题名

Determination of Glottic Opening Fluctuation by a New Method Based on Nasopharyngoscopy

DOI

10.4077/CJP.2013.BAA072

作者

Yuan-Yuan Chen;Geoffrey Maksym;Timothy Brown;Lin-Hong Deng

关键词

glottis ; nasopharyngoscope ; vocal fold ; vocal fold dysfunction ; breathing ; cough

期刊名称

The Chinese Journal of Physiology

卷期/出版年月

56卷1期(2013 / 02 / 01)

页次

52 - 57

内容语文

英文
英文摘要

Understanding the opening fluctuation of glottis is meaningful in diagnosing vocal cord dysfunction. Nasopharyngoscopy can offer a direct method for visualizing the opening and closing of the glottis. However, the large amount of image data presents a significant challenge for quantitative analysis of the video recordings. Thus, automatic image processing method allowing for batch analysis of glottic images becomes clinically important. Here, we present an image processing method using Gaussian smoothing filter and threshold segmentation, followed by differentiation and Canny image edge detection for tracking changes in glottis dimensions (the opening area). A quantitative assessment of true glottic size was also developed for calibration in our study. This method was used to analyze different video data acquired from clinical nasopharyngoscopy of 8 healthy subjects during either normal breathing, breathing with cough or with 'Hee' sound. The results indicated that the computed glottic area change waveform was consistent with the observed glottic fluctuation in the video from nasopharyngoscopy. Thus, our proposed method may provide an accurate and efficient detection of glottic aperture and quick assessment of glottic fluctuations to assist clinical diagnosis of vocal cord dysfunction and other airway pathologies.
主题分类 醫藥衛生 > 基礎醫學
参考文献
  1. Asari, K.V.,Kumar, S.,Radhakrishnan, D.(1999).Technique of distortion correction in endoscopic images using a polynomial expansion.Med. Biol. Eng. Comput.,37,8-12.
  2. Baier, H.,Wanner, A.,Zarzecki, S.,Sackner, M.A.(1977).Relationships among glottis opening, respiratory flow, and upper airway resistance in humans.J. Appl. Physiol.,43,603-611.
  3. Benninger, C.,Parsons, J.P.,Mastronarde, J.G.(2011).Vocal cord dysfunction and asthma.Curr. Opin. Pulm. Med.,17,45-49.
  4. Brancatisano, T.,Collett, P.W.,Engel, L.A.(1983).Respiratory movements of the vocal cords.J. Appl. Physiol.,54,1269-1276.
  5. Canny, J.(1986).A Computational Approach to Edge-Detection.IEEE Trans. Pattern Anal. Mach. Intell.,8,679-698.
  6. Czaja, P.,Soja, J.,Grzanka, P.,Cmiel, A.,Szczeklik, A.,Sladek, K.(2007).Assessment of airway caliber in quantitative videobronchoscopy.Respiration,74,432-438.
  7. Dailey, S.H.,Kobler, J.B.,Hillman, R.E.,Tangrom, K.,Thananart, E.,Mauri, M.,Zeitels, S.M.(2005).Endoscopic measurement of vocal fold movement during adduction and abduction.Laryngoscope,115,178-183.
  8. Dorffel, W.V.,Fietze, I.,Hentschel, D.,Liebetruth, J.,Ruckert, Y.,Rogalla, P.,Wernecke, K.D.,Baumann, G.,Witt, C.(1999).A new bronchoscopic method to measure airway size.Eur. Respir. J.,14,783-788.
  9. England, S.J.,Bartlett, D.,Daubenspeck, J.A.(1982).Influence of human vocal cord movements on airflow and resistance during eupnea.J. Appl. Physiol.,52,773-779.
  10. Gimenez, L.M.,Zafra, H.(2011).Vocal cord dysfunction: an update.Ann. Allergy Asthma Immunol.,106,267-274.
  11. Greenberger, P.A.,Grammer, L.C.(2010).Pulmonary disorders, including vocal cord dysfunction.J. Allergy Clin. Immunol.,125,S248-S254.
  12. Hanson, D.G.,Jiang, J.,D''Agostino, M.,Herzon, G.(1995).Clinical measurement of mucosal wave velocity using simultaneous photo-glottography and laryngostroboscopy.Ann. Otol. Rhinol. Laryngol.,104,340-349.
  13. Jackson, A.C.,Gulesian, P.J.,Mead, J.(1975).Glottal aperture during panting with voluntary limitation of tidal volume.J. Appl. Physiol.,39,834-836.
  14. Kouwenhoven, E.,Mast, F.,van Rijk-Zwikker, G.L.(1993).Geometrical reconstruction of images obtained with electronic endoscopy.Phys. Med. Biol.,38,13-24.
  15. Ma, J.F.,Bu, J.J.,Hou, K.,Bao, S.L.,Chen, C.(2011).An energy conduction model for cell image segmentation.Chinese Sci. Bull.,56,1048-1054.
  16. Rattenborg, C.(1961).Laryngeal regulation of respiration.Acta Anaesthesiol. Scand.,5,129-140.
  17. Rigau, J.,Farre, R.,Trepat, X.,Shusterman, D.,Navajas, D.(2004).Oscillometric assessment of airway obstruction in a mechanical model of vocal cord dysfunction.J. Biomech.,37,37-43.
  18. Smith, W.E.,Vakil, N.,Maislin, S.A.(1992).Correction of distortion in endoscope images.IEEE Trans. Med. Imaging,11,117-122.
  19. Strauss, R.A.(2007).Flexible endoscopic nasopharyngoscopy.Atlas Oral Maxillofac Surg. Clin. North Am.,15,111-128.
  20. Yin, Y.S.,Zhao, X.Y.,Tian, X.F.,Li, J.(2007).Feature-point-extracting-based automatically mosaic for composite microscopic images.Chinese Sci. Bull.,52,1291-1295.
  21. Zhang, Y.,Bieging, E.,Tsui, H.,Jiang, J.J.(2004).Efficient and effective extraction of vocal fold vibratory patterns from high-speed digital imaging.J. Voice,24,21-29.
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