Phonocardiogram: evaluate and construction
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Abstract
This paper presents the development of a test to monitor heart rate (HR) which is characterized by low cost material expended in its production. In order to verify the applicability of the phonocardiogram (FCG), it was compared with a HR monitor from Polar Inc (Finland) model RS 800 Cx HR in nine (9) subjects (4 males and 5 females). The measures were made in the sitting and supine position (Zuttin, R. S., Moreno, M. A., César, M. C., Martins, L. E. B., Catai, A. M., & Silva, E.,2008) during 5 minutes (Vanderlei, L.C.M., Silva, R.A., Pastre, C.M., Azevedo, F.M. & Godoy, M.F., 2008). A correlation of r = 0.982 to supine position and of r = 0.794 to sitting position was obtained, both with p <0.05. The building of this instrument is suggested to teaching and learning of the HR monitoring, and its importance is demonstrated as a method for understanding the autorregularion and the internal rhythms of body.
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Amaral, F. V., & Monte, A. (2016). Phonocardiogram: evaluate and construction. Educación Física Y Ciencia, 18(1), e006. Retrieved from https://efyc.fahce.unlp.edu.ar/article/view/EFyCv18n01a06
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References
Achten, J.& Jeukendrup, A.E. (2003). Heart rate monitoring: aplications and limitations. Sports Medicine, 33(7), 517-538.
Carvalho, L. (2008). Instrumentação Médico-Hospitalar. Barueri, Sp: Editora Manole, 336 p.
Chen, Y. H., Chen, H. H., Chen, T. C., & Chen, L. G. (2011). Robust heart rate measurement with phonocardiogram by on-line template extraction and matching. In Engineering in Medicine and Biology Society, EMBC, 2011 Annual International Conference of the IEEE, 1957-1960.
Colquhoun, D. (1992) Health Based Physical Education and the Health in Primary School Project. En Williams T., Sparkes A. & Almond L. Sport and physical activity, Londres: E&FN Spon. 353-361.
Karvonen, J.& Vourimaa, T. (1988). Heart rate and exercise intensity during sports activities –pratical implication. Sports Medicine, 5, 303-312.
Katahira, K., Fujimura, T., Matsuda, Y. T., Okanoya, K., & Okada, M. (2014). Individual differences in heart rate variability are associated with the avoidance of negative emotional events. Biological psychology, 103, 322-331.
Mayor, J. & Perez, J. (1989) ¿Psicología o psicologías? un problema de identidad. Tratado de Psicología General: Historia, Teoría y Método, Madrid, Alhambra.
Pate, R. R., et al. (1995). Physical activity and public health: a recommendation from the center for disease control and prevention and the American College of Sports Medicine, 273 (5), 402-407.
Sallis, J. F.& Owen, N. (1999). Physical Activity & Behavioral Medicine. London, UK: Sage.
Sa-ngasoongsong, A., Kunthong, J., Sarangan, V., Cai, X., & Bukkapatnam, S. T. (2012). A low-cost, portable, high-throughput wireless sensor system for phonocardiography applications. Sensors, 12(8), 10851-10870.
Schoeller A.D. & Racette, S.B. (1990). A review of field techniques for asses ment of energy expenditure. Journal of Nutrition, 120, 1492-1495.
Schonfelder, M., Hinterscher, G., Peter, P. & Spitzenpfeil, P. (2011). Scientific Comparasion of Different Online Heart Rate Monitoring System. Internacional Journal of Telemedicine and Applications.
Shrout, P.E. & Fleiss, J.L. (1979). Intraclass correlations: uses in assessing rater reliability. Psychological Bulletin, 86, 420–428.
Task Force of the European Society of Cardiology and the North American Society of acing and Electrophysiology (1996). Heart rate variability: standards of measurement, physiological interpretation and clinical use. Circulation; 93, 1043-65.
Vanderlei, L.C.M., Silva, R.A., Pastre, C.M., Azevedo, F.M. & Godoy, M.F.(2008). Comparrison of the Polar S810i monitor and the ECG for analysis of heart rate variability in the time e frequency domains. Brazilian Journalof Medical and Biological Research.
Vanderlei, L. C. M., Pastre, C. M., Hoshi, R. A., Carvalho, T. D. D., & Godoy, M. F. D. (2009). Basic notions of heart rate variability and its clinical applicability. Revista Brasileira de Cirurgia Cardiovascular, 24(2), 205-217.
Zuttin, R. S., Moreno, M. A., César, M. C., Martins, L. E. B., Catai, A. M., & Silva, E. (2008). Evaluation of autonomic heart rate modulation among sedentary young men, in seated and supine postures. Brazilian Journal of Physical Therapy, 12(1), 7-12.
Carvalho, L. (2008). Instrumentação Médico-Hospitalar. Barueri, Sp: Editora Manole, 336 p.
Chen, Y. H., Chen, H. H., Chen, T. C., & Chen, L. G. (2011). Robust heart rate measurement with phonocardiogram by on-line template extraction and matching. In Engineering in Medicine and Biology Society, EMBC, 2011 Annual International Conference of the IEEE, 1957-1960.
Colquhoun, D. (1992) Health Based Physical Education and the Health in Primary School Project. En Williams T., Sparkes A. & Almond L. Sport and physical activity, Londres: E&FN Spon. 353-361.
Karvonen, J.& Vourimaa, T. (1988). Heart rate and exercise intensity during sports activities –pratical implication. Sports Medicine, 5, 303-312.
Katahira, K., Fujimura, T., Matsuda, Y. T., Okanoya, K., & Okada, M. (2014). Individual differences in heart rate variability are associated with the avoidance of negative emotional events. Biological psychology, 103, 322-331.
Mayor, J. & Perez, J. (1989) ¿Psicología o psicologías? un problema de identidad. Tratado de Psicología General: Historia, Teoría y Método, Madrid, Alhambra.
Pate, R. R., et al. (1995). Physical activity and public health: a recommendation from the center for disease control and prevention and the American College of Sports Medicine, 273 (5), 402-407.
Sallis, J. F.& Owen, N. (1999). Physical Activity & Behavioral Medicine. London, UK: Sage.
Sa-ngasoongsong, A., Kunthong, J., Sarangan, V., Cai, X., & Bukkapatnam, S. T. (2012). A low-cost, portable, high-throughput wireless sensor system for phonocardiography applications. Sensors, 12(8), 10851-10870.
Schoeller A.D. & Racette, S.B. (1990). A review of field techniques for asses ment of energy expenditure. Journal of Nutrition, 120, 1492-1495.
Schonfelder, M., Hinterscher, G., Peter, P. & Spitzenpfeil, P. (2011). Scientific Comparasion of Different Online Heart Rate Monitoring System. Internacional Journal of Telemedicine and Applications.
Shrout, P.E. & Fleiss, J.L. (1979). Intraclass correlations: uses in assessing rater reliability. Psychological Bulletin, 86, 420–428.
Task Force of the European Society of Cardiology and the North American Society of acing and Electrophysiology (1996). Heart rate variability: standards of measurement, physiological interpretation and clinical use. Circulation; 93, 1043-65.
Vanderlei, L.C.M., Silva, R.A., Pastre, C.M., Azevedo, F.M. & Godoy, M.F.(2008). Comparrison of the Polar S810i monitor and the ECG for analysis of heart rate variability in the time e frequency domains. Brazilian Journalof Medical and Biological Research.
Vanderlei, L. C. M., Pastre, C. M., Hoshi, R. A., Carvalho, T. D. D., & Godoy, M. F. D. (2009). Basic notions of heart rate variability and its clinical applicability. Revista Brasileira de Cirurgia Cardiovascular, 24(2), 205-217.
Zuttin, R. S., Moreno, M. A., César, M. C., Martins, L. E. B., Catai, A. M., & Silva, E. (2008). Evaluation of autonomic heart rate modulation among sedentary young men, in seated and supine postures. Brazilian Journal of Physical Therapy, 12(1), 7-12.