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The paper presents the results of investigations concerning the noninvasive method of estimating the actual volume of the blood chamber of the POLVAD-EXT type ventricular assist device (VAD) during its operation. The proposed method is based on the principle of Helmholtz’s acoustic resonance. Both the theory, main stages of the development of the measurement method as well as the practical implementation of the proposed method in the physical model of the POLVAD-EXT device are dealt with. The paper contains the results of static measurements by means of the proposed method (conducted at the Department of Optoelectronics, Silesian University of Technology) as well as the dynamic measurements taken at the Foundation of Cardiac Surgery Development (Zabrze, Poland) with the professional model of the human cardiovascular system. The results of these measurements prove that the proposed method allows to estimate the actual blood chamber volume with uncertainties below 10%.
Wydawca
Czasopismo
Rocznik
Tom
Strony
541--548
Opis fizyczny
Bibliogr. 19 poz., fot., rys., wykr.
Twórcy
autor
- Department of Optoelectronics, Silesian University of Technology Akademicka 2A, 44-100 Gliwice, Poland
autor
- Department of Optoelectronics, Silesian University of Technology Akademicka 2A, 44-100 Gliwice, Poland
autor
- Department of Optoelectronics, Silesian University of Technology Akademicka 2A, 44-100 Gliwice, Poland
autor
- Foundation of Cardiac Surgery Development Wolności 345a, 41-800 Zabrze, Poland
Bibliografia
- 1. Darlak M., Opilski Z., Gawlikowski M., Kustosz R., Pustelny T. (2007), Acoustic method of noninvasive blood volume monitoring in polvad pump, Artificial Organs 2007, 31, 10, pp. A58, G048.
- 2. FRK - Foundation of Cardiac Surgery Development (2014), www.frk.pl.
- 3. Chanaud R.C. (1994), Effects Of Geometry On The Resonance Frequency Of Helmholtz Resonators, Journal of Sound and Vibration, 178, 3, 337–348.
- 4. CHIU Min-Chie (2012), Noise Elimination of a Multi-tone Broadband Noise with Hybrid Helmholtz Mufflers Using a Simulated Annealing Method, 37, 4, 489-498.
- 5. Davies C.E., Webster E.S. (2010), The Use of Helmholtz Resonance for Measuring the Volume of Liquids and Solids, Sensors (Basel), 10, 10663-10672.
- 6. Ferrari G., Kozarski M., De Lazzari C., Górczyńska K., Tosti G., Darowski M. (2005), Development of a hybrid (numerical-hydraulic) circulatory model: prototype testing and its response to IABP assistance, International Journal of Artificial Organs, 28(7), 750-759.
- 7. Franco K.L., Verrier D.E. (2003), Advanced therapy in cardiac surgery, 2nd Ed., B C DECKER (CN/NY) (NEW TITLES & DIRECT ORDERS).
- 8. Grady K.L., Meyer P.M., Dressler D., Mattea A., Chillcott S., Loo A., et al. (2004), Longitudinal change in quality of life and impact on survival after left ventricular assist device implantation, The Annals of Thoracic Surgery, 77(4), 1321-1327.
- 9. Guyton A.C. (1991), Textbook of Medical Physiology, SAUNDERS Co., Philadelphia.
- 10. Kinsler L.E. Frey A.R., Coppens A.B., Sanders J.V. (2001), Fundamentals of acoustics, Wiley, New York.
- 11. Konieczny G., Opilski Z., Pustelny T., Maciak E. (2009), State of the work diagram of the artificial heart, Acta Physica Polonica A, 116, 344-347.
- 12. Konieczny G. Opilski Z., Pustelny T. (2011), Preliminary research concerning measurements of the POLVAD blood chamber volume based on Helmholtz’s acoustic resonator principle, Acta Physica Polonica A, 120, 6.
- 13. Pustelny T., Opilski Z., Maciak E., Konieczny G., Gibinski P. (2012), Acoustic device for the measurement of a temporary blood chamber volume and a method of the measurement of a temporary blood volume in the heart support device, Polish Patent Office’s Official Gazette, 19, 1010,7, P.394074.
- 14. Konieczny G. Opilski Z., Pustelny T. (2012a), The novel approach to the estimation of the blood volume in POLVAD, Lecture Notes in Computer Science, Springer Verlag, 304-309.
- 15. Konieczny G., Opilski Z., Pustelny T., Gawlikowski M. (2012b), Acoustic system for the estimation of the temporary blood chamber volume of the POLVAD heart supporting prosthesis, BioMedical Engineering Online, 11, 1-13.
- 16. Kozarski M., Ferrari G., Clemente F., Górczyńska K., De Lazzari C., Darowski M., et al. (2003), A hybrid mock circulatory system: development and testing of an electro-hydraulic impedance simulator, International Journal of Artificial Organs, 26(1), 53-63.
- 17. Opilski Z., Konieczny G., Pustelny T., Gacek A., Kustosz R., Gawlikowski M. (2011), Noninvasive acoustic blood volume measurement system for the POLVAD prosthesis, Bulletin of Polish Academy of Sciences: Technical Sciences, 59, Issue 4, 429-433.
- 18. Reichenbach S.H., Farrar D.J., Hill J.D. (2001), A Versatile Intracorporeal Ventricular Assist Device Based on the Thoratec VAD System, The Annals of Thoracic Surgery, 71,171-175.
- 19. Sasaki E., Nakatani T., Taenaka Y., Noda H., Tatsumi E., Akagi H., et al. (1991), Continuous monitoring of artificial heart pump performance, American Society for Artificial Internal Organs transactions, 37(3), M429-30.
Typ dokumentu
Bibliografia
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