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An approach to remote monitoring of fetal intracardiac hemodynamic

Keywords:

D.A. Medvedeva - Bachelor of Information Technology, Engineer Institute of Biological Instrumentation of the RAS; Graduate Student, Pushchino State Institute of Natural Sciences
E-mail: dariamedrussia@gmail.com
A.P. Kazantsev - Ph. D. (Eng.), Associate Professor, Pushchino State Institute of Natural Sciences; Senior Research, Institute of Biological Instrumentation of the RAS; Head of the Laboratory of Biomedical Research
Ju.N. Ponomareva - Dr. Sc. (Med.), Professor, Department of Obstetrics and Gynecology, Moscow State University of Medicine and Dentistry
E.M. Chatskis - Head of the Department of Ultrasound Diagnostics, Road Clinical Hospital at the Chita-2 Station of Russian Railways
A.A. Senin - Ph. D. (Eng.), Research Scientist, Pushchino State Institute of Natural Sciences and the Institute of Biological Instrumentation of RAS
N.S. Minaev - Bachelor of Economics, Graduate Student, Pushchino State Institute of Natural Sciences; Engineer, Institute of Biological Instrumentation of the RAS
L.M. Subbotina - Bachelor of Mathematics, Graduate Student, Pushchino State Institute of Natural Sciences; Engineer, Institute of Biological Instrumentation of the RAS
V.G. Kryakov - Ph. D. (Eng.), Associate Professor, Department of Information and Measurement and Biomedical Engineering, Ryazan State Radio Engineering University, Laureate of the Ryazan Region Prize for Science and Technology Named After Academician V.F. Utkin


The problem of rehabilitation of patients with postoperative defects of the dentoalveolar region requires an integrated approach. A variety of diagnostic methods and techniques for manufacturing prostheses allow, in each case, to choose the most correct approach to recovery, both function and aesthetic composition of the face. We have examined various methods for diagnosing defects in the maxillofacial region, comparing them by key criteria. The analysis of the amount of radiation radiation received by the patient in the diagnosis using various diagnostic tools is carried out. Both traditional methods of making dentures and modern milling and SLA printing technologies are considered. Based on the experience of using various methods, a comparison of diagnostic and prosthetics in different clinical situations was made.

References:
  1. Ageeva M.I. Doplerograficheskoe issledovanie vnutriserdechnoj gemodinamiki ploda pri fiziologicheskom ego razvitii vo II–III trimestrax beremennosti // Ul'trazvukovaya i funkczional'naya diagnostika. 2005. № 3. S. 11–20.
  2. Medvedeva D.A., Kazanczev A.P., Ponomareva Ju.N., Chaczkis E.M., Senin A.A., Minaev N.S., Abramov A.M. Imitaczionnaya model' doplerometrii vnutriserdechnogo krovotoka ploda // Biomediczinskaya radioe'lektronika. 2016. № 6. S. 38–44.
  3. Kazantsev A., Ponomareva J., Kazantsev P. Development and validation of an AI-enabled mHealth technology for in-home pregnancy management // Proc. of the 2014 International Conference on Information Science, Electronics and Electrical Engineering. Apr. 26-28, 2014, Sapporo City, Hokkaido, Japan. Beijing: IEEE. 2014. P. 927–931.
  4. Kazantsev A.P., Senin A.A., Ponomareva J.N., Mochalova M.N. An mHealth approach to remote fetal monitoring. // Proc. of the Int. Healthcare Innovation Conference (HIC), 8–10 Oct. 2014. Seattle. WA. USA. IEEE. 2014. P. 239–242.
  5. Kazanczev A.P., Senin A.A., Ponomareva Ju.N., Mochalova M.N., Proshin E.M. Podxod k sozdaniyu massovoj telemediczinskoj texnologii domashnego monitoringa ploda // Biomediczinskaya radioe'lektronika. 2015. № 5. S. 37–45.
  6. Kazantsev A., Ponomareva J., Kazantsev P., Digilov R., and Ping Huang. Development of e-health network for in-home pregnancy surveillance based on artificial intelligence // Proc. 2012 IEEE-EMBS Int.Conf. BHI. Hong Kong. 2012. P. 82–84.
  7. Svidetel'stvo o gosudarstvennoj registraczii programmy' dlya E'VM № 2014612803. Cifrovaya zapis' i indikacziya audiosignala ul'trazvukovogo doplerovskogo zonda s peredachej danny'x na udalenny'j server pri monitoringe ploda posredstvom mobil'nogo ustrojstva na platforme Android // A.A. Senin, A.P. Kazanczev .
  8. Mann S., Haykin S. The chirplet transform: Physical considerations // IEEE Trans. Signal Processing. 1995. V. 43. P. 2745–2461.
  9. Ry'bakova M.K., Mit'kov V.V. Differenczial'naya diagnostika v e'xokardiografii (+ DVD) // VIDAR. M. 2011. 232 s.
  10. Ry'bakova M.K., Mit'kov V.V. E'xokardiografiya v tabliczax i sxemax. Nastol'ny'j spravochnik // VIDAR. M. 2011. 288 s.
  11. Bunin A., Strizhakov A., Medvedev M., Ageeva M. Diagnostic Importance of Dopplerometry in Cases of Fetal Development Retardation // Obstetrics & Gynecology. 1999. V. 12. P. 41.
  12. Kenny J.F., Plappert T., Doubilet P., Saltzman D.H., Cartier M., Zollars L., Leatherman G.F., St. John Sutton M.G. Changes in intracardiac blood flow velocities and right and left ventricular stroke volumes with gestational age in the normal human fetus: a prospective Doppler echocardiographic study // Circulation. 1986. V. 74: 1208-1216. Dallas, TX.
  13. Jantarasaengaram S., Vairojanavong K. Eleven fetal echocardiographic planes using 4-dimensional ultrasound with spatio-temporal image correlation (STIC): a logical approach to fetal heart volume analysis // Cardiovascular Ultrasound. 2010.
  14. Parasuraman R., Osmond C., Howe D.T. Gestation-specific reference intervals for fetal cardiac Doppler indices from 12 to 40 weeks of gestation // Journal of Obstetrics and Gynecology. 2013. V. 3. P. 97–104. Southhampton. UK.
  15. Luewan S., Yanase Y., Tongprasert F., Srisupundit K. and Tongsong T. Fetal cardiac dimensions at 14–40 weeks gestation obtained using cardio-STIC-M // in Ultrasound Obstet Gynecology. 2011. V. 37. P. 416–422.
  16. Sharland G.K., Allan L.D. Normal fetal cardiac measurements derived by cross-sectional echocardiography // Ultrasound Obstet Gynecol. 2, 1992. P. 175–181.
  17. Ben-Ami M., Peleg D., Haddad S. and Perlitz Y. Normal cardiac flow velocities at 14–16 weeks of gestation measured by transvaginal ultrasound // Ultrasound Obstet Gynecol. 2002. V. 19: P. 47–50.
  18. Mielke G., Benda N. Blood flow velocity waveforms of the fetal pulmonary artery and the ductus arteriosus: reference ranges from 13 weeks to term // Ultrasound Obstet Gynecol. 2000. V. 15. P. 213–218.
  19. Reed K.L., Meijboom E.J., Sahn D.J., Scagnelli S.A., Valdes-Cruz L.M. and Shenker L. Cardiac Doppler flow velocities in human fetuses // Circulation. 1986. V. 73. P. 41–46.
  20. Stankovic Z., Allen B.D., Garcia J., Jarvis K.B., Mark M. 4D flow imaging with MRI // Cardiovascular Diagnosis and Therapy. 2014. V. 4(2). P. 173–192.
  21. Van Der Geest R.J., Garg P. Advanced analysis techniques for intra-cardiac flow evaluation from 4D flow MRI // Current Radiology Reports, 2016. V. 4, № 38.
  22. Töger J., Carlsson M., Söderlind G., Arheden H., Heiberg E. Volume Tracking: A new method for quantitative assessment and visualization of intracardiac blood flow from three-dimensional, timeresolved, three-component magnetic resonance velocity mapping // BMC Medical Imaging. 2011. V. 11. № 10.
  23. Heiberg E., Pahlm-Webb U., Agarwa S., Bergvall E., Fransson H., Steding-Ehrenborg K., Carlsson M. and Arheden H. Longitudinal strain from velocity encoded cardiovascular magnetic resonance: a validation study // Journal of Cardiovascular Magnetic Resonance. 2013. V. 15. № 15. 
  24. Togger J. Measurement and analysis of intracardiac blood flow and vortex ring formation // Doctoral Theses in Mathematical Sciences 2014. V. 5. Lund, Sweden.
  25. Eriksson J. Quantification of 4D Left Ventricular Blood Flow in Health and Disease // Doctoral Theses, Division of Cardiovascular Medicine Department of Medical and Health Sciences, Linköping University, Linköping, Sweden. 2013.
  26. Three-dimentional model of the real adult heart. [Online]. Available: http://prototypster.ru/gallery/item/427/, accessed Nov. 28. 2016.
June 24, 2020
May 29, 2020

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