Сreation Features of Devices for Testing Nasal Breathing

DOI: 10.35598/mcfpga.2020.006

Сreation Features of Devices for Testing Nasal Breathing
Yana Nosova, Maksym Tymkovych, Sofia Khudaieva, Ibrahim Younouss Abdelhamid, Oleg Avrunin, Birgit Glasmacher

II International Scientific and Practical Conference Theoretical and Applied Aspects of Device Development on Microcontrollers and FPGAs (MC&FPGA), Kharkiv, Ukraine, 2020, pp.18-21.

Abstract
The article is devoted to the questions of metrological certification of tests of the device of rhinomanometry type PRX. The main stages of the methodology of metrological certification, as well as design and technological aspects in the development of rhinomanometers with a measuring unit are described.

Keywords: respiratory, rhinomanometry, pressure drop, nasal breathing

Full Text:   PDF

References

1. Nosova, Ya V., Kh I. Faruk, and O. G. Avrunin. “A tool for researching respiratory and olfaction disorders.” Telecommunications and Radio Engineering 77.15 (2018): 1389-1395.
2. Nosova, Y., I. Younouss Abdelhamid, and O. Gryshkov. “Using 3D printing technology to full-scale simulation of the upper respiratory tract.” Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, Vol. 9, no. 4, Dec. 2019, pp. 60-63, doi:10.35784 / iapgos.681.
3. Al_Omari, Ahmad Khaleed, Husham Farouk Ismail Saied, and Olig Grigorovitsh Avrunin. “Analysis of Changes of the Hydraulic Diameter and Determination of the Air Flow Modes in the Nasal Cavity.” Image Processing and Communications Challenges 3. Springer, Berlin, Heidelberg, 2011. 303-310.
4. Fyrmpas, Georgios, et al. “The value of bilateral simultaneous nasal spirometry in the assessment of patients undergoing septoplasty.” Rhinology 49.3 (2011): 297.
5. Saied, Husham Farouk Ismail, Ahmad Khaleed Al_Omari, and Olig Grigorovitsh Avrunin. “An Attempt of the Determination of Aerodynamic Characteristics of Nasal Airways.” Image Processing and Communications Challenges 3. Springer, Berlin, Heidelberg, 2011. 311-322.
6. Zhang, G. H., et al. “Correlation between subjective assessment and objective measurement of nasal obstruction.” Zhonghua er bi yan hou tou Jing wai ke za zhi= Chinese Journal of Otorhinolaryngology Head and Neck Surgery 43.7 (2008): 484-489.
7. Tingelhoff, Kathrin, et al. “Comparison between manual and semi-automatic segmentation of nasal cavity and paranasal sinuses from CT images.” 2007 29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE, 2007.
8. Vogt, Klaus, et al. “4-Phase-Rhinomanometry (4PR)–basics and practice 2010.” Rhinology. Supplement 21 (2010): 1-50.
9. Zambetti, G., et al. “Study and application of a mathematical model for the provisional assessment of areas and nasal resistance, obtained using acoustic rhinometry and active anterior rhinomanometry.” Clinical Otolaryngology & Allied Sciences 26.4 (2001): 286-293.
10. Zhang, Gehua, et al. “Nasal airway volume and resistance to airflow.” American journal of rhinology 22.4 (2008): 371-375.
11. Ismail, Husham Farouk, et al. “The role of paranasal sinuses in the aerodynamics of the nasal cavities.” International Journal of Life Science and Medical Research 2.3 (2012): 52-55.
12. Avrunin, Oleg G., et al. “Study of the air flow mode in the nasal cavity during a forced breath.” Photonics Applications in Astronomy, Communications, Industry, and High Energy Physics Experiments 2017. Vol. 10445. International Society for Optics and Photonics, 2017.
13. Farouk, H., and O. Avrunin. “Comparison Discriminate Characteristics Between Modern TNDA-PRH Rhinomanometer And Previously Methodology.” International Journal of General Engineering and Technology (IJGET) ISSN (2013): 2278-9928.
14. SHELTON, DIANA M., and NOEMI M. EISER. “Evaluation of active anterior and posterior rhinomanometry in normal subjects.” Clinical Otolaryngology & Allied Sciences 17.2 (1992): 178-182.
15. Toh, Song‐Tar, Cheng‐Hui Lin, and Christian Guilleminault. “Usage of four‐phase high‐resolution rhinomanometry and measurement of nasal resistance in sleep‐disordered breathing.” The Laryngoscope 122.10 (2012): 2343-2349.
16. Nosova, Yana, et al. “The use of statistical characteristics of measured signals to increasing the reliability of the rhinomanometric diagnosis.” Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2016. Vol. 10031. International Society for Optics and Photonics, 2016.
17. Avrunin, Oleg G., et al. “Principles of computer planning in the functional nasal surgery.” Przegląd Elektrotechniczny 93.3 (2017): 140-143.
18. Nosova, Yana, Oleg Avrunin, and Valery Semenets. “Biotechnical system for integrated olfactometry diagnostics.” Innovative technologies and scientific solutions for industries 1 (1) (2017): 64-68.