The geometric and biomechanical properties of the larynx strongly influence voice quality and efficiency. A physical understanding of phonation natures in pathological conditions is important for predictions of how vo...The geometric and biomechanical properties of the larynx strongly influence voice quality and efficiency. A physical understanding of phonation natures in pathological conditions is important for predictions of how voice disorders can be treated using therapy and rehabilitation. Here, we present a continuum-based numerical model of phonation that considers complex fluid-structure interactions occurring in the airway. This model considers a three-dimensional geometry of vocal folds, muscle contractions, and viscoelastic properties to provide a realistic framework of phonation. The vocal fold motion is coupled to an unsteady compressible respiratory flow, allowing numerical simulations of normal and diseased phonations to derive clear relationships between actual laryngeal structures and model parameters such as muscle activity. As a pilot analysis of diseased phonation, we model vocal nodules, the mass lesions that can appear bilaterally on both sides of the vocal folds. Comparison of simulations with and without the nodules demonstrates how the lesions affect vocal fold motion, consequently restricting voice quality. Furthermore, we found that the minimum lung pressure required for voice production increases as nodules move closer to the center of the vocal fold. Thus, simulations using the developed model may provide essential insight into complex phonation phenomena and further elucidate the etiologic mechanisms of voice disorders.展开更多
In this study,we report on a patient who showed weak phonation following mild traumatic brain injury(TBI),which was demonstrated by diffusion tensor tractography(DTT).
Vocal fold geometry plays an important role in human phonation. The intraglottal quasi-steady pressure; velocity distributions depend upon the shape, size,; diameter of the glottis. This study reports the effects of t...Vocal fold geometry plays an important role in human phonation. The intraglottal quasi-steady pressure; velocity distributions depend upon the shape, size,; diameter of the glottis. This study reports the effects of the variation of glottal shapes on intraglottal pressures; velocities using a Plexiglas model with a glottis having nine symmetric glottal angles (uniform, as well as convergent; divergent 5°, 10°, 20°; 40°), while the minimal glottal diameter was held constant at 0.06 cm. The empirical data were supported by penalty finite element computational results. The results suggest that larger convergent glottal angles correspond to increased pressures; decreased velocities in the glottis upstream of the minimum glottal location, with a reversal of this pattern at the minimal glottal diameter location. The pressure dip near the glottal entrance for divergent glottal angles was greatest for the 10° divergence angle condition,; was sequentially less for 5°, 20°,; 40°. Flow resistance was greater for a convergent angle than a divergent angle of the same value,; least for the 10° divergent condition. Pressure recovery in the glottis suggested that the optimal glottal diffuser angle was near 10°. Results suggest that the glottal geometry has a critical relationship with phonation (especially for vocal efficiency),; therefore important significance to understanding artistic voice; clinical voice management.展开更多
Human phonation does not merely depend on the vibration of the vocal folds. Research by clinical and computer simulations has demonstrated that the false vocal fold (FVF) is an important laryngeal con-striction that p...Human phonation does not merely depend on the vibration of the vocal folds. Research by clinical and computer simulations has demonstrated that the false vocal fold (FVF) is an important laryngeal con-striction that plays a vital role during human voice production. This study explored the effects of the FVF gaps using both the three-dimensional Plexiglas model and the numerical computation methods. Twelve FVF gaps (ranging from 0.02 to 2.06 cm) were used in this study at three glottal angles (uniform and convergent/divergent 40°), two minimal glottal diameters (Dg) (0.04 cm and 0.06 cm) separately, and the constant subglottal pressure (8 cm H2O). The results suggested that (1) the intralaryngeal pressure was the lowest and the flow was the highest (least flow resistance) when the FVF gap was 1.5-2 times greater than Dg; (2) the divergent glottal angle gave lower pressure and greater flow than the conver-gent and uniform glottal angle as there were no FVF conditions; (3) the presence of the FVF decreased the effects of the glottal angle to a certain extent; and more importantly, (4) the presence of the FVF also moved the separation points downstream, straightened the glottal jet for a longer distance, decreased the overall laryngeal resistance, and reduced the energy dissipation, suggesting the significance of FVF in efficient voice production. These results may be incorporated in the phonatory models (physical or computational) for better understanding of vocal mechanics. The results might also be helpful in exploring the surgical and rehabilitative intervention of related voice problems.展开更多
Katherine Mansfield is a prominent modernist writer.The Garden Party is one of important short stories she wrote in1921.The story is full of musicality.What's more,the phonation,stress and intonation of words make...Katherine Mansfield is a prominent modernist writer.The Garden Party is one of important short stories she wrote in1921.The story is full of musicality.What's more,the phonation,stress and intonation of words make the passage possess consis-tency with the growth of Laura's inner heart,that is from excitement,hesitation to peaceful after realization.展开更多
Purpose:Onset-based differences are understudied in Auditory Neuropathy Spectrum Disorder(ANSD)in dimensions such as voice,which is addressed in the study.The study aimed to profile and predict the best metrics of ons...Purpose:Onset-based differences are understudied in Auditory Neuropathy Spectrum Disorder(ANSD)in dimensions such as voice,which is addressed in the study.The study aimed to profile and predict the best metrics of onset-related differences in acoustic vocal characteristics of early and late-onset ANSD patients.Methods:31 participants(15 early and 16 late-onset)aged 15e30 years diagnosed with ANSD were included in the study.The sustained phonation of vowel/i/recorded by the participants using android based smartphones of selected configuration was sent over email to the experimenter.Acoustic parameters(fundamental frequency,harmonic frequencies,jitter,shimmer,harmonic-to-noise ratio,cepstral peak prominence-CPP,and pitch sigma)were analysed using Praat software.Results:Results revealed significantly increased(p<0.05)fundamental frequency along with decreased F2 and F3 of/i/in the early-onset ANSD compared to the late-onset group,which can be explained based on differences in the pathophysiology of the disorder.Although not statistically significant,mean perturbations(jitter and shimmer),harmonic-to-noise ratio,cepstral peak prominence,and pitch sigma were more affected in the early-onset group,reflective of lowered auditory feedback and periodicity in their voice samples.Results of discriminant analysis marked the emergence of F2,F3,and CPP as the most sensitive metrics for onset-based group differences in voice characteristics.Conclusions:The findings from the study highlight the role of acoustical voice evaluation(especially CPP,F2&F3)in verifying the onset of ANSD disorder.The insights from the onset-based differences seen in vocal characteristics can indirectly help audiologists in deciding the management options for ANSD.展开更多
The concave-eared torrent frog(Odorrana tormota) is the first species of tailless amphibian that was evidenced to phonate and detect ultrasounds. We employed anatomic and histological methods to examine the phonatory ...The concave-eared torrent frog(Odorrana tormota) is the first species of tailless amphibian that was evidenced to phonate and detect ultrasounds. We employed anatomic and histological methods to examine the phonatory organs, including the floor of the buccal cavity, vocal cords and glottis, of O. tormota and its sympatric species including O. graminea, O. schmackeri, and Amolops wuyiensis with different fundamental frequencies, and Pelophylax nigromaculatus as a control. Our results reveal that O. tormota possesses specialized phonatory organ structures, with thinner vocal cords modulated by a moderately stronger muscular mastoideus between the medial vocal cords and the lateral cricoid cartilages, and more elastic mouth floor to likely supply faster air stream which could make the vocal cords vibrate at higher frequencies, larger relative distance between the two muscles m. intermandibulares(RDMI), and higher nucleus density of m. intermandibularis(NDMI) and m. geniohyoideus(NDMG). The results of Pearson’s correlation tests between the mean values of the above measurements and the fundamental frequencies from the five species imply that all the specialized phonatory organ structures mentioned above might be favored by higher frequency of phonation of O. tormota.展开更多
文摘The geometric and biomechanical properties of the larynx strongly influence voice quality and efficiency. A physical understanding of phonation natures in pathological conditions is important for predictions of how voice disorders can be treated using therapy and rehabilitation. Here, we present a continuum-based numerical model of phonation that considers complex fluid-structure interactions occurring in the airway. This model considers a three-dimensional geometry of vocal folds, muscle contractions, and viscoelastic properties to provide a realistic framework of phonation. The vocal fold motion is coupled to an unsteady compressible respiratory flow, allowing numerical simulations of normal and diseased phonations to derive clear relationships between actual laryngeal structures and model parameters such as muscle activity. As a pilot analysis of diseased phonation, we model vocal nodules, the mass lesions that can appear bilaterally on both sides of the vocal folds. Comparison of simulations with and without the nodules demonstrates how the lesions affect vocal fold motion, consequently restricting voice quality. Furthermore, we found that the minimum lung pressure required for voice production increases as nodules move closer to the center of the vocal fold. Thus, simulations using the developed model may provide essential insight into complex phonation phenomena and further elucidate the etiologic mechanisms of voice disorders.
基金supported by the Medical Research Center Program(2015R1A5A2009124)through the National Research Foundation of Korea(NRF)funded by the Ministry of Science,ICT and Future Planning
文摘In this study,we report on a patient who showed weak phonation following mild traumatic brain injury(TBI),which was demonstrated by diffusion tensor tractography(DTT).
基金supported by the National Natural Science Foundation of China(Grant Nos.30070212&69925101)the National Institutes of Health of America(Grant No.2 R01 DC03577).
文摘Vocal fold geometry plays an important role in human phonation. The intraglottal quasi-steady pressure; velocity distributions depend upon the shape, size,; diameter of the glottis. This study reports the effects of the variation of glottal shapes on intraglottal pressures; velocities using a Plexiglas model with a glottis having nine symmetric glottal angles (uniform, as well as convergent; divergent 5°, 10°, 20°; 40°), while the minimal glottal diameter was held constant at 0.06 cm. The empirical data were supported by penalty finite element computational results. The results suggest that larger convergent glottal angles correspond to increased pressures; decreased velocities in the glottis upstream of the minimum glottal location, with a reversal of this pattern at the minimal glottal diameter location. The pressure dip near the glottal entrance for divergent glottal angles was greatest for the 10° divergence angle condition,; was sequentially less for 5°, 20°,; 40°. Flow resistance was greater for a convergent angle than a divergent angle of the same value,; least for the 10° divergent condition. Pressure recovery in the glottis suggested that the optimal glottal diffuser angle was near 10°. Results suggest that the glottal geometry has a critical relationship with phonation (especially for vocal efficiency),; therefore important significance to understanding artistic voice; clinical voice management.
基金the National Natural Science Foundation of China (Grant No. 30770544)the National Postdoctoral Science Foundation of China (Grant No. 200704211131)
文摘Human phonation does not merely depend on the vibration of the vocal folds. Research by clinical and computer simulations has demonstrated that the false vocal fold (FVF) is an important laryngeal con-striction that plays a vital role during human voice production. This study explored the effects of the FVF gaps using both the three-dimensional Plexiglas model and the numerical computation methods. Twelve FVF gaps (ranging from 0.02 to 2.06 cm) were used in this study at three glottal angles (uniform and convergent/divergent 40°), two minimal glottal diameters (Dg) (0.04 cm and 0.06 cm) separately, and the constant subglottal pressure (8 cm H2O). The results suggested that (1) the intralaryngeal pressure was the lowest and the flow was the highest (least flow resistance) when the FVF gap was 1.5-2 times greater than Dg; (2) the divergent glottal angle gave lower pressure and greater flow than the conver-gent and uniform glottal angle as there were no FVF conditions; (3) the presence of the FVF decreased the effects of the glottal angle to a certain extent; and more importantly, (4) the presence of the FVF also moved the separation points downstream, straightened the glottal jet for a longer distance, decreased the overall laryngeal resistance, and reduced the energy dissipation, suggesting the significance of FVF in efficient voice production. These results may be incorporated in the phonatory models (physical or computational) for better understanding of vocal mechanics. The results might also be helpful in exploring the surgical and rehabilitative intervention of related voice problems.
文摘Katherine Mansfield is a prominent modernist writer.The Garden Party is one of important short stories she wrote in1921.The story is full of musicality.What's more,the phonation,stress and intonation of words make the passage possess consis-tency with the growth of Laura's inner heart,that is from excitement,hesitation to peaceful after realization.
文摘Purpose:Onset-based differences are understudied in Auditory Neuropathy Spectrum Disorder(ANSD)in dimensions such as voice,which is addressed in the study.The study aimed to profile and predict the best metrics of onset-related differences in acoustic vocal characteristics of early and late-onset ANSD patients.Methods:31 participants(15 early and 16 late-onset)aged 15e30 years diagnosed with ANSD were included in the study.The sustained phonation of vowel/i/recorded by the participants using android based smartphones of selected configuration was sent over email to the experimenter.Acoustic parameters(fundamental frequency,harmonic frequencies,jitter,shimmer,harmonic-to-noise ratio,cepstral peak prominence-CPP,and pitch sigma)were analysed using Praat software.Results:Results revealed significantly increased(p<0.05)fundamental frequency along with decreased F2 and F3 of/i/in the early-onset ANSD compared to the late-onset group,which can be explained based on differences in the pathophysiology of the disorder.Although not statistically significant,mean perturbations(jitter and shimmer),harmonic-to-noise ratio,cepstral peak prominence,and pitch sigma were more affected in the early-onset group,reflective of lowered auditory feedback and periodicity in their voice samples.Results of discriminant analysis marked the emergence of F2,F3,and CPP as the most sensitive metrics for onset-based group differences in voice characteristics.Conclusions:The findings from the study highlight the role of acoustical voice evaluation(especially CPP,F2&F3)in verifying the onset of ANSD disorder.The insights from the onset-based differences seen in vocal characteristics can indirectly help audiologists in deciding the management options for ANSD.
基金funded by the National Natural Science Foundation of China(NSFC 3073002931071906)+1 种基金the Main Direction Program of the Knowledge Innovation of Chinese Academy of Sciences(KSCX2-YW-Z-0905KSCX2-EW-J-22)
文摘The concave-eared torrent frog(Odorrana tormota) is the first species of tailless amphibian that was evidenced to phonate and detect ultrasounds. We employed anatomic and histological methods to examine the phonatory organs, including the floor of the buccal cavity, vocal cords and glottis, of O. tormota and its sympatric species including O. graminea, O. schmackeri, and Amolops wuyiensis with different fundamental frequencies, and Pelophylax nigromaculatus as a control. Our results reveal that O. tormota possesses specialized phonatory organ structures, with thinner vocal cords modulated by a moderately stronger muscular mastoideus between the medial vocal cords and the lateral cricoid cartilages, and more elastic mouth floor to likely supply faster air stream which could make the vocal cords vibrate at higher frequencies, larger relative distance between the two muscles m. intermandibulares(RDMI), and higher nucleus density of m. intermandibularis(NDMI) and m. geniohyoideus(NDMG). The results of Pearson’s correlation tests between the mean values of the above measurements and the fundamental frequencies from the five species imply that all the specialized phonatory organ structures mentioned above might be favored by higher frequency of phonation of O. tormota.
