A computational tool as support in B-mode ultrasound diagnostic quality control

A computational tool as support in B-mode ultrasound diagnostic quality control

INTRODUCTION: The quality control (QC) of biomedical equipment is a very important process for the quality assurance of the instruments used in diagnoses and treatments. Ultrasound diagnostic imaging is one of the most widely used techniques for diagnostic imaging in hospitals and medical clinics. However, the time required to complete several B-mode imaging QC tests in ultrasound equipment is very critical for a hospital with a high number of exams. Here, we present a computational tool to assist in the acquisition and storage of data from multiple QC tests in B-mode ultrasound diagnostic equipment to promote an efficient alternative for QC in clinical routines. METHODS: The project was planned and implemented in C++ programming language and compiled for two computing platforms: Windows and Linux. The most common QC routine tests for B-mode ultrasound were combined in a simple graphical user interface. RESULTS: After entering all of the correct QC information in the graphical user interface, a final report in PDF format was created. CONCLUSION: The proposed program has been helpful for students and diagnostic professionals and is a quick and easy application for several QC tests for B-mode ultrasound diagnostic equipment. Our program seeks to help in the dissemination and application of QC tests for B-mode ultrasound equipment in hospitals and clinics and for the technical training of ultrasound professionals.

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Main Authors: Senra Filho,Antonio Carlos da Silva, Rodrigues,Erbe Pandini, Elias Junior,Jorge, Carneiro,Antonio Adilton Oliveira
Format: Digital revista
Language:English
Published: SBEB - Sociedade Brasileira de Engenharia Biomédica 2014
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1517-31512014000400010
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spelling oai:scielo:S1517-315120140004000102015-01-15A computational tool as support in B-mode ultrasound diagnostic quality controlSenra Filho,Antonio Carlos da SilvaRodrigues,Erbe PandiniElias Junior,JorgeCarneiro,Antonio Adilton Oliveira Quality control Ultrasound B-mode INTRODUCTION: The quality control (QC) of biomedical equipment is a very important process for the quality assurance of the instruments used in diagnoses and treatments. Ultrasound diagnostic imaging is one of the most widely used techniques for diagnostic imaging in hospitals and medical clinics. However, the time required to complete several B-mode imaging QC tests in ultrasound equipment is very critical for a hospital with a high number of exams. Here, we present a computational tool to assist in the acquisition and storage of data from multiple QC tests in B-mode ultrasound diagnostic equipment to promote an efficient alternative for QC in clinical routines. METHODS: The project was planned and implemented in C++ programming language and compiled for two computing platforms: Windows and Linux. The most common QC routine tests for B-mode ultrasound were combined in a simple graphical user interface. RESULTS: After entering all of the correct QC information in the graphical user interface, a final report in PDF format was created. CONCLUSION: The proposed program has been helpful for students and diagnostic professionals and is a quick and easy application for several QC tests for B-mode ultrasound diagnostic equipment. Our program seeks to help in the dissemination and application of QC tests for B-mode ultrasound equipment in hospitals and clinics and for the technical training of ultrasound professionals.info:eu-repo/semantics/openAccessSBEB - Sociedade Brasileira de Engenharia BiomédicaRevista Brasileira de Engenharia Biomédica v.30 n.4 20142014-12-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1517-31512014000400010en10.1590/1517-3151.0644
institution SCIELO
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country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Senra Filho,Antonio Carlos da Silva
Rodrigues,Erbe Pandini
Elias Junior,Jorge
Carneiro,Antonio Adilton Oliveira
spellingShingle Senra Filho,Antonio Carlos da Silva
Rodrigues,Erbe Pandini
Elias Junior,Jorge
Carneiro,Antonio Adilton Oliveira
A computational tool as support in B-mode ultrasound diagnostic quality control
author_facet Senra Filho,Antonio Carlos da Silva
Rodrigues,Erbe Pandini
Elias Junior,Jorge
Carneiro,Antonio Adilton Oliveira
author_sort Senra Filho,Antonio Carlos da Silva
title A computational tool as support in B-mode ultrasound diagnostic quality control
title_short A computational tool as support in B-mode ultrasound diagnostic quality control
title_full A computational tool as support in B-mode ultrasound diagnostic quality control
title_fullStr A computational tool as support in B-mode ultrasound diagnostic quality control
title_full_unstemmed A computational tool as support in B-mode ultrasound diagnostic quality control
title_sort computational tool as support in b-mode ultrasound diagnostic quality control
description INTRODUCTION: The quality control (QC) of biomedical equipment is a very important process for the quality assurance of the instruments used in diagnoses and treatments. Ultrasound diagnostic imaging is one of the most widely used techniques for diagnostic imaging in hospitals and medical clinics. However, the time required to complete several B-mode imaging QC tests in ultrasound equipment is very critical for a hospital with a high number of exams. Here, we present a computational tool to assist in the acquisition and storage of data from multiple QC tests in B-mode ultrasound diagnostic equipment to promote an efficient alternative for QC in clinical routines. METHODS: The project was planned and implemented in C++ programming language and compiled for two computing platforms: Windows and Linux. The most common QC routine tests for B-mode ultrasound were combined in a simple graphical user interface. RESULTS: After entering all of the correct QC information in the graphical user interface, a final report in PDF format was created. CONCLUSION: The proposed program has been helpful for students and diagnostic professionals and is a quick and easy application for several QC tests for B-mode ultrasound diagnostic equipment. Our program seeks to help in the dissemination and application of QC tests for B-mode ultrasound equipment in hospitals and clinics and for the technical training of ultrasound professionals.
publisher SBEB - Sociedade Brasileira de Engenharia Biomédica
publishDate 2014
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1517-31512014000400010
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