USING 3D PRINTING TECHNOLOGY TO FULL-SCALE SIMULATION OF THE UPPER RESPIRATORY TRACT

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Oleg Avrunin
  • Yana Nosova
  • Ibrahim Younouss Abdelhamid
  • Oleksandr Gryshkov
  • Birgit Glasmacher

Organisationseinheiten

Externe Organisationen

  • Kharkov National University of Radio Electronics
Forschungs-netzwerk anzeigen

Details

Titel in ÜbersetzungWYKORZYSTANIE TECHNOLOGII DRUKOWANIA 3D DO MODELOWANIA GÓRNYCH DRÓG ODDECHOWYCH W PEŁNEJ SKALI
OriginalspracheEnglisch
Seiten (von - bis)60-63
Seitenumfang4
FachzeitschriftInformatyka, Automatyka, Pomiary w Gospodarce i Ochronie Srodowiska
Jahrgang9
Ausgabenummer4
PublikationsstatusVeröffentlicht - 15 Dez. 2019

Abstract

The project "Implementation of rapid prototyping for modelling the upper respiratory tract in normal and typical pathologies" investigates the urgent problem of improving the reliability of diagnosis and effectiveness of treatment of disorders of the nasal breathi ng. Possibilities of modern 3D-printing technology for creation of individual natural anatomical models of the upper respiratory tract and determination of their aerodynamic characteristics are considered. The characteristics of the laminar boundary layer of the air flow in the parietal region of t he nasal cavity are investigated under different modes of breathing in normal and with typical disorders of the nasal breathing. The concept of investigation of the aerodynamic indices of the anatomical structures of the respiratory system by the results of test tests of individual full-scale 3D models, obtained by the data of spiral computed tomography, is being developed. Theoretical bases of the method of computer planning of restorative rhinosurgical interventions in patients with chronic diseases of the nasal cavity are grounded, based on the change of the configuration of the anatomical structures of the nasal cavity taking into account the aerodynamic parameters of respiration. Modern distance learning and testing tools are being created to demonstrate the technology developed, to provide theoretical knowledge, practical skills and to solve situational tasks for a wide range of specialists. Development and research of natural patterns of the upper respiratory tract allows for supplementing and expanding the knowledge about the aerodynamic characteri stics of the nasal cavity, to make decisions about therapy in a short period of time. Experience of the Laboratory of the Institute for Multiphase Processes (IMP) of the Leibniz Universität Hannover (LUH) in the development and use of rapid prototyping capabilities in biotechnology will provide technical support to the project.

ASJC Scopus Sachgebiete

Zitieren

USING 3D PRINTING TECHNOLOGY TO FULL-SCALE SIMULATION OF THE UPPER RESPIRATORY TRACT. / Avrunin, Oleg; Nosova, Yana; Abdelhamid, Ibrahim Younouss et al.
in: Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Srodowiska, Jahrgang 9, Nr. 4, 15.12.2019, S. 60-63.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Avrunin, O, Nosova, Y, Abdelhamid, IY, Gryshkov, O & Glasmacher, B 2019, 'USING 3D PRINTING TECHNOLOGY TO FULL-SCALE SIMULATION OF THE UPPER RESPIRATORY TRACT', Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Srodowiska, Jg. 9, Nr. 4, S. 60-63. https://doi.org/10.35784/iapgos.681
Avrunin, O., Nosova, Y., Abdelhamid, I. Y., Gryshkov, O., & Glasmacher, B. (2019). USING 3D PRINTING TECHNOLOGY TO FULL-SCALE SIMULATION OF THE UPPER RESPIRATORY TRACT. Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Srodowiska, 9(4), 60-63. https://doi.org/10.35784/iapgos.681
Avrunin O, Nosova Y, Abdelhamid IY, Gryshkov O, Glasmacher B. USING 3D PRINTING TECHNOLOGY TO FULL-SCALE SIMULATION OF THE UPPER RESPIRATORY TRACT. Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Srodowiska. 2019 Dez 15;9(4):60-63. doi: 10.35784/iapgos.681
Avrunin, Oleg ; Nosova, Yana ; Abdelhamid, Ibrahim Younouss et al. / USING 3D PRINTING TECHNOLOGY TO FULL-SCALE SIMULATION OF THE UPPER RESPIRATORY TRACT. in: Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Srodowiska. 2019 ; Jahrgang 9, Nr. 4. S. 60-63.
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title = "USING 3D PRINTING TECHNOLOGY TO FULL-SCALE SIMULATION OF THE UPPER RESPIRATORY TRACT",
abstract = "The project {"}Implementation of rapid prototyping for modelling the upper respiratory tract in normal and typical pathologies{"} investigates the urgent problem of improving the reliability of diagnosis and effectiveness of treatment of disorders of the nasal breathi ng. Possibilities of modern 3D-printing technology for creation of individual natural anatomical models of the upper respiratory tract and determination of their aerodynamic characteristics are considered. The characteristics of the laminar boundary layer of the air flow in the parietal region of t he nasal cavity are investigated under different modes of breathing in normal and with typical disorders of the nasal breathing. The concept of investigation of the aerodynamic indices of the anatomical structures of the respiratory system by the results of test tests of individual full-scale 3D models, obtained by the data of spiral computed tomography, is being developed. Theoretical bases of the method of computer planning of restorative rhinosurgical interventions in patients with chronic diseases of the nasal cavity are grounded, based on the change of the configuration of the anatomical structures of the nasal cavity taking into account the aerodynamic parameters of respiration. Modern distance learning and testing tools are being created to demonstrate the technology developed, to provide theoretical knowledge, practical skills and to solve situational tasks for a wide range of specialists. Development and research of natural patterns of the upper respiratory tract allows for supplementing and expanding the knowledge about the aerodynamic characteri stics of the nasal cavity, to make decisions about therapy in a short period of time. Experience of the Laboratory of the Institute for Multiphase Processes (IMP) of the Leibniz Universit{\"a}t Hannover (LUH) in the development and use of rapid prototyping capabilities in biotechnology will provide technical support to the project.",
keywords = "full-scale models, nasal breathing, rhinomanometery, tomography, virtual model",
author = "Oleg Avrunin and Yana Nosova and Abdelhamid, {Ibrahim Younouss} and Oleksandr Gryshkov and Birgit Glasmacher",
note = "Funding Information: The exchange program with East European Countries funded by DAAD (Ostpartnerschaften, project number 54364768) and joint Ukraine-Germany project MESU-BMBF 2019-2020 ″3D-Model – Implementation of rapid prototyping to design and model the upper respiratory tract in normal and typical pathologies″. ",
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T1 - USING 3D PRINTING TECHNOLOGY TO FULL-SCALE SIMULATION OF THE UPPER RESPIRATORY TRACT

AU - Avrunin, Oleg

AU - Nosova, Yana

AU - Abdelhamid, Ibrahim Younouss

AU - Gryshkov, Oleksandr

AU - Glasmacher, Birgit

N1 - Funding Information: The exchange program with East European Countries funded by DAAD (Ostpartnerschaften, project number 54364768) and joint Ukraine-Germany project MESU-BMBF 2019-2020 ″3D-Model – Implementation of rapid prototyping to design and model the upper respiratory tract in normal and typical pathologies″.

PY - 2019/12/15

Y1 - 2019/12/15

N2 - The project "Implementation of rapid prototyping for modelling the upper respiratory tract in normal and typical pathologies" investigates the urgent problem of improving the reliability of diagnosis and effectiveness of treatment of disorders of the nasal breathi ng. Possibilities of modern 3D-printing technology for creation of individual natural anatomical models of the upper respiratory tract and determination of their aerodynamic characteristics are considered. The characteristics of the laminar boundary layer of the air flow in the parietal region of t he nasal cavity are investigated under different modes of breathing in normal and with typical disorders of the nasal breathing. The concept of investigation of the aerodynamic indices of the anatomical structures of the respiratory system by the results of test tests of individual full-scale 3D models, obtained by the data of spiral computed tomography, is being developed. Theoretical bases of the method of computer planning of restorative rhinosurgical interventions in patients with chronic diseases of the nasal cavity are grounded, based on the change of the configuration of the anatomical structures of the nasal cavity taking into account the aerodynamic parameters of respiration. Modern distance learning and testing tools are being created to demonstrate the technology developed, to provide theoretical knowledge, practical skills and to solve situational tasks for a wide range of specialists. Development and research of natural patterns of the upper respiratory tract allows for supplementing and expanding the knowledge about the aerodynamic characteri stics of the nasal cavity, to make decisions about therapy in a short period of time. Experience of the Laboratory of the Institute for Multiphase Processes (IMP) of the Leibniz Universität Hannover (LUH) in the development and use of rapid prototyping capabilities in biotechnology will provide technical support to the project.

AB - The project "Implementation of rapid prototyping for modelling the upper respiratory tract in normal and typical pathologies" investigates the urgent problem of improving the reliability of diagnosis and effectiveness of treatment of disorders of the nasal breathi ng. Possibilities of modern 3D-printing technology for creation of individual natural anatomical models of the upper respiratory tract and determination of their aerodynamic characteristics are considered. The characteristics of the laminar boundary layer of the air flow in the parietal region of t he nasal cavity are investigated under different modes of breathing in normal and with typical disorders of the nasal breathing. The concept of investigation of the aerodynamic indices of the anatomical structures of the respiratory system by the results of test tests of individual full-scale 3D models, obtained by the data of spiral computed tomography, is being developed. Theoretical bases of the method of computer planning of restorative rhinosurgical interventions in patients with chronic diseases of the nasal cavity are grounded, based on the change of the configuration of the anatomical structures of the nasal cavity taking into account the aerodynamic parameters of respiration. Modern distance learning and testing tools are being created to demonstrate the technology developed, to provide theoretical knowledge, practical skills and to solve situational tasks for a wide range of specialists. Development and research of natural patterns of the upper respiratory tract allows for supplementing and expanding the knowledge about the aerodynamic characteri stics of the nasal cavity, to make decisions about therapy in a short period of time. Experience of the Laboratory of the Institute for Multiphase Processes (IMP) of the Leibniz Universität Hannover (LUH) in the development and use of rapid prototyping capabilities in biotechnology will provide technical support to the project.

KW - full-scale models

KW - nasal breathing

KW - rhinomanometery

KW - tomography

KW - virtual model

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JO - Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Srodowiska

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SN - 2083-0157

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