Monoenergetic imaging of dual energy CT in the evaluation of metal fixation of factures
10.3760/cma.j.issn.1005-1201.2011.02.007
- VernacularTitle:双源CT单能谱成像技术在骨折金属固定术后的应用
- Author:
Changsheng ZHOU
;
Ling ZHENG
;
Longjiang ZHANG
;
Song LUO
;
Yane ZHAO
;
Xin CHEN
;
Guangming LU
- Publication Type:Journal Article
- Keywords:
Tomography,X-ray computed;
Fracture;
Internal fixators;
External fixators
- From:
Chinese Journal of Radiology
2011;45(2):124-127
- CountryChina
- Language:Chinese
-
Abstract:
Objective To evaluate monoenergetic imaging of dual energy CT in the visualization of metal fixation of factures. Methods In total, 29 patients with factures underwent 36 metal fixations,including 11 external fixations implanting in tibiofibula (n = 11 ) and 25 internal fixations (cervical spine,n=10; lumbar spine, n=4; tibiofibula, n=8; radial bone, n=3). They were recruited into this study.After dual energy CT scan, monoenergetic software was used to post-process with the following 6 photon energies: 40, 70, 100, 130, 160, 190 keV. Two radiologists evaluated and rated the reformatted images with 6 different photon energies and average weighted 120 kV images according to the following 4-score scale. Score 1: nonassessable, with marked artifact; score 2: assessable, moderate artifact; score 3: good,mild artifact, good visualization of bony structures; score 4: excellent, no artifact. Kruskal-Wallis was used to perform statistical analysis of image quality for total fixations, external and internal fixations with various selective kev settings and average weighted 120 kV. Results For total fixations, monoenergetic imaging of dual energy CT has 25 fixations with score 3 and 4, but 120 kV has only 4 fixations with score 3 and 4.Monoenergetic imaging of dual energy CT improved image quality of fractures with metal fixation compared to average weighted 120 kV images ( F = 116. 487, P <0. 01 ). Images of 130 kev had the best image quality for external metal fixation (9 fixations with score 3 and 4, F = 60. 902, P < 0. 01), while 70 kev was best for internal metal fixation ( F = 122. 149, P < 0. 01). Conclusions Monoenergetic imaging of dual energy CT improves image quality of fractures with metal fixation. Reformatted images at 70 keV and 130 keV havethe optimal image quality for internal and external metal fixation, respectively.