AIM To evaluate the feasibility of reducing the dose of iodinated contrast agent in computed tomography pulmonary angiography(CTPA). METHODS One hundred and twenty-seven patients clinically suspected of having pulmona...AIM To evaluate the feasibility of reducing the dose of iodinated contrast agent in computed tomography pulmonary angiography(CTPA). METHODS One hundred and twenty-seven patients clinically suspected of having pulmonary embolism underwent spiral CTPA, out of whom fifty-seven received 75 mL and the remaining seventy a lower dose of 60 mL of contrast agent. Both doses were administered in a multiphasic injection. A minimum opacification threshold of 250 Hounsfield units(HU) in the main pulmonary artery is used for assessing the technical adequacy of the scans. RESULTS Mean opacification was found to be positively correlated to patient age(Pearson's correlation 0.4255, P < 0.0001) and independent of gender(male:female, 425.6 vs 450.4,P = 0.34). When age is accounted for, the study and control groups did not differ significantly in their mean opacification in the main(436.8 vs 437.9, P = 0.48),left(416.6 vs 419.8, P = 0.45) or the right pulmonary arteries(417.3 vs 423.5, P = 0.40). The number of sub-optimally opacified scans(the mean opacification in the main pulmonary artery < 250 HU) did not differ significantly between the study and control groups(7 vs 10).CONCLUSION A lower dose of iodine contrast at 60 mL can be feasibly used in CTPA without resulting in a higher number of sub-optimally opacified scans.展开更多
Background:Contrast dose and radiation dose reduction in computerized tomography (CT) scan for adult has been explored successfully,but there have been few studies on the application of low-concentration contrast i...Background:Contrast dose and radiation dose reduction in computerized tomography (CT) scan for adult has been explored successfully,but there have been few studies on the application of low-concentration contrast in pediatric abdominal CT examinations.This was a feasibility study on the use of dual-energy spectral imaging and adaptive statistical iterative reconstruction (ASiR) for the reduction of radiation dose and iodine contrast dose in pediatric abdominal CT patients with solid tumors.Methods:Forty-five patients with solid tumors who had initial CT (Group B) and follow-up CT (Group A) after chemotherapy were enrolled.The initial diagnostic CT scan (Group B) was performed using the standard two-phase enhanced CT with 320 mgI/ml concentration contrast,and the follow-up scan (Group A) was performed using a single-phase enhanced CT at 45 s after the beginning of the 270 mgI/ml contrast injection using spectral mode.Forty percent ASiR was used for the images in Group B and monochromatic images with energy levels ≥60 keV in Group A.In addition,filtered back-projection (FBP) reconstruction was used for monochromatic images 〈60 keV in Group A.The total radiation dose,total iodine load,contrast injection speed,and maximum injection pressure were compared between the two groups.The 40 keV and 60 keV spectral CT images of Group A were compared with the images of Group B to evaluate overall image quality.Results:The total radiation dose,total iodine load,injection speed,and maximum injection pressure for Group A were decreased by 19%,15%,34.4%,and 18.3%,respectively.The optimal energy level in spectral CT for displaying the abdominal vessels was 40 keV.At this level,the CT values in the abdominal aorta and its three branches,the portal vein and its two branches,and the inferior vena cava were all greater than 340 hounsfield unit (HU).The abdominal organs of Groups A and B had similar degrees of absolute and relative enhancement (t =0.36 and-1.716 for liver,0.153 and-1.546 for pancreas,and 2.427 and 0.866 for renal cortex,all P 〉 0.05).Signal-to-noise ratio of the abdominal organs was significantly lower in Group A than in Group B (t =-8.11 for liver,-7.83 for pancreas,and-5.38 for renal cortex,all P 〈 0.05).However,the subjective scores for the 40 keV (FBP) and 60 keV (40% ASiR) spectral CT images determined by two radiologists were all 〉3,indicating clinically acceptable image quality.Conclusions:Single-phase,dual-energy spectral CT used for children with solid abdominal tumors can reduce contrast dose and radiation dose and can also maintain clinically acceptable image quality.展开更多
文摘AIM To evaluate the feasibility of reducing the dose of iodinated contrast agent in computed tomography pulmonary angiography(CTPA). METHODS One hundred and twenty-seven patients clinically suspected of having pulmonary embolism underwent spiral CTPA, out of whom fifty-seven received 75 mL and the remaining seventy a lower dose of 60 mL of contrast agent. Both doses were administered in a multiphasic injection. A minimum opacification threshold of 250 Hounsfield units(HU) in the main pulmonary artery is used for assessing the technical adequacy of the scans. RESULTS Mean opacification was found to be positively correlated to patient age(Pearson's correlation 0.4255, P < 0.0001) and independent of gender(male:female, 425.6 vs 450.4,P = 0.34). When age is accounted for, the study and control groups did not differ significantly in their mean opacification in the main(436.8 vs 437.9, P = 0.48),left(416.6 vs 419.8, P = 0.45) or the right pulmonary arteries(417.3 vs 423.5, P = 0.40). The number of sub-optimally opacified scans(the mean opacification in the main pulmonary artery < 250 HU) did not differ significantly between the study and control groups(7 vs 10).CONCLUSION A lower dose of iodine contrast at 60 mL can be feasibly used in CTPA without resulting in a higher number of sub-optimally opacified scans.
文摘Background:Contrast dose and radiation dose reduction in computerized tomography (CT) scan for adult has been explored successfully,but there have been few studies on the application of low-concentration contrast in pediatric abdominal CT examinations.This was a feasibility study on the use of dual-energy spectral imaging and adaptive statistical iterative reconstruction (ASiR) for the reduction of radiation dose and iodine contrast dose in pediatric abdominal CT patients with solid tumors.Methods:Forty-five patients with solid tumors who had initial CT (Group B) and follow-up CT (Group A) after chemotherapy were enrolled.The initial diagnostic CT scan (Group B) was performed using the standard two-phase enhanced CT with 320 mgI/ml concentration contrast,and the follow-up scan (Group A) was performed using a single-phase enhanced CT at 45 s after the beginning of the 270 mgI/ml contrast injection using spectral mode.Forty percent ASiR was used for the images in Group B and monochromatic images with energy levels ≥60 keV in Group A.In addition,filtered back-projection (FBP) reconstruction was used for monochromatic images 〈60 keV in Group A.The total radiation dose,total iodine load,contrast injection speed,and maximum injection pressure were compared between the two groups.The 40 keV and 60 keV spectral CT images of Group A were compared with the images of Group B to evaluate overall image quality.Results:The total radiation dose,total iodine load,injection speed,and maximum injection pressure for Group A were decreased by 19%,15%,34.4%,and 18.3%,respectively.The optimal energy level in spectral CT for displaying the abdominal vessels was 40 keV.At this level,the CT values in the abdominal aorta and its three branches,the portal vein and its two branches,and the inferior vena cava were all greater than 340 hounsfield unit (HU).The abdominal organs of Groups A and B had similar degrees of absolute and relative enhancement (t =0.36 and-1.716 for liver,0.153 and-1.546 for pancreas,and 2.427 and 0.866 for renal cortex,all P 〉 0.05).Signal-to-noise ratio of the abdominal organs was significantly lower in Group A than in Group B (t =-8.11 for liver,-7.83 for pancreas,and-5.38 for renal cortex,all P 〈 0.05).However,the subjective scores for the 40 keV (FBP) and 60 keV (40% ASiR) spectral CT images determined by two radiologists were all 〉3,indicating clinically acceptable image quality.Conclusions:Single-phase,dual-energy spectral CT used for children with solid abdominal tumors can reduce contrast dose and radiation dose and can also maintain clinically acceptable image quality.
