1 Bless DM,Patel RS,Connor N.Laryngeal imaging:strobosocpy,high-speed digital imaging and kymography[M].In:Fried;Ferlito,eds.The Larynx.3.San Diego,Oxford,and Brisbane:Plural Publishing,2009.182~191.

2 Krausert CR,Olszewski AE,Taylor LN,et al.Mucosal wave measurement and visualization techniques[J].J Voice,2011,25:395.

3 Kendall KA.High-speed laryngeal imaging compared with videostroboscopy in healthy subjects[J].Arch Otolaryngol Head Neck Surg,2009,135:274.

4 Bonilha HS,Deliyski DD.Period and glottal width irregularities in vocally normal speakers[J].J Voice,2008,22:699.

5 Larsson H,Hertegard S,Lindestad PA,et al.Vocal fold vibrations:high-speed imaging,kymograhy,and acoustic analysis:apreliminary report[J].Laryngoscope,2000,110:2 117.

6 Roy N,Gouse M,Mauszycki SC,et al.Task specificity in adductor spasmodic dysphonia versus muscle tension dysphonia[J].Laryngoscope,2005,115:311.

7 Orlikoff RF,Deliyski DD,Baken RJ,et al.Validation of a glottographic measure of vocal attack[J].J Voice,2009,23:164.

8 Mehta DD,Deliyski DD,Zeitels SM,et al.Voice production mechanisms following phonosurgical treatment of early glottic cancer[J].Ann Otol Rhinol Laryngol,2010,119:1.

9 Kimura M,Imagawa H,Nito T,et al.Arytenoid adduction for correcting vocal fold asymmetry:high-speed imaging[J].Ann Otol Rhinol Laryngol,2010,119:439.

10 Svec JG,Sram F,Schutte HK.Videokymography in voice disorders:what to look for[J]?The Annals of Otology,Rhinology,and Laryngology,2007,116:172.

11 Piazza C,Mangili S,Del Bon F,et al.Quantitative analysis of videokymography in normal and pathological vocal folds:apreliminary study[J].Eur Arch Otorhinolaryngol,2012,269:207.

12 Deliyski DD,Hillman RE.State of the art laryngeal imaging:research and clinical implications[J].Curr Opin Otolaryngol Head Neck Surg,2010,18:147.

13 Pontes PA,Madazio G,Behlau M,et al.The influence of the position of the laryngeal endoscope on videokymography[J].Braz J Otorhinolaryngol,2005,71:803.

14 Krenmayr A,Wllner T,Supper N,et al.Visualizing phase relations of the vocal folds by means of high-speed videoendoscopy[J].J Voice,2012,26:471.

15 Qiu Q,Schutte HK.Real-time kymographic imaging for visualizing human vocal-fold vibratory function[J].Rev Sci Instrum,2007,78:024 302..

16 Zhang Y,Krausert CR,Kelly MP,et al.Typing vocal fold vibratory patterns in excised larynx experiments via digital kymography[J].Ann Otol Rhinol Laryngol,2009,118:598.

17 Chodara AM,Krausert CR,Jiang JJ.Kymographic characterization of vibration in human vocal folds with nodules and polyps[J].Laryngoscope,2012,122:58.

18 Deliyski DD.Endoscope motion compensation for laryngeal high-speed videoendoscopy[J].J Voice,2005,19:485.

19 Sung MW,Kim KH,Koh TY,et al.Videostrobokymography:a new method for the quantitative analysis of vocal fold vibration[J].Laryngoscope,1999,109:1 859.

20 Kim DY,Kim LS,Kim KH,et al.Videostrobokymographic analysis of benign vocal fold lesions[J].Acta Otolaryngol(Stockh),2003,123:1 102.

21 Szkiekowska A,Mias′kiewicz B,Krasnodbska P,et al.The videostrobo-kymography in phoniatric practice[J].Otolaryngol Pol,2012,66:214.

22 George NA,de Mul FF,Qiu Q,et al.Depth kymography:high-speed calibrated 3Dimaging of human vocal fold vibration dynamics[J].Phys Med Biol,2008,53:2 667.

23 de Mul FF,George NA,Qiu Q,et al.Depth-kymography of vocal fold vibrations:part II.Simulations and direct comparisons with 3Dprofile measurements[J].Phys Med Biol,2009,54:3 955.

24 Klein AM,Pierce MC,Zeitels SM,et al.Imaging the human vocal folds in vivo with optical coherence tomography:apreliminary experience[J].Ann Otol Rhinol Laryngol,2006,115:277.

25 Vokes DE,Jackson R,Guo S,et al.Optical coherence tomography-enhanced microlaryngoscopy:preliminary report of a noncontact optical coherence tomography system integrated with a surgical microscope[J].Ann Otol Rhinol Laryngol,2008,117:538.

26 Burns JA,Kim KH,Kobler JB,et al.Real-time tracking of vocal fold injections with optical coherence tomography[J].Laryngoscope,2009,119:2 182.

27 Yu L,Liu G,Rubinstein M,et al.Office-based dynamic imaging of vocal cords in awake patients with swept-source optical coherence tomography[J].J Biomed Opt,2009,14:64 020.

28 Hu A,Wilson T,Ladak H,et al.Three-dimensional educational computer model of the larynx:voicing a new direction[J].Arch Otolaryngol Head Neck Surg,2009,135:677.

29 Herrera VL,Viereck JC,Lopez-Guerra G,et al.Tesla magnetic resonance microimaging of laryngeal tissue architecture[J].Laryngoscope,2009,119:2 187.

30 Ahmad M,Dargaud J,Morin A,et al.Dynamic MRI of larynx and vocal fold vibrations in normal phonation[J].J Voice,2009,23:235.