Acurácia diagnóstica da ecocardiografia sob estresse associada ao estudo da perfusão miocárdica com contraste na avaliação da isquemia miocárdica: estudo comparativo entre adenosina e dobutamina / Diagnostic accuracy of quantitative real time myocardial contrast echocardiography for the detection of myocardial ischemia. A comparative study between adenosine and dobutamine

Ingrid Kowatsch

23 August 2005

A ecocardiografia com perfusão miocárdica em tempo real (EPMTR) permite a quantificação do fluxo sangüíneo miocárdico e, quando realizada durante o estresse, da reserva de fluxo miocárdico (reserva Axß). Essa técnica tem potencial para ser uma importante ferramenta para o diagnóstico não-invasivo da doença arterial coronariana (DAC). Apesar do conhecimento atual das alterações fisiológicas que ocorrem com o uso de agentes vasodilatadores ou catecolaminas na circulação coronariana, não há dados na literatura comparando diretamente o valor da EPMTR, sob estresse pela dobutamina e pela adenosina, para a detecção de DAC em humanos. Os objetivos deste estudo foram: avaliar, em um mesmo grupo de pacientes, a exeqüibilidade e a acurácia da EPMTR, sob estresse pela dobutamina e pela adenosina, para a detecção de estenose arterial coronariana angiograficamente significativa e determinar o valor adicional da análise quantitativa da perfusão miocárdica sobre o eletrocardiograma de 12 derivações, da motilidade segmentar e da análise qualitativa da perfusão miocárdica obtidas durante o estresse pela dobutamina e pela adenosina. Estudamos 54 pacientes (média etária de 60±9 anos, 33 homens) com suspeita clínica de DAC e indicação de angiografia coronariana. Todos os pacientes foram submetidos à EPMTR sob estresse pela adenosina na dose de 140 g/kg/min por seis minutos e, após um intervalo de três a cinco horas, à EPMTR sob estresse pela dobutamina-atropina. O contraste ecocardiográfico utilizado foi o PESDA (Perfluorocarbon-Exposed Sonicated Dextrose and Albumin), administrado por via intravenosa periférica de forma contínua. Para ambas as EPMTR sob estresse pela dobutamina e pela adenosina, foram feitas análises do eletrocardiograma em 12 derivações (ECG), da motilidade segmentar e análise qualitativa e quantitativa da perfusão miocárdica. A quantificação da velocidade do fluxo miocárdico (ß) e do fluxo sangüíneo miocárdico (Axß) foi realizada por meio da utilização do programa computacional QLab 3.0 (Philips Medical Systems, Bothell, WA, USA). Todos os pacientes foram submetidos à angiografia coronariana quantitativa (ACQ) em um intervalo de até 30 dias da EPMTR. Foi considerada DAC a presença de lesão coronariana > 50% do diâmetro luminal. Dos 54 pacientes estudados, 25 (46%) apresentaram lesão coronariana >50% e 29 (54%) não apresentaram lesão coronariana significativa. A exeqüibilidade da quantificação da reserva Axß foi semelhante para a EPMTR sob estresse pela adenosina e pela dobutamina (91% versus 90% dos territórios arteriais; p = ns). A variabilidade da quantificação interobservador para os parâmetros de reserva ß e Axß foi de 6,8% (r = 0,98) e 5,5% (r = 0,97), respectivamente. A variabilidade intra-observador para os mesmos parâmetros foi de 2,1 % (r = 0,99) e 7,4 % (r = 0,95), respectivamente. A análise quantitativa da perfusão miocárdica, obtida pela EPMTR sob estresse pela dobutamina, apresentou sensibilidade de 84%, especificidade de 76% e acurácia de 80% para a detecção de DAC, enquanto que a EPMTR sob estresse pela adenosina apresentou sensibilidade de 88%, especificidade de 72% e acurácia de 80%. O valor incremental das modalidades estudadas para o diagnóstico de DAC foi analisado em modelo que incluiu o ECG, ECG e motilidade segmentar, ECG e motilidade segmentar e perfusão qualitativa e, por último, ECG e motilidade segmentar e perfusão qualitativa e quantitava, tanto para a EPMTR sob estresse pela dobutamina como pela adenosina (2 de 4,9 versus 20,1 versus 23,7 versus 38,4) e (2 de 9,9 versus 20,1 versus 26,7 versus 59,4), respectivamente. Concluímos que a avaliação quantitativa da EPMTR apresenta boa exeqüibilidade. A EPMTR sob estresse pela dobutamina e a pela adenosina apresentam acurácias diagnósticas similares para a detecção de lesão angiograficamente significativa. A análise quantitativa da perfusão miocárdica apresenta valor diagnóstico adicional aos outros parâmetros obtidos durante o estresse pela dobutamina e adenosina. / Real time myocardial contrast echocardiography (RTMCE) has allowed for the quantification of myocardial blood flow reserve (MBFR). This technique is a valuable tool for the noninvasive detection of coronary artery disease (CAD). Both adenosine and dobutamine are currently used stressor agents during RTMCE. Although it has already been shown the effects of these drugs on the coronary physiology, no study has directly compared both agents during RTMCE. The aims of this study were to determine the feasibility and diagnostic accuracy of adenosine versus dobutamine stress RTMCE for the detection of angiographically significant CAD. In addition, we sought to determine the additional value of quantitative RTMCE over the electrocardiogram, wall motion, and qualitative analysis of myocardial perfusion. The study involved 54 patients (60±9 years, 33 men) with suspected CAD. Patients underwent RTMCE at rest and during continuous infusion of 140g/kg/min of adenosine for six minutes, and dobutamine stress. The contrast agent used in the study was PESDA (Perfluorocarbon-Exposed Sonicated Dextrose and Albumin) administered in continuous intravenous infusion. Quantification of plateau of acoustic intensity (A) and microbubble velocity () was performed off line using a specific software (QLab 3.0, Philips Medical Systems, Bothell, WA, USA). Myocardial blood flow was determined as Ax. Quantitative coronary angiography was performed in all patients within 30 days of RTMCE, and CAD was defined as >50% luminal diameter coronary stenosis. There were 25 (46%) patients with CAD and 29 (54%) patients without obstructive lesion. The feasibility of quantitative MBFR was the same for adenosine and dobutamine stress RTMCE (91% versus 90% in all arterial territories; p=ns). The intraobserver variabilities for the measurements of ß and Axß reserve were 2.1% (r = 0.99) and 7.4% (r = 0.95), respectively. The interobserver variabilities for the same parameters were 6.8% (r = 0.98) and 5.5% (r = 0.97), respectively. The sensitivity, specificity and diagnostic accuracy of ß reserve obtained during dobutamine stress RTMCE for detecting CAD were 84%, 76%, and 80%, respectively, and during adenosine stress RTMCE they were 88%, 72% and 80%. The incremental value for the diagnosis of CAD was analyzed in a model that included the EKG, EKG and wall motion, EKG and wall motion and qualitative perfusion analysis and finally, EKG and wall motion and qualitative and quantitative perfusion analysis, for dobutamine and adenosine RTMCE (2= 4,9 versus 20,1 versus 23,7 versus s 38,4) and (2= 9,9 versus 20,1 versus 26,7 versus 59,4), respectively. In conclusion, quantitative RTMCE is a feasible technique in patients with suspected CAD. Dobutamine and adenosine stress RTMCE had similar diagnostic accuracy for the detection of angiographically significant lesion. Quantitative analysis of myocardial perfusion had incremental diagnostic value over the other parameters obtained during both dobutamine and adenosine stress RTMCE.

Adenosina/uso diagnóstico

Coronariopatia/diagnostico

Dobutamina/uso diagnóstico

Ecocardiografia/métodos

Isquemia miocárdica/diagnóstico

Sensibilidade e especificidade

Adenosine/diagnostic use

Coronary artery disease/diagnosis

Dobutamine/diagnostic use

Echocardiography/methods

Myocardial ischemia/diagnosis

Sensitivity and specificity

Properties of Flow Through the Ascending Aorta in Boxer Dogs with Mild Aortic Stenosis: Momentum, Energy, Reynolds Number, Womersley’s, Unsteadiness Parameter, Vortex Shedding, and Transfer Function of Oscillations from Aorta to Thoracic Wall

da Cunha, Daise Nunes Queiroz

02 September 2009

No description available.

Acoustics

Anatomy and Physiology

Animals

Fluid Dynamics

Radiology

Boxer dogs

systolic ejection murmur

mild aortic stenois

fluid mechanics

Reynolds number

Womersley parameter

Vorticies

Kinetic energy

momentum

Dobutamine

aucultation

catheterization

acoustics

Transfer function

heart sounds frequency and amplit

Left ventricle functional analysis in 2D+t contrast echocardiography within an atlas-based deformable template model framework

Casero Cañas, Ramón

January 2008

This biomedical engineering thesis explores the opportunities and challenges of 2D+t contrast echocardiography for left ventricle functional analysis, both clinically and within a computer vision atlas-based deformable template model framework. A database was created for the experiments in this thesis, with 21 studies of contrast Dobutamine Stress Echo, in all 4 principal planes. The database includes clinical variables, human expert hand-traced myocardial contours and visual scoring. First the problem is studied from a clinical perspective. Quantification of endocardial global and local function using standard measures shows expected values and agreement with human expert visual scoring, but the results are less reliable for myocardial thickening. Next, the problem of segmenting the endocardium with a computer is posed in a standard landmark and atlas-based deformable template model framework. The underlying assumption is that these models can emulate human experts in terms of integrating previous knowledge about the anatomy and physiology with three sources of information from the image: texture, geometry and kinetics. Probabilistic atlases of contrast echocardiography are computed, while noting from histograms at selected anatomical locations that modelling texture with just mean intensity values may be too naive. Intensity analysis together with the clinical results above suggest that lack of external boundary definition may preclude this imaging technique for appropriate measuring of myocardial thickening, while endocardial boundary definition is appropriate for evaluation of wall motion. Geometry is presented in a Principal Component Analysis (PCA) context, highlighting issues about Gaussianity, the correlation and covariance matrices with respect to physiology, and analysing different measures of dimensionality. A popular extension of deformable models ---Active Appearance Models (AAMs)--- is then studied in depth. Contrary to common wisdom, it is contended that using a PCA texture space instead of a fixed atlas is detrimental to segmentation, and that PCA models are not convenient for texture modelling. To integrate kinetics, a novel spatio-temporal model of cardiac contours is proposed. The new explicit model does not require frame interpolation, and it is compared to previous implicit models in terms of approximation error when the shape vector changes from frame to frame or remains constant throughout the cardiac cycle. Finally, the 2D+t atlas-based deformable model segmentation problem is formulated and solved with a gradient descent approach. Experiments using the similarity transformation suggest that segmentation of the whole cardiac volume outperforms segmentation of individual frames. A relatively new approach ---the inverse compositional algorithm--- is shown to decrease running times of the classic Lucas-Kanade algorithm by a factor of 20 to 25, to values that are within real-time processing reach.

615.84