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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

The use of echocardiography in predicting left ventricle thrombus in patients with idiopathic dilated cardiomyopathy at Chris Hani Baragwanath Hospital

Ferreira Dos Santos, Claudia Marisa Goncalves 21 January 2013 (has links)
Submitted in fulfillment of the requirements for the Degree of Masters in Technology: Cardiology, Durban University of Technology, 2012. / Cardiomyopathies and their resultant heart failure (HF) remain a major cause of cardiovascular morbidity and mortality (Wood and Picard, 2004). Idiopathic dilated cardiomyopathy (IDCMO) is a primary myocardial disease of unknown cause, characterized by left ventricular (LV) or biventricular dilatation and impaired myocardial contractility. Dilated cardiomyopathy (DCMO), along with rheumatic heart disease and hypertension (HPT), is one of the leading causes of HF in Africa. In fact, in an epidemiology study of 884 patients in Soweto, IDCMO was the second major cause of HF. Thirty five percent of patients in the study, with HF, had IDCMO (Sliwa, Damasceno, Mayosi, 2005). Methodology: Patients referred to the cardiomyopathy (CMO) clinic at Chris Hani Baragwanath hospital, situated in the echocardiographic lab, were recruited, provided they satisfied the exclusion and inclusion criteria and were enrolled after obtaining voluntary informed consent. From May 2009 to September 2010, 70 patients with IDCMO were recruited for this trial. Patients with DCMO were identified by means of echocardiographic criteria which included a left ventricular ejection fraction (LVEF) of less than 45% and an end diastolic dimension (EDD) of greater than of 52 mm (2D in long parasternal axis). Results: In the present study the prevalence of left ventricular (LV) thrombus in patients with IDCMO was 18.6%. When using Univariate logistic regression, the only independent predictors of LV thrombus formation was LVEF and age. However, when multivariate logistic regression analysis was applied to the data, the only predictor with a significant association was age. The reason for this is not clear. It is postulated that perhaps younger patients have differences in the pathophysiology of their disease such as a greater smoldering inflammatory component which may therefore predispose them to thrombus formation. For example the presence of IL-6 may be important in the formation of LV clot in cases of LV dysfunction (Sosin, Bhatia, Davis, Lip, 2003). The association between LVEF and LV thrombus was borderline significant. Conclusion: The prevalence of LV thrombus formation in this cohort of patients with IDCMO was 18.6%. Echocardiographic parameters alone cannot predict which patients are more likely to develop thrombus formation. / National Research Foundation
22

Establishing the nature of reversible cardiac remodeling in a rat model of hypobaric hypoxia-induced right ventricular hypertrophy

Van der Merwe, Aretha 03 1900 (has links)
Thesis (MSc (Physiological Sciences))--University of Stellenbosch, 2009. / Physiological cardiac hypertrophy is characterized by the heart’s ability to increase mass in a reversible fashion without leading to heart failure. In contrast, pathological cardiac hypertrophy leads to the onset of heart failure. For this study, we investigated a model of physiological hypobaric hypoxia-mediated right ventricular (RV) hypertrophy (RVH). Here our hypothesis was that the hypertrophic response and associated changes triggered in the RV in response to chronic hypobaric hypoxia (CHH) (increased RV mass, function and respiratory capacity) are reversible. To test our hypothesis we exposed male Wistar rats to 3 weeks of CHH and thereafter removed the hypoxic stimulus for 3 and 6 weeks, respectively. Adaptation to 3 weeks of CHH increased the RV to left ventricle (LV) plus interventricular septum ratio by increased (223.5 ± 7.03 vs. 397.4 ± 29.8, p<0.001 versus normoxic controls), indicative of RVH. Hematocrit levels, RV systolic pressure and RV developed pressure (RVDP) were increased in parallel. Mitochondrial respiratory capacity was not significantly altered when using both carbohydrate and fatty acid oxidative substrates. After the 3-week normoxia recovery period, the RV to LV ratio was increased but to a lesser extent compared to the 3-week hypoxic time-point, i.e. 244.7 ± 11.2 vs. 349.64 ± 3.8, p<0.001 versus normoxic controls. Moreover, hematocrit levels were completely normalized. However, the RV systolic pressure and the functional adaptations, i.e. increased RVDP induced by CHH exposure still persisted in the 3-week recovery (3HRe) group. Also, pyruvate utilization was increased versus matched controls (p<0.04 vs. matched controls). Interestingly, we found that at the 6-week recovery time point functional parameters were largely normalized. However, the RV to LV ratio was still increased by 269.3 ± 14.03 vs. 333.9 ± 11.7, p<0.0001 vs. matched controls. Furthermore, palmitoylcarnitine utilization was increased (p<0.03 vs. matched controls). In conclusion, we found that exposure to CHH resulted in various adaptive physiological changes, i.e. enhanced hematocrit levels, increased RV mass linked to greater RV contractility and respiratory function. It is important to note that all these changes only occurred in the RV and not in the LV. Furthermore, when a normoxic recovery period (3 and 6 weeks, respectively) were initiated, these physiological parameters largely normalized. Together, the findings of this thesis clearly show the establishment of a reversible model of RV physiological hypertrophy. Our future work will focus on disrupting signaling pathways underlying this process and to thereafter ascertain whether reversibility is abolished. Elucidation of such targets should provide a unique opportunity to develop novel therapeutic agents to treat patients and thereby reduce the burden of heart disease.
23

Chronic Ventricular Sympathectomy : Effects on Myocardial Metabolism

Adix Longlet, Nancy J. 08 1900 (has links)
Chronic ventricular sympathectomy elicits changes in the coronary circulation, myocardial oxygen consumption and size of infarction resulting fromcoronary occlusion. These changes indicate a change occurring in the basic metabolism of the heart in response to the removal of its sympathetic nervous input. This hypothesis was tested using two groups of dogs, a shamoperated control and a ventricular sympathectomized group. The sympathectomy procedure was an intrapericardial surgical technique which selectively removes ventricular sympathetic input. Four weeks after surgery, left ventricular tissue samples were obtained and rapidly frozen to -80°C. Selected metabolic variables were then compared between the two groups.
24

The Relationship Between Maximal Aerobic Capacity and Left Ventricular Function with Respect to Age

Page, Kimberly Ann 12 1900 (has links)
In this study, the relationship between maximal aerobic capacity (VO₂max) and left ventricular function was examined in two distinct age groups. A young group (20 - 30 years of age) and an elderly group (over 60 years of age) were compared. Left ventricular function was examined over wide variations in preload accomplished by 5º head-down tilt (TILT) for ninety minutes and lower body negative pressure (LBNP) to -40 mm Hg. with two-dimensional echocardiography. A greater response to an increase in preload (TILT) was related to high VO₂max levels in the young subjects but not in the elderly groups of subjects, suggesting that lower VO₂max levels of the elderly population affected the mechanism of response to the increased levels of preload. Additionally, in the elderly, greater reductions in ventricular volume reflected increased peripheral pooling due to decreased venous tone and/or increased venous compliance during LBNP and were related to increased VO₂max. In the young, VO₂max does not appear to affect the response to reduced preload.
25

Avaliação do ventrículo direito nos pacientes com hipertensão pulmonar / Right ventricle evaluation in pulmonary hypertension

Hoette, Susana 20 August 2012 (has links)
Introdução: A fração de ejeção do ventrículo direito (FEVD) é um importante fator prognóstico em pacientes com hipertensão pulmonar (HP), porém a sua medida é complicada e demorada devido à complexidade anatômica do ventrículo direito (VD). O TAPSE (Tricuspid Annular Plane Systolic Excursion) é um bom índice da FEVD, mas ele avalia apenas o componente longitudinal da contração ventricular direita. A RVFAC (Right Ventricular Fractional Area Change) parece ser um melhor índice da FEVD por incluir os componentes longitudinal e transversal da contração ventricular direita. O objetivo deste estudo foi avaliar a performance da RVFAC de acordo com a gravidade do acometimento hemodinâmico em dois grupos distintos de pacientes portadores de HP pré-capilar: hipertensão arterial pulmonar (HAP) e tromboembolismo pulmonar crônico hipertensivo (TEPCH). Métodos: 62 pacientes realizaram cateterismo cardíaco direito e ressonância magnética cardíaca em ±72h. As áreas sistóica e diastólica finais do ventrículo direito (ASFVD, ADFVD), a área diastólica final do ventrículo esquerdo (ADFVE) e o TAPSE foram medidos nas imagens de quatro cavidades. A RVFAC (ADFVD-ASFVD/ADFVD) e a relação entre as áreas diastólica finais ventriculares (ADFVD/ADFVE) foram calculadas. Os diâmetros entre as paredes livre e septal (dL-S) e antero-posterior (dA-P) do ventículo esquerdo (VE) foram medidos nas imagens em eixo curto e o índice de excentricidade do VE (IE) foi calculado (=dA-P/dL-S). A FEVD foi calculada a partir de imagens consecutivas de 6mm no eixo curto. . Resultados: A população tinha 58 anos em média, a maioria era do sexo feminino e estava em classe funcional III, 23 tinham HAP e 39 TEPCH. A FEVD apresentou correlações fracas com as medidas hemodinâmicas de sobrecarga e de função do VD. A RVFAC apresentou melhor correlação (R2=0,65, p < 0,001) do que o TAPSE (R2=0,35, p<0,001) com a FEVD e melhor capacidade para estimar FEVD<35% do que o TAPSE (TAPSE: AUC 0,73 e RVFAC: AUC 0,93, p=0,0065). Dividimos a população pela mediana da resistência vascular pulmonar (RVP) e observamos que no grupo com maior gravidade hemodinâmica essa diferença se acentuou: no grupo com RVP<8,5UW (RVFAC: R2=0,66, p<0,001 e TAPSE: R2=0,30, e p=0,002) e no grupo com RVP>8,5UW (RVFAC: R2=0,51, p<0,001 e TAPSE: R2=0,14, e p=0,041). O grupo com RVP>8,5UW apresentou maior ADFVD/ADFVE e maior IE. As correlações da RVFAC e TAPSE com FEVD foram semelhantes entre os grupos HAP e TEPCH. Conclusão: A RVFAC se correlacionou melhor com a FEVD do que o TAPSE tanto no grupo com menor como no grupo com maior gravidade hemodinâmica. No grupo com maior gravidade as correlações da RVFAC com a FEVD foram ainda mais significativas, não havendo diferenças na performance da RVFAC entre os pacientes com HAP e TEPCH. A RVFAC foi um melhor índice da FEVD talvez por incluir o movimento transversal da contração ventricular / Introduction: The right ventricular ejection fraction (RVEF) is a surrogate marker in pulmonary hypertension (PH), but its measurement is complicated and time consuming. The TAPSE (Tricuspid Annular Plane Systolic Excursion) is a good index of RVEF, though it measures only the longitudinal component of right ventricular contraction. The RVFAC (Right Ventricular Fractional Area Change) seems to be a better index of RVEF because it takes into account the longitudinal and the transversal components of right ventricular contraction. The aim of our study was to evaluate the RVFAC performance according to hemodynamic severity in two groups of patients with PH: pulmonary arterial hypertension (PAH) and chronic thromboembolic pulmonary hypertension (CTEPH). Methos: Sixty-two patients with PAH and CTEPH underwent right heart catheterization and cardiac MR in a 72-hour delay. The right and left ventricle end diastolic areas (RVEDA, LVEDA), the right ventricle end systolic area (RVESA) and TAPSE were measured in the four chamber view. The RVFAC (=RVEDARVESA/RVEDA) and the RVEDA/LVEDA relationship were calculated. The diameter between the left ventricle (LV) free wall and the septum (dF-S) and the diameter between the LV anterior and posterior walls (dA-P) were measured and the LV eccentricity index (EI) was calculated (=dA-P/dF-S). The RVEF was calculated by using 6 mm RV short axis cines. Results: The population had mean age of 58 years with female majority, most of the patients were in functional class III, 23 had PAH and 39 CTEPH. The RVEF was weakly correlated to the hemodynamic variables of RV afterload and function. The RVFAC was more strongly correlated to RVEF (R2=0.65, p<0.001) than TAPSE (R2=0.35, p<0.001). RVEF<35% was better predicted by RVFAC than TAPSE (TAPSE: AUC 0.73 and RVFAC: AUC 0.93, p=0.0065). We divided the population by the median of the pulmonary vascular resistance (PVR) and we observed that in the group with worse hemodynamic severity this difference increased: in the group with PVR<8,5WU (RVFAC: R2=0.66, p<0.001 and TAPSE: R2=0.30, p=0.002) and in the group with PVR>8,5 WU (RVFAC: R2=0.51, p<0.001 and TAPSE: R2=0.14, p=0.041). The group with PVR>8,5WU had an increased RVEDA/LVEDA and an increased EI. There was no differences in the RVEF relationships between the groups of PAH and CETPH. Conclusion: The RVFAC was better correlated to RVEF than TAPSE in the groups with less severe and more severe hemodynamics. In patients with increased hemodynamic severity RVFAC perfomed even better, there was no difference in the performance of RVFAC in PAH or CTEPH. RVFAC was a better index of RVEF possibly because it takes into account the transversal component of right ventricular function
26

Corrélation entre les donnés de l`imagerie par résonance magnetique (IRM) cardiaque et le cathétérisme droit dans l`hypertension artérielle pulmonaire (HTAP) / Avaliação do ventrículo direito nos pacientes com hipertensão pulmonar / Right ventricle evaluation in pulmonary hypertension

Hoette, Susana 20 August 2012 (has links)
La fraction d'éjection du ventricule droit (FEVD) est un marqueur de survie en cas d'hypertension pulmonaire (PH), mais sa mesure est compliquée et fastidieuse. Le TAPSE (Tricuspid Annular Plane Systolic Excursion) est un bon indice de la FEVD mais il ne mesure que la composante longitudinale de la contraction ventriculaire droite. La fraction de variation surfacique du ventricule droit RVFAC (Right Ventricular Fractional Area Change) semble être un meilleur indice de FEVD car il prend en compte le sens longitudinal et transversal des éléments de la contraction du ventricule droit. Le but de notre étude était d'évaluer la performance RVFAC fonction de la sévérité hémodynamique chez les deux groupes de patients atteints de PH:l'hypertension artérielle pulmonaire (HAP) et l'hypertension pulmonaire thromboembolique chronique (CTEPH).Methodes: Soixante-deux patients atteints d'HTAP et CTEPH ont bénéficié d’un cathétérisme cardiaque droit et d’une IRM cardiaque dans un délai de 72 heures. Les surfaces ventriculaires droite et gauche a la fin de la diastole (RVEDA, LVEDA), la surface du ventricule droit a la fin da la systole (RVESA) et TAPSE ont été mesurés dans la vue quatre cavités. Le RVFAC (RVFAC=RVEDA-RVESA/RVEDA) et le rapport RVEDA/LVEDA ont été calculés. Le diamètre entre la paroi libre et le septum (DF-S) et le diamètre entre les parois antérieure et postérieures du ventricule gauche (DA-P) ont été mesurés et l'indice d’excentricité LV (IE) a été calculé (= DA-P / DF-S). Le RVEF a été calculée à l'aide de coupes jointives de 6 mm en petit axe du ventricule droit.Résultats: La population avait un âge moyen de 58 ans avec une majorité des femmes, la plupart des patients étaient en classe fonctionnelle III, 23 avaient des HAP) et 39 des CTEPH. La RVEF était faiblement corrélée aux variables hémodynamiques de la post-charge et de la fonction VD. Le RVFAC était plus fortement corrélée à FEVD (R2 = 0,65, p <0,001) que TAPSE (R2 = 0,35, p <0,001). Une FEVD <35% était mieux prédite par un RVFAC bas que par une diminution de TAPSE (TAPSE: AUC 0,73 et RVFAC: AUC 0,93, p = 0,0065). Nous avons divisé la population par la médiane de la résistance artérielle pulmonaire (RAP) et nous avons observé que dans le groupe avec la pire sévérité hémodynamique, cette différence a augmenté: dans le groupe avec PVR < 8,5 UW (RVFAC: R2 = 0,66, p <0,001 et TAPSE: R2 = 0,30, p =0,002) et dans le groupe avec PVR > 8,5 UW (RVFAC: R2 = 0,51, p <0,001 et TAPSE: R2 = 0,14, p = 0,041). Le groupe avec PVR> 8,5 WU avait un rapport RVEDA/LVEDA augmenté et une augmentation de l`indice excentricité. Les relations RVEF-RVFAC n’étaient pas différentes entre les groupes de HAP et CETPH.Conclusion: La fraction de variation surfacique du ventricule droit RVFAC fournit un reflet simple et fiable de la FEVD peut-être parce que contrairement à TAPSE qui ne prend en compte que le raccourcissement longitudinal, RFVAC prend également en compte la composante transversale de la fonction ventriculaire droite. / The right ventricular ejection fraction (RVEF) is a surrogate marker in pulmonary hypertension (PH), but its measurement is complicated and time consuming. The TAPSE (Tricuspid Annular Plane Systolic Excursion) is a good index of RVEF, though it measures only the longitudinal component of right ventricular contraction. The RVFAC (Right Ventricular Fractional Area Change) seems to be a better index of RVEF because it takes into account the longitudinal and the transversal components of right ventricular contraction. The aim of our study was to evaluate the RVFAC performance according to hemodynamic severity in two groups of patients with PH: pulmonary arterial hypertension (PAH) and chronic thromboembolicpulmonary hypertension (CTEPH).Methos: Sixty-two patients with PAH and CTEPH underwent right heart catheterization and cardiac MR in a 72-hour delay. The right and left ventricle end diastolic areas (RVEDA, LVEDA), the right ventricle end systolic area (RVESA) and TAPSE were measured in the four chamber view. The RVFAC (RVFAC=RVEDA–RVESA/RVEDA) and the RVEDA/LVEDA relationship werecalculated. The diameter between the left ventricle (LV) free wall and the septum (dL-S) and the diameter between the anterior and posterior walls (dAP) were measured and the LV eccentricity index (EI) was calculated (EI=dAP/dL-S). The RVEF was calculated by using 6 mm RV short axis cines.Results: The population had mean age of 58 years with female majority, most of the patients were in functional class III, 23 had pulmonary arterial hypertension (PAH) and 39 had chronic thromboembolic pulmonary hypertension (CTEPH). The RVEF was weakly correlated to the hemodynamic variables of RV afterload and function. The RVFAC was morestrongly correlated to RVEF (R2=0.65, p<0.001) than TAPSE (R2=0.35, p<0.001). RVEF<35% was better predicted by RVFAC than TAPSE (TAPSE: AUC 0.73 and RVFAC: AUC 0.93, p=0.0065). We divided the population by the median of the pulmonary vascular resistance (PVR) and we observed that in the group with worse hemodynamic severity this difference increased: inthe group with PVR<8,5WU (RVFAC: R2=0.66, p<0.001 and TAPSE: R2=0.30, p=0.002) and in the group with PVR>8,5 WU (RVFAC: R2=0.51, p<0.001 and TAPSE: R2=0.14, p=0.041). The group with PVR>8,5WU had an increased RVEDA/LVEDA and an increased EI. There was no differences in the RVEF relationships between the groups of PAH and CETPH.Conclusion: The RVFAC was better correlated to RVEF than TAPSE in the groups with less severe and more severe hemodynamics. In patients with increased hemodynamic severity, with no difference in the performance in theHAP or CTEPH groups. RVFAC was a better index of RVEF possibly because it takes into account the transversal component of right ventricular function.
27

Massa cardíaca e função do ventrículo esquerdo em amostra da população brasileira: genes candidatos / Cardiac mass and left ventricular function in a sample of the Brazilian population: candidate genes

Angelo, Lilian Claudia Souza 24 July 2006 (has links)
Introdução: A hipertrofia ventricular esquerda é importante fator de risco de morbidade e mortalidade cardiovascular. Sua associação com variantes funcionais do sistema renina-angiotensina é controversa. Objetivos: Avaliar a associação entre massa ventricular esquerda e função sistólica e diastólica do ventrículo esquerdo e os polimorfismos inserção/deleção do gene da enzima de conversão da angiotensina e M235T do gene do angiotensinogênio. Métodos: Estudo observacional realizado numa amostra da população da cidade de Vitória (Espírito Santo), utilizando como base a metodologia do projeto Mônica da Organização Mundial da Saúde. Realizamos avaliação clínica, perfil antropométrico, análise laboratorial e ecocardiograma em 652 indivíduos previamente genotipados para polimorfismos da enzima de conversão da angiotensina e do angiotensinogênio. Analisamos massa ventricular esquerda indexada pela área de superfície corpórea e pela altura2,13. Classificamos o ventrículo esquerdo em padrões geométricos: padrão normal, remodelamento concêntrico, hipertrofia concêntrica e hipertrofia excêntrica. A função sistólica ventricular esquerda foi avaliada pela fração de ejeção medida ao modo unidimensional. A função diastólica foi analisada pelo fluxo mitral (onda E, onda A, relação E/A, tempo de desaceleração e tempo de relaxamento isovolumétrico) e pelo Doppler tecidual (velocidade miocárdica em região próxima ao anel mitral septal e lateral: ondas E e A e relação E/E). Resultados: A média de idade da população estudada foi 51 ± 10 anos sendo 59% dos participantes do sexo feminino e 20,8% obesos. Em nossa amostra, 47% dos indivíduos foram classificados como hipertensos. Não houve associação entre hipertensão arterial e os genótipos analisados. Após análise univariada, não encontramos associação entre os polimorfismos inserção/deleção da enzima de conversão da angiotensina e M235T do angiotensinogênio e índice de massa ventricular esquerda, padrões geométricos do ventrículo esquerdo, função sistólica avaliada pela fração de ejeção e os vários parâmetros de função diastólica analisados. / Introduction: Left ventricular hypertrophy is an important risk factor for cardiovascular morbidity and mortality. Its association with the reninangiotensin system genetic variants is controversial. Objectives: To assess the association between left ventricular mass, left ventricle systolic and diastolic functions, and polymorphisms of the insertion/deletion angiotensin converting enzyme and M235T angiotensinogen genes. Methods: Observational study in adults from Vitoria (Brazil) using the methodology of the Monica project of the World Health Organization. We performed clinical examination, anthropometric assessment, laboratory analysis and transthoracic echocargiography studies in 652 adults who were previously genotyped for polymorphisms of the angiotensin-converting enzyme and angiotensinogen. We measured left ventricular mass indexed to body surface area and height 2,13, left ventricular ejection fraction, and diastolic function using mitral flow and tissue Doppler. Left ventricle was classified into following geometric patterns: normal, concentric remodeling, concentric hypertrophy and eccentric hypertrophy. Left ventricular systolic function was assessed by ejection fraction by analysis of the M-mode echocardiogram. Diastolic function was assessed using mitral flow (E wave, A wave, E/A ratio, deceleration time and isovolumic relaxation time), and Doppler tissue imaging (mitral annulus velocity in septal and lateral region: E` and A` waves, and E/E`ratio). Results: Mean age of the studied population was 51±10 years; 59% of the subjects were women and 20,8% were obese. Forty seven percent of the individuals were classified as hypertensive. Hypertension was not associated with any of the studied genotypes. Univarate analysis showed no correlation between polymorphisms of the insertion/deletion angiotensin-converting enzyme and M235T angiotensinogen gene variants, left ventricular mass index, left ventricular geometric patterns, and systolic and diastolic functions. Taking together these data indicated no evidence for the association of ACE and angiotensinogen gene variants with cardiac mass and function assessed by echocardiography.
28

Avaliação do ventrículo direito nos pacientes com hipertensão pulmonar / Right ventricle evaluation in pulmonary hypertension

Susana Hoette 20 August 2012 (has links)
Introdução: A fração de ejeção do ventrículo direito (FEVD) é um importante fator prognóstico em pacientes com hipertensão pulmonar (HP), porém a sua medida é complicada e demorada devido à complexidade anatômica do ventrículo direito (VD). O TAPSE (Tricuspid Annular Plane Systolic Excursion) é um bom índice da FEVD, mas ele avalia apenas o componente longitudinal da contração ventricular direita. A RVFAC (Right Ventricular Fractional Area Change) parece ser um melhor índice da FEVD por incluir os componentes longitudinal e transversal da contração ventricular direita. O objetivo deste estudo foi avaliar a performance da RVFAC de acordo com a gravidade do acometimento hemodinâmico em dois grupos distintos de pacientes portadores de HP pré-capilar: hipertensão arterial pulmonar (HAP) e tromboembolismo pulmonar crônico hipertensivo (TEPCH). Métodos: 62 pacientes realizaram cateterismo cardíaco direito e ressonância magnética cardíaca em ±72h. As áreas sistóica e diastólica finais do ventrículo direito (ASFVD, ADFVD), a área diastólica final do ventrículo esquerdo (ADFVE) e o TAPSE foram medidos nas imagens de quatro cavidades. A RVFAC (ADFVD-ASFVD/ADFVD) e a relação entre as áreas diastólica finais ventriculares (ADFVD/ADFVE) foram calculadas. Os diâmetros entre as paredes livre e septal (dL-S) e antero-posterior (dA-P) do ventículo esquerdo (VE) foram medidos nas imagens em eixo curto e o índice de excentricidade do VE (IE) foi calculado (=dA-P/dL-S). A FEVD foi calculada a partir de imagens consecutivas de 6mm no eixo curto. . Resultados: A população tinha 58 anos em média, a maioria era do sexo feminino e estava em classe funcional III, 23 tinham HAP e 39 TEPCH. A FEVD apresentou correlações fracas com as medidas hemodinâmicas de sobrecarga e de função do VD. A RVFAC apresentou melhor correlação (R2=0,65, p < 0,001) do que o TAPSE (R2=0,35, p<0,001) com a FEVD e melhor capacidade para estimar FEVD<35% do que o TAPSE (TAPSE: AUC 0,73 e RVFAC: AUC 0,93, p=0,0065). Dividimos a população pela mediana da resistência vascular pulmonar (RVP) e observamos que no grupo com maior gravidade hemodinâmica essa diferença se acentuou: no grupo com RVP<8,5UW (RVFAC: R2=0,66, p<0,001 e TAPSE: R2=0,30, e p=0,002) e no grupo com RVP>8,5UW (RVFAC: R2=0,51, p<0,001 e TAPSE: R2=0,14, e p=0,041). O grupo com RVP>8,5UW apresentou maior ADFVD/ADFVE e maior IE. As correlações da RVFAC e TAPSE com FEVD foram semelhantes entre os grupos HAP e TEPCH. Conclusão: A RVFAC se correlacionou melhor com a FEVD do que o TAPSE tanto no grupo com menor como no grupo com maior gravidade hemodinâmica. No grupo com maior gravidade as correlações da RVFAC com a FEVD foram ainda mais significativas, não havendo diferenças na performance da RVFAC entre os pacientes com HAP e TEPCH. A RVFAC foi um melhor índice da FEVD talvez por incluir o movimento transversal da contração ventricular / Introduction: The right ventricular ejection fraction (RVEF) is a surrogate marker in pulmonary hypertension (PH), but its measurement is complicated and time consuming. The TAPSE (Tricuspid Annular Plane Systolic Excursion) is a good index of RVEF, though it measures only the longitudinal component of right ventricular contraction. The RVFAC (Right Ventricular Fractional Area Change) seems to be a better index of RVEF because it takes into account the longitudinal and the transversal components of right ventricular contraction. The aim of our study was to evaluate the RVFAC performance according to hemodynamic severity in two groups of patients with PH: pulmonary arterial hypertension (PAH) and chronic thromboembolic pulmonary hypertension (CTEPH). Methos: Sixty-two patients with PAH and CTEPH underwent right heart catheterization and cardiac MR in a 72-hour delay. The right and left ventricle end diastolic areas (RVEDA, LVEDA), the right ventricle end systolic area (RVESA) and TAPSE were measured in the four chamber view. The RVFAC (=RVEDARVESA/RVEDA) and the RVEDA/LVEDA relationship were calculated. The diameter between the left ventricle (LV) free wall and the septum (dF-S) and the diameter between the LV anterior and posterior walls (dA-P) were measured and the LV eccentricity index (EI) was calculated (=dA-P/dF-S). The RVEF was calculated by using 6 mm RV short axis cines. Results: The population had mean age of 58 years with female majority, most of the patients were in functional class III, 23 had PAH and 39 CTEPH. The RVEF was weakly correlated to the hemodynamic variables of RV afterload and function. The RVFAC was more strongly correlated to RVEF (R2=0.65, p<0.001) than TAPSE (R2=0.35, p<0.001). RVEF<35% was better predicted by RVFAC than TAPSE (TAPSE: AUC 0.73 and RVFAC: AUC 0.93, p=0.0065). We divided the population by the median of the pulmonary vascular resistance (PVR) and we observed that in the group with worse hemodynamic severity this difference increased: in the group with PVR<8,5WU (RVFAC: R2=0.66, p<0.001 and TAPSE: R2=0.30, p=0.002) and in the group with PVR>8,5 WU (RVFAC: R2=0.51, p<0.001 and TAPSE: R2=0.14, p=0.041). The group with PVR>8,5WU had an increased RVEDA/LVEDA and an increased EI. There was no differences in the RVEF relationships between the groups of PAH and CETPH. Conclusion: The RVFAC was better correlated to RVEF than TAPSE in the groups with less severe and more severe hemodynamics. In patients with increased hemodynamic severity RVFAC perfomed even better, there was no difference in the performance of RVFAC in PAH or CTEPH. RVFAC was a better index of RVEF possibly because it takes into account the transversal component of right ventricular function
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Estudo da anatomia endoscópica ventricular em cadáveres humanos brasileiros não fixados para realização de terceiro ventriculostomia / Study of ventricular endoscopic anatomy on Brazilian human cadavers non-fixed for the performance of the third ventriculostomy

Romero, Alicia Del Carmen Becerra 27 August 2010 (has links)
INTRODUÇÃO: O objetivo desta pesquisa foi medir, através da endoscopia, o plexo corióideo no forame interventricular e estruturas no assoalho do terceiro ventrículo, bem como a distância entre as artérias comunicantes posteriores e comparar essas variáveis. MÉTODOS: Estudo observacional, prospectivo realizado em 37 cérebros de cadáveres humanos adultos, de ambos os sexos, no Serviço de Verificação de Óbitos da Universidade de São Paulo, em abril de 2008, utilizando neuroendoscópio rígido. As imagens endoscópicas foram gravadas, corrigidas para distorção e mensuradas. A medida macroscópica entre as artérias comunicantes posteriores foi realizada após o estudo endoscópico. RESULTADOS: As medidas do plexo corióideo no forame interventricular, a distância látero-lateral dos corpos mamilares, a distância do recesso do infundíbulo até os corpos mamilares e do triângulo de segurança no túber cinéreo foram 1,71 mm (±0,77 mm), 2,23 mm (±0,74 mm), 3,22 mm (±0,82 mm), 3,69 mm2 (±2,09 mm2), respectivamente. O aspecto do assoalho do terceiro ventrículo e a distância interna dos corpos mamilares foi 84% opaco e 89% ausente, respectivamente. A distância média entre as artérias comunicantes posteriores foi de 12,5 mm (±2,3 mm). Associações entre translucidez do assoalho do terceiro ventrículo com as seguintes variáveis: distância láterolateral e distância interna dos corpos mamilares, assim como idade, foram identificadas. CONCLUSÕES: Até esta pesquisa, não existiam medidas sobre o plexo corióideo no forame interventricular e distância entre as artérias comunicantes posteriores na região dos corpos mamilares. As variáveis restantes, quando comparadas com a literatura, foram em maior número e em cérebros normais / INTRODUCTION: the objective of this research was to measure, through endoscopy, the interventricular foramen choroid plexus and the third ventricle floor structures, as well the distance between the communicating posterior arteries and compare these variables. METHODS: an observational, prospective study was conducted in 37 brains of adult human cadavers, of both sexes at the Death Check Unit of the University of São Paulo, in April 2008 by means of the rigid neuroendoscope. The endoscopic images were recorded, corrected for distortion and measured. The macroscopic measure between the communicating posterior arteries was performed after the endoscopic study. RESULTS: The measures of the interventricular foramen choroid plexus, the latero-lateral distance of mammillary bodies, the distance from the infundibular recess to the mammillary bodies, safety triangle in the tuber cinereum were 1.71 mm (±0.77 mm), 2.23 mm (±0.74 mm), 3.22 mm (±0.82 mm), 3.69 mm2 (±2.09 mm2), respectively. The aspect of the third ventricle floor and the internal distance of the mammillary bodies was 84% opaque and 89% absent, respectively. The mean distance between the communicating posterior arteries was 12.5 mm (±2.3 mm). Associations between the translucent floor of the third ventricle with the following variables: latero-lateral distance and internal distance of the mammillary bodies, as well as age were identified. CONCLUSIONS: Up this research, there was no account on the measures of the interventricular foramen choroid plexus and the distance between communicating posterior arteries at the level of the mammillary bodies. The remaining variables were in greater number and in normal brains, as compared with the literature
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The role of brain tissue mechanical properties and cerebrospinal fluid flow in the biomechanics of the normal and hydrocephalic brain

Cheng, Shao Koon, Graduate School of Biomedical Engineering, Faculty of Engineering, UNSW January 2006 (has links)
The intracranial system consists of three main basic components - the brain, the blood and the cerebrospinal fluid. The physiological processes of each of these individual components are complex and they are closely related to each other. Understanding them is important to explain the mechanisms behind neurostructural disorders such as hydrocephalus. This research project consists of three interrelated studies, which examine the mechanical properties of the brain at the macroscopic level, the mechanics of the brain during hydrocephalus and the study of fluid hydrodynamics in both the normal and hydrocephalic ventricles. The first of these characterizes the porous properties of the brain tissues. Results from this study show that the elastic modulus of the white matter is approximately 350Pa. The permeability of the tissue is similar to what has been previously reported in the literature and is of the order of 10-12m4/Ns. Information presented here is useful for the computational modeling of hydrocephalus using finite element analysis. The second study consists of a three dimensional finite element brain model. The mechanical properties of the brain found from the previous studies were used in the construction of this model. Results from this study have implications for mechanics behind the neurological dysfunction as observed in the hydrocephalic patient. Stress fields in the tissues predicted by the model presented in this study closely match the distribution of histological damage, focused in the white matter. The last study models the cerebrospinal fluid hydrodynamics in both the normal and abnormal ventricular system. The models created in this study were used to understand the pressure in the ventricular compartments. In this study, the hydrodynamic changes that occur in the cerebral ventricular system due to restrictions of the fluid flow at different locations of the cerebral aqueduct were determined. Information presented in this study may be important in the design of more effective shunts. The pressure that is associated with the fluid flow in the ventricles is only of the order of a few Pascals. This suggests that large transmantle pressure gradient may not be present in hydrocephalus.

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