Your search keyword '"Luegmair G"' showing total 23 results

1. Optical reconstruction of high-speed surface dynamics in an uncontrollable environment

Author

Luegmair, G., Kniesburges, S., Zimmermann, M., Sutor, A., Eysholdt, U., and Dollinger, M.

Subjects

Vocal cords -- Medical examination, Surgery, Plastic -- Analysis, Magnetic resonance imaging -- Analysis, Business, Electronics, Electronics and electrical industries, Health care industry

Published

2010

2. Auswertung: Analyse induzierter Asymmetrien mittels 3D-Rekonstruktion der Stimmlippenoberfläche bei in vitro Versuchen

Author

Hempel, E, Luegmair, G, Birk, V, Mehta, DD, Kobler, JB, and Döllinger, M

Subjects

ddc: 610, 610 Medical sciences, Medicine

Abstract

Hintergrund Heiserkeit, basierend auf funktionellen Dysphonien, wird oft mit Asymmetrien der Stimmlippenschwingung und mit Glottisschlussinsuffizienz in Verbindung gebracht. Als Ursache für eventuelle Spannungsasymmetrien werden ‚Fehlfunktionen‘ im Zusammenspiel zwischen intrinsischer[for full text, please go to the a.m. URL], 31. Wissenschaftliche Jahrestagung der Deutschen Gesellschaft für Phoniatrie und Pädaudiologie (DGPP) zusammen mit dem 5. Pädakustiker-Symposium der Akademie für Hörgeräte-Akustik

Published

2014

3. Methodik: Analyse induzierter Asymmetrien mittels 3D-Rekonstruktion der Stimmlippenoberfläche bei in vitro Versuchen

Author

Birk, V, Luegmair, G, Mehta, DD, Kobler, JB, and Döllinger, M

Subjects

ddc: 610, 610 Medical sciences, Medicine

Abstract

Hintergrund Im Allgemeinen zeichnet sich eine gesunde Stimme durch periodische und links-rechts symmetrische Oszillation der Stimmlippen aus. Im Falle einer funktionellen Dysphonie weicht das Schwingungsmuster von dem einer gesunden Stimme ab, wobei die links-rechts Asymmetrie der Stimmlippenschwingungen[for full text, please go to the a.m. URL], 31. Wissenschaftliche Jahrestagung der Deutschen Gesellschaft für Phoniatrie und Pädaudiologie (DGPP) zusammen mit dem 5. Pädakustiker-Symposium der Akademie für Hörgeräte-Akustik

Published

2014

4. Einfluss des Mucus auf Phonationseigenschaften

Author

Luegmair, G, Berry, DA, Gröhn, F, Eysholdt, U, and Döllinger, M

Subjects

ddc: 610, 610 Medical sciences, Medicine

Abstract

Hintergrund Heisere Stimmgebung weist häufig keine sichtbare anatomische Ursache auf. Hingegen werden in der Echtzeit-Video Endoskopie oft asymmetrische Bewegungen, teilweise mit Glottisschlussinsuffizienz beobachtet. Diese Asymmetrien wurden bisher vorwiegend als hypo- oder hyperfunktionelle[for full text, please go to the a.m. URL], 29. Wissenschaftliche Jahrestagung der Deutschen Gesellschaft für Phoniatrie und Pädaudiologie (DGPP)

Published

2012

5. 3D Visualisierung von endoskopisch aufgezeichneten Stimmlippenschwingungen

Author

Bohr, C, Luegmair, G, Eysholdt, U, and Döllinger, M

Subjects

ddc: 610, 610 Medical sciences, Medicine

Abstract

Die aktuelle Untersuchungsmethode für Stimmlippenschwingungen sind endoskopische Hochgeschwindigkeits (HG) -aufnahmen. Ihr Vorteil liegt in der kontinuierlichen Aufnahme der Stimmlippenbewegungen, da auch aperiodische Vorgänge festgehalten werden können. Jedoch, sind aktuelle Hochgeschwindigkeitskameras[for full text, please go to the a.m. URL], 82. Jahresversammlung der Deutschen Gesellschaft für Hals-Nasen-Ohren-Heilkunde, Kopf- und Hals-Chirurgie

Published

2011

6. Bestimmung lokaler Gewebesteifigkeit entlang der Stimmlippenkante mittels optischer Stereo-Triangulation am Beispiel exzidierter Stimmlippen von Schweinen

Author

Hüttner, B, Luegmair, G, Mathies, D, Tiemann, M, Eysholdt, U, and Döllinger, M

Subjects

ddc: 610, 610 Medical sciences, Medicine

Abstract

Einleitung und Hintergrund Die Schwingungen der Stimmlippen während der Phonation werden durch die Beschaffenheit und die elastischen Eigenschaften des beteiligten Gewebes beeinflusst. Die hier vorgestellte Methode misst in in vitro-Experimenten lokale Gewebesteifigkeiten entlang der Stimmlippenkante.[for full text, please go to the a.m. URL], 27. Wissenschaftliche Jahrestagung der Deutschen Gesellschaft für Phoniatrie und Pädaudiologie (DGPP)

Published

2010

7. Analyse der Deformationseigenschaften exzidierter humaner Stimmlippen mittels optischer Stereo-Triangulation

Author

Hüttner, B, Sutor, A, Luegmair, G, Eysholdt, U, and Döllinger, M

Subjects

ddc: 610, 610 Medical sciences, Medicine

Abstract

Einleitung Das primäre Stimmsignal wird im Kehlkopf durch Oszillationen der Stimmlippen erzeugt. Die Schwingungen lassen sich im Luftkanal mit Hilfe künstlicher Silikonstimmlippen simulieren. Um den Simulationen eine realitätsnahe Dynamik zu verleihen, müssen die Materialeigenschaften[for full text, please go to the a.m. URL], 26. Wissenschaftliche Jahrestagung der Deutschen Gesellschaft für Phoniatrie und Pädaudiologie (DGPP)

Published

2009

8. Hochgeschwindigkeitsglottographie: Der Einfluss der Kameraaufnahmefrequenz auf objektiv berechnete Parameter

Author

Gürlek, E, Luegmair, G, Eysholdt, U, Brücker, C, Döllinger, M, Gürlek, E, Luegmair, G, Eysholdt, U, Brücker, C, and Döllinger, M

Abstract

Hintergrund: Die Anwendung der Hochgeschwindigkeitsglottographie (HGG) gewinnt im wissenschaftlichen als auch im klinischen Bereich immer mehr an Bedeutung: HGG erlaubt die exakte Bestimmung von Vibrationseigenschaften der Stimmlippen innerhalb als auch zwischen unterschiedlichen Oszillationszyklen. Mittlerweile erlaubt der Einsatz der HGG Technik auch die objektive Auswertung visuell gewonnener Daten der Phonation. Aktuelle klinische Geräte (z.B. KayPENTAX, Richard Wolf GmbH) besitzen eine zeitliche Aufnahmerate zwischen 2.000-4.000 frames per second (fps) bei bis zu 512x512 Pixel räumlicher Auflösung. Die maximal mögliche Aufnahmedauer liegt zwischen 2 und 8 Sekunden. Für wissenschaftliche Studien stehen weitaus leistungsfähigere Kameras zur Verfügung: bis zu 8.000 fps (Phantom v7.3) in Farbe und bis 20.0000 fps (Photron SA-1.1) in Graustufen, bei einer gleichzeitigen räumlichen Auflösung von maximal 1.024x1.024 Pixel.Um unterschiedliche Studien vergleichen zu können oder um zukünftig klinische Normwerte für Parameter festzulegen muss bestimmt werden, welchen Einfluss unterschiedliche Aufnahmeraten oder räumliche Auflösungen auf die Parameter besitzen.Material und Methoden: Ein Segment normaler Phonation wurden bei einer Probandin mit einer Hochgeschwindigkeitskamera (Photron SA-1.1, 80 mm Linse, starres Endoskop mit 70° Optik) mit 20.000 fps aufgezeichnet. Die Aufnahmen wurden auf 15.000, 10.000, 9.000, 8.000, 7.000, ..., 1.000 fps down gesampelt. Es wurden insgesamt 45 glottale objektive Parameter berechnet.Ergebnisse: Die meisten Parameter zeigen eine Abhängigkeit bezüglich der Aufnahmefrequenz. Bei ansteigender Aufnahmefrequenz nähern sich die Parameterwerte stabilen Werten an (ab 10.000 fps).Diskussion: Im Hinblick auf zukünftigen klinischen Einsatz, muss dies berücksichtigt werden. Entweder legt man frequenzabhängige Normwerte fest oder verwendet nur Parameter, die unabhängig von der zeitlichen Abtastrate sind.

Published

2011

9. Lokale Deformationseigenschaften der Epithelschicht menschlicher Stimmlippen als Wegweiser zukünftiger chirurgischer Eingriffe

Author

Bohr, C, Hüttner, B, Luegmair, G, Döllinger, M, Bohr, C, Hüttner, B, Luegmair, G, and Döllinger, M

Published

2010

10. 3D-Echtzeit-Rekonstruktion der Stimmlippenoberfläche für in vitro- und in vivo-Messungen

Author

Luegmair, G, Hüttner, B, Kniesburges, S, Eysholdt, U, Sutor, A, Döllinger, M, Luegmair, G, Hüttner, B, Kniesburges, S, Eysholdt, U, Sutor, A, and Döllinger, M

Abstract

Hintergrund: Ein Teil des akustischen Primärsignals wird durch Turbulenzen im ausgeatmeten Luftstrom erzeugt. Maßgeblich hierfür sind die Form und das 3D-Bewegungsverhalten der Stimmlippen . Die Zusammenhänge zwischen akustischem Signal sowie Form und Verhalten der Stimmlippen sollen in in vivo-Messreihen ermittelt werden.Aktuelle in vivo-Messmethoden berücksichtigen die dreidimensionalen Bewegungen der Stimmlippe nicht (z.B. Endoskopie), liefern nur begrenzt Informationen darüber (z.B. Endoskopie und Zwei-Punkt-Laser-Verfahren) oder sind nicht in Echtzeit verfügbar (z.B. MRI-Aufnahmen).Material und Methoden: Wir präsentieren ein Verfahren, bei dem mit Hilfe einer HG-Kamera und einem Laserprojektionssystem die gesamte sichtbare Stimmlippenoberfläche während der Phonation trianguliert wird. Die Methode wird exemplarisch an einem Schweinekehlkopf und künstlichen Stimmlippen angewendet. Die Messdaten werden zum Zweck der verbesserten Visualisierung selektiv in Tiefen-Kymogramme überführt.Ergebnisse: Die Messergebnisse zeigen deutliche Asymmetrien zwischen den linken und rechten Stimmlippen. Des Weiteren kann der Verlauf der Randkantenverschiebung beim Schweinekehlkopf deutlich erkannt und quantifiziert werden .Diskussion: Da die Messergebnisse von der gesamten Stimmlippenoberfläche vorliegen, lassen sich sowohl lokale als auch globale Schlüsse ziehen. So kann z.B. die Asymmetrie der linken und rechten Stimmlippen die Entstehung der Turbulenzen durch den Coanda-Effekt erklären. Zusätzlich lässt der Verlauf der Randkantenverschiebung darauf schließen, dass diese durch die Kollision der Stimmlippen erzeugt wird, im Gegensatz zu der in vorgestellten Theorie.

Published

2010

11. Substitute Voice Production: Quantification of PE Segment Vibrations Using a Biomechanical Model

Author

Schwarz, R., primary, Huttner, B., additional, Döllinger, Michael, additional, Luegmair, G., additional, Eysholdt, U., additional, Schuster, M., additional, Lohscheller, J., additional, and Gurlek, E., additional

Published

2011

12. Optical 3-D Metric Measurements of Local Vocal Fold Deformation Characteristics in an In Vitro Setup

Author

Huttner, B., primary, Sutor, A., additional, Luegmair, G., additional, Rupitsch, S. J., additional, Lerch, R., additional, and Döllinger, M., additional

Published

2011

13. Analysis of deformation characteristics of excised human vocal folds by optical stereo-triangulation

Author

Hüttner, B., Alexander Sutor, Luegmair, G., Bohr, C., Eysholdt, U., and Döllinger, M.

14. Telemedical Concepts for Heart Failure Patients Treated with a Wearable Cardioverter Defibrillator.

Author

Reiss N, Schmidt T, Hoffmann JD, Kunzendorf S, Luegmair G, Tröger T, Buj C, and Müller-von Aschwege F

Subjects

Death, Sudden, Cardiac, Defibrillators, Electric Countershock, Humans, Defibrillators, Implantable, Heart Failure therapy, Wearable Electronic Devices

Abstract

Over the last few decades, implantable defibrillators have become an established method of treating malign cardiac arrhythmias. There are some situations, however, in which it would be premature to implant a permanent defibrillator. In such cases, a wearable cardioverter defibrillator (WCD) can provide temporary relief and protect patients from life-threatening cardiac arrhythmias. Treatment with WCD is now included in national and international guidelines. Nevertheless, there are still some deficits in connection with WCD, especially regarding rescue chain optimization. For example, there is currently no telemedical link in place to emergency call centers and healthcare practitioners in the case of an event. Likewise, there are still some problems with rhythm analysis, concerning both shock delivery and cardiopulmonary resuscitation (CPR). These deficits are now to be addressed within the framework of MiniDefi, a project funded by the German Federal Ministry of Education and Research (BMBF). The concepts are described here for the first time.

Published

2020

15. Tissue-Engineered Vocal Fold Mucosa Implantation in Rabbits.

Author

Shiba TL, Hardy J, Luegmair G, Zhang Z, and Long JL

Subjects

Adipose Tissue cytology, Animals, Cells, Cultured, Disease Models, Animal, Laryngoscopy, Phonation, Prospective Studies, Rabbits, Regeneration, Stem Cell Transplantation, Tissue Scaffolds, Wound Healing, Tissue Engineering methods, Vocal Cords surgery

Abstract

Objective: To assess phonatory function and wound healing of a tissue-engineered vocal fold mucosa (TE-VFM) in rabbits. An "artificial" vocal fold would be valuable for reconstructing refractory scars and resection defects, particularly one that uses readily available autologous cells and scaffold. This work implants a candidate TE-VFM after resecting native epithelium and lamina propria in rabbits., Study Design: Prospective animal study., Setting: Research laboratory., Subjects and Methods: Rabbit adipose-derived stem cells were isolated and cultured in three-dimensional fibrin scaffolds to form TE-VFM. Eight rabbits underwent laryngofissure, unilateral European Laryngologic Society type 2 cordectomy, and immediate reconstruction with TE-VFM. After 4 weeks, larynges were excised, phonated, and examined by histology., Results: Uniform TE-VFM implants were created, with rabbit mesenchymal cells populated throughout fibrin hydrogels. Rabbits recovered uneventfully after implantation. Phonation was achieved in all, with mucosal waves evident at the implant site. Histology after 4 weeks showed resorbed fibrin matrix, continuous epithelium, and mildly increased collagen relative to contralateral unoperated vocal folds. Elastic fiber appearance was highly variable. Inflammatory cell infiltrate was limited to animals receiving sex-mismatched implants., Conclusion: TE-VFMs were successfully implanted into 8 rabbits, with minor evidence of scar formation and immune reaction. Vibration was preserved 4 weeks after resecting and reconstructing the complete vocal fold cover layer. Further studies will investigate the mechanism and durability of improvement. TE-VFM with autologous cells is a promising new approach for vocal fold reconstruction., (© American Academy of Otolaryngology—Head and Neck Surgery Foundation 2016.)

Published

2016

16. Three-Dimensional Optical Reconstruction of Vocal Fold Kinematics Using High-Speed Video With a Laser Projection System.

Author

Luegmair G, Mehta DD, Kobler JB, and Döllinger M

Subjects

Biomechanical Phenomena, Humans, Lasers, Imaging, Three-Dimensional methods, Video Recording methods, Vocal Cords anatomy & histology, Vocal Cords physiology

Abstract

Vocal fold kinematics and its interaction with aerodynamic characteristics play a primary role in acoustic sound production of the human voice. Investigating the temporal details of these kinematics using high-speed videoendoscopic imaging techniques has proven challenging in part due to the limitations of quantifying complex vocal fold vibratory behavior using only two spatial dimensions. Thus, we propose an optical method of reconstructing the superior vocal fold surface in three spatial dimensions using a high-speed video camera and laser projection system. Using stereo-triangulation principles, we extend the camera-laser projector method and present an efficient image processing workflow to generate the three-dimensional vocal fold surfaces during phonation captured at 4000 frames per second. Initial results are provided for airflow-driven vibration of an ex vivo vocal fold model in which at least 75% of visible laser points contributed to the reconstructed surface. The method captures the vertical motion of the vocal folds at a high accuracy to allow for the computation of three-dimensional mucosal wave features such as vibratory amplitude, velocity, and asymmetry.

Published

2015

17. Preliminary Study of the Open Quotient in an Ex Vivo Perfused Human Larynx.

Author

Mendelsohn AH, Zhang Z, Luegmair G, Orestes M, and Berke GS

Subjects

Humans, Kymography, Models, Biological, Tissue Culture Techniques, Electric Stimulation, Glottis physiopathology, Laryngeal Muscles physiopathology, Phonation physiology

Abstract

Importance: Scientific understanding of human voice production to date is a product of indirect investigations including animal models, cadaveric tissue study, or computational modeling. To our knowledge, direct experimentation of human voice production has previously not been possible owing to its invasive nature. The feasibility of an ex vivo perfused human phonatory model has recently allowed systematic investigation in virtually living human larynges with parametric laryngeal muscle stimulation., Objective: To investigate the association between adductor muscle group stimulation and the open quotient (OQ) (the fraction of the cycle during which the glottis remains open) of vocal fold vibration., Design, Setting, and Participants: An ex vivo perfused human tissue study was conducted at a physiology laboratory. Human larynx recovered from organ donors within 2 hours of cardiac death was used. The study was performed on May 19, 2014; data analysis took place from June 1, 2014, to December 15, 2014., Interventions: Perfusion with donated human blood was reestablished shortly after cardiac death. Ex vivo perfused human phonation was then achieved by providing subglottal airflow under graded neuromuscular electrical stimulation bilaterally to the intrinsic adductor groups and cricothyroid muscles., Main Outcomes and Measures: Phonation resulting from the graded states of neuromuscular stimulation was evaluated using high-speed vibratory imaging; the OQ was derived through digital kymography and glottal area waveform analysis., Results: During constant glottal flow, a stepwise increase in adductor muscle group stimulation decreased the OQ. Quantitatively, OQ values decreased with increased stimulation levels from 2 V (OQ, 1) to 5 V (OQ, 0.68) and reached a lower limit of 8 V (OQ, 0.42). Increased stimulation above maximal muscle deformation was unable to affect OQ beyond this lower limit., Conclusions and Relevance: To our knowledge, a negative association between adductor muscle group stimulation and phonatory OQ has been demonstrated for the first time in a neuromuscularly activated human larynx. Further experience with the ex vivo perfused human phonatory model will aid in systematically defining this causal relationship.

Published

2015

18. In vivo vocal fold cover layer replacement.

Author

Long J, Salinas J, Rafizadeh S, Luegmair G, Zhang Z, and Chhetri D

Subjects

Animals, Elastic Modulus, Models, Animal, Phonation, Rabbits, Replantation, Video Recording, Vocal Cords physiopathology, Vocal Cords surgery

Abstract

Objectives/hypothesis: An animal vocal fold replacement model is needed to investigate treatments for vocal fold scarring. We developed a rabbit surgical model, hypothesizing that orthotopic vocal fold cover implants would attach and survive. We further hypothesized that superficial scarring would be limited, allowing unimpeded vibration., Study Design: Translational research: animal surgical study., Methods: Rabbit vocal fold covers were excised and immediately reimplanted. After 4 weeks, rabbits were phonated and vibration was recorded with high-speed videography. Larynges were then excised, elastic moduli measured by indentation, and covers sectioned for histology., Results: Five of six rabbits survived. Phonation was achieved in all, with mucosal waves evident. Elastic modulus did not differ significantly from contralateral uninjured control vocal folds. Histology demonstrated epithelial integrity, partial preservation of elastic fibers, and variable degrees of collagen deposition., Conclusions: Vocal fold cover implantation in rabbits is feasible, and grafts survived. Attachment onto the thyroarytenoid muscle prevented excessive scarring, maintained tissue mechanics, and preserved mucosal vibration., Level of Evidence: NA., (© 2014 The American Laryngological, Rhinological and Otological Society, Inc.)

Published

2015

19. Development of a time-dependent numerical model for the assessment of non-stationary pharyngoesophageal tissue vibrations after total laryngectomy.

Author

Hüttner B, Luegmair G, Patel RR, Ziethe A, Eysholdt U, Bohr C, Sebova I, Semmler M, and Döllinger M

Subjects

Computer Simulation, Female, Humans, Male, Middle Aged, Oscillometry methods, Time Factors, Treatment Outcome, Vibration, Esophagus physiopathology, Esophagus surgery, Laryngectomy, Larynx physiopathology, Larynx surgery, Models, Biological

Abstract

Laryngeal cancer due to, e.g., extensive smoking and/or alcohol consumption can necessitate the excision of the entire larynx. After such a total laryngectomy, the voice generating structures are lost and with that the quality of life of the concerning patients is drastically reduced. However, the vibrations of the remaining tissue in the so called pharyngoesophageal (PE) segment can be applied as alternative sound generator. Tissue, scar, and geometric aspects of the PE-segment determine the postoperative substitute voice characteristic, being highly important for the future live of the patient. So far, PE-dynamics are simulated by a biomechanical model which is restricted to stationary vibrations, i.e., variations in pitch and amplitude cannot be handled. In order to investigate the dynamical range of PE-vibrations, knowledge about the temporal processes during substitute voice production is of crucial interest. Thus, time-dependent model parameters are suggested in order to quantify non-stationary PE-vibrations and drawing conclusions on the temporal characteristics of tissue stiffness, oscillating mass, pressure, and geometric distributions within the PE-segment. To adapt the numerical model to the PE-vibrations, an automatic, block-based optimization procedure is applied, comprising a combined global and local optimization approach. The suggested optimization procedure is validated with 75 synthetic data sets, simulating non-stationary oscillations of differently shaped PE-segments. The application to four high-speed recordings is shown and discussed. The correlation between model and PE-dynamics is ≥ 97%.

Published

2015

20. THE ROLE OF THE THYROARYTENOID MUSCLE IN REGULATING GLOTTAL AIRFLOW AND GLOTTAL CLOSURE IN AN IN VIVO CANINE LARYNX MODEL.

Author

Luegmair G, Chhetri DK, and Zhang Z

Abstract

This study investigated the effectiveness of individual laryngeal muscles in regulating the mean glottal flow and glottal closure pattern during phonation in an in vivo canine larynx model. Phonation experiments were performed with parametric stimulation of the thyroarytenoid (TA), lateral cricoarytenoid (LCA), interarytenoid (IA), and the cricothyroid (CT) muscles. For each stimulation level, the subglottal pressure was gradually increased to produce phonation. The subglottal pressure, the volume flow, and the outside acoustic pressure were measured together with high-speed recording of vocal fold vibration from a superior view. The results show that the TA muscle played a dominant role in regulating both the membranous glottal width and the glottal closure pattern during phonation, indicating an important role of the TA muscle in regulating voice quality. The TA muscle activation was also the most effective in regulating the mean glottal flow, and thus an important laryngeal adjustment in airflow conservation, particularly at high subglottal pressures or loud voice production, although increasing TA activation decreased the vocal intensity. This study also presented a complete set of data on muscular control of the glottal width and voice production, which can be used in validation of computational models of vocal fold posturing and voice production.

Published

2014

21. Preliminary results on the influence of engineered artificial mucus layer on phonation.

Author

Döllinger M, Gröhn F, Berry DA, Eysholdt U, and Luegmair G

Subjects

Aged, 80 and over, Cadaver, Female, Humans, Male, Middle Aged, Pilot Projects, Polymers pharmacology, Sodium Chloride pharmacology, Solutions pharmacology, Sound Spectrography, Vibration, Voice physiology, Larynx physiology, Mucus physiology, Phonation physiology, Voice Disorders physiopathology, Voice Disorders therapy

Abstract

PURPOSE Previous studies have confirmed the influence of dehydration and an altered mucus (e.g., due to pathologies) on phonation. However, the underlying reasons for these influences are not fully understood. This study was a preliminary inquiry into the influences of mucus architecture and concentration on vocal fold oscillation. METHOD Two excised human larynges were investigated in an in vitro setup. The oscillations of the vocal folds at various airflow volume rates were recorded through the use of high-speed imaging. Engineered mucus containing polymers (interconnected polymers and linear polymers) was applied to the vocal folds. From the high-speed footage, glottal parameters were extracted through the use of objective methods and were compared to a gold standard (physiological saline solution). RESULTS Variations were found for all applications of mucus. Fundamental frequency dropped and the oscillatory behavior (speed quotient [SQ], closing quotient [CQ]) changed for both larynges. The 2 applied mucus architectures displayed different effects on the larynges. The interconnected polymer displayed clear low-pass filter characteristics not found for the linear polymer. Increase of polymer concentration affected parameters to a certain point. CONCLUSION The data confirm results found in previous studies. Furthermore, the different effects-comparing architecture and concentration-suggest that, in the future, synthetic mucus can be designed to improve phonation.

Published

2014

22. Effects of the epilarynx area on vocal fold dynamics and the primary voice signal.

Author

Döllinger M, Berry DA, Luegmair G, Hüttner B, and Bohr C

Subjects

Aged, Biomechanical Phenomena, Female, Humans, Larynx anatomy & histology, Linear Models, Middle Aged, Models, Biological, Motion, Pressure, Rheology, Rotation, Time Factors, Vocal Cords anatomy & histology, Larynx physiology, Phonation, Speech Acoustics, Vocal Cords physiology, Voice Quality

Abstract

For the analysis of vocal fold dynamics, sub- and supraglottal influences must be taken into account, as recent studies have shown. In this work, we analyze the influence of changes in the epilaryngeal area on vocal fold dynamics. We investigate two excised female larynges in a hemilarynx setup combined with a synthetic vocal tract consisting of hard plastic and simulating the vowel /a/. Eigenmodes, amplitudes, and velocities of the oscillations, the subglottal pressures (P(sub)), and sound pressure levels (SPLs) of the generated signal are investigated as a function of three distinctive epilaryngeal areas (28.4 mm(2), 71.0 mm(2), and 205.9 mm(2)). The results showed that the SPL is independent of the epilarynx cross section and exhibits a nonlinear relation to the insufflated airflow. The P(sub) decreased with an increase in the epilaryngeal area and displayed linear relations to the airflow. The principal eigenfunctions (EEFs) from the vocal fold dynamics exhibited lateral movement for the first EEF and rotational motion for the second EEF. In total, the first two EEFs covered a minimum of 60% of the energy, with an average of more than 50% for the first EEF. Correlations to the epilarynx areas were not found. Maximal values for amplitudes (up to 2.5 mm) and velocities (up to 1.57 mm/ms) changed with varying epilaryngeal area but did not show consistent behavior for both larynges. We conclude that the size of the epilaryngeal area has significant influence on vocal fold dynamics but does not significantly affect the resultant SPL., (Copyright © 2012 The Voice Foundation. Published by Mosby, Inc. All rights reserved.)

Published

2012

23. Experiments on Analysing Voice Production: Excised (Human, Animal) and In Vivo (Animal) Approaches.

Author

Döllinger M, Kobler J, Berry DA, Mehta DD, Luegmair G, and Bohr C

Abstract

Experiments on human and on animal excised specimens as well as in vivo animal preparations are so far the most realistic approaches to simulate the in vivo process of human phonation. These experiments do not have the disadvantage of limited space within the neck and enable studies of the actual organ necessary for phonation, i.e., the larynx. The studies additionally allow the analysis of flow, vocal fold dynamics, and resulting acoustics in relation to well-defined laryngeal alterations., Purpose of Review: This paper provides an overview of the applications and usefulness of excised (human/animal) specimen and in vivo animal experiments in voice research. These experiments have enabled visualization and analysis of dehydration effects, vocal fold scarring, bifurcation and chaotic vibrations, three-dimensional vibrations, aerodynamic effects, and mucosal wave propagation along the medial surface. Quantitative data will be shown to give an overview of measured laryngeal parameter values. As yet, a full understanding of all existing interactions in voice production has not been achieved, and thus, where possible, we try to indicate areas needing further study., Recent Findings: A further motivation behind this review is to highlight recent findings and technologies related to the study of vocal fold dynamics and its applications. For example, studies of interactions between vocal tract airflow and generation of acoustics have recently shown that airflow superior to the glottis is governed by not only vocal fold dynamics but also by subglottal and supraglottal structures. In addition, promising new methods to investigate kinematics and dynamics have been reported recently, including dynamic optical coherence tomography, X-ray stroboscopy and three-dimensional reconstruction with laser projection systems. Finally, we touch on the relevance of vocal fold dynamics to clinical laryngology and to clinically-oriented research.

Published

2011