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1860797962484973568
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| building |
INTELEK Repository
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| collection |
Online Access
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| collectionurl |
https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072
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| date |
2024-08-29 09:39:30
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| format |
Restricted Document
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| id |
15108
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UniSZA
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| internalnotes |
Ahmad, M., A. Islam, T.T.K. Munia, M.A. Rashid and T.M.N.T. Mansur, 2012. Physiological signal analysis for cognitive state estimation. Biomed. Eng-App. Bas. C., 24(1): 57-69. Babu, K.M., R.J. Church and W. Lewander, 2008. Energy drinks: The new eye-opened for adolescents. Clin Pediatr. Emerg. Med., 9(1): 35-42. Bracic, M. and A. Stefanovska, 1998. Wavelet based analysis of human blood flow dynamics. B. Math. Biol., 60: 417-433. Bunker, M. and M. McWilliams, 1979. Caffeine content of common beverages. J. Am. Diet. Assoc., 74(1): 28-32. Dworzariski, W., G. Opielak and F. Burdan, 2009. Side effect of caffeine. Pol. Merkur Lekarski, 27(161): 357-361. Grosz, A. and A. Szatmari, 2008. The history, ingredients and effects of energy drinks. Orvosi Hetilap., 149(47): 2237-2244. Ilechie, A. and S. Tetteh, 2011. Acute effects of consumption of energy drinks on intraocular pressure and blood pressure. Clin. Optomet., 3: 5-12. Ishak, W.W., C. Ugochukwu, K. Bagot, D. Khalili and C. Zaky, 2012. Energy drinks: Psychological effects and impact on well-being and quality of life-a literature review. Innov. Clin. Neurosci., 9(1): 25-34. Islam, M.M., M.B. Uddin and M. Ahmad, 2012. Determination of the effect of having energy drinks on respiratory and heart function analyzing blood perfusion signal. Proceeding of 15th Internaional Conference on Computer and Information Technology (ICCIT, 2012). Chittagong, Bangladesh, pp: 113-118. Malinauskas, B.M., V.G. Aeby, R.F. Overton, T. Carpenter-Aeby and K. Barber-Heidal, 2007. A survey of energy drink consumption patterns among college students. Nutr. J., 6: 35. MuXck-Weymann, M.E., H.P. Albrecht, D. Hager, D. Hiller, O.P. Hornstein and R.D. Bauer, 1996. Respiratory-dependent laser-doppler flux motion in different skin areas and its meaning to autonomic nervous control of the vassel of the skin. Microvasc. Res., 52: 69-78. Rahman, M.N., F. Khatun and M.M. Islam, 2013. Analyzing the effect of having energy drinks on metabolic, sympathetic and myogenic function by wavelet transform using laser doppler flowmetry. Proceeding of 2nd Internaional Conference on Information Elec. and Vision (ICIEV, 2013). Dhaka, Bangladesh, pp: 1-6. Reissig, C.J., E.C. Strain and R.R. Griffiths, 2009. Caffeinated energy drinks: A growing problem. Drug. Alcohol. Depen., 99(1-3): 1-10. Seifert, S.M., J.L. Schaechter, E.R. Hershorin and S.E. Lipshultz, 2011. Health effects of energy drinks on children, adolescents and young adults. Pediatrics, 127(3): 511-528. Stefanovska, A. and P. Kroselj, 1997. Correlation integral and frequency analysis of cardiovascular function. Open Syst. Inf. Dyn., 4: 457-478. Steinke, L. and D. Lanfear, 2009. Effect of ‘energy drink’ consumption on hemodynamic and electrocardiographic parameters in healthy young adults. Ann. Pharmacother., 43(4): 596-602.
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4905-01-FH02-FBK-14-00348.pdf
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Adobe Acrobat 20.6
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oai_dc
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https://intelek.unisza.edu.my/intelek/pages/view.php?ref=15108
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| spelling |
15108 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=15108 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 11 1.6 Adobe Acrobat 20.6 2024-08-29 09:39:30 4905-01-FH02-FBK-14-00348.pdf UniSZA Private Access “Cardiac function evaluation analyzing spectral components due to the consumption of energy drinks” Research Journal of Applied Sciences, Engineering and Technology The aim of this study is to investigate the effect of energy drinks consumption on cardiac function of human being by analyzing the spectral components of pulse and ECG of several healthy people. Using pulse transducer connected with MP36 (Biopac, USA) data acquisition unit, pulse recordings were performed. With electrode lead set connected to the same MP36 data acquisition unit, ECG recordings were also performed. At before and after the consumption of energy drinks available in Bangladesh, pulse and ECG recordings as well as analysis were performed with Biopac software. After having energy drinks, the spectral components such as power of spectral density and amplitude of fast Fourier transform of pulse signal decreased about 47.5 and 37%, respectively. In case of ECG signal, the spectral components such as power of spectral density and amplitude of fast Fourier transform increased about 17 and 7.5% within a short interval about 0-20 min, then effective decrements about 10 and 18.5%, respectively started for long duration. Analyzing spectral parameters, the findings highlight the adverse impacts on cardiac function which may cause cardiac abnormality as well as severe cardiac disease due to the regular consumption of energy drinks. 7 18 3906-3915 Ahmad, M., A. Islam, T.T.K. Munia, M.A. Rashid and T.M.N.T. Mansur, 2012. Physiological signal analysis for cognitive state estimation. Biomed. Eng-App. Bas. C., 24(1): 57-69. Babu, K.M., R.J. Church and W. Lewander, 2008. Energy drinks: The new eye-opened for adolescents. Clin Pediatr. Emerg. Med., 9(1): 35-42. Bracic, M. and A. Stefanovska, 1998. Wavelet based analysis of human blood flow dynamics. B. Math. Biol., 60: 417-433. Bunker, M. and M. McWilliams, 1979. Caffeine content of common beverages. J. Am. Diet. Assoc., 74(1): 28-32. Dworzariski, W., G. Opielak and F. Burdan, 2009. Side effect of caffeine. Pol. Merkur Lekarski, 27(161): 357-361. Grosz, A. and A. Szatmari, 2008. The history, ingredients and effects of energy drinks. Orvosi Hetilap., 149(47): 2237-2244. Ilechie, A. and S. Tetteh, 2011. Acute effects of consumption of energy drinks on intraocular pressure and blood pressure. Clin. Optomet., 3: 5-12. Ishak, W.W., C. Ugochukwu, K. Bagot, D. Khalili and C. Zaky, 2012. Energy drinks: Psychological effects and impact on well-being and quality of life-a literature review. Innov. Clin. Neurosci., 9(1): 25-34. Islam, M.M., M.B. Uddin and M. Ahmad, 2012. Determination of the effect of having energy drinks on respiratory and heart function analyzing blood perfusion signal. Proceeding of 15th Internaional Conference on Computer and Information Technology (ICCIT, 2012). Chittagong, Bangladesh, pp: 113-118. Malinauskas, B.M., V.G. Aeby, R.F. Overton, T. Carpenter-Aeby and K. Barber-Heidal, 2007. A survey of energy drink consumption patterns among college students. Nutr. J., 6: 35. MuXck-Weymann, M.E., H.P. Albrecht, D. Hager, D. Hiller, O.P. Hornstein and R.D. Bauer, 1996. Respiratory-dependent laser-doppler flux motion in different skin areas and its meaning to autonomic nervous control of the vassel of the skin. Microvasc. Res., 52: 69-78. Rahman, M.N., F. Khatun and M.M. Islam, 2013. Analyzing the effect of having energy drinks on metabolic, sympathetic and myogenic function by wavelet transform using laser doppler flowmetry. Proceeding of 2nd Internaional Conference on Information Elec. and Vision (ICIEV, 2013). Dhaka, Bangladesh, pp: 1-6. Reissig, C.J., E.C. Strain and R.R. Griffiths, 2009. Caffeinated energy drinks: A growing problem. Drug. Alcohol. Depen., 99(1-3): 1-10. Seifert, S.M., J.L. Schaechter, E.R. Hershorin and S.E. Lipshultz, 2011. Health effects of energy drinks on children, adolescents and young adults. Pediatrics, 127(3): 511-528. Stefanovska, A. and P. Kroselj, 1997. Correlation integral and frequency analysis of cardiovascular function. Open Syst. Inf. Dyn., 4: 457-478. Steinke, L. and D. Lanfear, 2009. Effect of ‘energy drink’ consumption on hemodynamic and electrocardiographic parameters in healthy young adults. Ann. Pharmacother., 43(4): 596-602.
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| spellingShingle |
“Cardiac function evaluation analyzing spectral components due to the consumption of energy drinks”
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| summary |
The aim of this study is to investigate the effect of energy drinks consumption on cardiac function of human being by analyzing the spectral components of pulse and ECG of several healthy people. Using pulse transducer connected with MP36 (Biopac, USA) data acquisition unit, pulse recordings were performed. With electrode lead set connected to the same MP36 data acquisition unit, ECG recordings were also performed. At before and after the consumption of energy drinks available in Bangladesh, pulse and ECG recordings as well as analysis were performed with Biopac software. After having energy drinks, the spectral components such as power of spectral density and amplitude of fast Fourier transform of pulse signal decreased about 47.5 and 37%, respectively. In case of ECG signal, the spectral components such as power of spectral density and amplitude of fast Fourier transform increased about 17 and 7.5% within a short interval about 0-20 min, then effective decrements about 10 and 18.5%, respectively started for long duration. Analyzing spectral parameters, the findings highlight the adverse impacts on cardiac function which may cause cardiac abnormality as well as severe cardiac disease due to the regular consumption of energy drinks.
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| title |
“Cardiac function evaluation analyzing spectral components due to the consumption of energy drinks”
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| title_full |
“Cardiac function evaluation analyzing spectral components due to the consumption of energy drinks”
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| title_fullStr |
“Cardiac function evaluation analyzing spectral components due to the consumption of energy drinks”
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| title_full_unstemmed |
“Cardiac function evaluation analyzing spectral components due to the consumption of energy drinks”
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| title_short |
“Cardiac function evaluation analyzing spectral components due to the consumption of energy drinks”
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| title_sort |
“cardiac function evaluation analyzing spectral components due to the consumption of energy drinks”
|