|
|
|
|
References
|
|
| |
| 1. |
Rangaiyan R. M., Analiz biomeditsinskikh signalov. Prakticheskii podkhod., FIZMATLIT, M., 2010, 440 pp. |
| 2. |
Millasseau S. C., Ritter J. M., Takazawa K., Chowienczyk P. J., “Contour analysis of the photoplethysmographic pulse measured at the finger”, Journal of Hypertension., 24:8 (2006), 1449–1456  |
| 3. |
Korpas D., Halek J., Dolězal L., “Parameters describing the pulse wave”, Physiological Research., 58:8 (2009), 473–482 |
| 4. |
Allen J., “Photoplethysmography and its application in clinical physiological measurement”, Physiological Measurement, 28:3. R1-39. (2007), 1–39  |
| 5. |
Lapitan D. G., Glazkov A. A., Rogatkin D. A., “Otsenka vozrastnykh izmenenii elastichnosti stenok perifericheskikh sosudov metodom fotopletizmografii”, Meditsinskaya fizika., 87:3 (2020), 71–77 |
| 6. |
Takazawa K., Tanaka N., Fujita M., Matsuoka O., Saiki T., Aikawa M., Tamura S., Ibukiyama C., “Assessment of vasoactive agents and vascular aging by the second derivative of photoplethysmogram waveform”, Hypertension., 32:2 (1998), 365–370 |
| 7. |
Imanaga I., Hara H., Koyanagi S., Tanaka K., “Correlation between wave components of the second derivative of plethysmogram and arterial distensibility”, Japanese Heart Journal., 39:6 (1998), 775–784 |
| 8. |
Baatyrov R. T., Kalinkin M. Yu., Usanov A. D., Dobdin S. Yu., Skripal An. V., “Otsenka velichiny obratnogo krovotoka v arterii po vtoroi proizvodnoi pulsovoi volny davleniya”, Izvestiya Saratovskogo universiteta. Novaya seriya. Seriya: Fizika., 20:3 (2020), 178–182  |
| 9. |
Sokolova I. V., Yarullin X. X., “Informativnost metoda dvukhkomponentnogo analiza reogramm”, Klinicheskaya meditsina, 1983, no. 7, 94–101 |
| 10. |
Marcinkevics Z., Kusnere S., Aivars J. I., Rubins U., Zehtabi A. H., “The shape and dimensions of photoplethysmographic pulse waves : A measurement repeatability study”, Acta Universitatics Latviensis Biology, 753 (2009), 99–106 |
| 11. |
Mamontov O. V., Shcherbinin A. V., Romashko R. V., Kamshilin A. A., “Intraoperative Imaging of Cortical Blood Flow by Camera-Based Photoplethysmography at Green Light”, Applied Sciences, 10:18 (2020), 6192 pp.  |
| 12. |
Guchuk V. V., “Composite algorithm for separation of the periods of a pulse signal in medical diagnostics tasks”, Tenth International Conference «Management of LargeScale System Development» (MLSD), 2017, 1–4 |
| 13. |
Desova A. A., Guchuk V. V., Pokrovskaya I. V., Dorofeyuk A. A., “Intellektualnyi analiz kvaziperiodicheskikh biosignalov v zadachakh meditsinskoi diagnostiki (na primere pulsovogo signala)”, Avtomatika i telemekhanika, 2018, no. 11, 3–15 |
| 14. |
Desova A. A., Guchuk V. V., Dorofeyuk A. A., “A new approach to pulse signal rhythmic structure analysis”, International Journal of Biomedical Engineering and Technology., 14:2 (2014), 148–158 |
| 15. |
Nishijima T., Nakayama Y., Tsumura K., Yamashita N., Yoshimaru K., Ueda H., Yoshikawa J., “Pulsatility of ascending aortic blood pressure waveform is associated with an increased risk of coronary heart disease”, American Journal of Hypertension., 14:5 (2001), 469–473 |
| 16. |
Safar M. E., Blacher J., Pannier B., Guerin A. P., Marchais S. J., Guyonvarc'h P. M., London G. M., “Central pulse pressure and mortality in end-stage renal disease”, Hypertension., 39:3 (2002), 735–738  |
| 17. |
Roman M. J., Devereux R. B., Kizer J. R., Lee E. T., Galloway J. M., Ali T., Howard B. V., “Central pressure more strongly relates to vascular disease and outcome than does brachial pressure : The Strong Heart Study”, Hypertension., 50:1 (2007), 197–203 |
| 18. |
Kobalava Zh. D., Akhmetov R. E., Kotovskaya Yu. V., “Arterialnaya rigidnost i tsentralnoe davlenie : novye patofiziologicheskie i lechebnye kontseptsii”, Arterialnaya gipertenziya., 16:2 (2010), 126–133 |
| 19. |
Miyashita H., “Clinical assessment of central blood pressure”, Current Hypertension Reviews., 8:2 (2012), 80–90  |
| 20. |
Agnoletti D., Zhang Y., Salvi P., Borghi C., Topouchian J., Safar M. E., Blacher J., “Pulse pressure amplification, pressure waveform calibration and clinical applications”, Atherosclerosis., 224:1 (2012), 108–112 |
| 21. |
Chen C. H., Nevo E., Fetics B., Pak P. H., Yin F. C., Kass D. A., Maughan W. L., “Estimation of central aortic pressure waveform by mathematical transformation of radial tonometry pressure : Validation of generalized transfer function”, Circulation., 95:7 (1997), 1827–1836 |
| 22. |
Hope S. A., Meredith I. T., Cameron J. D., “Arterial transfer functions and the reconstruction of central aortic waveforms : Myths, controversies and misconceptions”, Journal of Hypertension., 26:1 (2008), 4–7 |
| 23. |
Kuznetsov N. A., Sinitsyn I. N., “Razvitie teoremy otschetov Kotelnikova”, UFN., 179:2 (2009), 216–218 |
