The screening of chromosomal defects, as trisomy 13, 18 and 21, can be obtained by the measurement of the nuchal translucency thickness scanning during the end of the first trimester of pregnancy. This contribution proposes an automatic methodology to detect mid-sagittal sections to identify the correct measurement of nuchal translucency. Wavelet analysis and neural network classifiers are the main strategies of the proposed methodology to detect the frontal components of the skull and the choroid plexus with the support of radial symmetry analysis. Real clinical ultrasound images were adopted to measure the performance and the robustness of the methodology, thus it can be highlighted an error of at most 0.3 mm in 97.4% of the cases.
Sciortino, G., Tegolo, D., Valenti, C. (2017). Morphological analysis combined with a machine learning approach to detect utrasound median sagittal sections for the nuchal translucency measurement. In J. Carrasco-Ochoa, Martínez-Trinidad J.F., Olvera-López J.A. (a cura di), Pattern Recognition, 9th Mexican Conference, MCPR 2017, Huatulco, Mexico, June 21-24, 2017, Proceedings (pp. 257-267). Springer Verlag [10.1007/978-3-319-59226-8_25].
Morphological analysis combined with a machine learning approach to detect utrasound median sagittal sections for the nuchal translucency measurement
TEGOLO, Domenico;VALENTI, Cesare Fabio
2017-01-01
Abstract
The screening of chromosomal defects, as trisomy 13, 18 and 21, can be obtained by the measurement of the nuchal translucency thickness scanning during the end of the first trimester of pregnancy. This contribution proposes an automatic methodology to detect mid-sagittal sections to identify the correct measurement of nuchal translucency. Wavelet analysis and neural network classifiers are the main strategies of the proposed methodology to detect the frontal components of the skull and the choroid plexus with the support of radial symmetry analysis. Real clinical ultrasound images were adopted to measure the performance and the robustness of the methodology, thus it can be highlighted an error of at most 0.3 mm in 97.4% of the cases.
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