Virtual monochromatic spectral imaging versus linearly blended dual-energy and single-energy imaging during CT-guided biopsy needle positioning: Optimization of keV settings and impact on image quality

D., T.; Heim, J; Melzig, Claudius; Vollherbst, Dominik F; Kauczor, Hans‐Ulrich; Skornitzke, Stephan; Sommer, Christof M.

doi:10.1371/journal.pone.0228578

Cited by 2 publications

(2 citation statements)

References 31 publications

(36 reference statements)

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“…VMSI at 80 keV is usually recommended. Iterative metal artifact reduction can be deployed to mitigate metal artifacts independently of acquisition and reconstruction algorithms 38 ( Fig. 7 ).…”

Section: Ct-guided Proceduresmentioning

confidence: 99%

“…Motion and beam hardening artifacts may degrade image quality in most dual-energy current CT systems available currently and must be reduced. 38 Suboptimal bone removal requires improvement. The major workflow constraints, such as increased reconstruction time, increased volume of images, and increased interpretation time, significantly increase the workload and hinder the use of DECT imaging in routine intervention radiology practice.…”

Section: Limitations Of Dectmentioning

confidence: 99%

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Utility of Dual-Energy CT in Abdominal Interventions

Tripathy

Patel

Chandel

et al. 2022

Journal of Gastrointestinal and Abdominal Radiology

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Dual-energy computed tomography (DECT) is an emerging CT technique based on data acquisition at two different settings. Various postprocessing techniques generate different sets of images, each with unique advantages. With DECT, it is possible to obtain virtual unenhanced images from monochromatic reconstructions and attenuation maps of different elements, thereby improving the detection and characterization of a variety of lesions. Presently, DECT is widely used to evaluate pulmonary embolism, characterize abdominal masses, determine the composition of urinary calculi, and detect tophi in gout. CT angiography is an essential prerequisite for endovascular intervention. DECT allows a better quality of angiographic images with a lesser dose of contrast. Various postprocessing techniques in DECT also help in a better evaluation of response to locoregional therapy. Virtual noncontrast images and iodine map differentiate residual or recurrent tumors from intrinsically hyperdense materials. Superior metallic artifact reduction allows better evaluation of vascular injuries adjacent to bony fractured fragments or previously deployed embolization coils. In addition to metal artifacts reduction, virtual monochromatic spectral imaging could further mitigate metal artifacts during CT-guided biopsy, providing an improved depiction of lesions and safe and versatile access for long puncture pathways. This article reviews and illustrates the different applications of DECT in various abdominal interventions. Familiarity with the capabilities of DECT may help interventional radiologists to improve their practice and ameliorate patient care.

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Section: Ct-guided Proceduresmentioning

confidence: 99%

Section: Limitations Of Dectmentioning

confidence: 99%