PhiliPPine Journal of otolaryngology-head and neck Surgery Vol. 29 no. 1 January – June 2014 6 PhiliPPine Journal of otolaryngology-head and neck Surgery ORIGINAL ARTICLES ABSTRACT Objectives: To assess effects of type 3 thyroplasty on outcomes of voice quality in puberphonia. Methods: Design: Prospective Cohort Setting: Tertiary Referral Hospital Participants: Six patients with puberphonia who failed voice therapy, aged 16-25 years, who consulted at the ENT Outpatient department between September 2010 and September 2012, underwent type 3 thyroplasty. Pre-operative and 6-month post-operative voice analysis by voice recordings, Voice Handicap Index (VHI), GRBAS score and real time acoustic analysis (perturbation) using Dr Speech software (University version 4.0, Voice Tech Corporation, USA [Tiger Electronics]) with habitual fundamental frequency (F0), jitter % and shimmer % as parameters were performed. Results: Mean pre-operative VHI and GRBAS scores were 53 and 75.67, respectively, whereas post-operative scores were 29 and 25.00, respectively. (P-value for VHI was 0.004 and that of GRBAS was 0.00). On acoustic analysis, mean pre-operative habitual fundamental frequency (F0), jitter % and shimmer % was 245.82 Hz, 0.21 and 2.34, respectively, whereas post-operative mean was 140.78 Hz (P = 0.00), 0.19 (P = 0.04) and 1.52 (P = 0.00), respectively. Conclusion: The mainstay of treatment of puberphonia is voice therapy. Thyroplasty provides a suitable management option in those cases who fail to respond by voice therapy. Keywords: puberphonia, thyroplasty, laryngeal framework surgery, voice analysis Puberphonia is a condition affecting young men between ages 11-15 with an incidence of 1/900,000 per year.1, 2 It presents with increased pitch or fundamental frequency, weak, breathy, hoarse voice, pitch breaks, low intensity and psychological symptoms.1 At puberty, the voice needs to be retrained in order to cope with the larger larynx. Most boys adjust to this new change of voice. But a few do not make the transition into using their deeper voice and continue to use the high-pitched voice. This is labeled ‘puberphonia.’ So puberphonia, also called mutational falsetto, functional falsetto or persistent falsetto is defined as a post-adolescent male continuing to have a pre-adolescent voice.3, 4 Effects of Type 3 Thyroplasty on Voice Quality Outcomes in PuberphoniaKanishka Chowdhury,1 MBBS, MS ENT, Somnath Saha,MBBS, MS ENT, Sudipta Pal,1 MBBS, MS ENT, Indranil Chatterjee2 MASLP 1Department of ENT, R.G.Kar Medical College & Hospital, Kolkata 2Ali Yavar Jung National Institute for the Hearing Handicapped, Kolkata Correspondence: Dr Kanishka Chowdhury 27 Nilmoni Mitra Street Kolkata- 700006 India Phone: 91 9674172144 Email: drkanishka@gmail.com Reprints will not be available from the author. The authors declared that this represents original material that is not being considered for publication or has not been published or accepted for publication elsewhere in full or in part, in print or electronic media; that the manuscript has been read and approved by the authors, that the requirements for authorship have been met by the authors, and that the authors believe that the manuscript represents honest work. Disclosures: The authors signed disclosures that there are no financial or other (including personal) relationships, intellectual passion, political or religious beliefs, and institutional affiliations that might lead to a conflict of interest. Philipp J Otolaryngol Head Neck Surg 2014; 29 (1): 6-10 c Philippine Society of Otolaryngology – Head and Neck Surgery, Inc. PhiliPPine Journal of otolaryngology-head and neck Surgery 7 PhiliPPine Journal of otolaryngology-head and neck Surgery Vol. 29 no. 1 January – June 2014 ORIGINAL ARTICLES Outcome assessment of results of puberphonia therapy can be done in terms of different aspects of voice evaluation which includes subjective evaluation of voice, perceptual evaluation of voice and acoustic analysis along with traditional voice recordings.3 Subjective evaluation is basically a patient scale. Patient scales typically measure patient satisfaction, quality of life, general health, handicap or loss as a result of the voice disorder or some aspect of voice production.3 Several scales specific to voice have been used such as Voice Handicap Index (VHI) and Voice-Related Quality of Life (V-RQOL). Perceptual evaluation of voice can be done using various scales such as GRBAS, CAPE-V and Buffalo III. There are various parameters such as fundamental frequency, intensity, perturbation measures (shimmer%, jitter %) which are measured as part of acoustic analysis. In the present study, we tried to evaluate the effects of type 3 thyroplasty on voice outcome in puberphonia using these tools of voice analysis along with conventional recording of voice. METhODS This was a prospective cohort of puberphonia patients attending the ENT outpatient department of a tertiary referral hospital in eastern India between September 2010 and September 2012. Institutional ethical review board approval as well as informed consent was taken. Patients 15 years of age and above were included in the study. All patients were given voice therapy (primal sound production with cough and digital manipulation thrice weekly, each session for 30 minutes over three months) by three speech pathologists. As the results of voice improvement were not satisfactory, six patients underwent type 3 thyroplasty. The voice improvement was unsatisfactory in terms of: 1) Shifting of fundamental frequency (F0) was not stable: 2) Three- month therapy sessions (30 minutes daily) did not give them adequate improvement in conversational speech: and 3) Lack of motivation that affected improvement pattern. Patients included in the study were those who failed after voice therapy, without any psychological abnormality including transsexualism, no endocrine abnormality, no chronic pulmonary problems and no anesthetic contraindications. All operations were performed under local anesthesia. After thyroid cartilage exposure via midline approach, the thyroid cartilage midline was identified. (Figure 1) Perichondrium was elevated from the thyroid cartilage. A parallel incision to midline was made on both sides up to the inner perichondrium without incising it and 1.5 mm strips of cartilage were incised on either side of the midline of the thyroid cartilage with a knife. (Figure 2) Peri-operative voice assessment was made after pushing the mid portion of the cartilage. The free borders of the thyroid cartilage were approximated with 2-0 prolene sutures and the wound was closed in layers. (Figure 3) Pre-operative and 6-month post-operative comparison of voice recordings was performed by three trained listeners consisting of one otorhinolaryngologist with five years of experience in phonosurgery and two post-graduate speech language pathologists with five years of experience, VHI score, GRBAS score (we extra-plotted the GRBAS score into a 100 point visual analogue scale to increase specificity) and real time acoustic analysis (perturbation) of voice using Dr Speech software (University version 4.0, Voice Tech Corporation, USA [Tiger Electronics]) (habitual fundamental frequency (F0), jitter % and shimmer % as parameters). Statistical analysis was done using paired-t test with finite population correction (as sample size was small) using SPSS software (version 17.0, IBM, USA). Figure 1. Delineation of Midline of Thyroid Cartilage Figure 2. Making Incision Lateral to Midline of Thyroid Cartilage PhiliPPine Journal of otolaryngology-head and neck Surgery Vol. 29 no. 1 January – June 2014 ORIGINAL ARTICLES 8 PhiliPPine Journal of otolaryngology-head and neck Surgery RESulTS A total of six patients underwent surgery. Their ages ranged from 16-25 years (mean age 19 years). The mean pre-operative VHI score was 53 and post-operative was 29. Paired t test result showed that t = 0.004 (P < 0.05) which was significant. The mean pre-operative GRBAS score was 75.67 whereas post-operative score was 25.00. Paired t test result showed that t = 0.000 (P < 0.05) which was significant. Results of acoustic analysis of voice revealed mean pre operative habitual fundamental frequency; jitter % and shimmer % 245.82 Hz, 0.21 and 2.34, respectively. (Table 1) The mean post-operative values for the same parameters showed 140.78 Hz, 0.19 and 1.52, respectively. Paired t test result of habitual fundamental frequency showed that t = 0.00 (P < 0.05) which was significant. Paired t test result of jitter % showed that t = 0.04 (P < 0.05) which was significant. Paired t test result of shimmer % showed that t = 0.00 (P < 0.05) which was significant. There were no early or late postoperative complications. The post-operative voice was improved in all patients. DiSCuSSiOn Puberphonia, also called mutational falsetto, functional falsetto or persistent falsetto is a disorder of adolescent males and can be defined as a post adolescent male continuing to have a pre adolescent voice. 3,4 During infancy the laryngo-tracheal complex is situated at a higher level that gradually descends throughout life.2 The descent of larynx is most pronounced during puberty when there is also a sudden increase in the size of larynx under the influence of testosterone. This results in a voice change in the males during adolescence between 12 and 15 years of age. This voice change can be well appreciated as it changes from a high-pitched voice to a low-pitched voice. At puberty the voice thus needs to be retrained in order to cope with the larger larynx. Most boys adjust to this new change of voice. But a few do not make the transition into using their deeper voice and continue to use the prepubertal high- pitched voice. This is labeled as ‘Puberphonia’ where the larynx fails to descend and tends to be held high in the neck. The etiologies of puberphonia have been posited to include resisting change of puberty, habitual pitch, disliking new pitch after puberty, new pitch not matching personality, wanting to remain young, more identification with females, singing voice, embarrassment and anatomical differences.5, 6 The treatment of choice for puberphonia is voice therapy with which most of the patients improve.7,8 However, patients who fail to improve with conservative management should be considered for other modalities of treatment as delayed treatment and denial of the problem causes the disorder to become recalcitrant to behavioral treatment. Direct laryngoscopic manipulation has been described by Vaidya et al. where pressure was applied onto the valleculae internally by laryngoscope and externally on the thyroid cartilage with immediate improvement of pitch.9 Isshiki type 3 thyroplasty can be considered to be a definitive treatment for puberphonia as vocal pitch has been shown to be effectively lowered by this surgery without distorting the vocal quality.10 Pau and Murty (2001) were the first to report a surgically corrected case of puberphonia where they attempted surgical lowering of the hyoid and larynx in a 24-year-old male resulting in lowering of pitch from 175Hz to 142Hz.2 They mobilized the hyoid and superior halves of thyroid cartilage and reduced cricothyroid distance by apposing mobile hyoid to fixed cartilage by two non-absorbable figure of 8 sutures. However, in the classic Isshiki type 3 thyroplasty, 2 – 3 mm of vertical strips of cartilage were excised on each side of midline of thyroid cartilage.10 This procedure caused retrusion of the middle portion of the thyroid cartilage causing a reduction in the length of the vocal folds. The procedure is termed as relaxation thyroplasty by a medial approach (anterior commissure retrusion) as proposed by the Phonosurgery Committee of the European Laryngological Society.11 According to Isshiki et al. vocal cord stiffness is seen in dysphonia that is suggested by a breathy, high pitched and strained voice. Surgical A-P Table 1. Results of acoustic analysis using Dr Speech software (University version 4.0) Pre op habitual F0 (hz) Post op habitual F0 (hz) Pre op jitter % Pre op shimmer % Post op jitter % Post op shimmer % 249.07 244.98 252.67 250.24 229.32 248.64 0.21 0.19 0.24 0.22 0.18 0.24 2.16 2.62 2.24 2.62 2.22 2.18 128.51 180.24 136.68 140.24 128.38 130.64 0.22 0.18 0.19 0.2 0.14 0.19 1.48 1.6 1.42 1.64 1.4 1.58 Figure 3. Suturing Two Sides of Ala of Thyroid Cartilage PhiliPPine Journal of otolaryngology-head and neck Surgery Vol. 29 no. 1 January – June 2014 ORIGINAL ARTICLES PhiliPPine Journal of otolaryngology-head and neck Surgery 9 shortening of thyroid ala reduced the stiffness of the cord thus treating it successfully.12 In our study, we performed the classic Isshiki type 3 thyroplasty in six puberphonia patients with high pitched voice who failed to improve with voice therapy. Postoperatively there was successful lowering of the vocal pitch. Remacle et al. has shown type 3 thyroplasty to be a successful treatment option for lowering vocal pitch in cases of mutational falsetto voice recalcitrant to conservative therapy.13 Li et al. performed acoustic evaluation of Isshiki type 3 thyroplasty for treatment of mutational voice disorders in 11 male patients and concluded that the pre-operative high pitched voices of all the male patients were lowered up to the normal value by type 3 thyroplasty.14 Slavith et al. assessed the role of type 3 thyroplasty using preoperative and postoperative voice recordings as well as electroglottography and photoglottography.15 Analysis of the preoperative and postoperative data from two patients with over one year follow-up showed a decrease in frequency of vibration. Postoperatively, the vocal folds still vibrated in a regular pattern as described by the myoelastic-aerodynamic theory without any increase in jitter or shimmer quotient. They concluded that type 3 thyroplasty is capable of lowering the fundamental frequency of speech without adversely affecting the vibratory mode of the vocal folds. Different modifications of type 3 Isshiki thyroplasty have been proposed by various authors. Tucker’s procedure is less invasive whereby a superiorly based cartilage window is created at the level of anterior commissure and is pushed behind causing relaxation of the vocal folds.16 This surgical procedure is very useful in treating patients in whom psychological counseling and voice therapy have failed. Kocak et al. assessed the success rate of a less invasive modification of Isshiki type 3 thyroplasty by performing window anterior commissure relaxation laryngoplasty technique in patients with high-pitched voice disorders.17 Among 21 patients with a mean age of 30.5 years, the most frequent cause of high-pitched voice was sulcus vocalis (n = 14), followed by constitutional causes (n = 5), mutational falsetto (n = 1) and severe glottic scarring secondary to childhood diphtheria (n = 1). After surgery, the fundamental frequency dropped significantly from a mean of 213.81 Hz to 149.86 Hz (P < 0.001) equaling a mean postoperative semitone drop of 6.23. García-López et al. presented a case of a patient with dysphonia by tone elevation in relation to gender treated by type 3 thyroplasty and an updated review of the surgical technique and its outcome.18 Chandra et al. also performed Issiki’s type 3 thyroplasty in seven patients with puberphonia.19 Average pre and post-operative mean pitch was 224.42 and 137, Hz respectively. In the present series, we included only patients whose voice did not improved even after extensive voice therapy sessions. After type 3 thyroplasty, there was improvement of all the parameters of acoustic analysis. Though jitter and shimmer percentage improved, the most Table 2. Results of type 3 thyroplasty on puberphonic patients in different studies Author(s) / Year Journal Subjects Parameters Results Post operative voice frequencies were significantly decreased (p<0.05) without any statisti- cally significant differences in the pre- and post- operative measures of vocal intensity (p > 0.5). All scores of the VHI showed significant improvements (p=0.001). Among acoustic parameters, only the mean fun- damental frequency showed a significant change from 246 Hz to 134 Hz after treat- ment (p=0.001) Fundamental fre- quency dropped significantly from a mean of 213.81 Hz to 149.86 Hz (P < .001). Misperception leading to an ab- normal body image was reduced by 86%. Diplophonia with subharmonic signals was reduced or disappeared in 6 cases. Mean fundamental frequency was low- ered from 187 Hz to 104 Hz (p < 0.001), and the mean Voice Handicap Index was improved from 70 to 21. Average pre and post-operative mean pitch was 224.42 and 137 Hz respectively Mean pre-operative VHI and GRBAS score were 53 and 75.67 respectively whereas post-oper- ative score were 29 and 25 respectively. Mean pre-operative habitual fundamen- tal frequency (F0), jitter % and shim- mer % was 245.82 Hz, 0.21 and 2.34 respectively where- as post-operative mean was 140.78 Hz, 0.19 and 1.52 respectively. Voice recordings, electroglottography, photoglottography Fundamental frequency (Fo), voice frequencies, and vocal inten- sity obtained from a sustained vowel /i/ during different phonatory tasks Voice handicap index (VHI) and videolaryngostro- boscopy (VLS), fundamental frequency(F0), jitter, shimmer and normalized noise energy(NNE) Fundamental fre- quency (F0), diplo- phonia, perception of body image and pitch and subjective ratings of comfort during vocalization. Fundamental frequency (F0) of the voice and Voice Handicap Index (VHI) Mean pitch in Hz Voice recording by trained listener, VHI score, GRBAS and real time acoustic analysis (perturba- tion) of voice using Dr Speech software (University version 4.0) (habitual fun- damental frequency (F0), jitter % and shimmer % 2 male patients 11 male patients 16 male patients (Treatment given mainly voice thera- py. Thyroplasty was done in 1 patient who failed after voice therapy) 21 patients with high-pitched voice including 1 patient with puberphopnia 7 male patients with a mean age of 21 years 7 male patients 6 male patients with a mean age of 19 years Laryngoscope Journal of Laryn- gology & Otology Turkish Journal of Ear Nose and Throat Archives of Otolaryngology - Head and Neck Surgery The Annals of Otology, Rhinology, and Laryngology International Journal of Phonosurgery and Laryngology Philippine Journal of Otolaryngology Head and Neck Surgery Slavit DH, Mara- gos NE, Lipton RJ. /1990 Li GD, Mu L, Yang S. /1999 Kizilay A, Firat Y /2008 Kocak I, Dogan M, Tadihan E, Alkan Cakir Z, Bengisu S, Akpinar M. /2008 Remacle M, Matar N, Verduyckt I, Lawson G /2010 Chandra ST, Rao SM, Kumar AY, Murty PSN /2011 Chowdhury K, Saha S, Pal S, Chatterjee I/ 2014(Present study) PhiliPPine Journal of otolaryngology-head and neck Surgery Vol. 29 no. 1 January – June 2014 ORIGINAL ARTICLES 10 PhiliPPine Journal of otolaryngology-head and neck Surgery REFEREnCES Dagli M, Sati I, Acar A, Stone RE Jr, Dursun G, Eryilmaz A. 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Turkish J Ear Nose Throat. 2008 Nov-Dec; 18(6): 335-42. significant change was with fundamental frequency (mean pre- operative 245.82 to mean post-operative 140.78 Hz, P = 0.001). There was also significant subjective improvement of the patients as evident by VHI score (from pre-operative 53 to post-operative 29, p=0.004). Results of type 3 thyroplasty on puberphonic patients in different studies are summarized in Table 2. The treatment of choice for puberphonia is voice therapy. The main difficulties encountered in the treatment of puberphonia with voice therapy include stabilization of the attained fundamental frequency (F0) and widening the frequency range. Type 3 thyroplasty can offer a suitable management option in those cases that fail to respond to voice therapy or fail to sustain the results. Outcomes of surgery can be assessed by subjective improvement scales (e.g. VHI), perceptual scales (e.g. GRBAS) as well as real time acoustic analysis apart from traditional voice recordings.