations require effective assimilation of medical data for reliable simulated predictions. This is usually achieved by the solution of an inverse hemodynamic problem, where uncertain model parameters are estimated using the techniques for merging data and numerical models known as data assimilation methods.In this thesis, the inverse problem is solved through a data assimilation method using an ensemble Kalman filter (EnKF) for parameter estimation. By using an ensemble Kalman filter, the solution also comes with a quantification of the uncertainties for the estimated parameters. An ensemble Kalman filter-based parameter estimation algorithm is proposed for patient-specific hemodynamic computations in a schematic arterial network from uncertain clinical measurements. Several in silico scenarii (using synthetic data) are considered to investigate the efficiency of the parameter estimation algorithm using EnKF. The usefulness of the parameter estimation algorithm is also assessed using experimental data from an in vitro test rig and actual real clinical data from a volunteer (patient-specific case). The proposed algorithm is evaluated on arterial networks which include single arteries, cases of bifurcation, a simple human arterial network and a complex arterial network including the circle of Willis.The ultimate aim is to perform patient-specific hemodynamic analysis in the network of the circle of Willis. Common hemodynamic properties (parameters), like arterial wall properties (Young’s modulus, wall thickness, and viscoelastic coefficient) and terminal boundary parameters (reflection coefficient and Windkessel model parameters) are estimated as the solution to an inverse problem using time series pressure values and blood flow rate as measurements. It is also demonstrated that a proper reduced order zero-dimensional compartment model can lead to a simple and reliable estimation of blood flow features in the circle of Willis. The simulations with the estimated parameters capture target pressure or flow rate waveforms at given specific locations.

Assimilation de données

Quantification des incertitudes

Biomécanique cardiovasculaire

Filtre de Kalman d’ensemble

Problème inverse

Data assimilation

Uncertainty quantification

Cardiovascular biomechanics

Ensemble Kalman filter

Inverse hemodynamic problems

Processamento da dor em indivíduos com lombalgia mecânica comum crônica com e sem afastamento do trabalho: um estudo de ressonância magnética funcional / Pain processing in individuals with chronic joint mechanical disease with and without work remission: a functional magnetic resonance imaging study

Feitosa, Aloma da Silva Alvares

24 October 2017

A lombalgia mecânica comum (LMC) representa um problema particularmente importante no ambiente ocupacional, muitas vezes associado a incapacidade, afastamento do trabalho e alto custo socioeconômico. O surgimento da neuroimagem funcional permitiu novos conhecimentos sobre a estrutura cerebral e a fisiologia da dor crônica. Embora os aspectos relacionados ao trabalho sejam importantes fatores de risco para a cronicidade, existem poucos estudos que abordam especificamente a fisiopatologia da LMC em indivíduos afastados do trabalho. A esse respeito, questionamos se um fator como a atenção, conhecida como um importante modulador da dor, poderia desempenhar um papel distintivo na modulação da dor nos indivíduos com LMC afastados do trabalho. Objetivos: comparar os correlatos neuronais entre indivíduos com lombalgia mecânica comum com afastamento do trabalho, com indivíduos lombálgicos sem afastamento. Métodos: Foram selecionados 74 indivíduos com LMC crônica, divididos em três grupos: indivíduos com LMC e afastamento do trabalho (LMC/A); indivíduos com LMC sem afastamento do trabalho (LMC) e indivíduos sem qualquer tipo de dor crônica e sem afastamento do trabalho (Controle). O estudo foi realizado no Hospital Israelita Albert Einstein (HIAE). A ressonância magnética funcional (RMf) foi utilizada durante o desempenho de dois paradigmas (dor e atenção). Resultados: Após a estimulação dolorosa, na comparação entre os grupos, verificamos diferença significativa na condição estimulação > repouso, sendo que o contraste LMC > LMC/A mostrou maior resposta hemodinâmica (efeito BOLD) no córtex cingulado anterior e giro frontal superior e médio direito (p < 0,001). No contraste controles > LMC/A, o grupo controle apresentou maior efeito BOLD em região do polo frontal e paracingulado (p = 0,002). Conclusão: Nosso estudo corrobora o conceito de que a presença de dor crônica está associada a uma alteração na plasticidade neuronal em áreas cerebrais que se estendem além das regiões somatossensoriais, para incluir áreas que processam emoções / Chronic low back pain (CLBP) is a particularly important problem in the occupational environment, often associated with incapacity, sick leave and high socioeconomic cost. The emergence of functional neuroimaging allowed new insights into the brain structure and physiology of chronic pain. Although work-related aspects are important risk factors for chronicity, there are few studies that specifically address the pathophysiology of CLBP in individuals with sick leave. In this regard, we questioned whether a factor such as the attention known as an important pain modulator could play a distinctive role in modulating pain in individuals with CLBP with sick leave. Objective The overall objective of this study is to compare the neuronal correlates between groups of individuals CLBP with or without sick leave. Methods We selected 74 individuals, divided into three groups: individuals with CLBP, functional incapacity and sick leave (CLBP_L); individuals with CLBP, functional disability without sick leave (CLBP_NL); individuals without any form of chronic pain and without sick leave (Control). Functional magnetic resonance imaging (fMRI) was used during the performance of two paradigms (pain and attention).Results After painful stimulation, a significant difference was observed in the stimulation > rest condition, while the CLBP > CLBP_L contrast showed a higher hemodynamic response in the anterior cingulate cortex and the right medium /superior frontal gyrus (p < 0.001) and in contrast controls > CLBP_L, the control group presented higher hemodynamic response in the frontal pole and paracingulate region (p = 0.002).Conclusions Our study corroborates the idea that the presence of chronic pain is associated with an alteration in neuronal plasticity involving brain areas linked to emotions and not just somatosensory areas

Functional neuroimaging

Hemodynamic response

Licença médica

Lombalgia mecânica comum crônica

Low back pain mechanical chronic common

Neuroimagem funcional

Neuronal plasticity

Pain percep

Percepção da dor

Plasticidade neuronal

Resposta hemodinâmica

Sick leave

Untersuchungen zum anästhesiologischen Management sowie zu funktionellen Veränderungen verschiedener Organsysteme bei der klinischen Anwendung von Ganzkörper-Hyperthermie

Kerner, Thoralf

17 July 2003

Es sollte untersucht werden, ob Ganzkörper-Hyperthermie (GKH) plus Chemotherapie im Rahmen systemischer Krebs-Mehrschritt-Therapie (sKMT) eine wiederholt anwendbare und verträgliche Therapieoption für Patienten mit fortgeschrittenen, metastasierten Tumorerkrankungen darstellt. Im klinischen Zusammenhang sollten funktionelle Veränderungen verschiedener Organsysteme und toxische Reaktionen unter GKH/sKMT aufgezeigt werden sowie das anästhesiologische Management hinsichtlich der Anwendung verschiedener Monitoringverfahren beurteilt werden. Bei 26 Patienten erfolgten in Allgemeinanästhesie Messungen von Hämodynamik, Gasaustausch, O2-Transport und Metabolismus sowie klinische, laborchemische und immunologische Analysen während und nach 63 GKH/sKMT-Behandlungen. Die GKH mit einer Plateauphase von einer Stunde bei 41,8°C wurde durch Infrarotstrahlung induziert. Das anästhesiologische Monitoring der Patienten beinhaltete Pulmonalarterienkatheter, Doppelindikator-Dilutionsverfahren, invasive und nicht-invasive Blutdruckmessung sowie Dopplersonografie. Es konnte gezeigt werden, dass heute eine GKH/sKMT in Allgemeinanästhesie und mit sorgfältiger Auswahl der Patienten ein verträgliches und sicheres Verfahren darstellt. Alterationen der gemessenen Parameter zeigten am Ende der Behandlung meistens eine deutliche Tendenz in Richtung der Initialwerte. Toxische Reaktionen konnten in einem akzeptablen Ausmaß gehalten und lang anhaltende Organschäden vermieden werden. Ein adäquates Monitoring beinhaltet eine invasive arterielle und zentralvenöse Druckmessung. Das hämodynamische Management sollte sich am mittleren arteriellen Blutdruck orientieren. Somit erscheint derzeit eine weitere Evaluierung dieser Therapie im Rahmen von multimodalen onkologischen Behandlungskonzepten sinnvoll. / This investigation was performed to investigate the safety of whole body hyperthermia (WBH) within the context of systemic Cancer Multistep Therapy (sCMT) in patients with disseminated malignancies. Furthermore, alterations in various organ functions and toxicities during WBH/sCMT as well as an appropriate anesthesiological management should be evaluated. 63 WBH/sCMT treatments in 26 patients were carried out under general anesthesia and measurements of hemodynamics, pulmonary gas exchange and metabolism as well as clinical, laboratory and immunological investigations were performed. WBH with a plateau phase of one hour at 41.8°C was induced by infrared radiation. Anesthesiological monitoring included pulmonary artery catheter, transpulmonary double indicator dilution technique, invasive and non-invasive blood pressure measurement and Doppler ultrasonography. By careful selection of patients WBH/sCMT can be performed safely using general anesthesia. Most parameters showed a clear tendency towards the pretreatment levels at the end of therapy. Toxicities stayed in an acceptable range and persistent organ dysfunctions could be avoided. An appropriate anesthesiological monitoring includes invasive arterial and central venous pressure measurements. Hemodynamic management during WBH should be guided by the mean arterial pressure. This enables further evaluation of WBH in multimodal treatment concepts.

Ganzkörper-Hyperthermie

systemische Krebs-Mehrschritt-Therapie

hämodynamisches Monitoring

anästhesiologisches Management

whole body hyperthermia

systemic Cancer Multistep Therapy

hemodynamic monitoring

anesthesiological management

610 Medizin

33 Medizin

YT 8500

ddc:610

Les cartes fonctionnelles dans le cortex visuel du chat : nouvelles stratégies d’évaluation en imagerie optique et mise en évidence de l’organisation anatomo-fonctionnelle

Vanni, Matthieu P.

06 1900

Le regroupement des neurones de propriétés similaires est à l’origine de modules permettant d’optimiser l’analyse de l’information. La conséquence est la présence de cartes fonctionnelles dans le cortex visuel primaire de certains mammifères pour de nombreux paramètres tels que l’orientation, la direction du mouvement ou la position des stimuli (visuotopie). Le premier volet de cette thèse est consacré à caractériser l’organisation modulaire dans le cortex visuel primaire pour un paramètre fondamental, la suppression centre / pourtour et au delà du cortex visuel primaire (dans l’aire 21a), pour l’orientation et la direction. Toutes les études ont été effectuées à l’aide de l’imagerie optique des signaux intrinsèques sur le cortex visuel du chat anesthésié. La quantification de la modulation par la taille des stimuli à permis de révéler la présence de modules de forte et de faible suppression par le pourtour dans le cortex visuel primaire (aires 17 et 18). Ce type d’organisation n’avait été observé jusqu’ici que dans une aire de plus haut niveau hiérarchique chez le primate. Une organisation modulaire pour l’orientation, similaire à celle observée dans le cortex visuel primaire a été révélée dans l’aire 21a. Par contre, contrairement à l’aire 18, l’aire 21a ne semblait pas être organisée en domaine de direction. L’ensemble de ces résultats pourront permettre d’alimenter les connaissances sur l’organisation anatomo-fonctionnelle du cortex visuel du chat mais également de mieux comprendre les facteurs qui déterminent la présence d’une organisation modulaire. Le deuxième volet abordé dans cette thèse s’est intéressé à l’amélioration de l’aspect quantitatif apporté par l’analyse temporelle en imagerie optique des signaux intrinsèques. Cette nouvelle approche, basée sur l’analyse de Fourier a permis d’augmenter considérablement le rapport signal / bruit des enregistrements. Toutefois, cette analyse ne s’est basée jusqu’ici que sur la quantification d’une seule harmonique ce qui a limité son emploi à la cartographie de l’orientation et de rétinotopie uniquement. En exploitant les plus hautes harmoniques, un modèle a été proposé afin d’estimer la taille des champs récepteurs et la sélectivité à la direction. Ce modèle a par la suite été validé par des approches conventionnelles dans le cortex visuel primaire. / The clustering of neurons of similar properties is at the basis of the brain modular architecture and is considered as a strategy to optimized processing. One consequence of this clustering is the presence of functional maps in the primary visual cortex of several mammals based on features such as orientation, direction of motion and stimulus position (retinotopy). The first section of this thesis was aimed at characterizing the modular organization of functions in primary and higher-order areas. First, we investigated the possibility that a fundamental cell property, the receptive field center / surround suppression, could be orderly represented in the primary visual cortex. Second, we determined the level of modular organization in area 21a for two key properties, orientation and direction of motion. All studies were based on the optical imaging of intrinsic signals in anesthetized cats. Results indicate the presence of high and low surround suppression modules in the primary visual cortex (areas 17 and 18). To date, such organization has been discovered only in a higher-order area in primate. A modular organization for orientation, similar to the one observed in areas 17 and 18 was observed in area 21a. On the other hand, in contrast to area 18, no direction modules were discovered in area 21a. Overall, the first part of this thesis increased our knowledge about the anatomo-fonctional organization of cat visual cortex. They will also be instrumental to better understand the factors leading to the presence of a modular organization in the cortex. The second section of this thesis was directed to the development of a novel quantitative tool for the temporal analysis of optical imaging intrinsic signals. This new approach, based on Fourier decomposition, allowed to greatly increase the signal to noise ratio of the recordings. Until now, this analysis was only been based on single harmonic quantification, limiting its application for orientation and rétinotopy mapping only. A model exploiting higher harmonics was then developed to estimate additional parameters such as the receptive field size and direction selectivity. Thereafter, this model was validated with success by conventional approaches on the primary visual cortex.

Vision

Système sensoriel

Imagerie fonctionnelle

Fourier

Traitement d’image

Traitement du signal

Orientation

Mouvement

Primate

Couplage neurovasculaire

Map

Cortex

Cat

Optical Imaging

Image processing

Motion

Signal processing

hemodynamic

Intraoperative hemodynamic instability during and after separation from cardiopulmonary bypass : importance, mechanism and prevention

Denault, André Yvan

09 1900

Chaque année, environ 1 à 1,25 million d’individus subiront une chirurgie cardiaque. [1] Environ 36 000 chirurgies cardiaques sont effectuées au Canada et 8000 procédures au Québec (http://www.ccs.ca). Le vieillissement de la population aura pour conséquence que la chirurgie cardiaque sera offerte à des patients de plus en plus à risque de complications, principalement en raison d’une co-morbidité plus importante, d’un risque de maladie coronarienne plus élevée, [2] d’une réserve physiologique réduite et par conséquent un risque plus élevé de mortalité à la suite d’une chirurgie cardiaque. L’une des complications significatives à la suite d’une chirurgie cardiaque est le sevrage difficile de la circulation extracorporelle. Ce dernier inclut la période au début du sevrage de la circulation extracorporelle et s’étend jusqu’au départ du patient de la salle d’opération. Lorsque le sevrage de la circulation extracorporelle est associé à une défaillance ventriculaire droite, la mortalité sera de 44 % à 86 %. [3-7] Par conséquent le diagnostic, l’identification des facteurs de risque, la compréhension du mécanisme, la prévention et le traitement du sevrage difficile de la circulation extracorporelle seront d’une importance majeure dans la sélection et la prise en charge des patients devant subir une chirurgie cardiaque. Les hypothèses de cette thèse sont les suivantes : 1) le sevrage difficile de la circulation extracorporelle est un facteur indépendant de mortalité et de morbidité, 2) le mécanisme du sevrage difficile de la circulation extracorporelle peut être approché d’une façon systématique, 3) la milrinone administrée par inhalation représente une alternative préventive et thérapeutique chez le patient à risque d’un sevrage difficile de la circulation extracorporelle après la chirurgie cardiaque. / Every year, 1 million to 1.25 million patients worldwide undergo cardiac surgery. [1] Up to 36,000 cardiac surgeries are performed each year in Canada and close to 8000 in Quebec (http://www.ccs.ca). Because of the aging of the population, cardiac surgery will increasingly be offered to patients at a higher risk of complications. Indeed, elderly patients have increased co-morbidities, and aging is also a significant risk factor in the prevalence of coronary artery disease. [2] The consequence is a reduced physiologic reserve, hence an increased risk of mortality. These issues will have a significant impact on future healthcare costs, because our population undergoing cardiac surgery will be older and more likely to develop postoperative complications. One of the most dreaded complications in cardiac surgery is difficult separation from cardiopulmonary bypass (CPB). The definition of difficult separation from CPB includes the time period from when CPB is initiated and until the patient leaves the operating room. When separation from CPB is associated with right ventricular failure, the mortality rate will range from 44% to 86%. [3-7] Therefore the diagnosis, the preoperative prediction, the mechanism, prevention and treatment of difficult separation from CPB will be crucial in order to improve the selection and care of patients and to prevent complications for this high-risk patient population. The hypotheses of this thesis are the following: 1) difficult separation from CPB is an independent factor of morbidity and mortality, 2) the mechanism of difficult separation from CPB can be understood through a systematic approach, 3) inhaled milrinone is a preventive and therapeutic approach in the patient at risk for difficult weaning from CPB after cardiac surgery.

ventricule droit

circulation extracorporelle

chirurgie cardiaque

instabilité hémodynamique

échocardiographie transoesophagienne

hypertension pulmonaire

right ventricle

cardiac surgery

pulmonary hypertension

cardiopulmonary bypass

hemodynamic instability

transesophageal echocardiography

Magnetic Resonance Mapping of Cerebrovascular Reserve: Steal Phenomena in Normal and Abnormal Brain

Mandell, Daniel M.

13 January 2014

Blood oxygen level-dependent (BOLD) magnetic resonance (MR) imaging enables non-invasive spatial mapping of changes in cerebral blood flow (CBF). By applying a vasodilatory stimulus (such as inhaled CO2) during BOLD MR imaging, one can measure cerebral vasodilatory capacity. "Cerebrovascular reactivity" (CVR) is defined as the change in CBF per unit of vasodilatory stimulus. Vasodilatory capacity is clinically important as vasodilatation is a mechanism by which the brain maintains constant CBF despite reductions in cerebral perfusion pressure.ii Patients with arterial narrowing commonly demonstrate a paradoxical response: vasodilatory stimulus-induced reduction of BOLD MR signal. BOLD MR depends on CBF but on other factors too. Does a reduction of BOLD MR signal indicate a decrease in flow? Does BOLD MR CVR correlate with CVR measured using arterial spin labeling (ASL) MR? I studied thirty-eight patients with stenosis of brain-supplying arteries and found that the BOLD CVR and ASL CVR results correlate strongly (R=0.83, P<0.0001 for cerebral hemispheric gray matter). The second study aimed to determine whether preoperative CVR predicts the hemodynamic effect of extracranial-intracranial bypass surgery. Whereas prior studies relied on right-left interhemispheric CVR asymmetry indices, this study used “absolute” CVR from each hemisphere. I studied twenty-five patients with intracranial arterial stenosis. I found that the group with normal pre-operative CVR showed no change in CVR following bypass surgery (0.22% ± 0.05% to 0.22% ± 0.01% (mean ± SD)(P=0.881)), the group with reduced pre-operative CVR demonstrated an improvement (0.08% ± 0.05% to 0.21 ± 0.08% (mean ± SD)(P<0.001)), and the group with paradoxical pre-operative CVR demonstrated the greatest improvement (-0.04% ± 0.03% to 0.27% ± 0.03% (P=0.028)). ii Patients with arterial narrowing commonly demonstrate a paradoxical response: vasodilatory stimulus-induced reduction of BOLD MR signal. BOLD MR depends on CBF but on other factors too. Does a reduction of BOLD MR signal indicate a decrease in flow? Does BOLD MR CVR correlate with CVR measured using arterial spin labeling (ASL) MR? I studied thirty-eight patients with stenosis of brain-supplying arteries and found that the BOLD CVR and ASL CVR results correlate strongly (R=0.83, P<0.0001 for cerebral hemispheric gray matter). The second study aimed to determine whether preoperative CVR predicts the hemodynamic effect of extracranial-intracranial bypass surgery. Whereas prior studies relied on right-left interhemispheric CVR asymmetry indices, this study used “absolute” CVR from each hemisphere. I studied twenty-five patients with intracranial arterial stenosis. I found that the group with normal pre-operative CVR showed no change in CVR following bypass surgery (0.22% ± 0.05% to 0.22% ± 0.01% (mean ± SD)(P=0.881)), the group with reduced pre-operative CVR demonstrated an improvement (0.08% ± 0.05% to 0.21 ± 0.08% (mean ± SD)(P<0.001)), and the group with paradoxical pre-operative CVR demonstrated the greatest improvement (-0.04% ± 0.03% to 0.27% ± 0.03% (P=0.028)). The third study arose from an unexpected observation: paradoxical reactivity in the white matter of young healthy subjects. I evaluated healthy subjects using BOLD CVR and ASL CVR, transformed all CVR maps into a common brain space, and generated composite maps of CVR. Composite maps confirmed regions of significant paradoxical iii reactivity in the white matter. These regions may represent the physiological correlate of previously anatomically defined border-zones (watershed zones). The regions match the locations where elderly patients develop white matter rarefaction, so-called leukoaraiosis.

brain

cerebral blood flow

stroke

ischemia

cerebrovascular

dementia

leukoaraiosis

magnetic resonance imaging

MRI

cerebrovascular reactivity

cerebrovascular reserve

hemodynamic

steal

carotid artery stenosis

blood oxygen-level dependent

arterial spin labeling

0574

Magnetic Resonance Mapping of Cerebrovascular Reserve: Steal Phenomena in Normal and Abnormal Brain

Mandell, Daniel M.

13 January 2014

Blood oxygen level-dependent (BOLD) magnetic resonance (MR) imaging enables non-invasive spatial mapping of changes in cerebral blood flow (CBF). By applying a vasodilatory stimulus (such as inhaled CO2) during BOLD MR imaging, one can measure cerebral vasodilatory capacity. "Cerebrovascular reactivity" (CVR) is defined as the change in CBF per unit of vasodilatory stimulus. Vasodilatory capacity is clinically important as vasodilatation is a mechanism by which the brain maintains constant CBF despite reductions in cerebral perfusion pressure.ii Patients with arterial narrowing commonly demonstrate a paradoxical response: vasodilatory stimulus-induced reduction of BOLD MR signal. BOLD MR depends on CBF but on other factors too. Does a reduction of BOLD MR signal indicate a decrease in flow? Does BOLD MR CVR correlate with CVR measured using arterial spin labeling (ASL) MR? I studied thirty-eight patients with stenosis of brain-supplying arteries and found that the BOLD CVR and ASL CVR results correlate strongly (R=0.83, P<0.0001 for cerebral hemispheric gray matter). The second study aimed to determine whether preoperative CVR predicts the hemodynamic effect of extracranial-intracranial bypass surgery. Whereas prior studies relied on right-left interhemispheric CVR asymmetry indices, this study used “absolute” CVR from each hemisphere. I studied twenty-five patients with intracranial arterial stenosis. I found that the group with normal pre-operative CVR showed no change in CVR following bypass surgery (0.22% ± 0.05% to 0.22% ± 0.01% (mean ± SD)(P=0.881)), the group with reduced pre-operative CVR demonstrated an improvement (0.08% ± 0.05% to 0.21 ± 0.08% (mean ± SD)(P<0.001)), and the group with paradoxical pre-operative CVR demonstrated the greatest improvement (-0.04% ± 0.03% to 0.27% ± 0.03% (P=0.028)). ii Patients with arterial narrowing commonly demonstrate a paradoxical response: vasodilatory stimulus-induced reduction of BOLD MR signal. BOLD MR depends on CBF but on other factors too. Does a reduction of BOLD MR signal indicate a decrease in flow? Does BOLD MR CVR correlate with CVR measured using arterial spin labeling (ASL) MR? I studied thirty-eight patients with stenosis of brain-supplying arteries and found that the BOLD CVR and ASL CVR results correlate strongly (R=0.83, P<0.0001 for cerebral hemispheric gray matter). The second study aimed to determine whether preoperative CVR predicts the hemodynamic effect of extracranial-intracranial bypass surgery. Whereas prior studies relied on right-left interhemispheric CVR asymmetry indices, this study used “absolute” CVR from each hemisphere. I studied twenty-five patients with intracranial arterial stenosis. I found that the group with normal pre-operative CVR showed no change in CVR following bypass surgery (0.22% ± 0.05% to 0.22% ± 0.01% (mean ± SD)(P=0.881)), the group with reduced pre-operative CVR demonstrated an improvement (0.08% ± 0.05% to 0.21 ± 0.08% (mean ± SD)(P<0.001)), and the group with paradoxical pre-operative CVR demonstrated the greatest improvement (-0.04% ± 0.03% to 0.27% ± 0.03% (P=0.028)). The third study arose from an unexpected observation: paradoxical reactivity in the white matter of young healthy subjects. I evaluated healthy subjects using BOLD CVR and ASL CVR, transformed all CVR maps into a common brain space, and generated composite maps of CVR. Composite maps confirmed regions of significant paradoxical iii reactivity in the white matter. These regions may represent the physiological correlate of previously anatomically defined border-zones (watershed zones). The regions match the locations where elderly patients develop white matter rarefaction, so-called leukoaraiosis.

brain

cerebral blood flow

stroke

ischemia

cerebrovascular

dementia

leukoaraiosis

magnetic resonance imaging

MRI

cerebrovascular reactivity

cerebrovascular reserve

hemodynamic

steal

carotid artery stenosis

blood oxygen-level dependent

arterial spin labeling

0574

Biobehavioral triggers of cardiac arrhythmia during daily life : the role of emotion, physical activity, and heart rate variability /

McCeney, Melissa Kay.

January 2004

Thesis (Ph. D.)--Uniformed Services University of the Health Sciences, 2004. / Typescript (photocopy).

The connection between emotion, brain lateralization, and heart-rate variability /

Newell, Miranda E.

January 2005

Thesis (M.S.)--Uniformed Services University of the Health Sciences, 2005. / Typescript (photocopy).