Resumen

REYNOSO, Exequiel et al. Tomografía computarizada de doble energía: nueva tecnología para la reducción de artefactos de metal. Rev. Asoc. Argent. Ortop. Traumatol. [online]. 2017, vol.82, n.1, pp.5-13. ISSN 1852-7434.

Introduction: To explore the usefulness of dual energy imaging using gemstone spectral imaging technology and a dedicated software for metal artifact reduction (MARS) for the evaluation of periprosthetic tissues, and to assess image interpretability of implant-related complications. Methods: Signal density measurements were performed in periprosthetic and remote (control) areas in bone, soft tissue, and fat among 80 patients using a high definition scanner. Polychromatic images and virtual monochromatic spectral images with MARS were obtained, and image quality and diagnostic interpretability were evaluated using a Likert scale. Results: Using polychromatic images, the periprosthetic area showed significant differences compared to the remote areas among the three tissue explored (p<0.0001 for all); with no significant differences using virtual monochromatic spectral images-MARS (bone p=0.053, soft tissue p=0.32, fat p=0.13), suggesting similar signal density compared to normal (remote) tissue. Furthermore, periprosthetic polychromatic image noise levels were significantly higher than with virtual monochromatic spectral images-MARS (p<0.0001). All periprosthetic areas were deemed non-interpretable using polychromatic images, compared to 11 (9%) using virtual monochromatic spectral images-MARS. There were no differences in radiation dose compared to control group (p=0.21). Conclusions: Virtual monochromatic spectral images-MARS technology has the ability to reduce periprosthetic artifacts, achieving a significant increase to identify tissues and diagnostic interpretability of complications related to the implants.

Palabras clave : Implant; Prosthesis; Spectral images; Diagnosis.

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