Garrido ML, González FRI

Language: Spanish
References: 22
Page: 153-164
PDF size: 257.88 Kb.

ABSTRACT

The aim of this paper is to discuss the main features of a system developed for the resting ECG analysis. The proposed system is composed of an electronic ECG module for signal acquisition and transmission via USB, a personal computer and a Windows application developed on .NET technology. Trend studies, based on several ECGs from a patient, are made to analyze the evolution of ventricular hypertrophy, the propensity to sudden death and the recovering degree after suffering a heart attack; this kind of study is not available in traditional electrocardiographs. The proposed was designed as a layered structure with levels of abstraction to facilitate their continued maintenance and updating. Microsoft Visual Studio 2010 was selected as the development environment and SQL Server Compact as the database manager. The system was tested with simulated ECGs and signals from volunteers with heart rates between 30 and 240 beats per minute, giving sensitivity in QRS complex detection over 99 %.

REFERENCES

1. Organización Mundial de la Salud. Enfermedades cardiovasculares 2013 [Citado 13 agosto 2013]. Disponible en: http://www.who.int/mediacentre/factsheets/fs317/es/index.html

2. Mathers D, Loncar D. Projections of global mortality and burden of disease from 2002 to 2030. World Health Organization: PLoS Med 2005;3(11):e442.

3. Ranjan R, Giri VK. A Unified Approach of ECG Signal Analysis. International Journal of Soft Computing and Engineering 2012;2:5-10. ISSN: 2231-2307.

4. Kligfield P, Gettes S, Bailey J, Childers R, Deal BJ, Hancock William, et al. Recommendations for the Standardization and Interpretation of the Electrocardiogram. Part I: The Electrocardiogram and Its Technology. 10, s.l. Elsevier Inc, Journal of the American College of Cardiology 2007;49:1109-27. ISSN 0735-1097.

5. Garrido H, Cañizares M, Gómez N. Sistema para pruebas electrocardiográficas. Memorias del II Congreso Latinoamericano de Ingeniería Biomédica 2001.

6. Carreño AJ. Framework para la generación de aplicaciones orientadas al procesamiento de bio-señales. Tesis de Maestría. Manizales, Colombia: Universidad Nacional de Colombia 2013.

7. EcgSoft. Software, Innovative ECG 2013 [Citado abril 2013]. Disponible en: http://www.ecg-soft.com/ecgnet/ecgnet.htm

8. HADAD AJ, SOLANO AE, ROZDOWICZ B. Prototipo para la comparación de patrones temporales secuenciales de arritmias cardíacas. En: Ventana Informática ene-jun 2012. Manizales, Colombia: Facultad de Ciencias e Ingeniería, Universidad de Manizales. ISSN: 0123-9678;26:29-43.

9. Miranda Vl. Hoostins Desarrollo de una aplicación para dispositivos móviles para el estudio de hábitos de vida saludables. Proyecto final de carrera. Barcelona, España: UPC Julio 2012.

10. Griffiths I, Adams M, Liberty J. Programming C# 4.0. Sixth Edition. California: O'Reilly Media 2010. ISBN 978-0-596-15983-2.

11. Richter J. Applied Microsoft .NET Framework Programming. Washington: Microsoft Press 2002. ISBN 0-7356-1422-9.

12. Albahari J, Albahari B. C# 4.0 IN A NUTSHELL. Fourth Edition. California: O'Reilly Media 2010. ISBN:978-0-596-80095-6.

13. Troelsen A. Pro C# 2010 and the .NET 4 Platform. Fifth Edition. New York: Apress 2010. ISBN-13 (electronic): 978-1-4302-2550-8.

14. Microsoft Corporation. Libros en pantalla de SQL Server Compact 4.0 - Español 2011. [Citado abril 2013]. Disponible en: http://download.microsoft.com

15. Ligtenberg A, Kunt M. A Robust Digital QRS-Detection Algorithm for Arrythmia Monitoring. Computing and Biomedical Research 1983;16:273-286.

16. González R, Cañizares M. Estudio espacial del Segmento ST. Bioingeniería y Física Médica Cubana 2004;5:23-29.

17. Cañizares M. Desarrollo y Evaluación de un Método para la Clasificación del Ritmo Cardíaco. Tesis de Maestría. La Habana, Cuba: Instituto Superior Politécnico "José Antonio Echeverría" 2004.

18. Avedano LE. Fundamentos de Instrumentación En: Colombia 2002. Publicaciones UTP ISBN: 8065-41-0;50:350.

19. Abdel-Salam Z, Wafa S, Kamel S, Nammas W.The modified Selvester QRS score: Can we predict successful ST segment resolution in patients with myocardial infarction receiving fibrinolytic therapy?. Cardiology Journal 2010;17:367-373. ISSN 1897-5593.

20. de Vries O, Heesen WF, Beltman FW, Kroese AH, May JF, Smit AJ, Lie KI. Prediction of the left ventricular mass from the electrocardiogram in systemic hypertension. Am J Cardiol 1996;11:974-978.

21. Casale PN, Devereux RB, Alonso DR, Campo E, Kligfield P. Improved sex-specific criteria of left ventricular hypertrophy for clinical and computer interpretation of electrocardiograms: validation with autopsy findings. Circulation 1987;75:565-572.

22. González R, Rodríguez A, Almeida R. ESTUDIO DE LA TENDENCIA DE LA DISPERSIÓN ESPACIAL DEL INTERVALO QT. Sociedad Cubana de Bioingenieria 2005. ISBN 959-212-158-3.