1. On the Feasibility of Ultrasound Imaging Enrichment by Medium-Temperature Changes.
- Author
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Teixeira CA, Pastrana-Chalco M, Simões RJ, Pedrosa A, von Krüger MA, Alvarenga AV, Fontes-Pereira AJ, and Pereira WCA
- Subjects
- Algorithms, Animals, Computer Simulation, Feasibility Studies, Models, Animal, Models, Statistical, Swine, Image Enhancement methods, Image Processing, Computer-Assisted methods, Temperature, Ultrasonography methods
- Abstract
We describe the concept of a new imaging modality based on the tracking and dynamic modeling of local intensity changes (ICs) observed in conventional ultrasound images collected during a medium-temperature change. We computed the pixel-by-pixel IC from averaged B-mode images that exhibited different behaviors with varying temperature resulting from changes in the speed of sound, which consequently induce changes in the backscattered energy. Moreover, for each pixel, a first-order polynomial model was adjusted to the different temperature-dependent ICs. The representation of the polynomial angular parameter in 2D pixel space was used to obtain a parametric image. The results obtained by simulations and with real B-mode images indicated that this new ultrasound imaging modality was able to enhance the contrast and highlight structures that were poorly visible or even undetected in conventional images. A temperature change of 3°C was found to be sufficient to generate appropriate images with the proposed method. In addition, if a temperature change of 6°C was considered, the thermal dose, measured as the cumulative number of equivalent minutes at 43°C (CEM43°C), was 2.4 CEM43°C, which is a value that is considered safe according to the literature. We provide a proof-of-concept of a new imaging modality that opens new opportunities for the enhancement of ultrasound images and consequently contributes to improvements in ultrasound-based diagnoses. Our approach is based on images returned by commercial ultrasound scanners. Therefore, it can be implemented in any ultrasound system and is independent of specific ultrasound hardware and software data acquisition characteristics.
- Published
- 2019
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