Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults

Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults

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internalnotes Bempong, D. K., Houghton, P. J., & Steadman, K. (1993). The xanthine content of guarana and its preparations. Int. J. Pharmacog., 31(3), 175-81. http://dx.doi.org/10.3109/13880209309082937 Biopac Student Lab Manual. (2008). Biopac Systems Inc., USA. Bunker, M., & McWilliams, M. (1979). Caffeine content of common beverages. J. Am Diet Assoc., 74(1), 28-32. Gacek, A., & Pedrycz, W. (2011). ECG Signal Processing, Classification and Interpretation: A Comprehensive Framework of Computational Intelligence. London, Springer. Grosz, A., & Szatmari, A. (2008). The history, ingredients and effects of energy drinks. Orvosi Hetilap, 149(47), 2237-2244. http://dx.doi.org/10.1556/OH.2008.28491. Ishak, W. W., Ugochukwu, C., Bagot, K., Khalili, D., & Zaky, C. (2012). Energy Drinks: Psychological Effects and Impacts on Well-being and Quality of Life- A Literature Review. Innov Clin Neurosci., 9(1), 25-34. Islam, M. M., Uddin, M. B., & Ahmad, M. (2012). Determination of the Effect of Having Energy Drinks on Respiratory and Heart Function Analyzing Blood Perfusion Signal. Proc. of Int. Conf. on Com. & Inf. Tec. (ICCIT’12), 113-118. http://dx.doi.org/10.1109/ICCITechn.2012.6509703 Malinauskas, B. M., Aeby, V. G., Overton, R. F., Carpenter-Aeby, T., & Barber-Heidal, K. A. (2007). A survey of energy drinks consumption patterns among college students. Nutr J., 6, 35. http://dx.doi.org/10.1186 /1475-2891-6-35 Rahman, M. N., Khatun, F., & Islam, M. M. (2013). Analyzing the Effect of Having Energy Drinks on Metabolic, Sympathetic and Myogenic Function by Wavelet Transform Using Laser Doppler Flowmetry. Proc. of Int. Conf. on Inf., Elec. & Vis. (ICIEV’13), 1-6. http://dx.doi.org/ 10.1109/ICIEV.2013.6572559 Seifert, S. M., Schaechter, J. L., Hershorin, E. R., & Lipshultz, S. E. (2011). Health Effects of Energy Drinks on Children, Adolescents, and Young Adults. Pediatrics, 12(3), 511-528. http://dx.doi.org/10.1542/peds.2009 -3592. Steinke, L., Lanfear, D. E., Dhanapal, V., & Kalus, J. S. (2009). Effect of ‘energy drink’ consumption on hemodynamic and electrocardiographic parameters in healthy young adults. Ann Pharmacother, 43(4),596-602. http://dx.doi.org/10.1345/aph.1L614 Walraven, G. (2011). Basic Arrhythmias (7th ed.). New Jetsey: Prentice Hall. Yoo, H. J., & Hoof, C. (2010). Bio-Medical CMOSICs. New York: Springer-Verlag.
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spelling 15109 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=15109 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal application/pdf Adobe Acrobat Pro DC 20 Paper Capture Plug-in with ClearScan 10 1.6 administrator Administrator 2024-08-29 09:40:13 4920-01-FH02-FRTK-14-00381.pdf UniSZA Private Access Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults Modern Applied Science The aim of this study is to investigate the effects of caffeinated beverage consumption on electrocardiographic parameters with several healthy young persons. Electrocardiogram (ECG) recordings have been performed with electrode lead set connected to MP36 data acquisition unit (Biopac, USA). Recordings of ECG as well as their analysis have been done using Biopac softwares at both before and after the consumption of caffeinated beverage available in Bangladesh. After having caffeinated beverage, the ECG parameters such as peak amplitude of different waves and their corresponding intervals of ECG signal have changed significantly. The peak amplitude of Q and S waves has not changed so significantly but P and T waves showed maximum decrement about 6% and 23% respectively. Besides, maximum increment in R peak of ECG is about 11% which may cause short term boost. Among different intervals of ECG, change in RR interval is more significant. RR interval increases from about 0.85 to 0.89 sec which is mainly liable to decrease heart rate from about 71 to 67 bpm due to the consumption of caffeinated beverage. The findings highlight insufficient increment in R peak amplitude but net decrement in peak amplitude of P and T waves as well as heart rate which may cause cardiac abnormality due to the regular consumption of caffeinated beverage. 8 2 Canadian Center of Science and Education Canadian Center of Science and Education 69-77 Bempong, D. K., Houghton, P. J., & Steadman, K. (1993). The xanthine content of guarana and its preparations. Int. J. Pharmacog., 31(3), 175-81. http://dx.doi.org/10.3109/13880209309082937 Biopac Student Lab Manual. (2008). Biopac Systems Inc., USA. Bunker, M., & McWilliams, M. (1979). Caffeine content of common beverages. J. Am Diet Assoc., 74(1), 28-32. Gacek, A., & Pedrycz, W. (2011). ECG Signal Processing, Classification and Interpretation: A Comprehensive Framework of Computational Intelligence. London, Springer. Grosz, A., & Szatmari, A. (2008). The history, ingredients and effects of energy drinks. Orvosi Hetilap, 149(47), 2237-2244. http://dx.doi.org/10.1556/OH.2008.28491. Ishak, W. W., Ugochukwu, C., Bagot, K., Khalili, D., & Zaky, C. (2012). Energy Drinks: Psychological Effects and Impacts on Well-being and Quality of Life- A Literature Review. Innov Clin Neurosci., 9(1), 25-34. Islam, M. M., Uddin, M. B., & Ahmad, M. (2012). Determination of the Effect of Having Energy Drinks on Respiratory and Heart Function Analyzing Blood Perfusion Signal. Proc. of Int. Conf. on Com. & Inf. Tec. (ICCIT’12), 113-118. http://dx.doi.org/10.1109/ICCITechn.2012.6509703 Malinauskas, B. M., Aeby, V. G., Overton, R. F., Carpenter-Aeby, T., & Barber-Heidal, K. A. (2007). A survey of energy drinks consumption patterns among college students. Nutr J., 6, 35. http://dx.doi.org/10.1186 /1475-2891-6-35 Rahman, M. N., Khatun, F., & Islam, M. M. (2013). Analyzing the Effect of Having Energy Drinks on Metabolic, Sympathetic and Myogenic Function by Wavelet Transform Using Laser Doppler Flowmetry. Proc. of Int. Conf. on Inf., Elec. & Vis. (ICIEV’13), 1-6. http://dx.doi.org/ 10.1109/ICIEV.2013.6572559 Seifert, S. M., Schaechter, J. L., Hershorin, E. R., & Lipshultz, S. E. (2011). Health Effects of Energy Drinks on Children, Adolescents, and Young Adults. Pediatrics, 12(3), 511-528. http://dx.doi.org/10.1542/peds.2009 -3592. Steinke, L., Lanfear, D. E., Dhanapal, V., & Kalus, J. S. (2009). Effect of ‘energy drink’ consumption on hemodynamic and electrocardiographic parameters in healthy young adults. Ann Pharmacother, 43(4),596-602. http://dx.doi.org/10.1345/aph.1L614 Walraven, G. (2011). Basic Arrhythmias (7th ed.). New Jetsey: Prentice Hall. Yoo, H. J., & Hoof, C. (2010). Bio-Medical CMOSICs. New York: Springer-Verlag.
spellingShingle Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults
summary The aim of this study is to investigate the effects of caffeinated beverage consumption on electrocardiographic parameters with several healthy young persons. Electrocardiogram (ECG) recordings have been performed with electrode lead set connected to MP36 data acquisition unit (Biopac, USA). Recordings of ECG as well as their analysis have been done using Biopac softwares at both before and after the consumption of caffeinated beverage available in Bangladesh. After having caffeinated beverage, the ECG parameters such as peak amplitude of different waves and their corresponding intervals of ECG signal have changed significantly. The peak amplitude of Q and S waves has not changed so significantly but P and T waves showed maximum decrement about 6% and 23% respectively. Besides, maximum increment in R peak of ECG is about 11% which may cause short term boost. Among different intervals of ECG, change in RR interval is more significant. RR interval increases from about 0.85 to 0.89 sec which is mainly liable to decrease heart rate from about 71 to 67 bpm due to the consumption of caffeinated beverage. The findings highlight insufficient increment in R peak amplitude but net decrement in peak amplitude of P and T waves as well as heart rate which may cause cardiac abnormality due to the regular consumption of caffeinated beverage.
title Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults
title_full Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults
title_fullStr Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults
title_full_unstemmed Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults
title_short Effects of Caffeinated Beverage Consumption on Electrocardiographic Parameters among Healthy Adults
title_sort effects of caffeinated beverage consumption on electrocardiographic parameters among healthy adults

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