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A publicação pode ser exportada nos seguintes formatos: referência da APA (American Psychological Association), referência do IEEE (Institute of Electrical and Electronics Engineers), BibTeX e RIS.

Exportar Referência (APA)
Elvas, L. B., Almeida, A. G., Rosário, L., Dias, J. & Ferreira, J. (2021). Calcium identification and scoring based on echocardiography. An exploratory study on aortic valve stenosis. Journal of Personalized Medicine. 11 (7)
Exportar Referência (IEEE)
L. M. Elvas et al.,  "Calcium identification and scoring based on echocardiography. An exploratory study on aortic valve stenosis", in Journal of Personalized Medicine, vol. 11, no. 7, 2021
Exportar BibTeX
@article{elvas2021_1734631026726,
	author = "Elvas, L. B. and Almeida, A. G. and Rosário, L. and Dias, J. and Ferreira, J.",
	title = "Calcium identification and scoring based on echocardiography. An exploratory study on aortic valve stenosis",
	journal = "Journal of Personalized Medicine",
	year = "2021",
	volume = "11",
	number = "7",
	doi = "10.3390/jpm11070598",
	url = "https://www.mdpi.com/journal/jpm"
}
Exportar RIS
TY  - JOUR
TI  - Calcium identification and scoring based on echocardiography. An exploratory study on aortic valve stenosis
T2  - Journal of Personalized Medicine
VL  - 11
IS  - 7
AU  - Elvas, L. B.
AU  - Almeida, A. G.
AU  - Rosário, L.
AU  - Dias, J.
AU  - Ferreira, J.
PY  - 2021
SN  - 2075-4426
DO  - 10.3390/jpm11070598
UR  - https://www.mdpi.com/journal/jpm
AB  - Currently, an echocardiography expert is needed to identify calcium in the aortic valve, and a cardiac CT-Scan image is needed for calcium quantification. When performing a CT-scan, the patient is subject to radiation, and therefore the number of CT-scans that can be performed should be limited, restricting the patient’s monitoring. Computer Vision (CV) has opened new opportunities for improved efficiency when extracting knowledge from an image. Applying CV techniques on echocardiography imaging may reduce the medical workload for identifying the calcium and quantifying it, helping doctors to maintain a better tracking of their patients. In our approach, a simple technique to identify and extract the calcium pixel count from echocardiography imaging, was developed by using CV. Based on anonymized real patient echocardiographic images, this approach enables semi-automatic calcium identification. As the brightness of echocardiography images (with the highest intensity corresponding to calcium) vary depending on the acquisition settings, echocardiographic adaptive image binarization has been performed. Given that blood maintains the same intensity on echocardiographic images—being always the darker region—blood areas in the image were used to create an adaptive threshold for binarization. After binarization, the region of interest (ROI) with calcium, was interactively selected by an echocardiography expert and extracted, allowing us to compute a calcium pixel count, corresponding to the spatial amount of calcium. The results obtained from these experiments are encouraging. With this technique, from echocardiographic images collected for the same patient with different acquisition settings and different brightness, obtaining a calcium pixel count, where pixel values show an absolute pixel value margin of error of 3 (on a scale from 0 to 255), achieving a Pearson Correlation of 0.92 indicating a strong correlation with the human expert assessment of calcium area for the same images.
ER  -