Search results for "Cardiac Volume"

showing 3 items of 13 documents

Can ECG-gated MDCT be considered an obligatory step to plan and manage a new chest-pain unit?

2007

The recent improvements in multi-detector computed tomography technology and its application in cardiac field allow to consider this non-invasive imaging technique as a promising comprehensive method for detecting significant coronary stenoses in a chest-pain unit. The possibility to use the ECG-synchronisation acquisition protocol, normally limited to the cardiac volume, for the entire thoracic vascular system should have the remarkable potential to reduce invasive and non-invasive procedures actually used to investigate acute chest pain and the number of unnecessary hospital admissions without reducing appropriate admissions in patients with chest pain.

ThoraxAcute coronary syndromemedicine.medical_specialtyChest PainCritical CareCardiac VolumeMyocardial InfarctionChest painElectrocardiographymedicineAcute chest painHumansRadiology Nuclear Medicine and imagingMyocardial infarctionAngina UnstablePractice Patterns Physicians'medicine.diagnostic_testbusiness.industryGeneral MedicineSyndromemedicine.diseaseRadiographic Image EnhancementAngiographyPractice Guidelines as TopicRadiologymedicine.symptombusinessTomography X-Ray ComputedElectrocardiographyEuropean Journal of Radiology
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Color superposition: a new modality for contrast echocardiography.

1987

To improve the estimation of endocardial borders in echocardiography, a technique has been developed to combine images from contrasted and noncontrasted echocardiograms of the same heart-phase using a color superposition mode. This method allows both experienced as well as less experienced examiners to define the endocardial borders more reproducibly and objectively. This is achieved by displaying tissue structures as gray level images while the ventricular cavity is marked selectively by the color display of the contrast material zone. Results of volume estimations of the left ventricle by different examiners using several imaging modes including color superposition display are presented.

Ventricular cavityHeart Diseasesmedia_common.quotation_subjectCardiac VolumeColorSuperposition principleOpticsImage Interpretation Computer-AssistedContrast (vision)MedicineHumansRadiology Nuclear Medicine and imagingComputer visionCardiac imagingmedia_commonModality (human–computer interaction)business.industryComputersGray levelEchocardiographyContrast echocardiographyMinicomputersArtificial intelligenceSuperposition methodCardiology and Cardiovascular MedicinebusinessInternational journal of cardiac imaging
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Tomographic left ventricular volume determination in the presence of aneurysm by three-dimensional echocardiographic imaging. I: Asymmetric model hea…

1996

To improve the accuracy of measurements of left ventricular volume in the presence of an aneurysm, we used three-dimensional echocardiographic imaging to analyze the shape of left ventricles in 23 asymmetric model hearts with eccentric aneurysms of different sizes, shapes, and localizations. A standard 3.75 MHz ultrasound probe with a rotation motor device was used to obtain a three-dimensional data set. By rotating the probe stepwise 1 degree, 180 radial ultrasound pictures were digitized. On the basis of the three-dimensional data set, the following parameters were determined and compared with the dimensions of the model hearts obtained by direct measurement: total left ventricular volume…

medicine.medical_specialtybusiness.industryCardiac VolumeHeart VentriclesUltrasoundEchocardiography Three-DimensionalModels CardiovascularLeft Ventriclesmedicine.diseaseBiplaneAneurysmStandard errorUltrasound probeEchocardiographyLinear regressionmedicineHumansVentricular volumeRadiology Nuclear Medicine and imagingRadiologyHeart AneurysmCardiology and Cardiovascular MedicineNuclear medicinebusinessMathematicsJournal of the American Society of Echocardiography
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