Current development of cardiac imaging with multidetector-row CT

Multidector-row CT (MDCT) with retrospective ECG gating allows scanning the entire heart with 1.25 mm slice thickness and 250 ms effective exposure time within 35 s investigation time. The resulting images allow for an accurate high-resolution assessment of morphological detail of both the coronary...

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Published in	European journal of radiology Vol. 36; no. 2; pp. 97 - 103
Main Authors	Becker, C R, Ohnesorge, B M, Schoepf, U J, Reiser, M F
Format	Journal Article
Language	English
Published	Ireland 01.11.2000
Subjects	Angiography Blood vessels Calcification (biochemistry) Calcinosis - diagnostic imaging Cardiology Cardiomyopathies - diagnostic imaging Cardiovascular system Coronary Angiography Echocardiography Electrocardiography Grafts Humans Medical imaging Radiation detectors Tissue Tomography, X-Ray Computed - methods
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Abstract	Multidector-row CT (MDCT) with retrospective ECG gating allows scanning the entire heart with 1.25 mm slice thickness and 250 ms effective exposure time within 35 s investigation time. The resulting images allow for an accurate high-resolution assessment of morphological detail of both the coronary arteries and the cardiac chambers. Performing a contrast-enhanced MDCT angiography (MD-CTA) in addition to a non-enhanced scan for the detection and quantification of coronary calcifications may be indicated in patients with atypical chest pain and in young patients with high cardiovascular risk. This group of patients may show non-calcified plaques as the first sign of their coronary artery disease. As the proximal part of the coronary arteries is well displayed by MD-CTA it also helps to delineate the course in anomalous coronary vessels. Additional information is drawn from the preoperative use of MD-CTA do determine the distance of the left internal mammarian artery to the left anterior descending coronary artery prior to minimal invasive bypass grafting. Additional indications for MD-CTA are the non-invasive follow up after venous bypass grafting, PTCA, and coronary stent interventions. MD-CTA allows following the course of the coronary vessels to the level of third generation coronary segmental arteries. A definite diagonis to rule out coronary artery disease can be reliably made in vessels with a diameter of 1.5 mm or greater. With MDCT a number of different atherosclerotic changes can be observed in diseased coronary arteries. Non-stenotic lesions may show tiny calcifications surrounded by large areas of irregularly distributed soft tissue. Calcifications in this type of atherosclerotic coronary artery wall changes appear as 'the tip of iceberg'. Heavy calcifications usually tend to be non-stenotic because of vessel remodelling resulting in a widening of the coronary vessel lumen. Therefore, heavy calcifications appear to ack like an 'internal stent' for a coronary vessel segment. Humps of soft tissue either with or without calcifications are more likely to cause significant coronary artery disease and correlate with stenoses of >50% on selective coronary catheter. These humps consist of well-defined soft tissue in the coronary artery wall. The density of this soft tissue may vary between 30-70 HU. In cases where a coronary vessel is occluded by thrombotic material, a typical sign is found with enlargement of the coronary vessel, a hypodense center and a hyperdense rim. Vessel occlusion without thrombus may also appear within a collapsed and dense lumen. In addition to the investigation of the coronary arteries, CTA with MDCT is well suited to assess the presence and morphology of myocardial scars and aneurysms, intracardial tumors and thrombi.
AbstractList	Multidetector-row computed tomography (MDCT) with retrospective electrocardiography gating allows scanning the entire heart with 1.25 mm slice thickness and 250 ms effective exposure time within 35 seconds investigation time. The resulting images allow for an accurate high-resolution assessment of morphological detail of both the coronary arteries and the cardiac chambers. Performing a contrast-enhanced MDCT angiography (MD-CTA) in addition to a non-enhanced scan for the detection and quantification of coronary calcifications may be indicated in patients with atypical chest pain and in young patients with high cardiovascular risk. MD-CTA allow following the course of the coronary vessels to the level of third generation coronary segmental arteries. Multidector-row CT (MDCT) with retrospective ECG gating allows scanning the entire heart with 1.25 mm slice thickness and 250 ms effective exposure time within 35 s investigation time. The resulting images allow for an accurate high-resolution assessment of morphological detail of both the coronary arteries and the cardiac chambers. Performing a contrast-enhanced MDCT angiography (MD-CTA) in addition to a non-enhanced scan for the detection and quantification of coronary calcifications may be indicated in patients with atypical chest pain and in young patients with high cardiovascular risk. This group of patients may show non-calcified plaques as the first sign of their coronary artery disease. As the proximal part of the coronary arteries is well displayed by MD-CTA it also helps to delineate the course in anomalous coronary vessels. Additional information is drawn from the preoperative use of MD-CTA do determine the distance of the left internal mammarian artery to the left anterior descending coronary artery prior to minimal invasive bypass grafting. Additional indications for MD-CTA are the non-invasive follow up after venous bypass grafting, PTCA, and coronary stent interventions. MD-CTA allows following the course of the coronary vessels to the level of third generation coronary segmental arteries. A definite diagonis to rule out coronary artery disease can be reliably made in vessels with a diameter of 1.5 mm or greater. With MDCT a number of different atherosclerotic changes can be observed in diseased coronary arteries. Non-stenotic lesions may show tiny calcifications surrounded by large areas of irregularly distributed soft tissue. Calcifications in this type of atherosclerotic coronary artery wall changes appear as 'the tip of iceberg'. Heavy calcifications usually tend to be non-stenotic because of vessel remodelling resulting in a widening of the coronary vessel lumen. Therefore, heavy calcifications appear to ack like an 'internal stent' for a coronary vessel segment. Humps of soft tissue either with or without calcifications are more likely to cause significant coronary artery disease and correlate with stenoses of >50% on selective coronary catheter. These humps consist of well-defined soft tissue in the coronary artery wall. The density of this soft tissue may vary between 30-70 HU. In cases where a coronary vessel is occluded by thrombotic material, a typical sign is found with enlargement of the coronary vessel, a hypodense center and a hyperdense rim. Vessel occlusion without thrombus may also appear within a collapsed and dense lumen. In addition to the investigation of the coronary arteries, CTA with MDCT is well suited to assess the presence and morphology of myocardial scars and aneurysms, intracardial tumors and thrombi. Multidector-row CT (MDCT) with retrospective ECG gating allows scanning the entire heart with 1.25 mm slice thickness and 250 ms effective exposure time within 35 s investigation time. The resulting images allow for an accurate high-resolution assessment of morphological detail of both the coronary arteries and the cardiac chambers. Performing a contrast-enhanced MDCT angiography (MD-CTA) in addition to a non-enhanced scan for the detection and quantification of coronary calcifications may be indicated in patients with atypical chest pain and in young patients with high cardiovascular risk. This group of patients may show non-calcified plaques as the first sign of their coronary artery disease. As the proximal part of the coronary arteries is well displayed by MD-CTA it also helps to delineate the course in anomalous coronary vessels. Additional information is drawn from the preoperative use of MD-CTA do determine the distance of the left internal mammarian artery to the left anterior descending coronary artery prior to minimal invasive bypass grafting. Additional indications for MD-CTA are the non-invasive follow up after venous bypass grafting, PTCA, and coronary stent interventions. MD-CTA allows following the course of the coronary vessels to the level of third generation coronary segmental arteries. A definite diagonis to rule out coronary artery disease can be reliably made in vessels with a diameter of 1.5 mm or greater. With MDCT a number of different atherosclerotic changes can be observed in diseased coronary arteries. Non-stenotic lesions may show tiny calcifications surrounded by large areas of irregularly distributed soft tissue. Calcifications in this type of atherosclerotic coronary artery wall changes appear as 'the tip of iceberg'. Heavy calcifications usually tend to be non-stenotic because of vessel remodelling resulting in a widening of the coronary vessel lumen. Therefore, heavy calcifications appear to ack like an 'internal stent' for a coronary vessel segment. Humps of soft tissue either with or without calcifications are more likely to cause significant coronary artery disease and correlate with stenoses of >50% on selective coronary catheter. These humps consist of well-defined soft tissue in the coronary artery wall. The density of this soft tissue may vary between 30-70 HU. In cases where a coronary vessel is occluded by thrombotic material, a typical sign is found with enlargement of the coronary vessel, a hypodense center and a hyperdense rim. Vessel occlusion without thrombus may also appear within a collapsed and dense lumen. In addition to the investigation of the coronary arteries, CTA with MDCT is well suited to assess the presence and morphology of myocardial scars and aneurysms, intracardial tumors and thrombi.
Author	Reiser, M F Schoepf, U J Becker, C R Ohnesorge, B M
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Snippet	Multidector-row CT (MDCT) with retrospective ECG gating allows scanning the entire heart with 1.25 mm slice thickness and 250 ms effective exposure time within... Multidetector-row computed tomography (MDCT) with retrospective electrocardiography gating allows scanning the entire heart with 1.25 mm slice thickness and...
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SubjectTerms	Angiography Blood vessels Calcification (biochemistry) Calcinosis - diagnostic imaging Cardiology Cardiomyopathies - diagnostic imaging Cardiovascular system Coronary Angiography Echocardiography Electrocardiography Grafts Humans Medical imaging Radiation detectors Tissue Tomography, X-Ray Computed - methods
Title	Current development of cardiac imaging with multidetector-row CT
URI	https://www.ncbi.nlm.nih.gov/pubmed/11116173 https://search.proquest.com/docview/20140968 https://search.proquest.com/docview/27256601 https://search.proquest.com/docview/72482098
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