Diagnostic performance of electron-density dual-energy CT in detection of cervical disc herniation in comparison with standard gray-scale CT and virtual non-calcium images

Euddeum Shim; Baek Hyun Kim; Woo Young Kang; Suk-Joo Hong; Chang Ho Kang; Kyung-Sik Ahn; Hyeonbin Lee; Thomas J Kwack

doi:10.1007/s00330-021-08374-y

Diagnostic performance of electron-density dual-energy CT in detection of cervical disc herniation in comparison with standard gray-scale CT and virtual non-calcium images

Eur Radiol. 2022 Apr;32(4):2209-2220. doi: 10.1007/s00330-021-08374-y. Epub 2022 Jan 22.

Authors

Euddeum Shim¹, Baek Hyun Kim², Woo Young Kang³, Suk-Joo Hong³, Chang Ho Kang⁴, Kyung-Sik Ahn⁴, Hyeonbin Lee³, Thomas J Kwack¹

Affiliations

¹ Department of Radiology, Korea University Ansan Hospital, 123, Jeokgeum-ro, Danwon-gu, Ansan-si, Gyeonggi-do, Republic of Korea, 15355.
² Department of Radiology, Korea University Ansan Hospital, 123, Jeokgeum-ro, Danwon-gu, Ansan-si, Gyeonggi-do, Republic of Korea, 15355. kimbaekh@daum.net.
³ Department of Radiology, Korea University Guro Hospital, Seoul, Republic of Korea.
⁴ Department of Radiology, Korea University Anam Hospital, Seoul, Republic of Korea.

Abstract

Objectives: To assess the diagnostic performance of dual-energy CT (DECT) with electron-density (ED) image reconstruction compared with standard CT (SC) and virtual non-calcium (VNCa) image CT reconstruction for detecting cervical disc herniation.

Methods: This cross-sectional study was approved by the IRB. We enrolled 64 patients (336 intervertebral discs from C2/3 to C7/T1; mean age, 55 years; 17 women and 47 men) who underwent DECT with spectral reconstruction and 3-T MRI within 2 weeks between January 2018 and June 2020. Four radiologists independently evaluated the first image set of randomized SC, VNCa, and ED images to detect cervical disc herniation. After 8 weeks, the readers re-evaluated the second and the last image sets with an 8-week interval. MRI evaluations performed by two other experienced served as the reference standard. Comparing diagnostic performance between each images set was evaluated by a generalized estimating equation.

Results: A total of 233 cervical disc herniations were noted on MRI. For detecting cervical disc herniation, electron-density images showed higher sensitivity (94% [219/233; 95% CI, 90-97] vs. 76% [177/233; 70-81] vs. 69% [160/233; 62-76]) (p < 0.001) and similar specificity (90% [93/103; 83-95] vs. 89% [92/103; 82-96] vs. 90% [93/103; 83-95]) (p > 0.05) as SC and VNCa images, respectively. Inter-reader agreement for cervical disc herniation calculated among the four readers was moderate for all image sets (κ = 0.558 for ED, κ = 0.422 for SC, and κ = 0.449 for VNCa).

Conclusion: DECT with ED reconstruction can improve cervical disc herniation detection and diagnostic confidence compared with SC and VNCa images.

Key points: • Intervertebral discs with high material density are well visualized on electron-density images obtained from dual-energy CT. • Electron-density images showed much higher sensitivity and diagnostic accuracy than standard CT and virtual non-calcium images for the detection of cervical disc herniation. • Electron-density images can have false-negative results, especially for disc herniation with high signal intensity on T2W images and can show pseudo-disc extrusion at the lower cervical spine.

Keywords: Cervical vertebrae; Dual-energy computed tomography; Intervertebral disc disease; Magnetic resonance imaging.

MeSH terms

Bone Marrow
Calcium
Cross-Sectional Studies
Edema
Electrons
Female
Humans
Intervertebral Disc Displacement* / diagnostic imaging
Magnetic Resonance Imaging / methods
Male
Middle Aged
Sensitivity and Specificity
Tomography, X-Ray Computed / methods

Substances

Calcium