Artículos
Publicado 2003-12-03
Palabras clave
- Cardiotacómetro,
- variabilidad,
- frecuencia cardiaca,
- tiempos r-r
Cómo citar
Barrero Pérez, J. G., Rueda, O. L., Pinto Aparicio, M., & Gonzáles Barajas, J. (2003). Cardiotacómetro digital prototipo para estudio de la variabilidad de la frecuencia cardiaca. Revista UIS Ingenierías, 2(2), 81–86. Recuperado a partir de https://revistas.uis.edu.co/index.php/revistauisingenierias/article/view/2282
Resumen
En este articulo se expone el Cardiotacómetro Digital, Ull prototipo construido para tomar laseñal cardiaca de un paciente y realizar cálculos de fi"ecuencia cardiaca instantánea con base enla detección de la onda R del complejo cardiaco. Estos cálculos de fi'ecuencia cardiaca son degran utilidad a la hora de realizar estudios acerca de la variabilidad de la Frecuencia Cardiaca(VF C) con elfin de evaluar las condiciones en que se encuentra el sistema nenJioso autónomo deun paciente.
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Referencias
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VÉLEZ, Hernan. BORRERO, Jaime. Cardiologia. Corporación para Investigaciones Biológicas. Colombia. 1985.
RUEDA, Oscár L Curso de Electrocardiografia. Gmpo de Electrocardiografía. Dpto. de ciencias Básicas-Fisiología. Facultad de Salud. Universidad Industrial deSantander. 200l.
FURNIVALGM, LINDENR J, SONWHM. Cronotropic and Inotropic Efeccts on the Dog Heart of Stimulating the Efferent Cardiac Sympathetic Nerves. JPhysiol 1973; 230:137-153.
ROSEN BLUETHA, SIMEONEFA. ne Intemelations of Vagal and Accelerator Efectson the Cardiac Rate. AmJ Physiol 1934;110:42-65.
FELDMANJL, ELLENBERGERHH. Central coordination of respiraory and Cardiovascular Control in Mammals .Annu Rev Physioll 988; 50:593-606.
BRAUNES, SCHULTE-MONTINGJ, SCHWERBROCKS, LUCKINGCH. Retest Variationo fCardiovascular Parameters in Autonol11ic Testing.J Autonom Nerv Syst 1996;60:103-107.
EWINGDJ, IRVINGJB, KERRF, WILDSMITHJA, CLARKEBE Cardiovascular Responses to Sustained Handgrip in Normal Subjects and in Patients with Diabetes Melliuts: a test of Autonimic Function. CJinSciMolMed 1974;46:295-306.
JOHNSTON Le. The Abnonnal Heart response 10a Deep Breath in Border line Labile Hypertennsión: a Sing of Autonamic Nervous System Dysfunctian. Am Heart J1980;99:487-493.
Conny M. A. Van Revenswaaij-Arts, M. D. Luis A. A. Kollée, MD. Herat Rate Variability. American Collge of Phisicians. USA. 1993.
WEISSLERAM, WARENN, ESTESEH, MCLNTOSHHD, LEONARDJJ. Vaso depressor Syncope. Facotrs Affecting Cardiacoutput. Criculation 1957; 15:875-882.
WARRENN, BRANNONES, STEADEA, MERRILA J. El fectafven esection and the paoling of Blaod in the Estremities on de Atrail Pressure and Cardiacout put in Normal Subjects with Observations on Acute Circulatory Collapse in Three Instances. J Clinlnvest 1945; 24:337-346.
ALLENSC, TAYLOR CL, HALLVE, A Study of orthostatic Insufficiency by the Tilboard Method. AmJPhysio 11945;143:11-19.
HELLEBRANDTFA, FRANSEENEB. Physialogic Study of Vertical Stancein Man. Physiol Rev 1943; 23:220-225.
KENNYRA, INGRAMA, BAYLISS J, SUTTONR. Head Up Tilt: auseful test for Investigating Unexplained Syncope. Lancet 1986;1:1352-1354.
ROBERT, E. Kleiger MD, FACC, PHYLLISK. Stein, PhD. Time Domain Measurements of Heart Rate Variability. AmbuIatory E1ectrocardiography. Cardiology Chnics. Washington University Medical Center. SI. Lius. Missouri. USA.10: p487-p489.
17ZSOLT, Ori, MD. Heart Rate Variability. Frecuency Domain AnaIysis. AmbuIatory EIectrocardiography. N0I1hwestern University Medical School, Chicago. USA August 1992. 10: p499-p50I.
KAUTZNERJ, FIALAM, HARTIKAINENJEK, HNATKOVAK, ROWLANDE, CAMMAJ, MALIKM. Autonomic Modulation of lhe Atrioventricular Conduction and Its Influence on lhe Measurement of Heart Rate Variability. Submitted.
FISHFA, STRASBURGERJF, WOODORWD. Rreproducibility of a Symptomatic Response to Upright Tiltin Young Patients with Unexplained Syncope. AmJ Cardiol 1992; 70:605-609.
SARMIENTO, Luis O. Interfase Para la Adquisición y Procesamiento de Señales Cardiacas, Diseño y Construcción. Escuela de Ingenierías Eléctrica, Electrónica y de Telecomunicaciones. UIS. Colombia. 1998.
COUGLIN, Robert. DRISCOLL, Fredic. Operational Amplifiers And Linearn tegrated Circuits. PrenticeHall. USA1988.P45.
CASTELLANOS, G., PUERTAL, RÍos A Reducción en Tiempo Real de interferencia de 60Hz Y de la Linea de Base en la Adquisición de Señales de ECG. Universidad Nacional de Colombia. Grupo Control y Procesamiento Digital de Señales. Manizales. Co10mbia 2000. pI9-p25.
BURR-BROWN. Integrated Circuits Data Books. Analog Mixedsigna!. Burr-Brown. USA. 1995.
MILLMAN, Jacob. Electrónica Integrada. Editorial Hispano Europea. España. P 557.
BURR- BROWN. I:ntegrated Circui1B Data Books. Burr-Brown. USA 1995. p4.19, p4.22, p5.16.
CARR, Joseph. BROWN, John. Introduction to Biornedical Equipment Technology. Prentice Hall. New Yersey. USA 1998. P210.
MALVINO, albert. Principios de Electrónica. McGraw-Hill. México. P775.
ASTON, Richard. Principies of Biomedical Instnnnentatio and Measurement. Merril Publishing Company. 1990.
SEDRA, Ade!. Microelectronics. Oxford University. México. 1999. P918.
ANALOG DEVICES. Integrated circuits Manna!.4/6Chanel Digital Potentiometers. 1999.
MOTOROLA. Technical Data-MC68HC908GP32. Rev4. USA 20ü0.
OPPENHEIM, A Jan. Señales y Sistemas. Prentice Hall. México. 1998 P515
STREMLER, Ferrel. Sistemas de Comunicación. AJfaomega. México. 1989. P51.
SAULJP, ALBRECHTP, BERGRD, COHENRJ. Analisis of Long Terrn Heart Rate Variability: Melhoda, lIfScaling and Implications In: Computers in Cardiology 1987. lEE Computer Society press. Washington 1998, 419-422.
HESLEGRAVERI, OGILVIEJC, FUREDYJJ. Measuring Baselline-Treatrnent Diferences in Heart Rate Variability: Variance Versus Successive Diferences Mean Square and Beatsper minute Versus Interbeat Intervals. Psychophysiology 1979; 16:151-157.
BIGGERJT, ALBRECHTP, STEITNMANRC, ROLNITSKYLM, FLEISSJL, COHENRJ. Comparison of Time and Frecuency-domain based Measures of Cardiac parasympalhetic Activity in Holter Recordings Afier Myocardial Infarction. AmjCardiol 1989; 64:536-538.
KLEIGGERRE, BIGGERJT, BOSNERMS, CHUNGMK, COOKIR, RODNITZKYLM, STEINMANR, FLEISSJL. Stabillity Over Time of Variab1es Measuring heart Rate Variability in Normal Sbjects. AmjCardiol 1991 68:626-630.
PENAZJ, ROUNKENZJ, BANDERWAALHJ. Spectral Ana1ysis of Sorne Spontaneous Rhyhms in the Circulation. In: DrischelH, TiedN (Eds) Biokybernetik BD. L. Karl Marx University, Leipzig 1968,233.
SAYERSB, MCA Analysis of Heart Rate Variabillity. Ergonomics 1973;16:85-97.
VÉLEZ, Hernan. BORRERO, Jaime. Cardiologia. Corporación para Investigaciones Biológicas. Colombia. 1985.
RUEDA, Oscár L Curso de Electrocardiografia. Gmpo de Electrocardiografía. Dpto. de ciencias Básicas-Fisiología. Facultad de Salud. Universidad Industrial deSantander. 200l.
FURNIVALGM, LINDENR J, SONWHM. Cronotropic and Inotropic Efeccts on the Dog Heart of Stimulating the Efferent Cardiac Sympathetic Nerves. JPhysiol 1973; 230:137-153.
ROSEN BLUETHA, SIMEONEFA. ne Intemelations of Vagal and Accelerator Efectson the Cardiac Rate. AmJ Physiol 1934;110:42-65.
FELDMANJL, ELLENBERGERHH. Central coordination of respiraory and Cardiovascular Control in Mammals .Annu Rev Physioll 988; 50:593-606.
BRAUNES, SCHULTE-MONTINGJ, SCHWERBROCKS, LUCKINGCH. Retest Variationo fCardiovascular Parameters in Autonol11ic Testing.J Autonom Nerv Syst 1996;60:103-107.
EWINGDJ, IRVINGJB, KERRF, WILDSMITHJA, CLARKEBE Cardiovascular Responses to Sustained Handgrip in Normal Subjects and in Patients with Diabetes Melliuts: a test of Autonimic Function. CJinSciMolMed 1974;46:295-306.
JOHNSTON Le. The Abnonnal Heart response 10a Deep Breath in Border line Labile Hypertennsión: a Sing of Autonamic Nervous System Dysfunctian. Am Heart J1980;99:487-493.
Conny M. A. Van Revenswaaij-Arts, M. D. Luis A. A. Kollée, MD. Herat Rate Variability. American Collge of Phisicians. USA. 1993.
WEISSLERAM, WARENN, ESTESEH, MCLNTOSHHD, LEONARDJJ. Vaso depressor Syncope. Facotrs Affecting Cardiacoutput. Criculation 1957; 15:875-882.
WARRENN, BRANNONES, STEADEA, MERRILA J. El fectafven esection and the paoling of Blaod in the Estremities on de Atrail Pressure and Cardiacout put in Normal Subjects with Observations on Acute Circulatory Collapse in Three Instances. J Clinlnvest 1945; 24:337-346.
ALLENSC, TAYLOR CL, HALLVE, A Study of orthostatic Insufficiency by the Tilboard Method. AmJPhysio 11945;143:11-19.
HELLEBRANDTFA, FRANSEENEB. Physialogic Study of Vertical Stancein Man. Physiol Rev 1943; 23:220-225.
KENNYRA, INGRAMA, BAYLISS J, SUTTONR. Head Up Tilt: auseful test for Investigating Unexplained Syncope. Lancet 1986;1:1352-1354.
ROBERT, E. Kleiger MD, FACC, PHYLLISK. Stein, PhD. Time Domain Measurements of Heart Rate Variability. AmbuIatory E1ectrocardiography. Cardiology Chnics. Washington University Medical Center. SI. Lius. Missouri. USA.10: p487-p489.
17ZSOLT, Ori, MD. Heart Rate Variability. Frecuency Domain AnaIysis. AmbuIatory EIectrocardiography. N0I1hwestern University Medical School, Chicago. USA August 1992. 10: p499-p50I.
KAUTZNERJ, FIALAM, HARTIKAINENJEK, HNATKOVAK, ROWLANDE, CAMMAJ, MALIKM. Autonomic Modulation of lhe Atrioventricular Conduction and Its Influence on lhe Measurement of Heart Rate Variability. Submitted.
FISHFA, STRASBURGERJF, WOODORWD. Rreproducibility of a Symptomatic Response to Upright Tiltin Young Patients with Unexplained Syncope. AmJ Cardiol 1992; 70:605-609.
SARMIENTO, Luis O. Interfase Para la Adquisición y Procesamiento de Señales Cardiacas, Diseño y Construcción. Escuela de Ingenierías Eléctrica, Electrónica y de Telecomunicaciones. UIS. Colombia. 1998.
COUGLIN, Robert. DRISCOLL, Fredic. Operational Amplifiers And Linearn tegrated Circuits. PrenticeHall. USA1988.P45.
CASTELLANOS, G., PUERTAL, RÍos A Reducción en Tiempo Real de interferencia de 60Hz Y de la Linea de Base en la Adquisición de Señales de ECG. Universidad Nacional de Colombia. Grupo Control y Procesamiento Digital de Señales. Manizales. Co10mbia 2000. pI9-p25.
BURR-BROWN. Integrated Circuits Data Books. Analog Mixedsigna!. Burr-Brown. USA. 1995.
MILLMAN, Jacob. Electrónica Integrada. Editorial Hispano Europea. España. P 557.
BURR- BROWN. I:ntegrated Circui1B Data Books. Burr-Brown. USA 1995. p4.19, p4.22, p5.16.
CARR, Joseph. BROWN, John. Introduction to Biornedical Equipment Technology. Prentice Hall. New Yersey. USA 1998. P210.
MALVINO, albert. Principios de Electrónica. McGraw-Hill. México. P775.
ASTON, Richard. Principies of Biomedical Instnnnentatio and Measurement. Merril Publishing Company. 1990.
SEDRA, Ade!. Microelectronics. Oxford University. México. 1999. P918.
ANALOG DEVICES. Integrated circuits Manna!.4/6Chanel Digital Potentiometers. 1999.
MOTOROLA. Technical Data-MC68HC908GP32. Rev4. USA 20ü0.
OPPENHEIM, A Jan. Señales y Sistemas. Prentice Hall. México. 1998 P515
STREMLER, Ferrel. Sistemas de Comunicación. AJfaomega. México. 1989. P51.
SAULJP, ALBRECHTP, BERGRD, COHENRJ. Analisis of Long Terrn Heart Rate Variability: Melhoda, lIfScaling and Implications In: Computers in Cardiology 1987. lEE Computer Society press. Washington 1998, 419-422.
HESLEGRAVERI, OGILVIEJC, FUREDYJJ. Measuring Baselline-Treatrnent Diferences in Heart Rate Variability: Variance Versus Successive Diferences Mean Square and Beatsper minute Versus Interbeat Intervals. Psychophysiology 1979; 16:151-157.
BIGGERJT, ALBRECHTP, STEITNMANRC, ROLNITSKYLM, FLEISSJL, COHENRJ. Comparison of Time and Frecuency-domain based Measures of Cardiac parasympalhetic Activity in Holter Recordings Afier Myocardial Infarction. AmjCardiol 1989; 64:536-538.
KLEIGGERRE, BIGGERJT, BOSNERMS, CHUNGMK, COOKIR, RODNITZKYLM, STEINMANR, FLEISSJL. Stabillity Over Time of Variab1es Measuring heart Rate Variability in Normal Sbjects. AmjCardiol 1991 68:626-630.
PENAZJ, ROUNKENZJ, BANDERWAALHJ. Spectral Ana1ysis of Sorne Spontaneous Rhyhms in the Circulation. In: DrischelH, TiedN (Eds) Biokybernetik BD. L. Karl Marx University, Leipzig 1968,233.
SAYERSB, MCA Analysis of Heart Rate Variabillity. Ergonomics 1973;16:85-97.