Abstract
Introduction:
Tympanoplasty is a surgical procedure designed to reconstruct the mechanisms of sound transmission in the middle ear.
Objective:
Analyze, from an audiological point of view, patients with chronic otitis media undergoing type 3 tympanoplasty major columella with total ossicular replacement titanium prosthesis or with cartilage graft stapes columella.
Methods:
This is a prospective analytical study, carried out at the otorhinolaryngology outpatient clinic in a tertiary care hospital, through the evaluation of 26 patients with chronic otitis media who underwent tympanoplasty using different materials for auditory rehabilitation such as titanium prostheses or cartilage autografts.
Results:
There was no statistically significant association between the group factors (cartilage or titanium reconstruction) and preoperative variables. There was no statistically significant association between the postoperative characteristics of the patients and the type of reconstruction. Neither subjective improvement (hearing improvement) nor residual perforation were associated with a type of material. The via factor was the only one that showed a statistically significant difference once air-conduction pathway improved more than bone-conduction pathway, decreasing the air-bone gap.
Conclusion:
There was no statistical difference between the two groups in relation to the audiometric improvement. There was hearing improvement in both groups. More studies must be done with a longer follow-up to better evaluate the outcome.
Keywords
Tympanoplasty; Prostheses; Stapes; Otitis media
Resumo
Introdução:
A timpanoplastia é um procedimento cirúrgico que visa reconstruir os mecanismos de transmissão do som na orelha média.
Objetivo:
Analisar, do ponto de vista audiológico, pacientes com otite média crônica submetidos à timpanoplastia tipo 3 com columela maior, com prótese de reconstituição ossicular total de titânio, ou com columela de estribo com enxerto de cartilagem.
Métodos:
Estudo prospectivo analítico, feito no ambulatório de otorrinolaringologia de um hospital terciário, por meio da avaliação de 26 pacientes com otite média crônica submetidos à timpanoplastia com diferentes materiais para reabilitação auditiva, como próteses de titânio ou autoenxertos de cartilagem.
Resultados:
Não houve associação estatisticamente significante entre os fatores de grupo (reconstrução com cartilagem ou titânio) e variáveis pré-operatórias. Não houve associação estatisticamente significante entre as características pós-operatórias dos pacientes e o tipo de reconstrução; nem melhoria subjetiva (melhoria auditiva) ou perfuração residual foram associadas a um tipo de material. O fator via foi o único que demonstrou diferença estatisticamente significante, uma vez que a condução por via aérea apresentou maior melhoria do que a condução por via óssea, reduziu o gap aéreo-ósseo.
Conclusão:
Não houve diferença estatística entre os dois grupos em relação à melhoria audiométrica. Houve melhoria auditiva em ambos os grupos. Mais estudos com seguimento mais longo devem ser feitos para uma melhor avaliação da evolução.
PALAVRAS-CHAVE
Timpanoplastia; Próteses; Estribo; Otite Média
Introduction
Tympanoplasty is a surgical procedure developed to reconstruct the mechanisms of sound transmission in the middle ear. The new era of tympanoplasty began in 1950 with the pioneering work of Wüllstein11 Wüllstein H. The restoration of the function of the middle ear, in chronic otitis media. Ann Otol Rhinol Laryngol. 1956;65:1021–41. and Zollner.22 Zollner F. The principles of plastic surgery of the soundconducting apparatus. J Laryngol Otol. 1955;69:637–52. Many other otologists then contributed to the development and refinement of tympanoplasty techniques. Wüllstein classified the operation techniques from Type I to Type V and we adopted a modified version of his classification proposed by Merchant in 2003 (Table 1).11 Wüllstein H. The restoration of the function of the middle ear, in chronic otitis media. Ann Otol Rhinol Laryngol. 1956;65:1021–41.,22 Zollner F. The principles of plastic surgery of the soundconducting apparatus. J Laryngol Otol. 1955;69:637–52.,33 Kaylie DM, Jackson CG, Glassclock ME III, Strasnick B. Tympanoplasty – Undersurface Graft Technique: Portauricular Approach. Chapter 11. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc.; 2016. p. 123–33.,44 McElveen JT, Sheehy JL. Ossicular Reconstruction. Chapter 12. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc; 2016. p. 134–43.,55 Merchant SN, Rosowski JJ, McKenna MJ. Tympanoplasty. Oper Tech Otolaryngol Head Neck Surg. 2003;14:224–36.
In Chronic Otitis Media (COM) patients, there are three main goals to achieve in tympanomastoidectomy: 1) eradicate the disease to keep an aerated and dry ear 2) modify the structure to avoid recurrent disease and improve monitoring, and 3) restore the middle ear structure to reestablish the hearing function. Even though this article is focused on the third goal, we must emphasize that the technique employed was chosen considering the first two goals.55 Merchant SN, Rosowski JJ, McKenna MJ. Tympanoplasty. Oper Tech Otolaryngol Head Neck Surg. 2003;14:224–36.,66 Merchant SN, McKenna MJ, Mehta RP, Ravicz ME, Rosowski JJ. Middle Ear Mechanics of Type III Tympanoplasty (Stapes Columella): II. Clinical Studies. Otol Neurotol. 2003;24:186–94.,77 Mehta RP, Ravicz ME, Rosowski JJ, Merchant SN. Middle-Ear Mechanics of Type III Tympanoplasty (Stapes Columella): I. Experimental Studies. Otol Neurotol. 2003;24:176–85.
In a healthy ear, the sound waves received from the air moves the tympanic membrane (TM). This acoustic energy flows through all the ossicular chain, concentrating the energy from a bigger surface, the TM, to a smaller one, the oval window. When this mechanism is impaired, we choose to perform a tympanoplasty, which aims to reconnect the TM and the ossicular chain, so it is mobile and able to reestablish the sound pressure at the oval window membrane. The improvement is more significant in frequencies between 250 and 1000Hz, varying around 20dB.11 Wüllstein H. The restoration of the function of the middle ear, in chronic otitis media. Ann Otol Rhinol Laryngol. 1956;65:1021–41.,22 Zollner F. The principles of plastic surgery of the soundconducting apparatus. J Laryngol Otol. 1955;69:637–52.,33 Kaylie DM, Jackson CG, Glassclock ME III, Strasnick B. Tympanoplasty – Undersurface Graft Technique: Portauricular Approach. Chapter 11. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc.; 2016. p. 123–33.,44 McElveen JT, Sheehy JL. Ossicular Reconstruction. Chapter 12. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc; 2016. p. 134–43.,55 Merchant SN, Rosowski JJ, McKenna MJ. Tympanoplasty. Oper Tech Otolaryngol Head Neck Surg. 2003;14:224–36.,66 Merchant SN, McKenna MJ, Mehta RP, Ravicz ME, Rosowski JJ. Middle Ear Mechanics of Type III Tympanoplasty (Stapes Columella): II. Clinical Studies. Otol Neurotol. 2003;24:186–94.,77 Mehta RP, Ravicz ME, Rosowski JJ, Merchant SN. Middle-Ear Mechanics of Type III Tympanoplasty (Stapes Columella): I. Experimental Studies. Otol Neurotol. 2003;24:176–85.
This scientific article aims to analyze, from an audiological point of view, patients with COM divided into two groups: group 1 undergoing Type III tympanoplasty major columella with total ossicular replacement prosthesis (TORP) of titanium, and group 2 undergoing stapes columella reconstruction with an autologous cartilage graft. The pure-tone audiometry tests were performed 6 months before and after the surgery on both groups; the followup period was 6 months.11 Wüllstein H. The restoration of the function of the middle ear, in chronic otitis media. Ann Otol Rhinol Laryngol. 1956;65:1021–41.,22 Zollner F. The principles of plastic surgery of the soundconducting apparatus. J Laryngol Otol. 1955;69:637–52.,33 Kaylie DM, Jackson CG, Glassclock ME III, Strasnick B. Tympanoplasty – Undersurface Graft Technique: Portauricular Approach. Chapter 11. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc.; 2016. p. 123–33.,44 McElveen JT, Sheehy JL. Ossicular Reconstruction. Chapter 12. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc; 2016. p. 134–43.,55 Merchant SN, Rosowski JJ, McKenna MJ. Tympanoplasty. Oper Tech Otolaryngol Head Neck Surg. 2003;14:224–36.,66 Merchant SN, McKenna MJ, Mehta RP, Ravicz ME, Rosowski JJ. Middle Ear Mechanics of Type III Tympanoplasty (Stapes Columella): II. Clinical Studies. Otol Neurotol. 2003;24:186–94.,77 Mehta RP, Ravicz ME, Rosowski JJ, Merchant SN. Middle-Ear Mechanics of Type III Tympanoplasty (Stapes Columella): I. Experimental Studies. Otol Neurotol. 2003;24:176–85.
Methods
This is a prospective analytical study carried out with 26 patients with COM, treated at a tertiary reference center. Patients underwent a canal wall down (CWD) tympanoplasty and mastoidectomy using different auditory rehabilitation methods and materials, divided into two groups: group 1 submitted to Type 3 Tympanoplasty TORP with titanium prostheses (major columella) and Group 2 undergoing reconstruction with autologous cartilage (stapes columella).66 Merchant SN, McKenna MJ, Mehta RP, Ravicz ME, Rosowski JJ. Middle Ear Mechanics of Type III Tympanoplasty (Stapes Columella): II. Clinical Studies. Otol Neurotol. 2003;24:186–94.,77 Mehta RP, Ravicz ME, Rosowski JJ, Merchant SN. Middle-Ear Mechanics of Type III Tympanoplasty (Stapes Columella): I. Experimental Studies. Otol Neurotol. 2003;24:176–85.,88 Gu FM, Chi FL. Titanium ossicular chain reconstruction in single stage canal wall down tympanoplasty for chronic otitis media with mucosa defect. Am J Otolaryngol. 2019;40:205–8.
Inclusion criteria were patients with COM undergoing to type 3 tympanoplasty major columella or stapes columella that maintained tympanic cavity dried and aerated after careful examination of the researcher. The exclusion criteria were patients who abandoned outpatient followup within 6 months after surgery. All the patients included agreed to sign the written informed consent form (WICF), which reassures the voluntary nature of participation and clarifies all the procedures and its safety to the participant.
This project was approved by the Research Ethics Committee (REC) of the Health Sciences Faculty. As it was a research involving human beings, the ethical aspects disciplined by Resolution 466/12 of the National Health Council/Ministry of Health, assuring to the participants all information about research purpose, anonymity, free consent, and the freedom to give up the participation at any stage of the research. The Free and Informed Consent Form was available for the participants to sign, who had their rights guaranteed. Participants were aware that the pre and postoperative audiologic parameters would be analyzed, being thus free from risks during the research. The researcher is responsible for the confidentiality of patient’s information.(This entire paragraph is redundant and simply restates comments made in the preceding paragraph. It should be deleted.)
The instruments of the research were questionnaires previously tested and validated, which were applied before and after patients were submitted to the tympanoplasty for auditory rehabilitation. All pure-tone audiometry tests were done at the otorhinolaryngology department of the reference center. Preoperative and postoperative audiometric data, intraoperative findings and the type of prosthesis used were recorded. The following frequencies were evaluated on pre and postoperative tests: 500, 1000, 2000 and 3000 Hz. The pure tone average (PTA) was calculated using the frequencies 500, 1000, 2000, 3000 Hz.
After collecting all the data through the questionnaire, it was processed using Excel software for Windows. Statistical analysis was performed with SPSS software (Statistic Package for the Social Sciences, Chicago, IL, USA) version 13 for Windows. The possible associations between the group and the pre- and postoperative variables were evaluated using the Chi-Square test.
The possible associations between the group and the pre-and postoperative variables were evaluated using the chi-square test. Correction of the level of statistical significance in all 2 × 2 contingency tables was done using Fisher’s exact test.
Comparisons of mean age, pure tone audiometry test during the first session and mean difference in Speech Recognition Threshold (SRT) (the lowest sound level in which words and syllables may be identified) between groups were done with the t-test for independent measurements.
In order to eliminate a factor (session) in the mixed-design analysis, the before and after difference was calculated for each of the frequencies, pure tone average and SRT evaluated in pure tone audiometry. This approach also has the advantage of allowing direct comparisons between frequencies and conduction pathways and eliminating differences that may be present from the beginning of the study.
The analysis of the mean differences (before and after) was done with a split-plot ANOVA (mixed-design analysis of variation) model using the group factors (reconstruction with titanium or cartilage) as independent variables; via (air and bone) and frequency factors (500, 1000, 2000 and 3000 Hz) as repeated measures. In the analysis of the pure tone average the frequency factor was withdrawn.
The Greenhouse-Geisser method was used to correct the degrees of freedom (sphericity not assumed), but the original values of degrees of freedom are presented. The multiple comparisons procedure used the Bonferroni method to correct the level of statistical significance.
We also tested whether the mean differences were statistically different from 0 using the t-test for a sample. The results are displayed as mean and standard error. The level of statistical significance was set at 5% (p < 0.05).
Results
There was no statistically significant association between the patients’ preoperative characteristics and the reconstruction material used. Sex, operated side, previous surgery, cholesteatoma association, incus long process erosion and associated characteristic of COM did not influence inclusion in titanium group (titanium reconstruction) or cartilage group (cartilage reconstruction) (Table 2).
Results of the association between patient’s preoperative characteristics and the Group factor (reconstruction material).
There was also no difference between the mean age of patients submitted to reconstruction with cartilage or titanium (38.9 ± 3.1 e 44.0 ± 4; p = 0.316) (Fig. 1).
Mean of the patients’ age submitted to middle ear reconstruction using titanium or cartilage (Group 1 or Group 2). There is no statistically significant difference between the two groups based on age (38.9 ± 3.1 e 44.0 ± 4; p = 0.316).
There was no statistically significant association between the postoperative characteristics of the patients and the group factor. Despitea different number of patients acheiving hearing improvement and residual perforation between the groups; the difference was not statistically significant (Table 3).
Results of the association between the group factor and the postoperative characteristics of the sample.
Results of audiometric tests
The results of the preoperative pure-tone audiometry in each group showed no statistically significant association on most of the frequencies measured, on both conduction pathways. Only one slightly significant difference was found between the groups in the 1000 Hz frequency recorded by the bone-conduction pathway (Table 4).
The mean of the patients’ preoperative pure-tone audiometry tests (air-conduction and bone-conduction threshold) on four different frequencies and the pure-tone average on both groups (Cartilage and Titanium). The p-value refers to the comparison of means between groups.
The split-plot ANOVA did not find a statistical significant effect of the group factor (titanium or cartilage) on the mean of the difference (before – after) of the pure-tone audiometry results (F1,39 =0.979, p = 0.329). However, the mean of the difference (before and after) of the air conduction threshold is statistically significant in every frequency evaluated for both materials, which indicates that the null hypothesis – no hearing improvement – is not likely to occur. There was a statistically significant difference when analyzing the via factor (Air or bone conduction pathways) (F1,39 = 28.316, p < 0.001) (Table 5). The multiple comparisons procedure showed that the mean of the differences of the air conduction threshold were significantly higher than the ones recorded by the bone conduction threshold, regardless of group or frequency evaluated (p < 0.01). The frequency factor and the interactions Via × Group, Frequency × Group, Via × Frequency and Via × Frequency × Group had no significant effect on the mean difference (F < 1.665, p > 0.188 in all cases) (Figs. 2 and 3).
The mean of the differences (before – after) and the standard error of the air-conduction threshold and bone-conduction threshold for different frequencies on both groups (cartilage and titanium) and the pure-tone average. The p-value refers to the comparison against the 0 value (t-test of a sample).
The mean of the difference before-after surgery and standard error of air and bone-conduction threshold for each frequency evaluated by pure-tone audiometry on both groups. * Bone pathway < airway (p < 0.001).
The mean of the difference before-after surgery and standard error of air and bone-conduction threshold for each frequency evaluated by pure-tone audiometry in both groups. * Bone pathway < airway (p < 0.001).
The pure tone average did not show a significant effect on the group factor (F1,39 = 0.979, p = 0.329). But, based on the pure-tone audiometry tests, the via factor had a significant effect on the mean difference (F1,39 = 28.316, p < 0,001). The preoperative air-bone gap (ABG) of 33.6 ± 4.7 lowered to 24.2 ± 8.5 on the cartilage group, and from 35.1 ± 6.7 to 20.7 ± 12.2 on the titanium group (p < 0.01). The air-conduction threshold had a significantly greater mean difference compared to the bone-conduction (p < 0.001). The Group × Via interaction had no significant effect (F1,39 = 1.210, p= 0.278) (Fig. 4).
The mean of the difference before-after and standard error of pure-tone average evaluated based on air and bone-conduction threshold in both groups. * Bone pathway < airway (p < 0.001).
There was no significant difference between the groups in the mean speech recognition threshold (SRT) difference (t = −0.911, p = 0.368) (Fig. 5).
The mean of the difference before-after and standard error of Speech Recognition Threshold (SRT) assessed by pure-tone audiometry for each group. * Not statistically significant; p > 0.05.
Discussion
Influence of preoperative and postoperative characteristics and middle ear status
The best audiometric results occur when the middle ear is aerated, dry and safe after surgery, so that the ossicular chain – or the material that replaces it – is mobile and stable, as supported by several other studies.33 Kaylie DM, Jackson CG, Glassclock ME III, Strasnick B. Tympanoplasty – Undersurface Graft Technique: Portauricular Approach. Chapter 11. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc.; 2016. p. 123–33.,44 McElveen JT, Sheehy JL. Ossicular Reconstruction. Chapter 12. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc; 2016. p. 134–43.,55 Merchant SN, Rosowski JJ, McKenna MJ. Tympanoplasty. Oper Tech Otolaryngol Head Neck Surg. 2003;14:224–36.,99 Nishihara S, Aritomo H, Goode RL. Effect of changes in mass on middle ear function. Otolaryngol Head Neck Surg. 1993;109:899–910.,1010 Mishiro Y Sakagami M, Kitahara T Kondoh K, Kubo T Long-term hearing outcomes after ossiculoplasty in comparison to shortterm outcomes. Otol Neurotol. 2008;29:326–9.
Most preoperative characteristics of the patients did not influence the choice of the methods and materials used in the Type 3 Tympanoplasty. The choice was made based on the viability of the stapes structure; if it was mobile and without signs of damage, it was maintained, and the cartilage graft was used. But if the stapes structure was damaged and the footplate was still mobile, the titanium prosthesis was chosen.33 Kaylie DM, Jackson CG, Glassclock ME III, Strasnick B. Tympanoplasty – Undersurface Graft Technique: Portauricular Approach. Chapter 11. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc.; 2016. p. 123–33.,44 McElveen JT, Sheehy JL. Ossicular Reconstruction. Chapter 12. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc; 2016. p. 134–43.,55 Merchant SN, Rosowski JJ, McKenna MJ. Tympanoplasty. Oper Tech Otolaryngol Head Neck Surg. 2003;14:224–36.,88 Gu FM, Chi FL. Titanium ossicular chain reconstruction in single stage canal wall down tympanoplasty for chronic otitis media with mucosa defect. Am J Otolaryngol. 2019;40:205–8.,1111 Merchant SN, Ravicz ME, Rosowski JJ. Mechanics of type IV tympanoplasty: experimental findings and surgical implications. Ann Otol Rhinol Laryngol. 1997;106:49–60.
Some preoperative characteristic – such as patient’s age and cholesteatoma association – intuitively lead us to assume the cartilage graft would be worse than the titanium prosthesis. Kartush1212 Kartush JM. Contemporary ossiculoplastic options. Curr Opin Otolaryngol. Head Neck Surg. 2001;9:272–8. points out that cartilage, as a biological material, is prone to degrade faster. But, by the time of our follow up, there was no sign of cartilage degradation on the audiometric tests.33 Kaylie DM, Jackson CG, Glassclock ME III, Strasnick B. Tympanoplasty – Undersurface Graft Technique: Portauricular Approach. Chapter 11. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc.; 2016. p. 123–33.,44 McElveen JT, Sheehy JL. Ossicular Reconstruction. Chapter 12. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc; 2016. p. 134–43.,55 Merchant SN, Rosowski JJ, McKenna MJ. Tympanoplasty. Oper Tech Otolaryngol Head Neck Surg. 2003;14:224–36.,66 Merchant SN, McKenna MJ, Mehta RP, Ravicz ME, Rosowski JJ. Middle Ear Mechanics of Type III Tympanoplasty (Stapes Columella): II. Clinical Studies. Otol Neurotol. 2003;24:186–94.,77 Mehta RP, Ravicz ME, Rosowski JJ, Merchant SN. Middle-Ear Mechanics of Type III Tympanoplasty (Stapes Columella): I. Experimental Studies. Otol Neurotol. 2003;24:176–85.,88 Gu FM, Chi FL. Titanium ossicular chain reconstruction in single stage canal wall down tympanoplasty for chronic otitis media with mucosa defect. Am J Otolaryngol. 2019;40:205–8.,99 Nishihara S, Aritomo H, Goode RL. Effect of changes in mass on middle ear function. Otolaryngol Head Neck Surg. 1993;109:899–910.,1111 Merchant SN, Ravicz ME, Rosowski JJ. Mechanics of type IV tympanoplasty: experimental findings and surgical implications. Ann Otol Rhinol Laryngol. 1997;106:49–60.,1212 Kartush JM. Contemporary ossiculoplastic options. Curr Opin Otolaryngol. Head Neck Surg. 2001;9:272–8.,1313 FritschMH, Gutt JJ, Naumann IC. Magnetic properties of middle ear and stapes implants in a 9.4-T magnetic resonance field. Otol Neurotol. 2006;27:1064–9.,1414 Monsell EM (Chairman). Committee on Hearing and Equilibrium Guidelines for the Evaluation of Results of Treatment of Conductive Hearing Loss. Otolaryngol Head Neck Surg. 1995;113:186–7.,1515 Todd NW. The malleus-stapes offset. Laryngoscope. 2008;118:110–5.,1616 Malafronte G, Filosa B, Mercone F. A new double-cartilage block ossiculoplasty: Long-term results. Otol Neurotol. 2008;29:531–3.
Also, the postoperative characteristics had no statistically significant difference in the variable group. There was a small difference on the number of patients showing hearing improvement on the titanium group, but it was not statistically significant. The variation probably is a consequence of the reduced number of cases analyzed in this study.1010 Mishiro Y Sakagami M, Kitahara T Kondoh K, Kubo T Long-term hearing outcomes after ossiculoplasty in comparison to shortterm outcomes. Otol Neurotol. 2008;29:326–9.,1212 Kartush JM. Contemporary ossiculoplastic options. Curr Opin Otolaryngol. Head Neck Surg. 2001;9:272–8.,1717 Danti S, Stefanini C, D’Alessandro D, Moscato S, Pietrabissa A, Petrini M, et al. Novel biological/biohybrid prostheses for the ossicular chain: fabrication feasibility and preliminary functional characterization. Biomed Microdevices. 2009;11:783–93.,1818 Takeuchi A, Tsujigiwa H, Murakami J, Kawasaki A, Takeda Y, Fukushima K, et al. Recombinant human bone morphogenetic protein-2/atelocollagen composite as a new material for ossicular reconstruction. J Biomed Mater Res A. 2009;89:36–45.
Audiometric analysis
The analysis of the pure tone audiometry’s results, in different frequencies, showed a statistically significant hearing improvement by decreasing the mean of the air-conduction threshold 6 months after the surgery, but the group factor had no influence on the improvement, once it is comparable for both methods.
The group and frequency factors did not indicate a significant influence in the mean difference, but, analyzing the via factor (air and bone-conduction pathways) the mean of the difference (before and after) showed a greater improvement on air conduction than on bone conduction pathway. This is expected on type 3 tympanoplasty surgeries once it decreases the air bone gap.66 Merchant SN, McKenna MJ, Mehta RP, Ravicz ME, Rosowski JJ. Middle Ear Mechanics of Type III Tympanoplasty (Stapes Columella): II. Clinical Studies. Otol Neurotol. 2003;24:186–94.,77 Mehta RP, Ravicz ME, Rosowski JJ, Merchant SN. Middle-Ear Mechanics of Type III Tympanoplasty (Stapes Columella): I. Experimental Studies. Otol Neurotol. 2003;24:176–85.,88 Gu FM, Chi FL. Titanium ossicular chain reconstruction in single stage canal wall down tympanoplasty for chronic otitis media with mucosa defect. Am J Otolaryngol. 2019;40:205–8.,99 Nishihara S, Aritomo H, Goode RL. Effect of changes in mass on middle ear function. Otolaryngol Head Neck Surg. 1993;109:899–910.,1919 Anderson H, Barr B. Conductive high tone hearing loss. Arch Otolaryngol. 1971;93:599–605.,2020 Okada M, Gyo K, Takagi T Fujiwara T, Takahashi H, Hakuba N, et al. Air-bone gap in ears with a well-repaired tympanic membrane after Type III and Type IV tympanoplasty. Auris Nasus Larynx. 2014;41:153–9.
On the air conduction, the sound travels from the air, vibrates the TM graft and all the structures in the middle ear to transmit the acoustic energy to the oval window and consequently to the cochlea. On the other hand, the bone conduction test vibrates the mastoid bone and the skull until the vibration reaches the cochlea, not involving the middle ear structures to conduct the sound. So, the reconstruction of the middle ear structure reestablishes the passage of the sound through the air conduction pathway, correcting the conductive hearing loss and resulting in a significant improvement of the hearing capacity and a reduced air bone gap.44 McElveen JT, Sheehy JL. Ossicular Reconstruction. Chapter 12. In: Brackmann D, Shelton C, Arriaga M, editors. Otologic Surgery. fourth edition Philadelphia: Elsevier Inc; 2016. p. 134–43.,55 Merchant SN, Rosowski JJ, McKenna MJ. Tympanoplasty. Oper Tech Otolaryngol Head Neck Surg. 2003;14:224–36.,66 Merchant SN, McKenna MJ, Mehta RP, Ravicz ME, Rosowski JJ. Middle Ear Mechanics of Type III Tympanoplasty (Stapes Columella): II. Clinical Studies. Otol Neurotol. 2003;24:186–94.,77 Mehta RP, Ravicz ME, Rosowski JJ, Merchant SN. Middle-Ear Mechanics of Type III Tympanoplasty (Stapes Columella): I. Experimental Studies. Otol Neurotol. 2003;24:176–85.,1919 Anderson H, Barr B. Conductive high tone hearing loss. Arch Otolaryngol. 1971;93:599–605.,2020 Okada M, Gyo K, Takagi T Fujiwara T, Takahashi H, Hakuba N, et al. Air-bone gap in ears with a well-repaired tympanic membrane after Type III and Type IV tympanoplasty. Auris Nasus Larynx. 2014;41:153–9.
The air bone gap (A – B gap) is the difference between air conduction and bone conduction threshold at the pure tone average. The air bone gap is positive every time there is a conductive hearing loss, as in our patients with COM. The air bone gap is still tolerated postoperatively once the hearing improvement is significant, but not completely after surgery with both materials. The goal of improvement after tympanoplasty is an air bone gap of ≤ 20 dB, but usually ≤ 30dB is not a problem for the patient’s normal life.1919 Anderson H, Barr B. Conductive high tone hearing loss. Arch Otolaryngol. 1971;93:599–605.,2020 Okada M, Gyo K, Takagi T Fujiwara T, Takahashi H, Hakuba N, et al. Air-bone gap in ears with a well-repaired tympanic membrane after Type III and Type IV tympanoplasty. Auris Nasus Larynx. 2014;41:153–9.,2121 Iñiguez-Cuadra R, Alobid I, Borés-Domenech A, Menéndez-Colino LM, Caballero-Borrego M, Bernal-Sprekelsen M. Type III Tympanoplasty With Titanium Total Ossicular Replacement Prosthesis: Anatomic and Functional Results. Otol Neurotol. 2010;31:409–14.
Multiple factors may perpetuate the postoperative air bone gap, as Okada et al.2020 Okada M, Gyo K, Takagi T Fujiwara T, Takahashi H, Hakuba N, et al. Air-bone gap in ears with a well-repaired tympanic membrane after Type III and Type IV tympanoplasty. Auris Nasus Larynx. 2014;41:153–9. point out: the modifications in the middle ear ossicular structure are massive on both methods, so it can cause some acoustic energy loss along the new material, maintaining a partial hearing loss. The possible TM lateralization, formation of fibrotic tissue around the graft or prosthesis could stiff the system, decreasing mobility and vibration, especially when induced by high frequencies.2020 Okada M, Gyo K, Takagi T Fujiwara T, Takahashi H, Hakuba N, et al. Air-bone gap in ears with a well-repaired tympanic membrane after Type III and Type IV tympanoplasty. Auris Nasus Larynx. 2014;41:153–9.,2121 Iñiguez-Cuadra R, Alobid I, Borés-Domenech A, Menéndez-Colino LM, Caballero-Borrego M, Bernal-Sprekelsen M. Type III Tympanoplasty With Titanium Total Ossicular Replacement Prosthesis: Anatomic and Functional Results. Otol Neurotol. 2010;31:409–14.
This is sustained by Nishihara et al.99 Nishihara S, Aritomo H, Goode RL. Effect of changes in mass on middle ear function. Otolaryngol Head Neck Surg. 1993;109:899–910. who tested different amounts of additional mass on the TM, stapes and prosthesis to find out if those additional masses would diminish hearing improvement on some frequencies, mostly high frequencies.99 Nishihara S, Aritomo H, Goode RL. Effect of changes in mass on middle ear function. Otolaryngol Head Neck Surg. 1993;109:899–910.
The titanium is less likely to cause a significant addition of weight, as a light material. But the prosthesis has a chance of extrusion, which is small and did not occur in some studies with a short followup. In our study there was no case of prosthesis extrusion.2222 Neff BA, Rizer FM, Schuring AG, Lippy WH. Tympanoossiculoplasty utilizing the Spiggle and Theis titanium total ossicular replacement prosthesis. Laryngoscope. 2003;113:1525–9.,2323 Dalchow CV, Grün D, Stupp HF. Reconstruction of the ossicular chain with titanium implants. Otolaryngol Head Neck Surg. 2001;125:628–30.,2424 Maassen MM, Lowenheirn H, Pfister M, Herberhold S, Jorge JR, Baumann I, et al. Surgical-handling properties of the titanium prosthesis in ossiculoplasty. Ear Nose Throat J. 2005;84, 142-4,147–9.,2525 Zenner HP, Stegmaier A, Lehner R, Baumann I, Zimmermann R. Open Tubingen titanium prostheses for ossiculoplasty: a prospective clinical trial. Otol Neurotol. 2001;22:582–9.
A complete understanding of the features that influence the hearing improvement and the different postoperative complications would lead us to even better results in the future.
Conclusion
In this study, the audiometric results of the 26 patients who underwent Type 3 Tympanoplasty Major Columella with Titanium prosthesis or Stapes Columella with cartilage graft showed no statistical significant difference, which indicates that in a short period of time (6 months) the material of choice does not influence the hearing improvement in patients with COM. We also concluded that preoperative and postoperative characteristics did not influence the material chosen. The choice of the method and material was made based on the viability of the stapes structure.
The via factor (air or bone conduction pathway) influences the hearing improvement once the air conduction pathway showed better results, reducing the air bone gap.66 Merchant SN, McKenna MJ, Mehta RP, Ravicz ME, Rosowski JJ. Middle Ear Mechanics of Type III Tympanoplasty (Stapes Columella): II. Clinical Studies. Otol Neurotol. 2003;24:186–94.,99 Nishihara S, Aritomo H, Goode RL. Effect of changes in mass on middle ear function. Otolaryngol Head Neck Surg. 1993;109:899–910.,2020 Okada M, Gyo K, Takagi T Fujiwara T, Takahashi H, Hakuba N, et al. Air-bone gap in ears with a well-repaired tympanic membrane after Type III and Type IV tympanoplasty. Auris Nasus Larynx. 2014;41:153–9.
More study on this topic is yet needed. More patients evaluated with a longer followup could clarify some questions that remain. More subjects in the study could show a statistically significant difference between the titanium prosthesis and the cartilage graft groups. Longer follow up could demonstrate better long term hearing outcomes for one or the other technique, even considering the possible causes of bad outcomes – retraction or perforation of the TM graft, prosthesis extrusions – and assist in developing hypothesis of how to avoid those events.1010 Mishiro Y Sakagami M, Kitahara T Kondoh K, Kubo T Long-term hearing outcomes after ossiculoplasty in comparison to shortterm outcomes. Otol Neurotol. 2008;29:326–9.,1414 Monsell EM (Chairman). Committee on Hearing and Equilibrium Guidelines for the Evaluation of Results of Treatment of Conductive Hearing Loss. Otolaryngol Head Neck Surg. 1995;113:186–7.,1515 Todd NW. The malleus-stapes offset. Laryngoscope. 2008;118:110–5.,1919 Anderson H, Barr B. Conductive high tone hearing loss. Arch Otolaryngol. 1971;93:599–605.,2121 Iñiguez-Cuadra R, Alobid I, Borés-Domenech A, Menéndez-Colino LM, Caballero-Borrego M, Bernal-Sprekelsen M. Type III Tympanoplasty With Titanium Total Ossicular Replacement Prosthesis: Anatomic and Functional Results. Otol Neurotol. 2010;31:409–14.
Further studies will be needed to answer all those questions and increase the chance of even better outcomes.
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Peer Review under the responsibility of Associação Brasileira de Otorrinolaringologia e Cirurgia Cérvico-Facial.
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21Iñiguez-Cuadra R, Alobid I, Borés-Domenech A, Menéndez-Colino LM, Caballero-Borrego M, Bernal-Sprekelsen M. Type III Tympanoplasty With Titanium Total Ossicular Replacement Prosthesis: Anatomic and Functional Results. Otol Neurotol. 2010;31:409–14.
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23Dalchow CV, Grün D, Stupp HF. Reconstruction of the ossicular chain with titanium implants. Otolaryngol Head Neck Surg. 2001;125:628–30.
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24Maassen MM, Lowenheirn H, Pfister M, Herberhold S, Jorge JR, Baumann I, et al. Surgical-handling properties of the titanium prosthesis in ossiculoplasty. Ear Nose Throat J. 2005;84, 142-4,147–9.
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25Zenner HP, Stegmaier A, Lehner R, Baumann I, Zimmermann R. Open Tubingen titanium prostheses for ossiculoplasty: a prospective clinical trial. Otol Neurotol. 2001;22:582–9.
Publication Dates
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Publication in this collection
15 Aug 2022 -
Date of issue
Jul-Aug 2022
History
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Received
16 Mar 2020 -
Accepted
28 July 2020 -
Published
14 Sept 2020