Thoracic aorta at multi-detector row CT: motion artifact with various reconstruction windows

The authors assessed motion artifact of the thoracic aorta in 25 patients who underwent multi-detector row computed tomography (CT) with retrospective electrocardiographic (ECG) gating. CT reconstructions centered at four phases of diastole were compared for five different levels of the thoracic aorta. A significant positive correlation was observed between heart rate and motion artifact (r = 0.72, P <.001). The optimal reconstruction phase varied between patients, and this was directly related to heart rate. For patients with a heart rate of 70 beats per minute, the reconstruction phase centered at 75% of the R-R interval had the significantly least motion artifact (P =.004). Conversely, the optimal reconstruction phase for patients with heart rates above 70 beats per minute was centered at 50% of the R-R interval (P =.09).     

胸主动脉MR仿真内镜检查的临床应用及其缺陷

目的：研究MR仿真内镜（MRVE）对胸主动脉解剖及病变的临床应用价值。探讨其成像方法及存在缺陷。方法：对20例健康检查者及33例临床考虑胸主动脉病变的患者行MR三维动态增强扫描血管成像（3D-DCE-MRA）检查，将其原始数据进行仿真内镜重建处理，观察其对血管内表面解剖及病变的显示能力。结果：MRVE直观地显示胸主动脉解剖及病变情况，21例夹层动脉瘤，MRVE清楚地显示夹层动脉瘤入口，内膜移位及瘤腔情况；对主动脉瘤及大动脉炎可显示其扩张或缩窗的内腔结构；对法乐氏四联征，清楚地显示主动脉骑跨及骑跨程度；半环状伪影为MRVE主要存在的伪影。结论：MRVE能直观地显示胸主动脉内壁的解剖及病变情况，可作为临床怀疑胸主动脉病变患者的常规检查手段。     

An unusual cause of susceptibility artifact in magnetic resonance imaging

Magnetic susceptibility artifact has been documented with various implants and devices, which require appropriate identification with screening of patients prior to subjecting them to magnetic resonance examination. We performed cardiovascular magnetic resonance (CMR) examination of the aorta in a 24-year-old woman in the setting of repaired aortic coarctation, and found magnetic susceptibility artifact arising from the stomach in the absence of known susceptibility artifact-producing material in this region. Further history revealed that she had ingested a prenatal vitamin prior to imaging, prompting experimental analyses that led us to conclude that iron-containing vitamins may be a source of magnetic susceptibility artifact.     

Motion artifact simulating aortic dissection on CT

We recently imaged two patients clinically suspected of having aortic dissection whose contrast-enhanced CT examinations, obtained on a new scanner with a 1-sec scanning time, showed findings suggesting an ascending aortic dissection. The subsequent clinical course and evaluation implied that the CT findings were predominantly artifactual. We identified identical artifacts in 18% of 50 consecutive contrast-enhanced CT examinations performed for a variety of indications on the same scanner. The double-lumen artifact, simulating an intimal flap, occurs in the proximal ascending aorta and is limited to one or two contiguous transaxial images. The artifact was not detected on two other CT units. We believe the artifact arises from motion of the aortic wall and the surrounding pericardial recesses during image acquisition.     

Coil-based artifact reduction.

Multiple MRI receiver coils provide extra information and can enable the reconstruction of multiple images using data from different combinations of coils. Comparison of these images shows that artifacts due to motion or flowing blood appear with different intensities due to the differing coil sensitivities. Typically, the artifact appears amplified in regions of low coil sensitivity. An optimization routine was developed to correct for the artifact by comparing reconstructions from various coil combinations and favoring a self-consistent solution. It is demonstrated that images artifacted by blood flowing in the aorta, or translational motion of the head, can be improved.     

Improved venous suppression on renal MR angiography with recessed elliptical centric ordering of K-space

Purpose: To evaluate recessed elliptical centric ordering of k-space in renal magnetic resonance (MR) angiography.Methods: All imaging was performed on the same 1.5 T MR imaging system (GE Signa CVi) using the body coil for signal transmission and a phased array coil for reception. Gd, 30 ml, was injected manually at 2 ml/sec timed with automatic triggering (SmartPrep). In thirty patients using standard elliptical centric ordering, the scanner paused 8 seconds between detection of the leading edge of the Gd bolus and initiation of scanning beginning with the center of k-space. For the recessed-elliptical centric ordering in 20 consecutive patients, this delay was reduced to 4 seconds but the absolute center of k-space recessed in by 4 seconds such that in all patients the absolute center of k-space was acquired 8 seconds after detecting the leading edge of the bolus. On the arterial phase images signal-to-noise ratio (SNR) was measured in the aorta, each renal artery and vein and contrast-to-noise ratio (CNR) was measured relative to subcutaneous fat. The standard deviation of signal outside the patient was considered to be "noise" for calculation of SNR and CNR. Incidence of ringing artifact in the aorta and renal veins was noted.Results: Aorta SNR and CNR was significantly higher with the recessed technique (p = 0.02) and the ratio of renal artery signal to renal vein signal was higher with the recessed technique, 4 ± 2, compared to standard elliptical centric, 3 ± 2 (p = 0.03). Ringing artifact was also reduced with the recessed technique in both the aorta and renal veins. Conclusion: Gadolinium-enhanced renal MR angiography is improved by recessing the absolute center of k-space.     

Misregistration artifacts in image-derived arterial input function in non-echo-planar imaging-based dynamic contrast-enhanced MRI

PURPOSE: To characterize misregistration artifact in arterial input function (AIF) pixels in dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) using a two-dimensional non-echo-planar imaging (EPI)-based gradient-recalled echo (GRE) sequence. MATERIALS AND METHODS: Dynamic gadopentetate-enhanced MRI was acquired in the rat using a semikeyhole acquisition scheme. The AIF was obtained from abdominal aorta pixels. Different sliding-window reconstruction techniques were applied to determine which lines in a series of the semikeyhole acquisition were associated with the misregistration artifacts. RESULTS: The misregistration along the phase-encoding direction arose when k-space lines were acquired during the rise-time of the aortic gadolinium concentration. The maximum blood concentration of gadolinium estimated from the phase shift calculation agreed with that estimated from dosage. CONCLUSION: AIF misregistration results from a phase shift due to increasing gadolinium concentration in the aorta, and may need to be considered in small animal DCE-MRI studies with a high rate of rise in the AIF in high-field MR applications.     

Malignant right coronary artery anomaly simulated by motion artifacts on MDCT

OBJECTIVE: The aim of our study was to determine the prevalence of anomalous right coronary artery imitation due to motion artifacts in MDCT. Routine chest MDCT for reasons other than cardiac or vascular imaging is usually performed using breath-hold technique but without retrospective ECG gating and consequently yields pulsating motion artifacts. A possible artifact in front of the aortic root imitates an anomalous right coronary artery originating from the left posterior sinus. This course of the right coronary artery is considered a malignant variant and raises the question of far-reaching consequences such as a bypass operation. SUBJECTS AND METHODS: We performed a prospective study involving 355 patients undergoing routine chest CT examinations. To determine the prevalence of anomalous right coronary artery imitation caused by this motion artifact, all images were evaluated prospectively by an experienced radiologist. RESULTS: Twenty-one patients (5.9%) were suspected of having a malignant variant of the right coronary artery. However, in all patients prior chest CT or additional coronary MR angiography showed a normal origin of the right coronary artery. CONCLUSION: Routine chest MDCT without retrospective ECG gating may produce artifacts around the aorta simulating a malignant variant of the right coronary artery. Considering the low incidence of this malignant interarterial variant, the need for routine chest CT examinations combined with ECG gating and further workup can be disputed from an economic point of view. This artifact should be known to avoid unnecessary further examinations.     

Effects of heart rate on motion artifacts of the aorta on non-ECG-assisted 0.5-sec thoracic MDCT

OBJECTIVE: Our aim was to evaluate the effects of heart rate on aortic motion artifacts on 0.5-sec non-ECG-assisted thoracic MDCT. MATERIALS AND METHODS: A total of 124 non-ECG-assisted thoracic MDCT scans with satisfactory simultaneous ECG data were reviewed. Scans were grouped according to patient heart rates (beats per minute [bpm]: group A, 46-55; B, 56-65; C, 66-75; D, 76-85; E, 86-95; and F > 95). The groups were compared regarding the presence, locations, and spatial distributions of pulsation artifact, number of slices affected, maximum amplitude of pulsation, continuity of artifact, and the presence of superior vena cava (SVC) pseudoflaps. RESULTS: Of the 124 scans, 114 (91.9%) had aortic motion artifacts, with prevalence ranging from 85.3% (66-75 bpm) to 100% (65 bpm or less). Of the 114 motion artifacts, all affected the ascending aorta, 105 (92.1%) involved the left anterior and right posterior aspects of the aortic circumference, and 106 (93%) were associated with SVC pseudoflaps. Group B had significantly greater numbers of images with artifacts (p < 0.001-0.006), greater artifact amplitudes (p < 0.001-0.002), and a higher continuity trend for the artifacts (p = 0.003-0.194) than did the other five groups. CONCLUSION: Aortic motion artifacts are frequently seen on thoracic MDCT, especially in patients with heart rates of 65 bpm or less. The presence of a SVC pseudoflap is helpful for distinguishing artifacts from dissection. If aortic disease is suspected, then measures to reduce motion artifact, such as ECG-gating, should be considered.     

Dynamic gadolinium-enhanced three-dimensional abdominal MR arteriography

The abdominal aorta and renal, visceral, and iliac arteries were evaluated in 16 patients with three-dimensional Fourier transform imaging enhanced with gadopentetate dimeglumine. By imaging dynamically during the arterial phase of a 5-minute injection (0.2 mmol/kg), highly significant (P < .0001) preferential arterial enhancement (signal-to-noise ratio ± standard deviation, 10 ± 0.9), with minimal enhancement of the inferior vena cava (5.1 ± 1.4) or background tissues (fat, 4.3 ± 0.7; muscle, 2.4 ± 0.5), was achieved in every patient. In six patients with angiographic and/or surgical correlation, 10 of 10 stenoses and two of two occlusions were correctly identified. No inplane saturation or pulsatility artifact was identified in any of the 16 patients. In conclusion, dynamic imaging during the injection of gadopentetate dimeglumine is a promising technique for evaluation of the abdominal aorta and branch vessels.     

NMR angiography of coronary vessels with 2-D planar image scanning

On the basis of the principles of the time-of-flight method and the 3-D angiogram obtained by the 2-D planar image scanning technique using 90 degrees RF pulses with short repetition time, we have obtained a coronary angiogram around the heart including the coronary arteries and veins. The cine NMR imaging technique is also incorporated in synchronizing ECG R waves to reduce the motion artifact and at the same time to induce the saturation effect on the static samples. Images of the large bulk blood flow corresponding to the heart chamber and descending aorta are further removed by postprocessing. The final 3-D angiogram is then formed by stacking the 2-D images and contrast is further enhanced by the maximum ray tracing algorithm.     

Two-phase CT pulmonary angiography for detection of hilar pulmonary thromboembolism

PURPOSE: To assess the usefulness of two-phase CT pulmonary angiography (CTPA) for patients with suspected pulmonary thromboembolism (PE). MATERIALS AND METHODS: Forty-four patients (in 48 studies) underwent two-phase CTPA. Fifteen sec after the injection of contrast material, an entire thorax scan was performed, and in the second phase the hilar territory was rescanned after a 15-sec delay. In the first phase, 25 subjects were scanned cranio-caudally (group A), and 23 caudal-cranially (group B). The mean attenuation values of the main pulmonary artery (MPA) and the ascending aorta (Ao) were measured. Perivenous artifacts in the right pulmonary artery (RPA) were also graded using a 4-point scale. RESULTS: The mean attenuation values in the MPA and Ao were higher in the first phase than in the second phase. The perivenous artifact scores at the first phase in groups A and B were severe in 12 and 15, moderate in 8 and 7, minimal in 4 and 1, and none in 1 and 0. The scores at the second phase were none in all cases. CONCLUSION: Two-phase CTPA produced good opacification of the RPA without major perivenous artifact and proved useful in the detection of PE in these areas.     

Iv-DSA as a screening study before conventional transarterial angiography

Twenty patients with hepatic mass underwent IV-DSA by loversol. (1) IV-DSA revealed useful information about whether or not intra-arterial angiography could be performed quickly and safely, because IV-DSA revealed beforehand the degree of arteriosclerotic change and presence of aneurysm of the abdominal aorta and pelvic artery. (2) IV-DSA revealed the existence of complications due to transarterial angiography in the past. (3) IV-DSA should be performed as a mapping study before conventional angiography in the future. (4) Because IV-DSA was easily influenced by misregistration artifact due to bowel gas movement in the abdomen and pelvic portion, diagnosis should be made with care. (5) There was no occurrence of early or delayed side effects due to the new nonionic contrast medium Ioversol.     

Three-dimensional fast spoiled gradient-echo dual echo (3D-FSPGR-DE) with water reconstruction: preliminary experience with a novel pulse sequence for gadolinium-enhanced abdominal MR imaging

PURPOSE: To compare three-dimensional fast spoiled gradient-echo dual-echo (3D-FSPGR-DE) with water reconstruction to conventional 3D-FSPGR for gadolinium-enhanced abdominal imaging. MATERIALS AND METHODS: Sixty-five patients underwent abdominal MRI on a 1.5T GE-HDx MR scanner using gadolinium-enhanced 3D-FSPGR and 3D-FSPGR-DE imaging. Qualitatively, FSPGR-DE and 3D-FSPGR images were reviewed side by side for normal anatomic structures, artifacts, and image quality. The images were reviewed separately for abnormalities of abdominal organs. Receiver operating characteristic (ROC) curve analysis was performed. Quantitative analysis measured mean signal intensity of liver, spleen, aorta, liver lesions, and noise. RESULTS: Observers preferred FSPGR-DE for evaluating liver, vessels, muscles, and subcutaneous tissues. Fat suppression was superior on FSPGR-DE in 63 (0.97) and 61 (0.94) of 65 cases for two observers. FSPGR-DE showed less susceptibility artifact in 47 (0.72) and 41 (0.63) cases, better signal in edge slices in 60 (0.92) and 60 (0.92) cases, less phase artifact in 42 (0.65) and 45 (0.69) cases, and less parallel imaging artifact in 13 (0.20) and 10 (0.15) cases. Images were equivalent for depicting abdominal findings with no difference in the area under the ROC curve. FSPGR-DE images showed a 20%, 29%, and 34% increase in liver, splenic, and aortic signal, respectively, and a 45% and 62% increase in liver-lesion contrast and contrast-to-noise ratio (CNR), respectively. CONCLUSION: Gadolinium-enhanced 3D-FSPGR-DE with water reconstruction provides volumetric abdominal imaging with superior image quality, more homogeneous fat suppression, reduced artifacts, and improved image signal and homogeneity.     

多层螺旋CT冠状动脉造影伪影及其产生因素的研究

目的:探讨多层螺旋CT冠状动脉成像的伪影表现及其产生因素。方法:回顾性分析136例冠状动脉多层螺旋CT成像,分析冠状动脉伪影的表现,评分法判断伪影的程度,产生伪影的原因。结果:以曲面重组为标准重组方式评判。109例见伪影占80.2%,232段冠状动脉发生伪影占23.8%。伪影分为自身因素和技术因素两大类。呼吸运动与心脏运动表现为阶梯状影,冠状动脉错位、中断、模糊;高密度物质表现为局部管腔模糊;邻近结构伪影表现为冠状动脉显影模糊;技术原因表现为冠状动脉不能成像。冠状动脉伪影程度5分3例,4分8例,3分24例,2分33例,1分41例。轻度伪影74例占54.4%(74/136),中度伪影占24例17.6%(24/136),重度伪影11例占8.1%(11/136)。结论:伪影的产生各有其原因,影像学表现各异,通过多种手段的联合应用可降低伪影的发生率及对诊断的影响。     

Report on the 89th Scientific Assembly and Annual Meeting of the Radiological Society of North America--cone beam artifact and helical artifact on the MDCT helical scan

Because MDCT use narrow cone beam x-ray, to quantitatively evaluate cone beam artifact and helical artifact is very important with different x-ray beam width (detector configuration) . The both effect (helical artifact and cone beam artifact) was confirmed on the MDCT helical scan. It does not have cone beam artifact in the Isocenter or using center detector row for conventional scan, but helical artifact basically does not depend position of x-y plane. From quantitative evaluation of cone beam artifact, helical scan has fewer cone beam artifact than conventional scan on the 200 mm position of x-y plane: the cone beam artifact index is 11.76 (8 x 2.5mm conventional scan with most edge detector row) , 6.86 (8 x 2.5mm helical pitch 0.625) and 4.9 (8 x 2.5mm helical pitch 1.675). From phantom experiment, it was concluded that cone beam angle more contribute cone beam artifact than increasing slice numbers. And it was concluded that helical scan has fewer cone beam artifact than conventional scan, because helical scan use multi detector row information and special recon algorithm with cone beam correction on the GE LightSpeed MDCT scanner.     

Quantitative evaluation of metal artifact reduction techniques

PURPOSE: To develop a technique to quantify artifact, and to use it to compare the effectiveness of several approaches to metal artifact reduction, including view angle tilting and increasing the slice select and image bandwidths (BWs), in terms of metal artifact reduction, noise, and blur. MATERIALS AND METHODS: Nonmetallic replicas of two metal implants (stainless steel and titanium/chromium-cobalt femoral prostheses) were fabricated from wax, and MR images were obtained of each component immersed in water. The differences between the images of each metal prosthesis and its wax counterpart were measured. The contributions from noise and blur were isolated, resulting in a measure of the metal artifact. Several off-resonance artifact reduction techniques were assessed in terms of metal artifact reduction capability, as well as signal to noise ratio and blur. RESULTS: Increasing the image BW from +/-16 kHz to +/-64 kHz was found to reduce the artifact by an average of 60%, while employing view angle tilting (VAT) alone was found to reduce the artifact by an average of 63%. The metal artifact reduction sequence (MARS), which combines several susceptibility artifact reduction techniques, resulted in the least amount of image distortion, reducing the artifact by an average of 79%. CONCLUSION: The results indicate that while VAT alone (with an image BW of +/-16 kHz) resulted in the smallest amount of total energy and no reduction in the signal-to-noise ratio compared to a conventional spin-echo pulse sequence, MARS resulted in significantly less artifact and dramatically less blur.     

Removal of high signal artifact (marching metal artifact) by the magnetic substance

During this project, we evaluated methods to prevent high-signal artifact (marching metal artifact) that are caused by magnetic substance. Marching metal artifact is caused by the resonance frequency created by magnetic substance. Phase encoding and frequency encoding are often switched to minimize the influence that marching metal artifact have on the image. However, this method will only change the position at which marching metal artifact occur. It does not have the ability to completely prevent marching metal artifact. Our research illustrated that marching metal artifact can be prevented by changing the strength of the slice selective gradient field at the 90 degree RF pulse and 180 degree RF pulse. In other words, marching metal artifact can be prevented by changing the frequency bandwidth for the 90 degree RF pulse and 180 degree RF pulse. The incorporation of the phase correct option in the device used for our research (SIGNA LX and SIGNA CV/i) results in different slice selective gradient field strengths at the 90 degree RF pulse and the 180 degree RF pulse. This indicates that the use of phase correction enables marching metal artifact to be prevented.     

Quantitative assessment of an MR technique for reducing metal artifact: application to spin-echo imaging in a phantom

Objective. To quantify image artifact reduction using a new technique (MARS – metal artifact reduction sequence) in vitro. Design. Coronal T1-weighted MR images were obtained through two metal phantoms (titanium/chromium-cobalt and stainless steel femoral prostheses) immersed in water. Comparison of artifact volume was made with images obtained using conventional and modified (MARS) T1-weighted sequences. Signal intensity values outside a range of ±40% the average signal intensity for water were considered artifact and segmented into low or high signal artifact categories. Considering the arbitrary selection of this threshold value, volumetric calculations of artifact were also evaluated at ±50%, 60%, 70%, and 80% the mean signal for water. Results. Conventional T1-weighted images produced 87% more low signal artifact and 212% more high signal artifact compared with the MARS modified T1-weighted images of the stainless steel prosthesis. Conventional T1-weighted images of the titanium prosthesis produced 84% more low signal artifact and 211% more high signal artifact than the MARS modified sequence. The level of artifact reduction was essentially uniform for the various threshold levels tested and was greatest at ±20% the global signal intensity average for water. Conclusion. The MARS technique reduces the volume of image signal artifact produced by stainless steel and titanium/chromium-cobalt femoral prostheses on T1-weighted spin-echo images in a tissue phantom model. Received: 11 April 2000 Revision requested: 22 May 2000 Revision received: 26 October 2000 Accepted: 27 November 2000