Abstract
Objective
This study evaluated the swallowing and voice function of laryngeal cancer patients after Supracricoid Partial Laryngectomy(SCPL), and its influence on quality of life to provide a reference for the selection of surgical methods for laryngeal cancer patients.
Methods
Twenty-one patients who received SCPL between April 2015 and November 2021 were included. Each patient’s swallowing function and quality of life were assessed through fiberoptic endoscopic examination of swallowing (FEES) and the M.D. Anderson Dysphagia Inventory (MDADI). Fundamental, jitter, shimmer, maximum phonation time (MPT), and voice handicap index-10 (VHI-10) were performed to assess voice function and voice-related quality of life.
Results
The results of the FEES of the 21 patients were as follows: the rates of pharyngeal residue after swallowing solid, semiliquid, and liquid food were 0%, 28.57%, and 38.09%, respectively; the rates of laryngeal infiltration after swallowing solid, semiliquid, and liquid food were 0%, 28.57%, and 4.76%, respectively; and aspiration did not occur in any of the patients. In the evaluation of swallowing quality of life, the mean total MDADI score was 92.6 ± 6.32. The voice function evaluation showed that the mean F0, jitter, shimmer, and MPT values were 156.01 ± 120.87 (HZ), 11.57 ± 6.21 (%), 35.37 ± 14.16 (%) and 7.85 ± 6.08 (s), respectively. The mean total VHI-10 score was 7.14 ± 4.84.
Conclusion
SCPL provides patients with satisfactory swallowing and voice function. The patients in this study were satisfied with their quality of life in terms of swallowing and voice. SCPL can be used as a surgical method to preserve laryngeal function in patients with laryngeal cancer.
Similar content being viewed by others
Avoid common mistakes on your manuscript.
Introduction
Supracricoid partial laryngectomy was originally proposed by Majer et al. as an operative method that preserves laryngeal function in individuals with laryngeal cancer and was later modified by Piquet et al. [1, 2]. SCPL can be used in the treatment of early- and advanced-stage laryngeal cancer or in laryngeal cancer patients for whom radiotherapy has failed [3, 4]. Compared with a total laryngectomy, SCPL can achieve a good local control rate [5] and preserve patients' swallowing, breathing, and articulation functions.
SCPL requires the retention of the cricoid cartilage, at least one arytenoid cartilage, and the mobile cricoarytenoid joint. Depending on the scope of resection and the anastomosis, the surgical methods can be divided into cricohyoidopexy (CHP), cricohyoidoepiglottopexy (CHEP), tracheocricohyoidopexy (TCHP), and tracheocricohyoidoepiglottopexy (TCHEP). Due to the absence of most of the laryngeal cavity structure in postoperative patients, swallowing dysfunction and voice dysfunction are common postoperative complications.
In the short term, all patients with SCPL will have a certain degree of dietary choking cough that may lead to aspiration pneumonia and can be life-threatening in severe cases. However, different research institutions have reached different conclusions regarding whether patients who undergo SCPL have chronic aspiration more than half a year after surgery, whether the quality of life of these patients is affected by aspiration, and whether total laryngectomy is required in individuals with serious and persistent aspiration [6,7,8,9,10,11,12].
After bilateral excision of the vocal cords in SCPL, postoperative voice articulation relies mainly on the newly formed glottic structure, which includes the arytenoid cartilage mucosa, the tongue root mucosa, the piriform fossa mucosa, and the epiglottic mucosa [13, 14], and postoperative hoarse voice is inevitable. Commonly used indicators for the evaluation of voice function include jitter, shimmer, F0, and MPT [15]. F0 reflects the basic frequency of vocal chord vibration, shimmer and jitter reflect the hoarseness and the roughness of the patient's voice, respectively, and MPT is an important indicator of laryngeal aerodynamics. At present, there are few studies on the recovery of voice function and quality of life in patients after SCPL [16, 17].
Therefore, this study evaluated postoperative swallowing, voice function, and quality of life in patients who underwent SCPL in our hospital between April 2015 and November 2021. To provide a basis for the selection of SCPL as a surgical method for the clinical treatment of laryngeal cancer patients.
Materials and methods
Patients
Clinical data of patients who underwent SCPL in the Department of Otolaryngology-Head and Neck Surgery of the Affiliated Hospital of Southwest Medical University between April 2015 and November 2021 were analysed. Information on nasogastric tube and tracheal tube removal, postoperative radiotherapy, postoperative complications, recurrence and metastasis, and treatment results was recorded and analysed. TNM staging was performed according to the 7th edition of the Staging Guidelines of the Union for International Cancer Control (UICC).
Swallowing and voice-related quality of life after SCPL were analysed in all enrolled patients except those to whom any of the following conditions applied: (1) patients for whom less than half a year had elapsed after surgery; (2) patients who were lost to follow-up or died; (3) patients in whom the mandible, tongue, soft palate, oesophagus, or other structures were removed prior to the swallowing function evaluation, since loss of these structures may affect recovery of swallowing function; (4) patients who refused to participate in a functional assessment or had serious consciousness disorders that rendered them unable to cooperate with the examination. For the patients included in the functional assessment, recovery of swallowing, voice function, and quality of life were assessed during outpatient follow-up.
Treatment plan
All patients were operated on by the same experienced head and neck surgery team. The scope of the tumour lesion and its relationship to the adjacent tissues were investigated by preoperative fiberoptic laryngoscopy, neck-enhanced CT, and neck-enhanced MRI. CHP surgery is used in cases with supraglottic laryngeal cancer, CHEP surgery is mainly used in cases with glottic laryngeal cancer, and TCHEP surgery is used if the tumour involves the area below the glottis and near the cricoid cartilage arch. Whether cervical lymph node dissection was performed was determined according to the cervical lymph node metastasis shown by cervical enhanced CT and MRI scans and the rule of lymph node metastasis at the location of the primary tumour. Whether to administer supplemental radiotherapy after surgery was determined comprehensively according to the operative margin, the primary tumour range, and the degree of cervical lymph node metastasis.
Swallowing function
Swallowing function was assessed using a fiberoptic laryngoscope (VNL-1570STK) connected to a video recorder (LMD-1951MC). The end of the laryngoscope was inserted through the nasal cavity on one side and placed between the soft palate and the epiglottis to permit observation of the entire root of the tongue and the entire laryngopharyngeal cavity. Fluid or food retention in the patient's epiglottic valley and piriform fossa before swallowing was observed. The subject was asked to swallow emotively three times if there was retention. The subjects ate 10 g of black biscuits, 10 ml of yogurt, and 10 ml of water containing blue dye, and whether there was retention of fluid or food in the epiglottic valley and piriform fossa was observed. If retention occurred, the subject was asked to swallow three times, and food retention was again evaluated. Pharyngeal residue was assessed using the Yale Pharyngeal Residue Severity Rating Scale [18, 19]. Food aspiration was assessed using the penetration-aspiration scale [20].
Voice function
Voice function assessment was performed using on-site instruction by 3 medical professionals who specialize in voice. To perform an acoustic analysis of the patient’s voice, the patient’s voice was transmitted through a microphone (centre 320) and a USB sound card (UCA222) and recorded and analysed by LingWaves software (version 3.2.3). The ambient noise was less than 40 dB, and the microphone was placed 30 cm from the lips. The patient was instructed to continuously pronounce the /a/ sound, and the test was repeated 3 times. The most stable sound samples obtained from each patient were used to determine the basic acoustic indicators of voice: F0, jitter, and shimmer. The voice dynamics index MPT was measured by asking the patient to continuously pronounce the vowel /a:/ after three or more deep inspirations. The longest and most stable sound sample was selected and recorded as the MPT.
Swallowing and voice-related quality of life assessment
Swallowing quality of life assessment was performed using the MDADI [21, 22], which was completed by the patient under the supervision of a fixed researcher. The MDADI is a questionnaire on quality of life for patients with head and neck cancer; it includes a total of 20 questions divided into 4 subcategories: general (1 question), emotional (6 questions), functional (5 questions), and physiological (8 questions). A Likert 5-level scoring method was adopted; the responses “fully agree”, “agree”, “do not know”, “disagree”, and “completely disagree” were scored as 1, 2, 3, 4 or 5 points, respectively, and the total score was 20–100 points. A total score of less than 60 is defined as swallowing dysfuntion [23]. The higher the score, the better the patients rated their quality of life in terms of swallowing.
Voice quality of life was assessed using the VHI-10 questionnaire [24, 25]. This questionnaire was completed by the patients themselves under the guidance of a single researcher. The VHI-10 contains 10 questions that are divided into 3 subcategories: function (5 questions), physiology (3 questions), and emotion (2 questions). A 5-point Likert scale scoring method is adopted: the answers “none”, “rarely”, “sometimes”, “often”, and “always” are assigned 0, 1, 2, 3 and 4 points, respectively. The lowest possible score is 0, and the highest possible score is 40. An overall score greater than 10 is defined as voice dysfuntion [26]. The lower the score, the less the patients thought the voice disorder affected their quality of life.
Statistical analysis
Spearman correlation analysis was used to analyse the factors affecting patients' voice function. SPSS software (version 22.0) was used to perform data analysis. P < 0.05 was considered statistically significant.
Results
Clinical characteristics of the patients
All patients were male. The ages of the 21 patients ranged from 44 to 69 years, with a median of 55 years. The follow-up time was 6 to 78 months, and the median follow-up time was 29 months. Of the 21 patients, 7 underwent bilateral neck lymph node selective dissection, and 3 patients were confirmed to have lymph node metastasis by postoperative pathology. Bilateral arytenoid cartilage was preserved in all patients. Six patients received postoperative radiotherapy, with an average dose of 63.8 ± 4.3 Gy (56–75 Gy). Other clinical characteristics of the patients are shown in Table 1.
Postoperative rehabilitation
All patients had gastric tube extubation. The tracheal catheter was extracted in 18 cases, corresponding to an extubation rate of 85.72%. 1 patient developed pulmonary infection after the operation, and was cured after anti-infection treatment. Infection at the incision site occurred in 4 patients, and all healed after dressing changes and anti-infection treatment. Postoperative laryngeal stenosis occurred in 3 cases, and 1 patient underwent laryngoplasty for laryngeal stenosis.
Postoperative recurrence and metastasis
Postoperative metastases were observed in 1 patient: thyroid metastasis. The patient underwent total thyroidectomy, central lymph node dissection, and bilateral cervical lymph node selective dissection. No patients experienced recurrence after surgery.
Swallowing function
The results of the fiberoptic laryngoscope swallowing function evaluation of 21 subjects are presented in Table 2. Regarding pharyngeal residue (Table 2 and Fig. 1a), the residual rate after ingestion of solid food was 0%, that after ingestion of semiliquid food was 28.57%, and that after ingestion of liquid food was 38.09%. The results regarding aspiration are shown in Table 3 and Fig. 1c. There was no case of aspiration after swallowing of solid, semiliquid, or liquid food; thus, the incidence of aspiration was 0%. The laryngeal infiltration rate after ingestion of solid food was 0%, that after ingestion of semiliquid food was 28.57% and that after ingestion of liquid food was 4.76%.
Voice function
In 21 patients, the mean values of each index of voice acoustic analysis were as follows: jitter, 11.57 ± 6.21 (%); shimmer, 35.37 ± 14.16 (%); and F0, 156.01 ± 120.87 (Hz). The aerodynamic index indicated a mean maximum phonation time of 7.85 ± 6.08 (s) (Table 4). The Spearman test for correlations among the postoperative voice acoustic analysis results, aerodynamic indices, and clinical factors found that MPT was positively correlated with postoperative time; the Spearman correlation coefficient was 0.453 (P = 0.039) (Table 5).
Swallowing and Voice-related quality of life
The mean total MDADI score of 21 subjects was 92.67 ± 6.32, much higher than 60, indicating that the patients were satisfied with their own quality of life in swallowing. The mean total score of 21 patients on the VHI-10 was 7.14 ± 4.84, lower than 10, indicating that patients were satisfied with their own voice quality of life.
Discussion
As one method of partial laryngectomy, SCPL can preserve the patient's breathing, swallowing, and articulation functions while accomplishing removal of the lesion and ensuring a safe incision margin. Allegra et al. analysed the survival of 72 patients with glottic laryngeal cancer after CHEP surgery and concluded that disease-specific survival and local relapse-free survival after this procedure were both greater than 90% [27]. Pescetto et al. analysed the survival of patients who had received SCPL and found that 5-year overall survival, disease-specific survival, and disease-free survival were all greater than 80% and that the local control rate reached more than 90% [28]. More research has found that SCPL results in a higher postoperative survival rate and a higher local control rate, and that it produces better oncological effects and quality of life [29,30,31]. In clinical work, physicians should select appropriate treatment methods for patients based on factors such as tumour site, the patient's physical condition, and their own judgement.
SCPL removes most of the laryngeal structure, leading to the risk of transient swallowing coughing and even aspiration. Simonelli et al. used FEES to determine the swallowing recovery of 116 patients at least 3 years after SCPL and showed that 79 (68.1%) of those patients had aspiration, but no obvious pulmonary inflammation was observed on high-resolution chest CT [7]. Di Santo et al. retrospectively analysed the swallowing function of 39 patients at least 3 years after SCPL through FEES and found that 28 (71.8%) had pharyngeal retention and 14 (35.9%) had aspiration, but no patient underwent total laryngectomy due to severe aspiration [6]. In this study, no food residue or laryngeal infiltration occurred when the patients swallowed solid food after SCPL; the pharyngeal residue rate and the laryngeal infiltration rate when swallowing semiliquid and liquid food were both low, and no patient had aspiration when swallowing any of the three types of food. This may be related to the fact that most of the patients in this group were evaluated at least half a year after surgery, and all of them had actively participated in swallowing training after surgery.
The patients in our study who had stage T1b tumours had their gastric tubes removed successfully after surgery, and their swallowing function recovered well. Despite the occurrence of food residue and laryngeal infiltration, there was no case of aspiration. Therefore, the selected patients with early laryngeal cancer treated with SCPL also had good swallowing function. For patients with early glottic laryngeal cancer who refuse radiotherapy or whose tumours cannot be fully exposed under an endoscope, SCPL can be used as an effective surgical method for preservation of open laryngeal function. At the same time, in laryngeal cancer patients who meet the indications for SCPL, swallowing function can be recovered well by participation in strengthening swallowing training after surgery.
The MDADI scale is commonly used to evaluate swallowing function after surgery in patients with head and neck tumours [21, 32]. The scale evaluates three aspects: social life, psychological state, and functional recovery. The higher the score on the scale, the more satisfied patients are with their swallowing-related quality of life. Topaloğlu et al. and Schindler et al. found that the total MDADI score of patients who had received SCPL was more than 80 points [24, 33]; the mean total MDADI score in this group was 92.67 ± 6.32, indicating that patients were satisfied with their postoperative swallowing quality of life. Recovery of swallowing function and swallowing quality of life after SCPL can be affected by several factors, including arytenoid cartilage resection, preoperative and postoperative radiotherapy, and age. Topaloğlu et al. and DiSanto et al. found that material retention was significantly increased in patients who received radiotherapy, but no significant difference in MDADI score was found [6, 33]. At the same time, these data also showed that although semiliquid food residue and laryngeal infiltration were affected by postoperative radiotherapy, in the instrument evaluation it was found that patients' swallowing quality of life was not affected by age or postoperative radiotherapy. The above studies show that postoperative swallowing function recovery may be affected in patients who receive postoperative radiotherapy and arytenoid cartilage resection, but patients are more satisfied with their own swallowing quality of life.
After SCPL, patients mainly rely on neolaryngeal articulation. Compared with the normal vocal cords, the quality of the newly formed glottis structure after surgery is increased, and the types of vibrating sound sources are increased, leading to roughness and hoarseness in the patients’ voices. F0 reflects the frequency of vocal cord vibration, jitter reflects the periodic change in adjacent sound waves, shimmer reflects the degree of change in the amplitude of adjacent sound waves, and MPT reflects the ability of the larynx to produce a continuous sound. In previous studies that used objective indicators of the voice function of patients after SCPL and that of a control group, it was found that F0 and MPT decreased and shimmer and jitter increased; this objectively reflected that the postoperative pitch of the patients’ voices decreased, the roughness and hoarseness of their voices increased, and the maximum phonation time decreased. The fluctuation ranges of each indicator were as follows: F0, 70.1–154 (Hz); jitter, 3.4%-10.9%; shimmer, 2.2–25%; and MPT, 4.1–11.3 (s) [15, 16, 34,35,36]. The mean values obtained for jitter (11.57 ± 6.21 (%)), shimmer (35.37 ± 14.16 (%), F0 (156.01 ± 120.87 (Hz)) and MPT (7.85 ± 6.08 (s)) in our study were close to the above means. In addition, no correlations were found among F0, jitter, shimmer, postoperative radiotherapy, postoperative time, T stage, or age in this study, consistent with the results obtained by Makeieff et al. [27], suggesting that the roughness and hoarseness of patients' voices are affected by various factors and that more clinical studies are needed. On the other hand, this study found that MPT was positively correlated with postoperative time, indicating that MPT increased gradually with the extension of postoperative time. In a study of voice changes in 17 patients with SCPL-CHEP 1 year, 1–3 years, and 3 years or more after surgery, Miyamaru et al. found that the mean value of MPT increased gradually over the time periods [13]. This may be related to the gradual extension of the postoperative time, a gradual increase in the vocal adaptability of the surgically modified larynx, and improvement in the closure of the new glottis.
For the investigation of patients’ voice-related quality of life after SCPL surgery, the VHI-10 scale, which includes the impact of a voice disorder on the patient’s social life, psychological state, and pronunciation status, is commonly used. The lower the total score on this scale is, the smaller the impact of a voice disorder on the patient’s quality of life. In this study, the mean total VHI-10 score of the patients was 7.14 ± 4.84, indicating that patients were satisfied with their voices and that they believed that the voice disorder did not have a serious impact on their quality of life. This is consistent with the study of Miyamaru et al. [13, 15]. In general, the patients were satisfied with their voice quality of life, even though their new glottic closure ability and vocal ability were poor after SCPL and the degree of hoarseness and roughness of the voice was significantly increased. The results were not surprising, as the patients had been prepared for the removal of their vocal cords before surgery. In addition, with the extension of postoperative time, patients have gradually adapted to the sound generated by the new glottic structure, and after surgery, they only meet the requirements of daily life communication, except for patients who need to continue to work.
Conclusion
This study evaluated recovery of swallowing, voice function, and voice quality of life in laryngeal cancer patients after SCPL using specific scales. It was concluded that the patients' swallowing and voice function recovered well and that the patients were satisfied with their quality of life. SCPL can be used as a surgical method to preserve laryngeal function in early- and advanced-stage laryngeal cancer.
Data availability
The data that support this study are available from the corresponding author upon reasonable request.
References
Majer EH, Rieder W (1959) Technic of laryngectomy permitting the conservation of respiratory permeability (cricohyoidopexy). Ann Otolaryngol 76(76):677–681
Piquet JJ, Desaulty A, Decroix G (1974) Crico-hyoido-epiglotto-pexy. Surgical technic and functional results. Ann Otolaryngol Chir Cervicofac 91(12):681–686
Bron L, Brossard E, Monnier P, Pasche P (2000) Supracricoid partial laryngectomy with cricohyoidoepiglottopexy and cricohyoidopexy for glottic and supraglottic carcinomas. Laryngoscope 110(4):627–634. https://doi.org/10.1097/00005537-200004000-00017
Gigot M, Digonnet A, Rodriguez A, Lechien JR (2022) Salvage partial laryngectomy after failed radiotherapy: oncological and functional outcomes. J Clin Med 11(18):5411. https://doi.org/10.3390/jcm11185411
Sperry SM, Rassekh CH, Laccourreye O, Weinstein GS (2013) Supracricoid partial laryngectomy for primary and recurrent laryngeal cancer. JAMA Otolaryngol Head Neck Surg 139(11):1226–1235. https://doi.org/10.1001/jamaoto.2013.4990
Di Santo D, Bondi S, Giordano L, Galli A, Tulli M, Ramella B, Bussi M (2019) Long-term swallowing function, pulmonary complications, and quality of life after supracricoid laryngectomy. Otolaryngol Head Neck Surg 161(2):307–314. https://doi.org/10.1177/0194599819835189
Simonelli M, Ruoppolo G, de Vincentiis M, Di Mario M, Calcagno P, Vitiello C, Manciocco V, Pagliuca G, Gallo A (2010) Swallowing ability and chronic aspiration after supracricoid partial laryngectomy. Otolaryngol Head Neck Surg 142(6):873–878. https://doi.org/10.1016/j.otohns.2010.01.035
Alicandri-Ciufelli M, Piccinini A, Grammatica A, Chiesi A, Bergamini G, Luppi MP, Nizzoli F, Ghidini A, Tassi S, Presutti L (2013) Voice and swallowing after partial laryngectomy: factors influencing outcome. Head Neck 35(2):214–219. https://doi.org/10.1002/hed.22946
Mercante G, Grammatica A, Battaglia P, Cristalli G, Pellini R, Spriano G (2013) Supracricoid partial laryngectomy in the management of t3 laryngeal cancer. Otolaryngol Head Neck Surg 149(5):714–720. https://doi.org/10.1177/0194599813500018
Benito J, Holsinger FC, Pérez-Martín A, Garcia D, Weinstein GS, Laccourreye O (2011) Aspiration after supracricoid partial laryngectomy: Incidence, risk factors, management, and outcomes. Head Neck 33(5):679–685. https://doi.org/10.1002/hed.21521
Yang H, Han D, Ren X, Luo H, Li X (2019) Investigation of swallowing function and swallowing-related quality of life after partial laryngectomy in Chinese patients with laryngeal carcinoma. Health Qual Life Outcomes 17(1):132. https://doi.org/10.1186/s12955-019-1199-5
Saraniti C, Ciodaro F, Galletti C, Gallina S, Verro B (2022) Swallowing outcomes in open partial horizontal laryngectomy type I and endoscopic supraglottic laryngectomy: a comparative study. Int J Environ Res Public Health 19(13):1–9. https://doi.org/10.3390/ijerph19138050
Miyamaru S, Minoda R, Kodama N (2019) Long-term changes in vocal function after supracricoid partial laryngectomy with cricohyoidoepiglottopexy for laryngeal cancer. Head Neck 41(1):139–145. https://doi.org/10.1002/hed.25487
Saito K, Araki K, Ogawa K, Shiotani A (2009) Laryngeal function after supracricoid laryngectomy. Otolaryngol Head Neck Surg 140(4):487–492. https://doi.org/10.1016/j.otohns.2008.12.036
Topaloğlu I, Koçak I, Saltürk Z (2012) Multidimensional evaluation of vocal function after supracricoid laryngectomy with cricohyoidopexy. Ann Otol Rhinol Laryngol 121(6):407–412. https://doi.org/10.1177/000348941212100608
Makeieff M, Barbotte E, Giovanni A, Guerrier B (2005) Acoustic and aerodynamic measurement of speech production after supracricoid partial laryngectomy. Laryngoscope 115(3):546–551. https://doi.org/10.1097/01.mlg.0000157848.78530.ee
So YK, Yun YS, Baek CH, Jeong HS, Son YI (2009) Speech outcome of supracricoid partial laryngectomy: comparison with total laryngectomy and anatomic considerations. Otolaryngol Head Neck Surg 141(6):770–775. https://doi.org/10.1016/j.otohns.2009.08.028
Neubauer PD, Hersey DP, Leder SB (2016) Pharyngeal residue severity rating scales based on fiberoptic endoscopic evaluation of swallowing: a systematic review. Dysphagia 31(3):352–359. https://doi.org/10.1007/s00455-015-9682-6
Neubauer PD, Rademaker AW, Leder SB (2015) The yale pharyngeal residue severity rating scale: an anatomically defined and image-based tool. Dysphagia 30(5):521–528. https://doi.org/10.1007/s00455-015-9631-4
Rosenbek JC, Robbins JA, Roecker EB, Coyle JL, Wood JL (1996) A penetration-aspiration scale. Dysphagia 11(2):93–98
Yu L, Zheng M, Ren J, Hu J, Lu D, Yang H (2021) Supracricoid partial laryngectomy with cricohyoidoepiglottopexy for patients with laryngeal cicatricial stenosis: safety and efficacy. Head Neck 43(9):2634–2643. https://doi.org/10.1002/hed.26734
Chen AY, Frankowski R, Bishop-Leone J, Hebert T, Leyk S, Lewin J, Goepfert H (2001) The development and validation of a dysphagia-specific quality-of-life questionnaire for patients with head and neck cancer: the M. D. Anderson dysphagia inventory. Arch Otolaryngol Head Neck Surg 127(7):870–876
Petersson K, Finizia C, Tuomi L (2021) Predictors of severe dysphagia following radiotherapy for head and neck cancer. Laryngoscope Investig Otolaryngol 6(6):1395–1405. https://doi.org/10.1002/lio2.676
Schindler A, Favero E, Nudo S, Albera R, Schindler O, Cavalot AL (2006) Long-term voice and swallowing modifications after supracricoid laryngectomy: objective, subjective, and self-assessment data. Am J Otolaryngol 27(6):378–383. https://doi.org/10.1016/j.amjoto.2006.01.010
Allegra E, Lombardo N, La Boria A, Rotundo G, Bianco MR, Barrera T, Cuccunato M, Garozzo A (2011) Quality of voice evaluation in patients treated by supracricoid laryngectomy and modified supracricoid laryngectomy. Otolaryngol Head Neck Surg 145(5):789–795. https://doi.org/10.1177/0194599811416438
Kovatch KJ, Reyes-Gastelum D, Hughes DT, Hamilton AS, Ward KC, Haymart MR (2019) Assessment of voice outcomes following surgery for thyroid cancer. JAMA Otolaryngol Head Neck Surg 145(9):823–829. https://doi.org/10.1001/jamaoto.2019.1737
Allegra E, Saita V, Azzolina A, De Natale M, Bianco MR, Modica DM, Garozzo A (2018) Impact of the anterior commissure involvement on the survival of early glottic cancer treated with cricohyoidoepiglottopexy: a retrospective study. Cancer Manag Res 10:5553–5558. https://doi.org/10.2147/cmar.S182854
Pescetto B, Gal J, Chamorey E, Dassonville O, Poissonnet G, Bozec A (2018) Role of supracricoid partial laryngectomy with cricohyoidoepiglottopexy in glottic carcinoma with anterior commissure involvement. Eur Ann Otorhinolaryngol Head Neck Dis 135(4):249–253. https://doi.org/10.1016/j.anorl.2018.05.004
De Virgilio A, Pellini R, Mercante G, Cristalli G, Manciocco V, Giannarelli D, Spriano G (2018) Supracricoid partial laryngectomy for radiorecurrent laryngeal cancer: a systematic review of the literature and meta-analysis. Eur Arch Otorhinolaryngol 275(7):1671–1680. https://doi.org/10.1007/s00405-018-4986-4
Nakai MY, Menezes MB, de Carvalho J, Dias LPM, de Barros Silva LA, Tenório LR, Gonçalves AJ (2021) Quality of life after supracricoid partial laryngectomy. J Otolaryngol Head Neck Surg 50(1):1–8. https://doi.org/10.1186/s40463-021-00499-w
Pinar E, Imre A, Calli C, Oncel S, Katilmis H (2012) Supracricoid partial laryngectomy: analyses of oncologic and functional outcomes. Otolaryngol Head Neck Surg 147(6):1093–1098. https://doi.org/10.1177/0194599812457334
Tseng WH, Li TH, Chiu HL, Yang TL, Wang CP, Chen TC, Chen CN, Ko JY, Hsiao TY, Lou PJ (2021) Long-term swallowing-related outcomes in oral cancer patients receiving proactive swallowing therapy. Oral Oncol 122:105569. https://doi.org/10.1016/j.oraloncology.2021.105569
Topaloğlu I, Köprücü G, Bal M (2012) Analysis of swallowing function after supracricoid laryngectomy with cricohyoidopexy. Otolaryngol Head Neck Surg 146(3):412–418. https://doi.org/10.1177/0194599811428582
Dworkin JP, Meleca RJ, Zacharek MA, Stachler RJ, Pasha R, Abkarian GG, Culatta RA, Jacobs JR (2003) Voice and deglutition functions after the supracricoid and total laryngectomy procedures for advanced stage laryngeal carcinoma. Otolaryngol Head Neck Surg 129(4):311–320. https://doi.org/10.1016/s0194-59980301314-7
Pastore A, Yuceturk AV, Trevisi P (1998) Evaluation of voice and speech following subtotal reconstructive laryngectomy. Eur Arch Otorhinolaryngol 255(7):371–374. https://doi.org/10.1007/s004050050080
Laccourreye O, Crevier-Buchmann L, Weinstein G, Biacabe B, Laccourreye H, Brasnu D (1995) Duration and frequency characteristics of speech and voice following supracricoid partial laryngectomy. Ann Otol Rhinol Laryngol 104(7):516–521. https://doi.org/10.1177/000348949510400703
Acknowledgements
We thank everyone who supported and contributed to this research, including other doctors and nurses in our department.
Funding
None.
Author information
Authors and Affiliations
Contributions
TL—conception and implementation of study, acquisition and analysis of clinical data, drafting and final approval the article. HF and GQ—performing surgery. HF—design of study, analysis of data critical revision. GQ—design of study, analysis of data critical revision, final approval of article. ZL and SX—acquisition of clinical data, revision of article.
Corresponding author
Ethics declarations
Conflict of interest
All authors declare that they have no competing interests related to this article.
Ethical approval
Ethical approval for this study was granted by the research ethics committee of The Affiliated Hospital of Southwest Medical University (approval number KY2022258). All methods were performed in accordance with the relevant guidelines and regulations. The health, rights, and privacy of participants were fully protected. Potential risks to participants were minimal and controllable.
Informed consent
All procedures performed in studies involving human participants were conducted in accordance with the ethical standards of the institutional and/or national research committee and with the principles set forth in the 1964 Helsinki Declaration and its later amendments or comparable ethical standards.
Informed consent
Informed consent was obtained from all individual participants included in the study. Patients who did not provide informed consent were excluded from the study.
Consent for publication
Consent to publish all presented data has been provided.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
About this article
Cite this article
Liu, T., Feng, H., Liang, Z. et al. Analysis of swallowing and voice-related quality of life in patients after supracricoid partial laryngectomy. Eur Arch Otorhinolaryngol 281, 1857–1864 (2024). https://doi.org/10.1007/s00405-023-08416-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00405-023-08416-9