Pericardial and visceral, but not total body fat, are related to global coronary and extra-coronary atherosclerotic plaque burden.

BACKGROUND: To explore the relationship between coronary and extra-coronary atherosclerotic plaque burden with total and regional fat depots among patients undergoing ECG-gated aortic computed tomography angiography (CTA). METHODS: The subjects of this study comprised a cohort of consecutive patients who underwent ECG-gated thoracoabdominal CTA. We assessed the number of coronary segments with plaques (segment-involvement score, SIS); and the extra-coronary atherosclerotic plaque burden, comprising the aorta and supra-aortic trunks, iliofemoral arteries, and visceral arteries (extra-coronary SS). Total and regional fat volume (FV) were calculated. RESULTS: A total of 2700 vascular segments were evaluated in 90 patients. Obese patients (n = 31, 34%) showed similar coronary SIS (p = 0.41) and extra-coronary SS (p = 0.22) than non-obese patients. General body fat measurements were not related to atherosclerotic plaque burden scores, without associations between coronary or extra-coronary plaque burden and BMI (p = 0.68, and p = 0.91), abdominal circumference (p = 0.13, p = 0.89), total body FV (p = 0.50, p = 0.98), or abdominal FV (p = 0.51, p = 0.99). Pericardial FV was related to coronary SIS (p < 0.0001) and extra-coronary SS (p = 0.008), and visceral FV was related to the coronary SIS (p = 0.006) and extra-coronary SS (p = 0.056). Abdominal subcutaneous fat was inversely related to coronary SIS (p = 0.038) and extra-coronary SS (p = 0.010). Pericardial FV was identified as the only independent predictor of extensive coronary [OR 1.020 (95% CI 1.001-1.039), p = 0.036] and extra-coronary [OR 1.018 (95% CI 1.001-1.036), p = 0.035] plaque burden. CONCLUSIONS: In the present study, pericardial and visceral fat were associated with an increased atherosclerotic burden, whereas we identified an inverse relationship between subcutaneous abdominal fat and plaque burden.

Tomografía computarizada de doble energía: nueva tecnología para la reducción de artefactos de metal / Dual-energy computed tomography: new technology for metal artifacts reduction

Introducción: El objetivo fue explorar la utilidad de la tomografía computarizada de doble energía mediante tecnología de imágenes espectrales gemstone y de un programa destinado a la reducción de artefactos de metal (MARS), para evaluar tejidos periprotésicos, y la interpretabilidad diagnóstica de patologías relacionadas con implantes. Materiales y Métodos: Se comparó la densidad ósea, de partes blandas y de grasa en el tejido periprotésico y en tejido de control sin implante, utilizando un escáner de alta definición de tomografía computarizada de doble energía tanto en imágenes policromáticas convencionales, como en monocromáticas virtuales con MARS, en 80 pacientes con prótesis metálicas en diversas regiones musculoesqueléticas. Se valoró la calidad de imagen y la interpretabilidad diagnóstica mediante la escala de Likert. Resultados: Con imágenes policromáticas hubo diferencias significativas entre el área periprotésica en los tres tejidos respecto a los controles (p <0,0001); sin diferencias significativas utilizando imágenes espectrales monocromáticas virtuales-MARS (hueso p = 0,053, partes blandas p = 0,32 y grasa p = 0,13), con más similitud con el tejido normal. Los niveles de ruido fueron significativamente mayores con imágenes policromáticas (p <0,0001) que con imágenes espectrales monocromáticas virtuales-MARS. Se consideraron no interpretables todas las regiones periprotésicas en las imágenes policromáticas y 11 (9%) en las imágenes espectrales monocromáticas virtuales-MARS. No hubo diferencias significativas en la dosis de radiación comparada con la del grupo control (p = 0,21). Conclusiones: La tomografía computarizada de doble energía puede reducir los artefactos periprotésicos, logrando un significativo incremento en la capacidad de identificar tejidos y la interpretabilidad diagnóstica de posibles patologías relacionadas con implantes. Nivel de Evidencia: II

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. Level of Evidence: II

Periprosthetic Artifact Reduction Using Virtual Monochromatic Imaging Derived From Gemstone Dual-Energy Computed Tomography and Dedicated Software.

OBJECTIVE: The aim of this study was to explore the usefulness of combined virtual monochromatic imaging and metal artifact reduction software (MARS) for the evaluation of musculoskeletal periprosthetic tissue. METHODS: Measurements were performed in periprosthetic and remote regions in 80 patients using a high-definition scanner. Polychromatic images with and without MARS and virtual monochromatic images were obtained. RESULTS: Periprosthetic polychromatic imaging (PI) showed significant differences compared with remote areas among the 3 tissues explored (P < 0.0001). No significant differences were observed between periprosthetic and remote tissues using monochromatic imaging with MARS (P = 0.053 bone, P = 0.32 soft tissue, and P = 0.13 fat). However, such differences were significant using PI with MARS among bone (P = 0.005) and fat (P = 0.02) tissues. All periprosthetic areas were noninterpretable using PI, compared with 11 (9%) using monochromatic imaging. CONCLUSIONS: The combined use of virtual monochromatic imaging and MARS reduced periprosthetic artifacts, achieving attenuation levels comparable to implant-free tissue.

Two-dimensional and three-dimensional imaging of uterus and fallopian tubes in female infertility.

Noninvasive imaging techniques play an important role in the female infertility diagnostic algorithm. In this review article, a description of the diagnostic performance and potential clinical value of both computerized tomographic virtual hysterosalpingography (CT-VHGS) and magnetic-resonance virtual hysterosalpingography (MR-VHSG) is made, describing for both techniques, to guarantee the best possible diagnostic outcome, patient preparation and normal and principal pathologic findings. Both noninvasive diagnostic imaging modalities improve the diagnostic confidence in identification of the specific cause of female infertility. These procedures are well tolerated and can be performed without tenaculum and sedation. The combined analysis of all the imaging data offers the gynecologist a wide information spectrum, enabling a better therapeutic decision. CT-VHSG and MR-VHSG are consistent diagnostic imaging modalities for the evaluation of the female reproductive system, with an excellent diagnostic performance compared with traditional diagnostic exams and allowing a comprehensive assessment of the female reproductive system.