Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes Modeling

Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes Modeling

To achieve a precise noninvasive temperature estimation, inside patient tissues, would open promising research fields, because its clinic results would provide early-diagnosis tools. In fact, detecting changes of thermal origin in ultrasonic echo spectra could be useful as an early complementary ind...

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Main Authors: I. Bazan, A. Ramos, H. Calas, A. Ramirez, R. Pintle, T. E. Gomez, C. Negreira, F. J. Gallegos, A. J. Rosales
Format: Article
Language:English
Published: Hindawi Limited 2012-01-01
Series:Computational and Mathematical Methods in Medicine
Online Access:http://dx.doi.org/10.1155/2012/275405
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spelling doaj-219cddedb25a4aa09a9c957d609a80182020-11-24T21:36:37ZengHindawi LimitedComputational and Mathematical Methods in Medicine1748-670X1748-67182012-01-01201210.1155/2012/275405275405Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes ModelingI. Bazan0A. Ramos1H. Calas2A. Ramirez3R. Pintle4T. E. Gomez5C. Negreira6F. J. Gallegos7A. J. Rosales8ESIME (Sede-Zacatenco) Instituto Politécnico Nacional (IPN), Avenida Instituto Politécnico Nacional s/n, México City, 07738 DF, MexicoUltrasonic Signals, Systems and Technologies Laboratory, CSIC, Serrano 144, 28006 Madrid, SpainUltrasonic Signals, Systems and Technologies Laboratory, CSIC, Serrano 144, 28006 Madrid, SpainESIME (Sede-Zacatenco) Instituto Politécnico Nacional (IPN), Avenida Instituto Politécnico Nacional s/n, México City, 07738 DF, MexicoESIME (Sede-Zacatenco) Instituto Politécnico Nacional (IPN), Avenida Instituto Politécnico Nacional s/n, México City, 07738 DF, MexicoUltrasonic Signals, Systems and Technologies Laboratory, CSIC, Serrano 144, 28006 Madrid, SpainDepartamento de Materiales, Facultad de Ciencias, Universidad de la Republica, Montevideo 14200, UruguayESIME (Sede-Zacatenco) Instituto Politécnico Nacional (IPN), Avenida Instituto Politécnico Nacional s/n, México City, 07738 DF, MexicoESIME (Sede-Zacatenco) Instituto Politécnico Nacional (IPN), Avenida Instituto Politécnico Nacional s/n, México City, 07738 DF, MexicoTo achieve a precise noninvasive temperature estimation, inside patient tissues, would open promising research fields, because its clinic results would provide early-diagnosis tools. In fact, detecting changes of thermal origin in ultrasonic echo spectra could be useful as an early complementary indicator of infections, inflammations, or cancer. But the effective clinic applications to diagnosis of thermometry ultrasonic techniques, proposed previously, require additional research. Before their implementations with ultrasonic probes and real-time electronic and processing systems, rigorous analyses must be still made over transient echotraces acquired from well-controlled biological and computational phantoms, to improve resolutions and evaluate clinic limitations. It must be based on computing improved signal-processing algorithms emulating tissues responses. Some related parameters in echo-traces reflected by semiregular scattering tissues must be carefully quantified to get a precise processing protocols definition. In this paper, approaches for non-invasive spectral ultrasonic detection are analyzed. Extensions of author's innovations for ultrasonic thermometry are shown and applied to computationally modeled echotraces from scattered biological phantoms, attaining high resolution (better than 0.1°C). Computer methods are provided for viability evaluation of thermal estimation from echoes with distinct noise levels, difficult to be interpreted, and its effectiveness is evaluated as possible diagnosis tool in scattered tissues like liver.http://dx.doi.org/10.1155/2012/275405
collection DOAJ
language English
format Article
sources DOAJ
author I. Bazan
A. Ramos
H. Calas
A. Ramirez
R. Pintle
T. E. Gomez
C. Negreira
F. J. Gallegos
A. J. Rosales
spellingShingle I. Bazan
A. Ramos
H. Calas
A. Ramirez
R. Pintle
T. E. Gomez
C. Negreira
F. J. Gallegos
A. J. Rosales
Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes Modeling
Computational and Mathematical Methods in Medicine
author_facet I. Bazan
A. Ramos
H. Calas
A. Ramirez
R. Pintle
T. E. Gomez
C. Negreira
F. J. Gallegos
A. J. Rosales
author_sort I. Bazan
title Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes Modeling
title_short Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes Modeling
title_full Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes Modeling
title_fullStr Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes Modeling
title_full_unstemmed Possible Patient Early Diagnosis by Ultrasonic Noninvasive Estimation of Thermal Gradients into Tissues Based on Spectral Changes Modeling
title_sort possible patient early diagnosis by ultrasonic noninvasive estimation of thermal gradients into tissues based on spectral changes modeling
publisher Hindawi Limited
series Computational and Mathematical Methods in Medicine
issn 1748-670X
1748-6718
publishDate 2012-01-01
description To achieve a precise noninvasive temperature estimation, inside patient tissues, would open promising research fields, because its clinic results would provide early-diagnosis tools. In fact, detecting changes of thermal origin in ultrasonic echo spectra could be useful as an early complementary indicator of infections, inflammations, or cancer. But the effective clinic applications to diagnosis of thermometry ultrasonic techniques, proposed previously, require additional research. Before their implementations with ultrasonic probes and real-time electronic and processing systems, rigorous analyses must be still made over transient echotraces acquired from well-controlled biological and computational phantoms, to improve resolutions and evaluate clinic limitations. It must be based on computing improved signal-processing algorithms emulating tissues responses. Some related parameters in echo-traces reflected by semiregular scattering tissues must be carefully quantified to get a precise processing protocols definition. In this paper, approaches for non-invasive spectral ultrasonic detection are analyzed. Extensions of author's innovations for ultrasonic thermometry are shown and applied to computationally modeled echotraces from scattered biological phantoms, attaining high resolution (better than 0.1°C). Computer methods are provided for viability evaluation of thermal estimation from echoes with distinct noise levels, difficult to be interpreted, and its effectiveness is evaluated as possible diagnosis tool in scattered tissues like liver.
url http://dx.doi.org/10.1155/2012/275405
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