Your search keyword '"dual-source CT"' showing total 488 results

1. Dual-source photon-counting computed tomography for coronary in-stent observation: influence of heart rate and virtual monoenergetic image.

Author

Ogawa, Ryo, Yanagawa, Masahiro, Hata, Akinori, Yamagata, Kazuki, Ninomiya, Keisuke, Doi, Shuhei, Kikuchi, Noriko, Tokuda, Yukiko, Chimura, Misato, Nakamura, Daisuke, Itoh, Toshihide, Kido, Teruhito, and Tomiyama, Noriyuki

Abstract

To investigate the effect of heart rate and virtual monoenergetic image (VMI) on coronary stent imaging in dual-source photon-counting detector computed tomography (PCD-CT). A dynamic cardiac phantom was used to vary the heart rate at 50 beats per minute (bpm), 70 bpm, and 90 bpm. Five types of stents (4.0 mm, 3.5 mm, 3.0 mm, 2.75 mm, and 2.5 mm diameter) were scanned at three different locations and reconstructed VMI at 70 keV. In addition, 50% stenosis was assessed for 3.0 mm and 4.0 mm stents. To assess in-stent stenosis, 40 keV, 70 keV, and 100 keV images were compared. Measurable lumen and contrast to noise ratio (CNR) from lumen to stenosis were evaluated quantitatively. A-4-point scale was used for the qualitative image quality of in-stent stenosis. The measurable lumen had no significant differences among heart rates in patent stents (p = 0.55). In-stent stenosis, the residual lumen was significantly larger in 40 keV [27.5% (20.8–32.3%)] than in 70 keV [11.5% (10.0–23.0%), p < 0.05] and 100 keV [0% (0–5.2%), p < 0.05]. The CNR was higher in 40 keV [12.5 (7.5–18.2)] than in 70 keV [5.3 (2.9–7.7), p < 0.05] and 100 keV [1.3 (0.5–2.7), p < 0.05]. The image quality was better in 40 keV (3.4 ± 0.7) than in 70 keV [(2.6 ± 0.8), p < 0.05] and 100 keV [(1.3 ± 0.4), p < 0.05]. Dual-source PCD-CT maintains a measurable lumen even at high heart rates. Adjusting the VMI can be helpful in visualizing the in-stent stenosis. [ABSTRACT FROM AUTHOR]

Published

2024

2. 双源 CT 颅脑灌注成像联合血清 UCH-L1, Lp-pLA2 在急性脑梗死患者 诊断和预后不良预测中的应用价值.

Author

王泽颖, 包 华, 郑晓明, 宋成龙, and 高浩然

Subjects

*PERFUSION imaging, *CEREBRAL circulation, *RECEIVER operating characteristic curves, *PHOSPHOLIPASE A2, *CEREBRAL infarction

Abstract

Objective: To investigate the application value of dual-source CT cerebral perfusion imaging combined with serum ubiquitin carboxyl-terminal hydrolase L1 (UCH-L1) and lipoprotein-associated phospholipase A2(Lp-PLA2) in the diagnosis and poor prognosis prediction of patients with acute cerebral infarction (ACI). Methods: 151 ACI patients admitted to Hulunbuir People's Hospital from February 2021 to March 2023 were selected as ACI group and 109 healthy volunteers as control group. According to the National Institutes of Health Stroke Scale (NIHSS), ACI patients were divided into mild group (52 cases), moderate group (53 cases), severe group (46 cases); and according to the Modified Rankin Score Scale (mRS), ACI patients were divided into poor prognosis group (37 cases) and good prognosis group (114 cases). All subjects were underwent dual-source CT cerebral perfusion imaging to obtain relevant parameters of cerebral blood flow (CBF), cerebral blood volume (CBV), mean transit time (MTT), and time to peak (TTP), and serum UCH-L1 and Lp-PLA2 levels were detected. The value of dual-source CT cerebral perfusion imaging parameters combine with serum UCH-L1 and Lp-PLA2 in the diagnosis of ACI and predicted the prognosis of ACI patients were analyzed by receiver operating characteristic (ROC) curve. Results: CBF and CBV in ACI group were lower than those in control group(P<0.05), MTT and TTP in ACI group were longer than those in control group (P < 0.05) serum UCH-L1 and Lp-PLA2 levels in ACI group were higher than those in con- trol group (P < 0.05) CBF and CBV in severe group were lower than those in moderate group and mild group(P<0.05), MTT and TTP in severe group were longer than those in moderate group and mild group(P<0.05), and serum UCH-L1 and Lp-PLA2 levels in severe group were higher than those in moderate group and mild group (P < 0.05) CBF and CBV in moderate group were lower than those in mild group (P < 0.05) MTT and TTP in moderate group were longer than those in mild group(P<0.05), and serum UCH-L1 and Lp-PLA2 levels in moderate group were higher than those in mild group (P < 0.05) . CBF and CBV in poor prognosis group were lower than those in good prognosis group (P < 0.05) MTT and TTP in poor prognosis group were longer than those in good prognosis group (P < 0.05) and serum UCH-L1 and Lp-PLA2 levels in poor prognosis group were higher than those in good prognosis group (P < 0.05) ROC curve analysis showed that: the area under the curve of combine dual-source CT cerebral perfusion imaging parameters and serum UCH-L1 and Lp-PLA2 in the diagnosis of ACI and the prediction of poor prognosis of ACI were 0.898 and 0.892, respectively, which were higher than those of single index diagnosis and prediction. Conclusion: In ACI patients, dual-source CT cerebral perfusion imaging parameters CBF and CBV decrease, MTT and TTP prolonged, serum UCH-L1 and Lp-PLA2 levels increase, which are relate to the aggravation of ACI nerve defect and poor prognosis. The combination of dual-source CT cerebral perfusion imaging parameters and serum UCH-L1 and Lp-pLA2 has high value in the diagnosis and prognosis analysis of ACI. [ABSTRACT FROM AUTHOR]

Published

2024

3. Quantitative evaluation of disc degeneration using dual-energy CT: advantages of R-VH, D-VH values and the IVNCa + CT model.

Author

Meng, Zhanao, Xiong, Anni, Liu, Mengmeng, Guo, Yahao, Zhu, Xuan, Luo, Tao, Tian, Xiangjie, Meng, Xiangbo, Li, Xiaolei, Lin, Xue, Wang, Xiaohong, and Qin, Jie

Subjects

*INTERVERTEBRAL disk, *ANATOMICAL planes, *DUAL energy CT (Tomography)

Abstract

Objective: To evaluate the correlation between dual-energy CT (DECT) virtual calcium free (VNCA), CT attenuation, the ratio and difference of VNCA to CT attenuation, and Pfirrmann grading of lumbar disc degeneration. Methods: A retrospective analysis on 135 intervertebral discs from 30 patients who underwent DECT and MR. Discs was graded using the Pfirrmann system. ROIs on the sagittal plane assessed HU value, VNCA value, Rho value, Z value, R-VH value, and D-VH value. Correlation, grade differences, and multivariate regression models were assessed. Diagnostic performance and cut-off values were determined using AUC. Results: VNCA (r = 0.589, P < 0.001), R-VH (r = 0.622, P < 0.001), and D-VH (r = 0.613, P < 0.001) moderately correlated with Pfirrmann grading. HU (r = 0.388, P < 0.001), Rho (r = 0.142, P = 0.102), and Z (r = −0.125, P = 0.153) showed a weak correlation. R-VH, D-VH, and VNCA had significantly higher correlation than HU. Statistically significant differences were observed in P values of VNCA, HU, R-VH, and D-VH in relative groups (P < 0.05), but not in Rho and Z values (P > 0.05). R-VH and D-VH had significant differences between Pfirrmann grades 1 and 2, and grades 2 and 3 (early stage) (P < 0.05). AUC readings of R-VH and D-VH (≥2, ≥3, ≥4) were higher. The multivariate model IVNCa + CT had the highest AUC. Conclusion: The new quantitative indices R-VH value and D-VH value of DECT have advantages over VNCA value and HU value in evaluating early-stage disc degeneration (≥2 grades, ≥3 grades). The multivariate model IVNCa + CT has the best AUC values for evaluating disc degeneration at all stages. [ABSTRACT FROM AUTHOR]

Published

2024

4. Low-dose versus conventional CT urography using dual-source CT with different time-current product values and the same tube voltage: image quality and diagnostic performance in various diagnoses.

Author

Choi, Moon Hyung, Lee, Sheen-Woo, and Pak, Seongyong

Subjects

*CURRENT transformers (Instrument transformer), *DIAGNOSTIC imaging, *IMAGE quality analysis, *TUBES, *URINARY organs, *COMPUTED tomography, *DUAL energy CT (Tomography), *X-ray fluorescence

Abstract

Objectives To compare the image quality and diagnostic performance of low-dose CT urography to that of concurrently acquired conventional CT using dual-source CT. Methods This retrospective study included 357 consecutive CT urograms performed by third-generation dual-source CT in a single institution between April 2020 and August 2021. Two-phase CT images (unenhanced phase, excretory phase with split bolus) were obtained with two different tube current-time products (280 mAs for the conventional-dose protocol and 70 mAs for the low-dose protocol) and the same tube voltage (90 kVp) for the two X-ray tubes. Iterative reconstruction was applied for both protocols. Two radiologists independently performed quantitative and qualitative image quality analysis and made diagnoses. The correlation between the noise level or the effective radiation dose and the patients' body weight was evaluated. Results Significantly higher noise levels resulting in a significantly lower liver signal-to-noise ratio and contrast-to-noise ratio were noted in low-dose images compared to conventional images (P  <  .001). Qualitative analysis by both radiologists showed significantly lower image quality in low-dose CT than in conventional CT images (P  <  .001). Patient's body weight was positively correlated with noise and effective radiation dose (P  <  .001). Diagnostic performance for various diseases, including urolithiasis, inflammation, and mass, was not different between the two protocols. Conclusions Despite inferior image quality, low-dose CT urography with 70 mAs and 90 kVp and iterative reconstruction demonstrated diagnostic performance equivalent to that of conventional CT for identifying various diseases of the urinary tract. Advances in knowledge Low-dose CT (25% radiation dose) with low tube current demonstrated diagnostic performance comparable to that of conventional CT for a variety of urinary tract diseases. [ABSTRACT FROM AUTHOR]

Published

2024

5. 双源 CT 双能量虚拟平扫对直肠癌壁 外血管侵犯的诊断价值.

Author

杨振兴, 张宇琦, 刘挨师, 吴慧, 赵磊, 高伟, 施琳, and 郝粉娥

Abstract

Copyright of CT Theory & Applications is the property of Editorial Department of CT Theory & Applications and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

6. Determining the Optimal Energy Level of Virtual Monoenergetic Images in Dual-Source CT for Diagnosis of Bowel Obstruction and Colitis.

Author

Lahuna, Loris, Greffier, Joël, Goupil, Jean, Frandon, Julien, Pastor, Maxime, De Oliveira, Fabien, Beregi, Jean Paul, and Dabli, Djamel

Subjects

*BOWEL obstructions, *COLITIS, *COMPUTED tomography, *DIAGNOSIS, *LIKERT scale, *NOISE-induced deafness

Abstract

Images from 64 patients undergoing an enhanced abdominal-pelvis scan at portal phase in dual-energy CT mode for the diagnosis of colitis or bowel obstruction were retrospectively analyzed. Acquisitions were performed on a third-generation dual-source CT (DSCT) 100/Sn150 kVp. Mixed images were generated, as well as virtual monoenergetic images (VMIs) at 40/50/60/70 keV. Objective image quality was assessed on VMIs and mixed images by measuring contrast, noise and contrast-to-noise ratio (CNR). Noise, smoothing and overall image quality were subjectively analyzed by two radiologists using Likert scales. For both patient groups, the noise decreased significantly according to the energy level from 40 to 60 keV by −47.2 ± 24.0% for bowel obstruction and −50.4 ± 18.2% for colitis. It was similar between 60 and 70 keV (p = 0.475 and 0.059, respectively). Noise values were significantly higher in VMIs than in mixed images, except for 70 keV (p = 0.53 and 0.071, respectively). Similar results were observed for contrast values, with a decrease between 40 and 70 keV of −56.3 ± 7.9% for bowel obstruction −56.2 ± 10.9% for colitis. The maximum CNR value was found at 60 keV compared to other energy levels and mixed images, but there was no significant difference with the other energy levels apart from 70 keV (−9.7 ± 9.8%) for bowel obstruction and 40 keV (−6.6 ± 8.2%) and 70 keV (−5.8 ± 9.2%) for colitis. The VMIs at 60 keV presented higher scores for all criteria for bowel obstruction and colitis, with no significant difference in smoothing score compared to mixed images (p = 0.119 and p = 0.888, respectively). [ABSTRACT FROM AUTHOR]

Published

2023

7. Value of dual-source CT dual-energy parameters combined with serum detection of VEGF and CEA in the diagnosis of early lung cancer.

Author

Ren, Liliang and Yang, Yulong

Abstract

To discuss the value of dual-source CT dual-energy parameters combined with serum detection of vascular endothelial growth factor (VEGF) and carcinoembryonic antigen (CEA) in the diagnosis of early lung cancer (LC). In total, 100 patients with lung lesions in our hospital from January 2020 to January 2022 were selected for retrospective study, and were divided into the lung cancer group (group A) and benign lung disease group (group B) according to the final results of pathological diagnosis, using dual-source CT dual-energy scanning combined with serum detection of VEGF and CEA to analyze the diagnostic values of single detection and combined detection. Among the 100 patients with lung lesions, there were 58 patients with LC and 42 patients with benign lung diseases after pathological examination, with no statistical difference in normalized iodine concentration (NIC) and the increased value of iodine at arterial phase between the two groups (P > 0.05). The NIC value of group A was higher than group B at venous phase (P < 0.05). The serum levels of VEGF and CEA in group A were higher than group B (P < 0.05). The area under the curve, specificity, sensitivity, Youden index and 95% CI of combined diagnosis were higher than single detection of NIC, VEGF and CEA at venous phase. The combined application of dual-source CT dual-energy parameters and serum detection of VEGF and CEA has higher diagnostic value in patients with early LC, which can provide effective reference for clinical diagnosis and treatment, with higher application value in clinic. [ABSTRACT FROM AUTHOR]

Published

2023

8. Diagnostic Value of Dual-source CT Dual-energy Virtual Non-contrasting Extramural Vascular Invasions of Rectal Cancer

Author

Zhenxing YANG, Yuqi ZHANG, Aishi LIU, Hui WU, Lei ZHAO, Wei GAO, Lin SHI, and Fene HAO

Subjects

dual-source ct, dual-energy virtual non-contrast, rectal cancer, extramural vascular invasion, Geophysics. Cosmic physics, QC801-809, Medicine (General), R5-920

Abstract

Objective: To investigate the value of dual-source CT dual-energy virtual plain scan in the preoperative diagnosis of extramural vascular invasion (EMVI) in rectal cancer. Methods: A total of 150 patients with rectal cancer (64 females (42.7%) and 86 males (57.3%), with an average age of (62.3±11.8) years) who were scheduled for surgical treatment in our hospital from November 2019 to December 2021 were selected for the preoperative dual-source CT dual-energy virtual plain scan;. Two senior radiologists independently analyzed preoperative imaging data (including ctEMVI status, local lymph node infiltration, and distant metastasis) to determine the existence of preoperative EMVI. With pathological results as the gold standard, the sensitivity, specificity, accuracy, positive predictive value, and negative predictive value of VNC in the diagnosis of EMVI were evaluated, and the area under the receiver operating characteristic curve (ROC) was used to evaluate the diagnostic efficiency. Results: Among 150 patients with rectal cancer, 56 (37.3%) were positive for EMVI and 94 (62.7%) were negative for EMVI. The accuracy, sensitivity, specificity, positive predictive value, and negative predictive value of EMVI evaluation by physician 1 were 86%, 80.36%, 89.36%, 81.82%, and 88.42%, respectively, and the AUC was 0.831 (95%CI, 0.756~0.905). The accuracy, sensitivity, specificity, positive predictive value, and negative predictive value of physician 2 were 88.67%, 80.36%, 93.62%, 88.24%, and 88.89%, respectively, and the AUC was 0.870 (95%CI, 0.802~0.938). The consistency of the evaluation results between physician 1 and physician 2 was high (k=0.943). Conclusion: Dual-source CT dual-energy virtual plain scan has a certain diagnostic value in the preoperative evaluation of EMVI of rectal cancer.

Published

2023

9. Pros and Cons of Dual-Energy CT Systems: 'One Does Not Fit All'

Author

Ana P. Borges, Célia Antunes, and Luís Curvo-Semedo

Subjects

dual-energy CT, spectral CT, dual-source CT, fast kVp switching, dual-layer detector CT, split-filter, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Dual-energy computed tomography (DECT) uses different energy spectrum x-ray beams for differentiating materials with similar attenuation at a certain energy. Compared with single-energy CT, it provides images with better diagnostic performance and a potential reduction of contrast agent and radiation doses. There are different commercially available DECT technologies, with machines that may display two x-ray sources and two detectors, a single source capable of fast switching between two energy levels, a specialized detector capable of acquiring high- and low-energy data sets, and a filter splitting the beam into high- and low-energy beams at the output. Sequential acquisition at different tube voltages is an alternative approach. This narrative review describes the DECT technique using a Q&A format and visual representations. Physical concepts, parameters influencing image quality, postprocessing methods, applicability in daily routine workflow, and radiation considerations are discussed. Differences between scanners are described, regarding design, image quality variabilities, and their advantages and limitations. Additionally, current clinical applications are listed, and future perspectives for spectral CT imaging are addressed. Acknowledging the strengths and weaknesses of different DECT scanners is important, as these could be adapted to each patient, clinical scenario, and financial capability. This technology is undoubtedly valuable and will certainly keep improving.

Published

2023

10. Spectral CT: Current Liver Applications.

Author

Borges, Ana P., Antunes, Célia, and Caseiro-Alves, Filipe

Subjects

*IODINE deficiency, *COMPUTED tomography, *DUAL energy CT (Tomography), *IMAGE reconstruction, *DEEP learning, *IRON

Abstract

Using two different energy levels, dual-energy computed tomography (DECT) allows for material differentiation, improves image quality and iodine conspicuity, and allows researchers the opportunity to determine iodine contrast and radiation dose reduction. Several commercialized platforms with different acquisition techniques are constantly being improved. Furthermore, DECT clinical applications and advantages are continually being reported in a wide range of diseases. We aimed to review the current applications of and challenges in using DECT in the treatment of liver diseases. The greater contrast provided by low-energy reconstructed images and the capability of iodine quantification have been mostly valuable for lesion detection and characterization, accurate staging, treatment response assessment, and thrombi characterization. Material decomposition techniques allow for the non-invasive quantification of fat/iron deposition and fibrosis. Reduced image quality with larger body sizes, cross-vendor and scanner variability, and long reconstruction time are among the limitations of DECT. Promising techniques for improving image quality with lower radiation dose include the deep learning imaging reconstruction method and novel spectral photon-counting computed tomography. [ABSTRACT FROM AUTHOR]

Published

2023

11. Obesity-Related Pitfalls of Virtual versus True Non-Contrast Imaging—An Intraindividual Comparison in 253 Oncologic Patients.

Author

Huflage, Henner, Kunz, Andreas Steven, Hendel, Robin, Kraft, Johannes, Weick, Stefan, Razinskas, Gary, Sauer, Stephanie Tina, Pennig, Lenhard, Bley, Thorsten Alexander, and Grunz, Jan-Peter

Subjects

*OBESITY complications, *DUAL energy CT (Tomography), *RADIATION doses, *SCANNING systems

Abstract

Objectives: Dual-source dual-energy CT (DECT) facilitates reconstruction of virtual non-contrast images from contrast-enhanced scans within a limited field of view. This study evaluates the replacement of true non-contrast acquisition with virtual non-contrast reconstructions and investigates the limitations of dual-source DECT in obese patients. Materials and Methods: A total of 253 oncologic patients (153 women; age 64.5 ± 16.2 years; BMI 26.6 ± 5.1 kg/m2) received both multi-phase single-energy CT (SECT) and DECT in sequential staging examinations with a third-generation dual-source scanner. Patients were allocated to one of three BMI clusters: non-obese: <25 kg/m2 (n = 110), pre-obese: 25–29.9 kg/m2 (n = 73), and obese: >30 kg/m2 (n = 70). Radiation dose and image quality were compared for each scan. DECT examinations were evaluated regarding liver coverage within the dual-energy field of view. Results: While arterial contrast phases in DECT were associated with a higher CTDIvol than in SECT (11.1 vs. 8.1 mGy; p < 0.001), replacement of true with virtual non-contrast imaging resulted in a considerably lower overall dose-length product (312.6 vs. 475.3 mGy·cm; p < 0.001). The proportion of DLP variance predictable from patient BMI was substantial in DECT (R2 = 0.738) and SECT (R2 = 0.620); however, DLP of SECT showed a stronger increase in obese patients (p < 0.001). Incomplete coverage of the liver within the dual-energy field of view was most common in the obese subgroup (17.1%) compared with non-obese (0%) and pre-obese patients (4.1%). Conclusion: DECT facilitates a 30.8% dose reduction over SECT in abdominal oncologic staging examinations. Employing dual-source scanner architecture, the risk for incomplete liver coverage increases in obese patients. [ABSTRACT FROM AUTHOR]

Published

2023

12. Is There Still a Role for Two-Phase Contrast-Enhanced CT and Virtual Monoenergetic Images in the Era of Photon-Counting Detector CT?

Author

Estler, Arne, Nikolaou, Konstantin, Schönberg, Stefan O., Bamberg, Fabian, Froelich, Matthias F., Tollens, Fabian, Verloh, Niklas, Weiss, Jakob, Horger, Marius, and Hagen, Florian

Subjects

*NONPARAMETRIC statistics, *DETECTORS, *COMPUTED tomography, *CLINICAL indications, *SIGNAL-to-noise ratio

Abstract

Background: To compare the diagnostic characteristics between arterial phase imaging versus portal venous phase imaging, applying polychromatic T3D images and low keV virtual monochromatic images using a 1st generation photon-counting CT detector, of CT in patients with hepatocellular carcinoma (HCC). Methods: Consecutive patients with HCC, with a clinical indication for CT imaging, were prospectively enrolled. Virtual monoenergetic images (VMI) were reconstructed at 40 to 70 keV for the PCD-CT. Two independent, blinded radiologists counted all hepatic lesions and quantified their size. The lesion-to-background ratio was quantified for both phases. SNR and CNR were determined for T3D and low VMI images; non-parametric statistics were used. Results: Among 49 oncologic patients (mean age 66.9 ± 11.2 years, eight females), HCC was detected in both arterial and portal venous scans. The signal-to-noise ratio, the CNR liver-to-muscle, the CNR tumor-to-liver, and CNR tumor-to-muscle were 6.58 ± 2.86, 1.40 ± 0.42, 1.13 ± 0.49, and 1.53 ± 0.76 in the arterial phase and 5.93 ± 2.97, 1.73 ± 0.38, 0.79 ± 0.30, and 1.36 ± 0.60 in the portal venous phase with PCD-CT, respectively. There was no significant difference in SNR between the arterial and portal venous phases, including between "T3D" and low keV images (p > 0.05). CNRtumor-to-liver differed significantly between arterial and portal venous contrast phases (p < 0.005) for both "T3D" and all reconstructed keV levels. CNRliver-to-muscle and CNRtumor-to-muscle did not differ in either the arterial or portal venous contrast phases. CNRtumor-to-liver increased in the arterial contrast phase with lower keV in addition to SD. In the portal venous contrast phase, CNRtumor-to-liver decreased with lower keV; whereas, CNRtumor-to-muscle increased with lower keV in both arterial and portal venous contrast phases. CTDI and DLP mean values for the arterial upper abdomen phase were 9.03 ± 3.59 and 275 ± 133, respectively. CTDI and DLP mean values for the abdominal portal venous phase were 8.75 ± 2.99 and 448 ± 157 with PCD-CT, respectively. No statistically significant differences were found concerning the inter-reader agreement for any of the (calculated) keV levels in either the arterial or portal-venous contrast phases. Conclusions: The arterial contrast phase imaging provides higher lesion-to-background ratios of HCC lesions using a PCD-CT; especially, at 40 keV. However, the difference was not subjectively perceived as significant. [ABSTRACT FROM AUTHOR]

Published

2023

13. Pros and Cons of Dual-Energy CT Systems: "One Does Not Fit All".

Author

Borges, Ana P., Antunes, Célia, and Curvo-Semedo, Luís

Subjects

COMPUTED tomography, FINANCIAL literacy, SPECTRAL imaging, CONTRAST media, X-ray spectra, RADIATION exposure

Abstract

Dual-energy computed tomography (DECT) uses different energy spectrum x-ray beams for differentiating materials with similar attenuation at a certain energy. Compared with single-energy CT, it provides images with better diagnostic performance and a potential reduction of contrast agent and radiation doses. There are different commercially available DECT technologies, with machines that may display two x-ray sources and two detectors, a single source capable of fast switching between two energy levels, a specialized detector capable of acquiring high- and low-energy data sets, and a filter splitting the beam into high- and low-energy beams at the output. Sequential acquisition at different tube voltages is an alternative approach. This narrative review describes the DECT technique using a Q&A format and visual representations. Physical concepts, parameters influencing image quality, postprocessing methods, applicability in daily routine workflow, and radiation considerations are discussed. Differences between scanners are described, regarding design, image quality variabilities, and their advantages and limitations. Additionally, current clinical applications are listed, and future perspectives for spectral CT imaging are addressed. Acknowledging the strengths and weaknesses of different DECT scanners is important, as these could be adapted to each patient, clinical scenario, and financial capability. This technology is undoubtedly valuable and will certainly keep improving. [ABSTRACT FROM AUTHOR]

Published

2023

14. Potential dose reduction and image quality improvement in chest CT with a photon-counting CT compared to a new dual-source CT.

Author

Greffier, Joël, Dabli, Djamel, Faby, Sebastian, Pastor, Maxime, Oliveira, Fabien de, Croisille, Cédric, Erath, Julien, and Beregi, Jean-Paul

Abstract

• Photon-counting CT (PCCT) reduced the image noise compared to dual-source CT (DSCT). • PCCT improved the detectability of chest lesions compared to DSCT. • Image quality with PCCT indicates greater potential for dose optimization than DSCT. • Chest images were rated satisfactory for clinical use with PCCT, except at 0.4 mGy. To compare potential dose reduction and quality improvement in chest CT images with Photon-Counting CT (PCCT) versus a Dual-Source CT (DSCT). Acquisitions on phantoms were performed on a DSCT and a PCCT at 5 dose levels (9.5/7.5/6.0/2.5/0.4 mGy). Noise power spectrum (NPS) and task-based transfer function (TTF) were calculated to assess noise magnitude and noise texture (f av) and spatial resolution (f 50), respectively. Computed detectability indexes (d′) modelled the detection of 2 chest lesions: subsolid pulmonary nodules (SPN) and high-contrast pulmonary nodules (HCN). Two radiologists subjectively assessed the quality of chest images on an anthropomorphic phantom. For all dose levels, noise magnitude was significantly lower with PCCT than with DSCT (−44.7 ± 3.0 %; p < 0.05). Identical outcomes were found for noise texture (f av ; −6.2 ± 0.5 %; p < 0.05). f 50 values were significantly higher with DSCT than with PCCT from 9.5 to 6 mGy for iodine insert (p < 0.05) and from 7.5 to 2.5 mGy for air insert (p < 0.05), but similar for both inserts at other dose levels. For all dose levels, d' values were significantly higher with PCCT than DSCT (71.9 ± 5.4 % for HCN and 65.6 ± 13.5 % for SPN). From 9.5 to 2.5 mGy, the potential dose reduction was −59.0 ± 3.9 % for both lesions with PCCT compared to DSCT. Chest images were rated satisfactory for clinical use by the radiologists with both CTs for all dose levels, except at 0.4 mGy. Noise magnitude and detectability of chest lesions were better with PCCT than with the DSCT. PCCT may offer great potential for dose reduction in patients undergoing chest CT examinations. [ABSTRACT FROM AUTHOR]

Published

2024

15. Determining the Optimal Energy Level of Virtual Monoenergetic Images in Dual-Source CT for Diagnosis of Bowel Obstruction and Colitis

Author

Loris Lahuna, Joël Greffier, Jean Goupil, Julien Frandon, Maxime Pastor, Fabien De Oliveira, Jean Paul Beregi, and Djamel Dabli

Subjects

dual-energy CT, dual-source CT, colitis, bowel obstruction, virtual monoenergetic images, Medicine (General), R5-920

Abstract

Images from 64 patients undergoing an enhanced abdominal-pelvis scan at portal phase in dual-energy CT mode for the diagnosis of colitis or bowel obstruction were retrospectively analyzed. Acquisitions were performed on a third-generation dual-source CT (DSCT) 100/Sn150 kVp. Mixed images were generated, as well as virtual monoenergetic images (VMIs) at 40/50/60/70 keV. Objective image quality was assessed on VMIs and mixed images by measuring contrast, noise and contrast-to-noise ratio (CNR). Noise, smoothing and overall image quality were subjectively analyzed by two radiologists using Likert scales. For both patient groups, the noise decreased significantly according to the energy level from 40 to 60 keV by −47.2 ± 24.0% for bowel obstruction and −50.4 ± 18.2% for colitis. It was similar between 60 and 70 keV (p = 0.475 and 0.059, respectively). Noise values were significantly higher in VMIs than in mixed images, except for 70 keV (p = 0.53 and 0.071, respectively). Similar results were observed for contrast values, with a decrease between 40 and 70 keV of −56.3 ± 7.9% for bowel obstruction −56.2 ± 10.9% for colitis. The maximum CNR value was found at 60 keV compared to other energy levels and mixed images, but there was no significant difference with the other energy levels apart from 70 keV (−9.7 ± 9.8%) for bowel obstruction and 40 keV (−6.6 ± 8.2%) and 70 keV (−5.8 ± 9.2%) for colitis. The VMIs at 60 keV presented higher scores for all criteria for bowel obstruction and colitis, with no significant difference in smoothing score compared to mixed images (p = 0.119 and p = 0.888, respectively).

Published

2023

16. DSCT 联合mi R-10b-3p 在脑卒中颈动脉狭窄诊断中的应用.

Author

司延栋, 陈昆涛, 刘亮, and 彭兴慧

Subjects

CAROTID artery stenosis, STROKE patients, ATHEROSCLEROTIC plaque, ISCHEMIC stroke, CAROTID artery, CALCIFICATION

Abstract

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Published

2022

17. Methods for Spectral CT Imaging

Author

McCollough, Cynthia H., Samei, Ehsan, editor, and Pelc, Norbert J., editor

Published

2020

18. Care kV 技术在双源CT 胸痛三联CT 血管造影中 对图像质量及辐射剂量的影响.

Author

王坤, 金倞, 李骋, 田全凯, 张渌恺, and 李铭

Abstract

Objective To investigate the effect of new generation dual source CT combined with Care kV technology on image quality and radiation dose in triple rule out CT angiography （TRO-CTA） for chest pain. Methods Ninety patients who attended the Chest Pain Center of Huadong Hospital，Fudan University from Mar to Sep 2021 and were proposed for TRO-CTA were retrospectively collected. They were divided into two groups A and B according to the different scanning methods. The tube voltage of CT scan in group A was determined by the Care kV technique，while group B used a fixed tube voltage of 120 kV. The image quality and radiation dose were compared between the two groups. Results The mean CT dose index volume（CTDIvol）was significantly lower in group A than in group B［（20.42± 9.60）mGy vs.（32.27±13.41）mGy，P<0.001）］.The mean dose length product（DLP）in Group A was significantly lower than that in Group B［（525.28 ± 240.12）mGy×cm vs.（944.20±408.36）mGy×cm， P<0.001）］.Thus，the mean effective radiation dose（ED）was significantly lower in group A than in group B［（7.35 ± 3.36）mSv vs.（13.22 ± 5.72）mSv，P<0.001）］. The CT values of all vessels in group A were significantly higher than those in group B（P<0.05），except for the distal segment of the left anterior descending and the distal segment of the left circumflex. Image noise was significantly higher in group A than in group B（15.79±3.81 vs. 11.37±3.40，P<0.001）.The differences in signal-to-noise ratio of vessel segments between the two groups were not statistically significant except for the distal segment of the LAD. The differences in contrast-to-noise ratio of pulmonary artery and aorta in group A and group B were not statistically significant，but the CNR of coronary artery in group A was generally higher than that in group B.The differences in subjective scores of pulmonary artery，aorta and coronary artery in images from group A and B were not statistically significant. Conclusion The use of Care kV technology for TROCTA angiography of chest pain on a new generation dual-source CT can significantly reduce radiation dose while guaranteeing the diagnostic quality of the images. [ABSTRACT FROM AUTHOR]

Published

2022

19. An Image-Domain Contrast Material Extraction Method for Dual-Energy Computed Tomography

Author

Lambert, Jack W, Sun, Yuxin, Gould, Robert G, Ohliger, Michael A, Li, Zhixi, and Yeh, Benjamin M

Subjects

Bioengineering, Biomedical Imaging, Affordable and Clean Energy, Animals, Calcium, Contrast Media, Feasibility Studies, Female, Image Processing, Computer-Assisted, Iodine, Models, Animal, Phantoms, Imaging, Pilot Projects, Rabbits, Radiography, Dual-Energy Scanned Projection, Tomography, X-Ray Computed, Tungsten, dual-energy CT, contrast material, high-Z element, material decomposition, material separation, rapid kVp-switching CT, dual-source CT, iodine, calcium, tungsten, Clinical Sciences, Nuclear Medicine & Medical Imaging

Abstract

ObjectivesConventional material decomposition techniques for dual-energy computed tomography (CT) assume mass or volume conservation, where the CT number of each voxel is fully assigned to predefined materials. We present an image-domain contrast material extraction process (CMEP) method that preferentially extracts contrast-producing materials while leaving the remaining image intact.Materials and methodsImage processing freeware (Fiji) is used to perform consecutive arithmetic operations on a dual-energy ratio map to generate masks, which are then applied to the original images to generate material-specific images. First, a low-energy image is divided by a high-energy image to generate a ratio map. The ratio map is then split into material-specific masks. Ratio intervals known to correspond to particular materials (eg, iodine, calcium) are assigned a multiplier of 1, whereas ratio values in between these intervals are assigned linear gradients from 0 to 1. The masks are then multiplied by an original CT image to produce material-specific images. The method was tested quantitatively at dual-source CT and rapid kVp-switching CT (RSCT) with phantoms using pure and mixed formulations of tungsten, calcium, and iodine. Errors were evaluated by comparing the known material concentrations with those derived from the CMEP material-specific images. Further qualitative evaluation was performed in vivo at RSCT with a rabbit model using identical CMEP parameters to the phantom. Orally administered tungsten, vascularly administered iodine, and skeletal calcium were used as the 3 contrast materials.ResultsAll 5 material combinations-tungsten, iodine, and calcium, and mixtures of tungsten-calcium and iodine-calcium-showed distinct dual-energy ratios, largely independent of material concentration at both dual-source CT and RSCT. The CMEP was successful in both phantoms and in vivo. For pure contrast materials in the phantom, the maximum error between the known and CMEP-derived material concentrations was 0.9 mg/mL, 24.9 mg/mL, and 0.4 mg/mL for iodine, calcium, and tungsten respectively. Mixtures of iodine and calcium showed the highest discrepancies, which reflected the sensitivity of iodine to the image-type chosen for the extraction of the final material-specific image. The rabbit model was able to clearly show the 3 extracted material phases, vascular iodine, oral tungsten, and skeletal calcium. Some skeletal calcium was misassigned to the extracted iodine image; however, this did not impede the depiction of the vasculature.ConclusionsThe CMEP is a straightforward, image-domain approach to extract material signal at dual-energy CT. It has particular value for separation of experimental high-Z contrast elements from conventional iodine contrast or calcium, even when the exact attenuation coefficient profiles of desired contrast materials may be unknown. The CMEP is readily implemented in the image-domain within freeware, and can be adapted for use with images from multiple vendors.

Published

2017

20. Effects of the Sn100 kVp Tube Voltage Mode on the Radiation Dose and Image Quality of Dual-Source Computed Tomography Pulmonary Angiography

Author

Zhang WG, Liu JP, Jia XQ, Zhang JY, Li XN, and Yang Q

Subjects

sn100 kvp, ctpa, radiation dose, pulmonary embolism, dual-source ct, Medicine (General), R5-920

Abstract

Wei-Guo Zhang,1,* Jia-Ping Liu,2,* Xiu-Qin Jia,1 Ji-Yang Zhang,1 Xiang-Nan Li,1 Qi Yang1 1Department of Radiology, Beijing Chaoyang Hospital, Capital Medical University, Beijing, 100020, People’s Republic of China; 2Department of Radiology, Beijing Xiongke Hospital, Capital Medical University, Beijing, 100049, People’s Republic of China*These authors contributed equally to this workCorrespondence: Qi YangDepartment of Radiology, Beijing Chaoyang Hospital, Capital Medical University, No. 8 Gongti South Road, Chaoyang District, Beijing, 100020, People’s Republic of ChinaTel/Fax +86-85231928Email qiyang856@163.comObjective: This study aimed to investigate the effects of the Sn100 kVp tube voltage mode on the image quality and radiation dose of computed tomography pulmonary angiography (CTPA).Methods: A total of 145 patients who underwent CTPA were randomly divided into five groups: control group (120 kVp, 150 mAs), test group A (Sn100 kVp, 270 mAs), test group B (120 kVp, 30 mAs), test group C (70 kVp, 150 mAs), and test group D (80 kVp, 70 mAs). After image post-processing, the image quality and radiation dose of each group were analyzed.Results: The computed tomography values of images in the four test groups were more than 250 HU, which met the criteria for diagnosis. The signal-to-noise ratio and contrast-to-noise ratio of the images in the four test groups were lower than those in the control group. The radiation dose in each test group was lower than in the control group. The radiation dose was lowest in test group A.Conclusion: The Sn100 kVp energy spectrum purification protocol can meet the requirements for clinical diagnosis, ensure image quality, and reduce the dose of radiation that patients receive.Keywords: Sn100 kVp, CTPA, radiation dose, pulmonary embolism, dual-source CT

Published

2021

21. Spectral CT: Current Liver Applications

Author

Ana P. Borges, Célia Antunes, and Filipe Caseiro-Alves

Subjects

dual-energy CT, spectral CT, liver disease, pancreatic disease, dual-source CT, fast kVp switching, Medicine (General), R5-920

Abstract

Using two different energy levels, dual-energy computed tomography (DECT) allows for material differentiation, improves image quality and iodine conspicuity, and allows researchers the opportunity to determine iodine contrast and radiation dose reduction. Several commercialized platforms with different acquisition techniques are constantly being improved. Furthermore, DECT clinical applications and advantages are continually being reported in a wide range of diseases. We aimed to review the current applications of and challenges in using DECT in the treatment of liver diseases. The greater contrast provided by low-energy reconstructed images and the capability of iodine quantification have been mostly valuable for lesion detection and characterization, accurate staging, treatment response assessment, and thrombi characterization. Material decomposition techniques allow for the non-invasive quantification of fat/iron deposition and fibrosis. Reduced image quality with larger body sizes, cross-vendor and scanner variability, and long reconstruction time are among the limitations of DECT. Promising techniques for improving image quality with lower radiation dose include the deep learning imaging reconstruction method and novel spectral photon-counting computed tomography.

Published

2023

22. Obesity-Related Pitfalls of Virtual versus True Non-Contrast Imaging—An Intraindividual Comparison in 253 Oncologic Patients

Author

Henner Huflage, Andreas Steven Kunz, Robin Hendel, Johannes Kraft, Stefan Weick, Gary Razinskas, Stephanie Tina Sauer, Lenhard Pennig, Thorsten Alexander Bley, and Jan-Peter Grunz

Subjects

dual-energy CT, dual-source CT, virtual non-contrast, radiation dose, spectral CT, obesity, Medicine (General), R5-920

Abstract

Objectives: Dual-source dual-energy CT (DECT) facilitates reconstruction of virtual non-contrast images from contrast-enhanced scans within a limited field of view. This study evaluates the replacement of true non-contrast acquisition with virtual non-contrast reconstructions and investigates the limitations of dual-source DECT in obese patients. Materials and Methods: A total of 253 oncologic patients (153 women; age 64.5 ± 16.2 years; BMI 26.6 ± 5.1 kg/m2) received both multi-phase single-energy CT (SECT) and DECT in sequential staging examinations with a third-generation dual-source scanner. Patients were allocated to one of three BMI clusters: non-obese: 2 (n = 110), pre-obese: 25–29.9 kg/m2 (n = 73), and obese: >30 kg/m2 (n = 70). Radiation dose and image quality were compared for each scan. DECT examinations were evaluated regarding liver coverage within the dual-energy field of view. Results: While arterial contrast phases in DECT were associated with a higher CTDIvol than in SECT (11.1 vs. 8.1 mGy; p < 0.001), replacement of true with virtual non-contrast imaging resulted in a considerably lower overall dose-length product (312.6 vs. 475.3 mGy·cm; p < 0.001). The proportion of DLP variance predictable from patient BMI was substantial in DECT (R2 = 0.738) and SECT (R2 = 0.620); however, DLP of SECT showed a stronger increase in obese patients (p < 0.001). Incomplete coverage of the liver within the dual-energy field of view was most common in the obese subgroup (17.1%) compared with non-obese (0%) and pre-obese patients (4.1%). Conclusion: DECT facilitates a 30.8% dose reduction over SECT in abdominal oncologic staging examinations. Employing dual-source scanner architecture, the risk for incomplete liver coverage increases in obese patients.

Published

2023

23. Is There Still a Role for Two-Phase Contrast-Enhanced CT and Virtual Monoenergetic Images in the Era of Photon-Counting Detector CT?

Author

Arne Estler, Konstantin Nikolaou, Stefan O. Schönberg, Fabian Bamberg, Matthias F. Froelich, Fabian Tollens, Niklas Verloh, Jakob Weiss, Marius Horger, and Florian Hagen

Subjects

photon counting CT, dual-source CT, dual-phase contrast-enhanced CT, Medicine (General), R5-920

Abstract

Background: To compare the diagnostic characteristics between arterial phase imaging versus portal venous phase imaging, applying polychromatic T3D images and low keV virtual monochromatic images using a 1st generation photon-counting CT detector, of CT in patients with hepatocellular carcinoma (HCC). Methods: Consecutive patients with HCC, with a clinical indication for CT imaging, were prospectively enrolled. Virtual monoenergetic images (VMI) were reconstructed at 40 to 70 keV for the PCD-CT. Two independent, blinded radiologists counted all hepatic lesions and quantified their size. The lesion-to-background ratio was quantified for both phases. SNR and CNR were determined for T3D and low VMI images; non-parametric statistics were used. Results: Among 49 oncologic patients (mean age 66.9 ± 11.2 years, eight females), HCC was detected in both arterial and portal venous scans. The signal-to-noise ratio, the CNR liver-to-muscle, the CNR tumor-to-liver, and CNR tumor-to-muscle were 6.58 ± 2.86, 1.40 ± 0.42, 1.13 ± 0.49, and 1.53 ± 0.76 in the arterial phase and 5.93 ± 2.97, 1.73 ± 0.38, 0.79 ± 0.30, and 1.36 ± 0.60 in the portal venous phase with PCD-CT, respectively. There was no significant difference in SNR between the arterial and portal venous phases, including between “T3D” and low keV images (p > 0.05). CNRtumor-to-liver differed significantly between arterial and portal venous contrast phases (p < 0.005) for both “T3D” and all reconstructed keV levels. CNRliver-to-muscle and CNRtumor-to-muscle did not differ in either the arterial or portal venous contrast phases. CNRtumor-to-liver increased in the arterial contrast phase with lower keV in addition to SD. In the portal venous contrast phase, CNRtumor-to-liver decreased with lower keV; whereas, CNRtumor-to-muscle increased with lower keV in both arterial and portal venous contrast phases. CTDI and DLP mean values for the arterial upper abdomen phase were 9.03 ± 3.59 and 275 ± 133, respectively. CTDI and DLP mean values for the abdominal portal venous phase were 8.75 ± 2.99 and 448 ± 157 with PCD-CT, respectively. No statistically significant differences were found concerning the inter-reader agreement for any of the (calculated) keV levels in either the arterial or portal-venous contrast phases. Conclusions: The arterial contrast phase imaging provides higher lesion-to-background ratios of HCC lesions using a PCD-CT; especially, at 40 keV. However, the difference was not subjectively perceived as significant.

Published

2023

24. Free-Breathing, Non-Gated Heart-To-Brain CTA in Acute Ischemic Stroke: A Feasibility Study on Dual-Source CT.

Author

Liu, Jiabin, Wang, Chen, Li, Qing, Duan, Xianggong, Zhu, Xiaolian, Wang, Jiahong, Du, Xiangying, Lu, Jie, and Li, Kuncheng

Subjects

ISCHEMIC stroke, STROKE patients, INSTITUTIONAL review boards, CAROTID artery, CORONARY arteries

Abstract

Purpose: To validate the feasibility of free-breathing, non-gated, high-pitch heart-to-brain computed tomography arteriography (CTA) in acute ischemic stroke and the capability of non-gated heart-to-brain CTA in showing cardiac anatomy. Materials and Methods: The study protocol was approved by the institutional medical ethics review board. Free-breathing, non-gated, high-pitch heart-to-brain CTA was performed on patients with acute ischemic stroke referred for multimodal CT using a third-generation dual-source CT. Patients scheduled for ECG-triggered heart-to-brain CTA served as controls. Quantitative and/or qualitative image quality of the four cardiac chambers, left atrial appendage, interventricular and interatrial septa, carotid arteries, and coronary arteries were evaluated and compared between the two groups. Results: Free-breathing, non-gated, high-pitch heart-to-brain CTA was performed on 30 patients with acute ischemic stroke, whereas the control group included 31 cases. There is no significant difference in the image quality of CTAs between the two groups at cardiac chambers and carotid arteries. The image quality of coronary arteries also showed no significant difference between the two groups. The mean dose length products of CTA in the two groups were 129.1 ± 30.5 mGy cm and 121.6 ± 30.3 mGy cm, respectively. Cardiac abnormality can be shown in patients with acute ischemic stroke. Conclusion: It is feasible to use free-breathing, non-gated, high-pitch heart-to-brain CTA with dual-source CT in acute ischemic stroke for cardiac etiology screening. [ABSTRACT FROM AUTHOR]

Published

2022

25. Feasibility of sub-second CT angiography of the abdomen and pelvis with very low volume of contrast media, low tube voltage, and high-pitch technique, on a third-generation dual-source CT scanner.

Author

Sodagari, Faezeh, Wood, Cecil G., Agrawal, Rishi, and Yaghmai, Vahid

Subjects

*CONTRAST media, *CHRONIC kidney failure, *ANGIOGRAPHY, *ILIAC artery, *PELVIS, *ABDOMEN

Abstract

Concerns about potential risks of using contrast media in patients with chronic renal insufficiency limit the utilization of CT angiography in this population. To evaluate the feasibility of abdominopelvic CTA with very low volumes of contrast media. In this retrospective study, 20 patients with chronic renal insufficiency underwent high-pitch abdominopelvic (AP) CTA on a third-generation dual-source CT scanner with 30 mL of nonionic iodinated contrast. The homogeneity of intravascular attenuation at the suprarenal aorta, infrarenal aorta, and the right common iliac artery was measured. Image noise, contrast-to-noise ratio (CNR), and signal-to-noise ratio (SNR) were used to assess objective image quality. Subjective image quality was evaluated on a 5-point scale (1 = unacceptable; 5 = excellent). Twelve male and eight female patients underwent CTA of the abdomen and pelvis at 80 kVp. Five CTAs also included the chest (CAP). The mean scan duration was 0.78 ± 0.19 s for AP and 0.96 ± 0.06 s for CAP CTAs. The mean ± SD of attenuation at suprarenal aorta, infrarenal aorta, and right common iliac artery were 235.1 ± 68.0, 249.2 ± 61.3, and 254.4 ± 67.7 HU, respectively. The attenuation was homogeneous across vascular levels (P = 0.06). All scans had diagnostic subjective image quality with the median (IQR) of 3.5 (1.75). CNR and SNR were homogeneous across vascular levels (P = 0.08 and P = 0.14, respectively). Sub-second, high-pitch abdominopelvic CTA with a low volume of contrast in patients with chronic renal insufficiency is technically and clinically feasible with good diagnostic image quality and homogenous attenuation across vascular levels. • CT angiography (CTA) can be performed with significantly lower volume of intravenous contrast material • Vascular opacification can be maximized using high-pitch, low tube voltage, abdominopelvic CTA • Subsecond CTA was achieved by using dual source CT scanner [ABSTRACT FROM AUTHOR]

Published

2022

26. The ultrafast, high-pitch turbo FLASH mode of third-generation dual-source CT: Effect of different pitch and corresponding SFOV on image quality in a phantom study.

Author

Yang Zhou, Lei Hu, Silin Du, Rui Jin, Wangjia Li, Fajin Lv, and Zhiwei Zhang

Subjects

IMAGING phantoms, CHEST X rays, COMPUTED tomography, SIGNAL-to-noise ratio, ABDOMEN

Abstract

Purpose: To investigate the effect of different pitches and corresponding scan fields of view (SFOVs) on the image quality in the ultrafast, high-pitch turbo FLASH mode of the third-generation dual-source CT using an anthropomorphic phantom. Methods: The phantom was scanned using the ultrafast, high-pitch turbo FLASH protocols of the third-generation dual-source CT with the different pitches and corresponding SFOVs (pitches: 1.55 to 3.2 with increments of 0.1, SFOVs: 50 cm to 35.4 cm). The objective parameters such as the CT number, image noises, signal-to-noise ratio (SNR), contrast-to-noise ratio (CNR), and artifacts index (AI),and image features from the head,chest,and abdomen were compared between the CT images with a pitch of 1.55 and SFOV of Ø 50 cm and a pitch of 3.2 and SFOV of Ø 35.4 cm. Then, the 18 series of CT images of the head, chest, and abdomen were evaluated by three radiologists independently. Results: The differences in the CT numbers were not statically significant between the CT images with a pitch of 1.55 and SFOV of Ø 50 cm and a pitch of 3.2 and SFOV of Ø 35.4 cm from most body parts and potential combinations (p > 0.05),Most of the image noises and the AI from the images with the pitch of 1.55 were significantly lower than those with the pitch of 3.2 (p < 0.05), and the SNR and CNR from the images with the pitch of 1.55 were higher than those with the pitch of 3.2. There were significant differences in the first-order features and texture features of the head (59.3%, 28.3%), chest (66%, 35.7%), and abdomen (71.6%,64.7%) (p < 0.05).The subjective image quality was excellent when the pitch was less than 2.0 and gradually decreased with the increasing pitch. In addition, the image quality decreased significantly when the pitch was higher than 3.0 (all k≥0.69), especially in the head and chest. Conclusions: In the ultrafast, high-pitch turbo FLASH mode of the thirdgeneration DSCT, increasing the pitch and lowering the corresponding SFOV will change the image features and cause more artifacts degrading the image quality. Specific to the clinical needs, decreasing the pitch not only can expand the SFOV but also can improve the image quality. [ABSTRACT FROM AUTHOR]

Published

2021

27. Free-Breathing, Non-Gated Heart-To-Brain CTA in Acute Ischemic Stroke: A Feasibility Study on Dual-Source CT

Author

Jiabin Liu, Chen Wang, Qing Li, Xianggong Duan, Xiaolian Zhu, Jiahong Wang, Xiangying Du, Jie Lu, and Kuncheng Li

Subjects

computed tomography, dual-source CT, CT angiography, stroke, cardiac imaging techniques, Neurology. Diseases of the nervous system, RC346-429

Abstract

PurposeTo validate the feasibility of free-breathing, non-gated, high-pitch heart-to-brain computed tomography arteriography (CTA) in acute ischemic stroke and the capability of non-gated heart-to-brain CTA in showing cardiac anatomy.Materials and MethodsThe study protocol was approved by the institutional medical ethics review board. Free-breathing, non-gated, high-pitch heart-to-brain CTA was performed on patients with acute ischemic stroke referred for multimodal CT using a third-generation dual-source CT. Patients scheduled for ECG-triggered heart-to-brain CTA served as controls. Quantitative and/or qualitative image quality of the four cardiac chambers, left atrial appendage, interventricular and interatrial septa, carotid arteries, and coronary arteries were evaluated and compared between the two groups.ResultsFree-breathing, non-gated, high-pitch heart-to-brain CTA was performed on 30 patients with acute ischemic stroke, whereas the control group included 31 cases. There is no significant difference in the image quality of CTAs between the two groups at cardiac chambers and carotid arteries. The image quality of coronary arteries also showed no significant difference between the two groups. The mean dose length products of CTA in the two groups were 129.1 ± 30.5 mGy cm and 121.6 ± 30.3 mGy cm, respectively. Cardiac abnormality can be shown in patients with acute ischemic stroke.ConclusionIt is feasible to use free-breathing, non-gated, high-pitch heart-to-brain CTA with dual-source CT in acute ischemic stroke for cardiac etiology screening.

Published

2022

28. Hyperemic myocardial blood flow in patients with atrial fibrillation before and after catheter ablation: A dynamic stress CT perfusion study.

Author

Takafuji, Masafumi, Kitagawa, Kakuya, Nakamura, Satoshi, Kokawa, Takanori, Kagawa, Yoshihiko, Fujita, Satoshi, Fukuma, Tomoyuki, Fujii, Eitaro, Dohi, Kaoru, and Sakuma, Hajime

Subjects

*CATHETER ablation, *ATRIAL fibrillation, *BLOOD flow, *CORONARY artery stenosis, *PERFUSION

Abstract

Background: Atrial fibrillation (AF) patients without coronary artery stenosis often show clinical evidence of ischemia. However myocardial perfusion in AF patients has been poorly studied. The purposes of this study were to investigate altered hyperemic myocardial blood flow (MBF) in patients with AF compared with risk‐matched controls in sinus rhythm (SR), and to evaluate hyperemic MBF before and after catheter ablation using dynamic CT perfusion. Methods: Hyperemic MBF was quantified in 87 patients with AF (44 paroxysmal, 43 persistent) scheduled for catheter ablation using dynamic CT perfusion, and compared with hyperemic MBF in 87 risk‐matched controls in SR. Follow‐up CT after ablation was performed in 49 AF patients. Results: Prior to ablation, hyperemic MBF of patients in AF during the CT (1.29 ± 0.34 ml/mg/min) was significantly lower than in patients in SR (1.49 ± 0.26 ml/g/min, p = 0.002) or matched controls (1.65 ± 0.32 ml/g/min, p < 0.001); no significant difference was seen between patients in SR during the CT and matched controls (vs. 1.50 ± 0.31 ml/g/min, p = 0.815). In patients in AF during the pre‐ablation CT (n = 24), hyperemic MBF significantly increased after ablation from 1.30 ± 0.35 to 1.53 ± 0.17 ml/g/min (p = 0.004); whereas in patients in SR during the pre‐ablation CT (n = 25), hyperemic MBF did not change significantly after ablation (from 1.46 ± 0.26 to 1.49 ± 0.27 ml/g/min, p = 0.499). Conclusion: In the current study using stress perfusion CT, hyperemic MBF in patients with AF during pre‐ablation CT was significantly lower than that in risk‐matched controls, and improved significantly after restoration of SR by catheter ablation, indicating that MBF abnormalities in AF patients are caused primarily by AF itself. [ABSTRACT FROM AUTHOR]

Published

2021

29. Image Quality of Virtual Monochromatic Reconstructions of Noncontrast CT on a Dual-Source CT Scanner in Adult Patients.

Author

van Ommen, Fasco, Kauw, Frans, Bennink, Edwin, Heit, Jeremy J., Wolman, Dylan N., Dankbaar, Jan Willem, de Jong, Hugo W.A.M., and Wintermark, Max

Abstract

Rationale and Objectives: To evaluate the image quality of virtual monochromatic images (VMI) reconstructed from dual-energy dual-source noncontrast head CT with different reconstruction kernels.Materials and Methods: Twenty-five consecutive adult patients underwent noncontrast dual-energy CT. VMI were retrospectively reconstructed at 5-keV increments from 40 to 140 keV using quantitative and head kernels. CT-number, noise levels (SD), signal-to-noise ratio (SNR), and contrast-to-noise ratio (CNR) in the gray and white matter and artifacts using the posterior fossa artifact index (PFAI) were evaluated.Results: CT-number increased with decreasing VMI energy levels, and SD was lowest at 85 keV. SNR was maximized at 80 keV and 85 keV for the head and quantitative kernels, respectively. CNR was maximum at 40 keV; PFAI was lowest at 90 (head kernel) and 100 (quantitative kernel) keV. Optimal VMI image quality was significantly better than conventional CT.Conclusion: Optimal image quality of VMI energies can improve brain parenchymal image quality compared to conventional CT but are reconstruction kernel dependent and depend on indication for performing noncontrast CT. [ABSTRACT FROM AUTHOR]

Published

2021

30. Hyperemic myocardial blood flow in patients with atrial fibrillation before and after catheter ablation: A dynamic stress CT perfusion study

Author

Masafumi Takafuji, Kakuya Kitagawa, Satoshi Nakamura, Takanori Kokawa, Yoshihiko Kagawa, Satoshi Fujita, Tomoyuki Fukuma, Eitaro Fujii, Kaoru Dohi, and Hajime Sakuma

Subjects

atrial fibrillation, CT delayed enhancement, dual‐source CT, dynamic CT perfusion, myocardial blood flow, Physiology, QP1-981

Abstract

Abstract Background Atrial fibrillation (AF) patients without coronary artery stenosis often show clinical evidence of ischemia. However myocardial perfusion in AF patients has been poorly studied. The purposes of this study were to investigate altered hyperemic myocardial blood flow (MBF) in patients with AF compared with risk‐matched controls in sinus rhythm (SR), and to evaluate hyperemic MBF before and after catheter ablation using dynamic CT perfusion. Methods Hyperemic MBF was quantified in 87 patients with AF (44 paroxysmal, 43 persistent) scheduled for catheter ablation using dynamic CT perfusion, and compared with hyperemic MBF in 87 risk‐matched controls in SR. Follow‐up CT after ablation was performed in 49 AF patients. Results Prior to ablation, hyperemic MBF of patients in AF during the CT (1.29 ± 0.34 ml/mg/min) was significantly lower than in patients in SR (1.49 ± 0.26 ml/g/min, p = 0.002) or matched controls (1.65 ± 0.32 ml/g/min, p

Published

2021

31. Short-Time Changes in Coronary Artery Plaques Assessed by Follow-Up Coronary CT Angiography—Characteristics and Impact on Patient Management

Author

Hanna Maria Görich, Sebastian J. Buss, Mostafa Emami, Sebastian Seitz, Dirk Lossnitzer, Philipp Fortner, Stefan Baumann, Matthias Brado, Friedemann Gückel, Roman Sokiranski, André Sommer, Johannes Görich, and Florian Andre

Subjects

coronary CT angiography, coronary artery plaques, dual-source CT, coronary artery diseae, follow-up examinations, short-time change detection, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background: Coronary artery disease (CAD) shows a chronic but heterogeneous clinical course. Coronary CT angiography (CTA) allows for the visualization of the entire coronary tree and the detection of early stages of CAD. The aim of this study was to assess short-time changes in non-calcified and mixed plaques and their clinical impact using coronary CTA in a real-world setting.Methods: Between 11/2014 and 07/2019, 6,701 patients had a coronary CTA with a third-generation dual-source CT, of whom 77 patients (57 males, 63.8 ± 10.8 years) with a chronic CAD received clinically indicated follow-up CTA. Non-calcified and mixed plaques were analyzed in 1,211 coronary segments. Patients were divided into groups: stable, progressive, or regressive plaques.Results: Within the follow-up period of 22.3 ± 10.4 months, 44 patients (58%) showed stable plaques, 27 (36%) showed progression, 5 (7%) showed regression. One patient was excluded due to an undetermined CAD course showing both, progressive and regressive plaques. Age did not differ significantly between groups. Patients with plaque regression were predominantly female (80 vs. 20%), whereas patients showing progression were mainly male (85 vs. 15%; p < 0.01 for both). Regression was only observed in patients with mild CAD or one-vessel disease. The follow-up CTA led to changes in patient management in the majority of subjects (n = 50; 66%).Conclusions: Changes in coronary artery plaques can be observed within a short period resulting in an adjustment of the clinical management in the majority of CAD patients. Follow-up coronary CTA renders the non-invasive assessment of plaque development possible and allows for an individualized diagnostics and therapy optimization.

Published

2021

32. Chest CT in patients with shortness of breath: Comparing high pitch CT and conventional CT on respiratory artefacts and dose.

Author

Varchetta, F., Cosson, P., Widdowfield, M., Danzi, R., Orlando, G., Natale, M., Laurenza, F., and Scaglione, M.

Abstract

To investigate chest respiratory artefact reduction using High Pitch Dual Source Computed Tomography (HPCT) compared to conventional CT (CCT) in symptomatic patients with shortness of breath. Forty patients were prospectively examined on a second-generation Dual Source scanner. They were randomly divided into two groups: twenty patients underwent an experimental HPCT protocol and twenty control cases CCT protocol. Respiratory artefacts were evaluated using an ordinal score (0, 1 and 2) assigned by two readers with five and thirty years of experience. A qualitative assessment was performed using two categorical groups, group 1 = acceptable and group 2 = unacceptable. Dose Length Product (DLP) was compared. The two groups showed a statistical difference in artefacts reduction (p < 0.0001). HPCT demonstrated no artefacts in 82% of cases, while CCT showed no artefacts in 39% of cases. DLP showed no statistical differences (p = 0.6) with mean = 266.9 for HPCT and mean = 282.65 for CCT. HPCT provides high table speed in the z-direction allowing a high temporal resolution, which reduces respiratory artefacts during free-breathing acquisition. Despite the use of two x-ray tubes, the HPCT did not increase the dose to the patient but provided the highest images quality. In the emergency setting, HPCTs have been critical for achieving good image quality in uncooperative patients. Acute respiratory failure is a common emergency department presentation, and the choice of high-speed acquisition CT may increase image quality. [ABSTRACT FROM AUTHOR]

Published

2021

33. Physics‐based iterative reconstruction for dual‐source and flying focal spot computed tomography.

Author

Wang, Xiao, MacDougall, Robert D., Chen, Peng, Bouman, Charles A., and Warfield, Simon K.

Subjects

*IMAGE reconstruction algorithms, *SPIRAL computed tomography, *COMPUTED tomography, *TRANSFER functions, *TOMOGRAPHY, *ALGORITHMS, *IMAGE reconstruction

Abstract

Purpose: For single‐source helical Computed Tomography (CT), both Filtered‐Back Projection (FBP) and statistical iterative reconstruction have been investigated. However, for dual‐source CT with flying focal spot (DS‐FFS CT), a statistical iterative reconstruction that accurately models the scanner geometry and acquisition physics remains unknown to researchers. Therefore, our purpose is to present a novel physics‐based iterative reconstruction method for DS‐FFS CT and assess its image quality. Methods: Our algorithm uses precise physics models to reconstruct from the native cone‐beam geometry and interleaved dual‐source helical trajectory of a DS‐FFS CT. To do so, we construct a noise physics model to represent data acquisition noise and a prior image model to represent image noise and texture. In addition, we design forward system models to compute the locations of deflected focal spots, the dimension, and sensitivity of voxels and detector units, as well as the length of intersection between x‐rays and voxels. The forward system models further represent the coordinated movement between the dual sources by computing their x‐ray coverage gaps and overlaps at an arbitrary helical pitch. With the above models, we reconstruct images by an advanced Consensus Equilibrium (CE) numerical method to compute the maximum a posteriori estimate to a joint optimization problem that simultaneously fits all models. Results: We compared our reconstruction with Siemens ADMIRE, which is the clinical standard hybrid iterative reconstruction (IR) method for DS‐FFS CT, in terms of spatial resolution, noise profile, and image artifacts through both phantoms and clinical scan datasets. Experiments show that our reconstruction has a higher spatial resolution, with a Task‐Based Modulation Transfer Function (MTFtask) consistently higher than the clinical standard hybrid IR. In addition, our reconstruction shows a reduced magnitude of image undersampling artifacts than the clinical standard. Conclusions: By modeling a precise geometry and avoiding data rebinning or interpolation, our physics‐based reconstruction achieves a higher spatial resolution and fewer image artifacts with smaller magnitude than the clinical standard hybrid IR. [ABSTRACT FROM AUTHOR]

Published

2021

34. Ultra-low-dose chest CT in adult patients with cystic fibrosis using a third-generation dual-source CT scanner.

Author

Tagliati, Corrado, Lanza, Cecilia, Pieroni, Giovanni, Amici, Lucia, Carotti, Marina, Giuseppetti, Gian Marco, and Giovagnoni, Andrea

Abstract

Introduction: Chest computed tomography (CT) examinations are performed routinely in some cystic fibrosis (CF) centers in order to evaluate lung disease progression in CF patients. Continuous CT technological advancement in theory could allows a lower radiation exposure of CF patients during chest CT examinations without an image quality reduction, and this could become increasingly important over time in order to reduce the cumulative radiation dose effects given the continuous increase of CF patients predicted median survival. Objective: The aim of this study was to compare objective and subjective image quality and radiation dose between low-dose chest CT examinations performed in adult CF patients using a third-generation DSCT scanner and a 64-slices single-source CT (SSCT) scanner. Materials and methods: Between January 2016 and August 2019, 81 CF patients underwent low-dose chest CT examinations using both a 64-slices SSCT scanner (2016–2017) and a third-generation DSCT scanner (2018–2019). Objective image noise standard deviation (INSD), signal-to-noise ratio (SNR), contrast-to-noise ratio (CNR), overall subjective image quality (OSIQ), subjective image noise (SIN), subjective evaluation of streaking artifacts (SA), movement artifacts (MA) and edge resolution (ER), dose-length product (DLP), volume computed tomography dose index (CTDIvol) and effective radiation dose (ERD) were compared between DSCT and SSCT examinations. DSCT examinations consisted in spiral inspiratory end expiratory acquisitions. SSCT examinations consisted in spiral inspiratory acquisitions and five axial expiratory ones. Results: DSCT protocol showed statistically significant lower spiral inspiratory phase mean DLP, CTDIvol and ERD than SSCT protocol, with a 25% DLP, CTDIvol and ERD reduction. DSCT protocol showed statistically significant higher overall (inspiratory and expiratory phases) mean DLP, CTDIvol and ERD than SSCT protocol, with a 40% DLP, CTDIvol and ERD increase. Objective image quality (INSD, SNR and CNR) and SIN differences were not statistically significant, but subjective evaluation of DSCT images showed statistically significant better OSIQ and ER, as well as statistically significant lower SA and MA with respect to SSCT images. Conclusions: To our knowledge, this is the first study evaluating chest CT image quality and radiation dose in adult CF patients using a third-generation DSCT scanner, and it showed that technological advancements could be used in order to reduce radiation exposure of volumetric examinations. The spiral inspiratory dose reduction can be obtained with concomitant improvements in subjective image quality with comparable objective quality. This will probably allow a wider use of this imaging modality in order to assess bronchiectasis and will probably foster spiral expiratory acquisition for small airways disease evaluation. [ABSTRACT FROM AUTHOR]

Published

2021

35. Diagnosis and prognostic significance of anomalous origin of coronary artery from the opposite sinus of Valsalva assess by dual-source coronary computed tomography angiography

Author

Narumol Chaosuwannakit and Pattarapong Makarawate

Subjects

Anomalous coronary artery, Coronary CTA, Dual-source CT, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background: Clinically recognized coronary anomalies in adults are infrequent and characteristically establish on autopsy. The clinical importance coronary arteries consist of those with anomalous origin of the coronary artery from the opposite sinus of Valsalva (ACAOS) with an inter-arterial course (IAC). We have endeavored to attribute variable risk based on morphological appearances of the ACAOS by dual-source coronary computed tomography angiography (DSCTA). Material and methods: ACAOS patients who undergoing DSCTA over a 5-year period were identified and assess morphologic characteristics. Medical records were reviewed for major adverse cardiovascular events (MACEs). Results: A total of 1126 patients who undergoing DSCTA were evaluated. Twenty-four patients with ACAOS with IAC were recognized with a prevalence of 2.1% of study population. Twenty patients had anomalous origin of right coronary artery from left sinus of Valsalva (RCA-LSV) and 4 patients had anomalous origin of left coronary from right sinus of Valsalva (LCA-RSV). A significant increased prevalence of MACEs in were observed in intramural, slit-like and high inter-arterial course morphology group. Median follow-up time was 13 months (IQR 3–18 months). During follow-up 2 died, 4 had PCI, 13 had myocardial infarction and 7 had surgical treatment. Conclusions: Intramural, slit-like and high type inter-arterial course morphology of ACAOS with IAC are high risk features for MACEs which can be identified by DSCTA.

Published

2021

36. Diagnostic accuracy of low-dose dual-source cardiac computed tomography as compared to surgery in univentricular heart patients

Author

Narumol Chaosuwannakit and Pattarapong Makarawate

Subjects

Univentricular heart, Single ventricle congenital heart disease, Cardiac CT, Dual-source CT, Surgery, RD1-811, Anesthesiology, RD78.3-87.3

Abstract

Abstract Background To evaluate the ability of low radiation dose dual-source computed tomography (DSCT) to depict the features of morphological univentricular heart and to define accuracy by comparing findings with surgery. Methods Low radiation dose dual-source cardiac computed tomography (CCT) of 33 cases of functional univentricular heart preliminary diagnosis by echocardiography compared with the results of surgery were retrospectively analyzed (aged 1 day to 4 years, median 5 months). The appropriate dose reduction strategies and iterative reconstruction were applied. Results Thirty three univentricular heart patients were classified into three types according to Anderson’s classification method, including 16 cases (48.5%) univentricular of right ventricular type with rudimentary chamber of left ventricle, 11 cases (33.3%) univentricular of left ventricular type with rudimentary chamber of right ventricle and 6 cases (18.2%) univentricular heart of indeterminate type without rudimentary chamber. The extracardiac malformation such as hypoplastic aortic arch, coronary artery fistula, total anomalous pulmonary venous returns or hypoplastic lung were presented frequently. The overall sensitivity and specification of cardiac CT was 100% compared to the results of surgery. The procedural dose-length product was 18 ± 5 mGy-cm, and unadjusted and adjusted radiation doses were 0.25 and 0.64 mSv, respectively. Conclusion Cardiac CT can diagnose accurately and be performed with a low radiation exposure in patients with the functional univentricular heart disease. The aorta, pulmonary artery and lung can be evaluated completely and simultaneously as well. Cardiac CT is an effective advanced non-invasive imaging modality to comprehensive evaluation the functional univentricular heart patients, particularly if cardiac MRI poses a high risk or is contraindicated.

Published

2018

37. Feasibility of extracellular volume fraction calculation using myocardial CT delayed enhancement with low contrast media administration.

Author

Takafuji, Masafumi, Kitagawa, Kakuya, Nakamura, Satoshi, Hamdy, Ahmed, Goto, Yoshitaka, Ishida, Masaki, and Sakuma, Hajime

Abstract

Myocardial extracellular volume fraction (ECV) derived from CT delayed enhancement (CTDE) may allow assessment of diffuse myocardial fibrosis. However, the amount of contrast medium required for ECV estimation has not been established. Since ECV estimation by CT is typically performed in combination with coronary CT angiography (CCTA) in clinical settings, we aimed to investigate whether reliable ECV estimation is possible using the contrast dose optimized for CCTA without additional contrast administration. Twenty patients with known or suspected coronary artery disease who underwent CTDE with a dual-source scanner using two protocols (Protocols A and B) within 2 years were retrospectively enrolled. In Protocol A, CTDE was obtained with 0.84 ml/kg of iopamidol (370 mgI/ml) injected for CCTA. In Protocol B, stress CT perfusion imaging, which requires 40 ml of contrast medium, was added to Protocol A. ECV values calculated from the two protocols were compared. Despite the different contrast doses, no significant difference in mean myocardial ECV was seen between Protocols A and B at the patient level (28.7 ± 4.3% vs. 28.7 ± 4.4%, respectively, P = 0.868). Excellent correlations in ECV were seen between the two protocols (r = 0.942, P < 0.001). Bland-Altman analysis showed slight bias (+0.06%), within a 95% limit of agreement of −2.9% and 3.0%. The coefficient of variation was 5.2%. Reliable ECV estimation can be achieved with the contrast doses optimized for CCTA. Despite the differing contrast administration schemes and doses, ECV values calculated from the two protocols showed excellent agreement, indicating the robustness of ECV estimation by CT. [ABSTRACT FROM AUTHOR]

Published

2020

38. The sub-millisievert era in CTCA: the technical basis of the new radiation dose approach.

Author

Schicchi, Nicolò, Fogante, Marco, Palumbo, Pierpaolo, Agliata, Giacomo, Esposto Pirani, Paolo, Di Cesare, Ernesto, and Giovagnoni, Andrea

Abstract

Computed tomography coronary angiography (CTCA) has become a cornerstone in the diagnostic process of the heart disease. Although the cardiac imaging with interventional procedures is responsible for approximately 40% of the cumulative effective dose in medical imaging, a relevant radiation dose reduction over the last decade was obtained, with the beginning of the sub-mSv era in CTCA. The main technical basis to obtain a radiation dose reduction in CTCA is the use of a low tube voltage, the adoption of a prospective electrocardiogram-triggering spiral protocol and the application of the tube current modulation with the iterative reconstruction technique. Nevertheless, CTCA examinations are characterized by a wide range of radiation doses between different radiology departments. Moreover, the dose exposure in CTCA is extremely important because the benefit–risk calculus in comparison with other modalities also depends on it. Finally, because anatomical evaluation not adequately predicts the hemodynamic relevance of coronary stenosis, a low radiation dose in routine CTCA would allow the greatest use of the myocardial CT perfusion, fractional flow reserve-CT, dual-energy CT and artificial intelligence, to shift focus from morphological assessment to a comprehensive morphological and functional evaluation of the stenosis. Therefore, the aim of this work is to summarize the correct use of the technical basis in order that CTCA becomes an established examination for assessment of the coronary artery disease with low radiation dose. [ABSTRACT FROM AUTHOR]

Published

2020

39. Deep learning based spectral extrapolation for dual‐source, dual‐energy x‐ray computed tomography.

Author

Clark, Darin P., Schwartz, Fides R., Marin, Daniele, Ramirez‐Giraldo, Juan C., and Badea, Cristian T.

Subjects

*DUAL energy CT (Tomography), *CONVOLUTIONAL neural networks, *COMPUTED tomography, *EXTRAPOLATION, *IMAGE reconstruction algorithms, *SPECTRAL imaging, *ACADEMIC medical centers, *DEEP learning

Abstract

Purpose: Data completion is commonly employed in dual‐source, dual‐energy computed tomography (CT) when physical or hardware constraints limit the field of view (FoV) covered by one of two imaging chains. Practically, dual‐energy data completion is accomplished by estimating missing projection data based on the imaging chain with the full FoV and then by appropriately truncating the analytical reconstruction of the data with the smaller FoV. While this approach works well in many clinical applications, there are applications which would benefit from spectral contrast estimates over the larger FoV (spectral extrapolation)—e.g. model‐based iterative reconstruction, contrast‐enhanced abdominal imaging of large patients, interior tomography, and combined temporal and spectral imaging. Methods: To document the fidelity of spectral extrapolation and to prototype a deep learning algorithm to perform it, we assembled a data set of 50 dual‐source, dual‐energy abdominal x‐ray CT scans (acquired at Duke University Medical Center with 5 Siemens Flash scanners; chain A: 50 cm FoV, 100 kV; chain B: 33 cm FoV, 140 kV + Sn; helical pitch: 0.8). Data sets were reconstructed using ReconCT (v14.1, Siemens Healthineers): 768 × 768 pixels per slice, 50 cm FoV, 0.75 mm slice thickness, "Dual‐Energy ‐ WFBP" reconstruction mode with dual‐source data completion. A hybrid architecture consisting of a learned piecewise linear transfer function (PLTF) and a convolutional neural network (CNN) was trained using 40 scans (five scans reserved for validation, five for testing). The PLTF learned to map chain A spectral contrast to chain B spectral contrast voxel‐wise, performing an image domain analog of dual‐source data completion with approximate spectral reweighting. The CNN with its U‐net structure then learned to improve the accuracy of chain B contrast estimates by copying chain A structural information, by encoding prior chain A, chain B contrast relationships, and by generalizing feature‐contrast associations. Training was supervised, using data from within the 33‐cm chain B FoV to optimize and assess network performance. Results: Extrapolation performance on the testing data confirmed our network's robustness and ability to generalize to unseen data from different patients, yielding maximum extrapolation errors of 26 HU following the PLTF and 7.5 HU following the CNN (averaged per target organ). Degradation of network performance when applied to a geometrically simple phantom confirmed our method's reliance on feature‐contrast relationships in correctly inferring spectral contrast. Integrating our image domain spectral extrapolation network into a standard dual‐source, dual‐energy processing pipeline for Siemens Flash scanner data yielded spectral CT data with adequate fidelity for the generation of both 50 keV monochromatic images and material decomposition images over a 30‐cm FoV for chain B when only 20 cm of chain B data were available for spectral extrapolation. Conclusions: Even with a moderate amount of training data, deep learning methods are capable of robustly inferring spectral contrast from feature‐contrast relationships in spectral CT data, leading to spectral extrapolation performance well beyond what may be expected at face value. Future work reconciling spectral extrapolation results with original projection data is expected to further improve results in outlying and pathological cases. [ABSTRACT FROM AUTHOR]

Published

2020

40. Comparison of image quality and focal lesion detection in abdominopelvic CT: Potential dose reduction using advanced modelled iterative reconstruction.

Author

Choi, Seung Joon, Park, So Hyun, Shim, Young Sup, Hwang, Jung Han, Park, Suyoung, Pak, Seong Yong, You, Myung-Won, and Park, Seong Ho

Subjects

*REDUCTION potential, *ENDORECTAL ultrasonography, *ORGANS (Anatomy), *RADIATION doses, *EXPOSURE dose, *RADIATION exposure, *LYMPH nodes, *RECTUM

Abstract

To evaluate radiation dose exposure, diagnostic performance, and image quality of low-dose and ultralow-dose abdominopelvic CT using the advanced modelled iterative reconstruction (ADMIRE) algorithm for focal lesion detection. One hundred thirty-nine consecutive patients underwent contrast-enhanced abdominopelvic CT using a third-generation dual-source scanner to obtain three data sets with the following tube loads: 33.3% (ultralow-dose CT), 66.7% (low-dose CT), and 100% (standard-dose CT). The diagnostic performances of standard-dose CT, low-dose CT, and ultralow-dose CT for focal lesion detection and characterization in organs of the abdominopelvic cavity were analyzed by two readers and compared with the reference standard. Image quality was measured subjectively and objectively. Focal lesion detection showed 96.5–100% sensitivity and 97.7–100% accuracy in all representative organs on low-dose CT with acceptable image quality; it showed 87.4% sensitivity and 97.9% accuracy in the liver and 80.0% sensitivity and 88.2% accuracy in the rectal shelf on ultralow-dose CT with suboptimal image quality. Indeterminate lesions were significantly more common in the liver, pancreas, and kidneys on ultralow-dose CT than on low-dose CT. Enlarged lymph nodes showed 100% sensitivity and accuracy on ultralow-dose CT. Mean effective radiation doses of low-dose CT and ultralow-dose CT were 2.6 mSv and 1.3 mSv, respectively. The diagnostic performance of low-dose CT is similar to that of standard-dose abdominopelvic CT with acceptable image quality. Ultralow-dose CT cannot safely assess focal liver, pancreas, kidneys, and rectal shelf lesions but may be useful for the evaluation of enlarged lymph nodes. • Low-dose abdominopelvic CT using ADMIRE provided acceptable diagnostic performance for focal lesion detection. • Low-dose CT showed slightly lower subjective and objective image qualities relative to those of standard-dose CT. • Ultralow-dose CT cannot safely assess focal liver, pancreas, kidneys, and rectal shelf lesions. [ABSTRACT FROM AUTHOR]

Published

2020

41. Proposal of a low-dose, long-pitch, dual-source chest CT protocol on third-generation dual-source CT using a tin filter for spectral shaping at 100 kVp for CoronaVirus Disease 2019 (COVID-19) patients: a feasibility study.

Author

Agostini, Andrea, Floridi, Chiara, Borgheresi, Alessandra, Badaloni, Myriam, Esposto Pirani, Paolo, Terilli, Filippo, Ottaviani, Letizia, and Giovagnoni, Andrea

Abstract

Aim: To subjectively and objectively evaluate the feasibility and diagnostic reliability of a low-dose, long-pitch dual-source chest CT protocol on third-generation dual-source CT (DSCT) with spectral shaping at 100Sn kVp for COVID-19 patients. Materials and methods: Patients with COVID-19 and positive swab-test undergoing to a chest CT on third-generation DSCT were included. The imaging protocol included a dual-energy acquisition (HD-DECT, 90/150Sn kVp) and fast, low-dose, long-pitch CT, dual-source scan at 100Sn kVp (LDCT). Subjective (Likert Scales) and objective (signal-to-noise and contrast-to-noise ratios, SNR and CNR) analyses were performed; radiation dose and acquisition times were recorded. Nonparametric tests were used. Results: The median radiation dose was lower for LDCT than HD-DECT (Effective dose, ED: 0.28 mSv vs. 3.28 mSv, p = 0.016). LDCT had median acquisition time of 0.62 s (vs 2.02 s, p = 0.016). SNR and CNR were significantly different in several thoracic structures between HD-DECT and LDCT, with exception of lung parenchyma. Qualitative analysis demonstrated significant reduction in motion artifacts (p = 0.031) with comparable diagnostic reliability between HD-DECT and LDCT. Conclusions: Ultra-low-dose, dual-source, fast CT protocol provides highly diagnostic images for COVID-19 with potential for reduction in dose and motion artifacts. [ABSTRACT FROM AUTHOR]

Published

2020

42. In vivo radiation dosimetry and image quality of turbo-flash and retrospective dual-source CT coronary angiography.

Author

Schicchi, Nicolò, Mari, Alberto, Fogante, Marco, Esposto Pirani, Paolo, Agliata, Giacomo, Tosi, Niccolò, Palumbo, Pierpaolo, Cannizzaro, Ester, Bruno, Federico, Splendiani, Alessandra, Di Cesare, Ernesto, Maggi, Stefania, and Giovagnoni, Andrea

Abstract

Purpose: To compare measured radiation dose (MD), estimated radiation dose (ED) and image quality in coronary computed tomography between turbo-flash (TFP) and retrospective protocol (RP) and correlate MD with size-specific dose estimates (SSDE). Materials and methods: In this prospective study, we selected 68 patients (mean age, 59.2 ± 9.7 years) undergoing 192 × 2 dual-source CT (SOMATOM Force, Siemens) to rule out coronary artery disease. Thirty-one underwent TFP and 37 RP. To evaluate in vivo MD, thermoluminescent dosimeters were placed, superficially, at thyroid and heart level, left breast areola and left hemi-thorax. MD in each site, and ED parameters, such as volume CT dose index (CTDIvol), SSDE, dose length product (DLP), effective dose (E), were compared between two protocols with a t test. Image quality was compared between two protocols. Inter-observer agreement was evaluated with a kappa coefficient (k). In each protocol, MD was correlated with SSDE using a Pearson coefficient (r). Results: Comparing TFP and RP, MD at thyroid (1.43 vs. 2.58 mGy; p = 0.0408), heart (3.58 vs. 28.72 mGy; p < 0.0001), left breast areola (3.00 vs. 24.21 mGy; p < 0.0001) and left hemi-thorax (2.68 vs. 24.03 mGy; p < 0.0001), CTDIvol, SSDE, DLP and E were significantly lower. Differences in image quality were not statistically significant. Inter-observer agreement was good (k = 0.796) in TFP and very good (k = 0.817) in RP. MD and SSDE excellently correlated with TFP (r = 0.9298, p < 0.0001) and RP (r = 0.9753, p < 0.0001). Conclusions: With TFP, MD, CTDIvol, SSDE, DLP and E were significantly lower, than with RP. Image quality was similar between two protocols. MD correlated excellently with SSDE in each protocol. [ABSTRACT FROM AUTHOR]

Published

2020

43. Third-generation dual-source dual-energy CT in pediatric congenital heart disease patients: state-of-the-art.

Author

Schicchi, Nicolò, Fogante, Marco, Esposto Pirani, Paolo, Agliata, Giacomo, Basile, Maria Chiara, Oliva, Matteo, Agostini, Andrea, and Giovagnoni, Andrea

Abstract

Cardiovascular computer tomography (CT) in pediatric congenital heart disease (CHD) patients is often challenging. This might be due to limited patient cooperation, the high heart rate, the complexity and variety of diseases and the need for radiation dose minimization. The recent developments in CT technology with the introduction of the third-generation dual-source (DS) dual-energy (DE) CT scanners well suited to respond to these challenges. DSCT is characterized by high-pitch, long anatomic coverage and a more flexible electrocardiogram-synchronized scan. DE provides additional clinical information about vascular structures, myocardial and lung perfusion and allows artifacts reduction. These advances have increased clinical indications and modified CT protocol for pediatric CHD patients. In our hospital, DSCT with DE technology has rapidly become an important imaging technique for both pre- and postoperative management of pediatric patients with CHDs. The aim of this article is to describe the state-of-the-art in DSCT protocol with DE technology in pediatric CHD patients, providing some case examples of our experience over an 18-month period. [ABSTRACT FROM AUTHOR]

Published

2019

44. Dual-Energy CT and Its Applications in the Abdomen

Author

Moreno, Courtney Coursey and Elsayes, Khaled M., editor

Published

2015

45. Editorial: Rising stars in neuroradiology: 2022.

Author

Booth TC

Abstract

Competing Interests: The author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2024

46. Feasibility of multi‐contrast imaging on dual‐source photon counting detector (PCD) CT: An initial phantom study.

Author

Tao, Shengzhen, Rajendran, Kishore, McCollough, Cynthia H., and Leng, Shuai

Subjects

*PHOTON detectors, *PHOTON counting, *GADOLINIUM, *THRESHOLD energy, *POWER spectra, *SCANNING systems

Abstract

Purpose: Photon‐counting‐detector‐computed tomography (PCD‐CT) allows separation of multiple, simultaneously imaged contrast agents, such as iodine (I), gadolinium (Gd), and bismuth (Bi). However, PCDs suffer from several technical limitations such as charge sharing, K‐edge escape, and pulse pile‐up, which compromise spectral separation of multi‐energy data and degrade multi‐contrast imaging performance. The purpose of this work was to determine the performance of a dual‐source (DS) PCD‐CT relative to a single‐source (SS) PCD‐CT for the separation of simultaneously imaged I, Gd, and Bi contrast agents. Methods: Phantom experiments were performed using a research whole‐body PCD‐CT and head/abdomen‐sized phantoms containing vials of different I, Gd, Bi concentrations. To emulate a DS‐PCD‐CT, the phantoms were scanned twice on the SS‐PCD‐CT using different tube potentials for each scan. A tube potential of 80 kV (energy thresholds = 25/50 keV) was used for low‐energy tube, while the high‐energy tube used Sn140 kV (Sn indicates tin filter) and thresholds of 25/90 keV. The same phantoms were scanned also on the SS‐PCD‐CT using the chess acquisition mode. In chess mode, the 4 × 4 subpixels within a macro detector pixel are split into two sets based on a chess‐board pattern. With each subpixel set having two energy thresholds, chess mode allows four energy‐bin data sets, which permits simultaneous multi‐contrast imaging. Because of this design, only 50% area of each detector pixel is configured to receive photons of a pre‐defined threshold, leading to 50% dose utilization efficiency. To compensate for this dose inefficiency, the radiation dose for this scan was doubled compared to DS‐PCD‐CT. A 140 kV tube potential and thresholds = 25/50/75/90 keV were used. These settings were determined based on the K‐edges of Gd, and Bi, and were found to yield good differentiation of I/Gd/Bi based on phantom experiments and other literature. The energy‐bin images obtained from each scan (scan pair) were used to generate I‐, Gd‐, Bi‐specific image via material decomposition. Root‐mean‐square‐error (RMSE) between the known and measured concentrations was calculated for each scenario. A 20‐cm water cylinder phantom was scanned on both systems, which was used for evaluating the magnitude of noise, and noise power spectra (NPS) of I/Gd/Bi‐specific images. Results: Phantom results showed that DS‐PCD‐CT reduced noise in material‐specific images for both head and body phantoms compared to SS‐PCD‐CT. The noise level of SS‐PCD was reduced from 2.55 to 0.90 mg/mL (I), 1.97 to 0.78 mg/mL (Gd), and 0.85 to 0.74 mg/mL (Bi) using DS‐PCD. NPS analysis showed that the noise texture of images acquired on both systems is similar. For the body phantom, the RMSE for SS‐PCD‐CT was reduced relative to DS‐PCD‐CT from 10.52 to 2.76 mg/mL (I), 7.90 to 2.01 mg/mL (Gd), and 1.91 to 1.16 mg/mL (Bi). A similar trend was observed for the head phantom: RMSE reduced from 2.59 (SS‐PCD) to 0.72 (DS‐PCD) mg/mL (I), 2.02 to 0.58 mg/mL (Gd), and 0.85 to 0.57 mg/mL (Bi). Conclusion: We demonstrate the feasibility of performing simultaneous imaging of I, Gd, and Bi materials on DS‐PCD‐CT. Under the condition without cross scattering, DS‐PCD reduced the RMSE for quantification of material concentration in relative to a SS‐PCD‐CT system using chess mode. [ABSTRACT FROM AUTHOR]

Published

2019

47. Image Quality Performance of Virtual Single-Source CT Using Dual-Source Computed Tomography.

Author

Alikhani, Babak, Werner, Martin, Jamali, Leila, Wacker, Frank, and Werncke, Thomas

Abstract

Rationale and Objectives: The aim of this study is to analyze the image quality provided by a dual-source (DS) data set and a single-source (SS) data set at the same radiation exposure, in order to evaluate a dose splitting method for dual-source scanning protocols.Materials and Methods: A 192-slice dual-source third generation CT (Somatom Force; Siemens Healthcare, Forchheim, Germany) was used to image a Catphan phantom (Catphan503; The Phantom Laboratory, Salem, New York) utilizing different X-ray tube voltages from 70 to 120 kVp with an organ-based tube-current modulation technique (X-CARE; Siemens Healthcare, Forchheim, Germany). In order to keep the radiation dose (given by volume computed tomography dose index) in a clinically relevant range, different X-ray tube time-current products ranging from 80 to 300 mAs were selected. The data sets by each X-ray tube voltage were collected using a single-source as well as a dual-source mode. The measurements in the dual-source mode were performed with five different tube currents of the X-ray tube A and B. Thereby, the tube current ratios were 50%|50% (DS 0.5), 60%|40% (DS 0.6), 70%|30% (DS 0.7), 80%|20% (DS 0.8), and 90%|10% (DS 0.9). The images were reconstructed by the use of a filter-back projection (Br40) and an advanced mode led iterative reconstruction algorithms (advanced modeled iterative reconstruction algorithms [ADMIRE]; Siemens Healthcare, Forchheim, Germany) with a strength range of 1-5. The image quality was evaluated in terms of noise, contrast-to-noise ratio (CNR), low-contrast detectability expressed as the structural similarity index (SSIM) and spatial resolution quantified by the full width at half maximum of the line-spread function.Results: Image noise decreased by the use of the dual-source mode, which led to improvement of their CNR compared to the single-source mode. SSIM showed an almost constant behavior by both modes. The spatial resolution indicated a lower trend by the dual-source mode in comparison to the single-source mode. However, the loss of the spatial resolution performance was lower than 5% for the dual-source modes.Conclusion: The presented phantom study demonstrated that SSIM and spatial resolution performance obtained by dual-source CT protocols showed a negligible variation to those by the single-source CT. However, the noise and CNR displayed an improvement for the dual-source CT. Therefore, the use of the dual-source CT enables to split the radiation dose between X-ray tubes and to compare the data sets with different radiation dose levels without loss in the image quality. [ABSTRACT FROM AUTHOR]

Published

2019

48. Trends in radiation dose and image quality for pediatric patients with a multidetector CT and a third-generation dual-source dual-energy CT.

Author

Agostini, Andrea, Mari, Alberto, Lanza, Cecilia, Schicchi, Nicolo', Borgheresi, Alessandra, Maggi, Stefania, and Giovagnoni, Andrea

Abstract

Aim: To provide an overview on dose reduction and image quality after the installation of a third-generation dual-source CT (dsCT) in a Pediatric Radiology Department. Materials and methods: We included pediatric patients (< 20 years old) undergoing CT for oncological staging (neck, chest and abdomen) or low-dose chest CT for lung diseases. Each of these two groups were further divided in two age groups (≤ or > 10 years old) including patients scanned in the same period of two consecutive years, in 2017 with a 16-row LightSpeed CT (GE Healthcare) or in 2018 with a Somatom Force dsCT (Siemens Healthineers). Technical parameters such as kVp, mAs, slice thickness, exposure times and dose indicators were retrieved and compared. Image quality was evaluated in consensus by two radiologists on a five-point semiquantitative scale. Nonparametric tests were used. Results: In oncological patients, significantly lower kVp and tube current with better image quality were achieved with the dsCT. Radiation dose (total DLP) was 5–6 times lower with dsCT, thanks also to virtual non-contrast images. In low-dose chest CT, the frequent use of tin filter required higher tube current; a total DLP 3 times lower was achieved with dsCT in patients ≤ 10 years old. The image quality was better with the dsCT in low-dose chest CT protocols. Conclusion: The third-generation dsCT provides high-quality images with reduced motion artifacts at lower dose. [ABSTRACT FROM AUTHOR]

Published

2019

49. Evaluation of the proximal coronary arteries in suspected pulmonary embolism: diagnostic images in 51% of patients using non-gated, dual-source CT pulmonary angiography.

Author

Thomas, David M., McLaughlin, Patrick D., Nugent, James P., Barrett, Sarah A., Mayo, John R., Bilawich, Ana-Maria, Wong, Graham C., and Nicolaou, Savvas

Subjects

*CORONARY arteries, *PULMONARY embolism, *PULMONARY artery, *SIGNAL-to-noise ratio, *DIAGNOSTIC imaging

Abstract

Purpose: This retrospective study reports the frequency and severity of coronary artery motion on dual-source high-pitch (DSHP), conventional pitch single-source (SS), and dual-source dual-energy (DE) CT pulmonary angiography (CTPA) studies.Methods: Two hundred eighty-eight consecutive patients underwent CTPA scans for suspected pulmonary embolism between September 1, 2013 and January 31, 2014. One hundred ninety-four at DSHP scans, 57 SS scans, and 37 DE scans were analyzed. Coronary arteries were separated into nine segments, and coronary artery motion was qualitatively scored using a scale from 1 to 4 (non-interpretable to diagnostic with no motion artifacts). Signal intensity, noise, and signal to noise ratio (SNR) of the aorta, main pulmonary artery, and paraspinal muscles were also assessed.Results: DSHP CTPA images had significantly less coronary artery motion, with 30.1% of coronary segments being fully evaluable compared to 4.2% of SS segments and 7.9% of DE segments (p < 0.05 for all comparisons). When imaging with DSHP, the proximal coronary arteries were more frequently evaluable than distal coronary arteries (51% versus 11.3%, p < 0.001). Without ECG synchronization and heart rate control, the distal left anterior descending coronary artery and mid right coronary artery remain infrequently interpretable (7% and 9%, respectively) on DSHP images.Conclusions: DSHP CTPA decreases coronary artery motion artifacts and allows for full evaluation of the proximal coronary arteries in 51% of cases. The study highlights the increasing importance of proximal coronary artery review when interpreting CTPA for acute chest pain. [ABSTRACT FROM AUTHOR]

Published

2019

50. 双源CT70与120kV不同CAREDose4D预设值下图像质量的对比研究.

Author

赵海波, 罗焕江, 廖明壮, 龙腾河, and 冯庆

Abstract

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Published

2019