Abstract
Impedance cardiography has become a synonym for indirect assessment of monitoring the stroke volume, cardiac output and other hemodynamic parameters by monitoring the blood volume changes of the body. In this method the changes in the impedance within a certain body segment are recorded as a measure of the physiological changes happening within that segment, thus making it suitable for assessment of physiological parameters. The accurate computer aided diagnosis of the cardiovascular diseases is gaining impetus. Accuracy and non -invasiveness of the diagnostic system have become the need of the hour. This paper presents an intelligent system for measurement of haemodynamic parameters and diagnosis of diseases with the help of impedance cardiography. The vital parameters are calculated with the bioimpedance signals obtained non-invasively along the thorax. For the diagnosis the signals are recorded across the radial artery. The multivariate analysis has been used to obtain a diagnosis index based on various time as well as frequency domain parameters.
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References
Kubicek, W.G., Karnegis, J.N., Patterson, R.P., Witsoe, D.A., Mattson, R.H.: Development and evaluation of an impedance cardiac output system. Aerospace Medicine 37(12), 1208–1212 (1966)
Sramek, B.B.: BoMed’s electrical bioimpedance technology for thoracic applications (NCCOM): Status report, May 1986 Update, pp. 19–21. BoMed Ltd., Irvine (1986)
Bernstein, D.P.: Impedance cardiography: pulsatile blood flow and the biophysical and electrodynamic basis for the stroke volume equations. Journal of Electrical Bioimpedance 1, 2–17 (2010)
Henry, I.C., Bernstein, D.P., Banet, M.J.: Stroke volume obtained from the brachial artery using transbrachial electrical bioimpedance velocimetry. In: 34th Annual International Conference of the IEEE EMBS San Diego, California, USA (2012)
Barde, P., Bhatnagar, A., Narang, R., Deepak, K.K.: Comparison of non-invasive cardiac output measurement using Indigenous impedance cardiography with invasive fick method. International Journal of Biomedical Research 3, 11 (2012)
Schmidt, C., Theilmeier, G., Van Aken, H., Korsmeier, P., Wirtz, S.P., Berendes, E., Hoffmeier, A., Meissner, A.: Comparison of electrical velocimetry and transoesophageal Doppler echocardiography for measuring stroke volume and cardiac output. British Journal of Anaesthesia 95(5), 603–610 (2005)
Sharma, Singh, A., Bhuvanesh, K., Anil, K.: Comparison of transthoracic electrical Bioimpedance cardiac output measurement with thermodilution method in post coronary artery bypass graft patients. Annals of Cardiac Anaesthesia 14-2 (2011)
Peacock, W.F., Summers, R.L., Vogel, J., Emerman, C.E.: Impact of impedance cardiography on diagnosis and therapy of emergent dyspnea: the ED-IMPACT trial. Academic Emergency Medicine 13(4), 365–371 (2006)
DeMarzo, A.P., Kelly, R.F., Calvin, J.E.: Impedance cardiography: a comparison of cardiac output vs waveform analysis for assessing left ventricular systolic dysfunction. Prog. Cardiovasc. Nurs. 22, 145–151 (2007)
Antonicelli, R., Savonitto, S., Gambini, C., et al.: Impedance cardiography for repeated determination of stroke volume in elderly hypertensives: correlation with pulse echocardiography. Angiology 42, 648–653 (1991)
Demarzo, A.P.: Using impedance cardiography to detect subclinical cardiovascular disease in women with multiple risk factors: a pilot study. Prev. Cardiol. 12, 102–108 (2009)
Ferrario, C.M., Jessup, J.A., Smith, R.D.: Hemodynamic and hormonal patterns of untreated essential hypertension in men and women. Ther. Adv. Cardiovasc. Dis. 7(6), 293–305 (2013)
Jindal, G.D., Nerurkar, S.N., Pedhnekar, S.A., Babu, J.P., Kelkar, M.D., Deshpande, A.K., Parulkar, G.B.: Diagnosis of peripheral arterial occlusive diseases using impedance plethysmography. J. Postgrad. Med. 36, 147 (1990). [serial online] [cited 2015 Jun 4]
Parmar, C.V., Prajapati, D.L., Chavda, V.V., Gokhale, P.A., Mehta, H.B.: A Study of Cardiac Parameters using Impedance Plethysmography (IPG) in Healthy Volunteers. J. Phys. Pharm. Adv. 2(11), 365–379 (2012)
Pranali, C.: Choudhari Denoising of Radial Bioimpedance Signals using Adaptive Wavelet Packet Transform and Kalman Filter, 01-08. IOSR Journal of VLSI and Signal Processing (IOSR-JVSP) 5(1), 01–08 (2015). Ver. II (Jan–Feb. 2015)
Piskorski, J., Guzik, P.: Filtering Poincare´ plots. Computational Methods in Science and Technology 11, 39–48 (2005)
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Choudhari, P.C., Panse, M.S. (2016). Intelligent System Based on Impedance Cardiography for Non-invasive Measurement and Diagnosis. In: Berretti, S., Thampi, S., Srivastava, P. (eds) Intelligent Systems Technologies and Applications. Advances in Intelligent Systems and Computing, vol 384. Springer, Cham. https://doi.org/10.1007/978-3-319-23036-8_6
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DOI: https://doi.org/10.1007/978-3-319-23036-8_6
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