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Assessment of multiple factors is necessary when evaluating the success rate of myringoplasty

Published online by Cambridge University Press:  19 December 2016

Xu-Dan Lou
Affiliation:
Department of Operating Theatre, Yiwu Central Hospital, Zhejiang, China
Zi-Han Lou
Affiliation:
Department of Clinical Medicine, Xinxiang Medical University, Henan, China
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Abstract

Type
Letters to the Editors
Copyright
Copyright © JLO (1984) Limited 2016 

Dear Editors,

We would like to address the manuscript by Carr et al. entitled ‘Factors affecting myringoplasty success’.Reference Carr, Strachan and Raine 1 This is an interesting study and constitutes excellent work. The authors evaluated the success of myringoplasty from the following five perspectives: experience of the surgeon, dry ear or not, the condition of the contralateral middle ear, perforation size, and the simultaneous performance of cortical mastoidectomy. It was concluded that, in adults, a significant association was evident between the tympanic membrane perforation site and the closure rate. Anterior and subtotal perforations had significantly lower closure rates. None of the factors evaluated significantly influenced tympanic membrane closure in a paediatric group. However, we believe that the factors assessed were not comprehensive. Also, the use of different graft materials has confused the findings.

The authors write, in the Methods section:

‘Inclusion criteria comprised perforations of the pars tensa, all age groups, and cortical mastoidectomy and myringoplasty for non-cholesteatoma ears. Exclusion criteria comprised cholesteatoma surgery and concomitant ossiculoplasty. … Potential influencing factors were surgeon grade (consultant, associate specialist or registrar); pre-operative condition of the ipsilateral middle ear (inactive or active chronic otitis media, with persistent or intermittent discharge); pre-operative condition of the contralateral middle ear (normal, otitis media with effusion, inactive chronic otitis media or active chronic otitis media); perforation site (anterior, posterior, inferior or subtotal); perforation size (0–20 per cent, 21–40 per cent, 41–60 per cent or subtotal); and simultaneous cortical mastoidectomy. The indication for a cortical mastoidectomy was myringoplasty in the presence of an actively discharging ear or a revision paediatric case’.

The authors did not assess the Eustachian tube or record concomitant myringosclerosis. Furukawa et al. suggested that removal of myringosclerosis at the edge of a perforation was beneficial when simple underlay myringoplasty was planned, improving the operative success rate and post-operative hearing threshold, especially when the myringosclerosis extended over the entire tympanic membrane.Reference Furukawa, Hayashi, Narabayashi, Kasai, Okada and Haruyama 2 Migirov and Volkov believed that appropriate freshening of the perforation edges, with removal of sclerotic plaques, improved the success rate when tympanoplasty was performed in patients with concomitant myringosclerosis.Reference Migirov and Volkov 3 Pinar et al. found that the absence of myringosclerosis and a low middle-ear risk index were significantly (and independently) prognostic of successful tympanoplasty.Reference Pinar, Sadullahoglu, Calli and Oncel 4 The Eustachian tube plays a significant role in the success of myringoplasty. One effect of Eustachian tube dysfunction in paediatric populations is that the middle-ear cavity is under negative pressure, which can cause retraction of the tympanic membrane, triggering failure of myringoplasty.Reference Iacovou, Vlastarakos, Papacharalampous, Kyrodimos and Nikolopoulos 5 Collins et al. reported that Eustachian tube dysfunction was associated with a poor success rate of tympanoplasty.Reference Collins, Telischi, Balkany and Buchman 6 Onal et al. performed a multivariate analysis of otological, surgical and patient-related factors, and concluded that smoking status increased the myringoplasty failure rate.Reference Onal, Uguz, Kazikdas, Gursoy and Gokce 7 In addition, follow-up time may affect the success rates recorded in retrospective studies. Two studies reported re-perforation rates of 5–10 per cent in the first year after type I tympanoplasty, and rates of 10–15.5 per cent over the next 3–10 years.Reference Mohamad, Khan and Hussain 8 , Reference Kirazli, Bilgen, Midilli and Ogut 9 Thus, factors affecting the success rate of myringoplasty should be analysed more thoroughly in future studies.

The authors write (in the Methods section): ‘Several different graft materials were used: temporalis fascia, perichondrium, perichondrium and cartilage, fat, and periosteum’. Five different graft materials were, in fact, used in the study. The indications for, and success rates associated with, different graft materials during myringoplasty differ. Fat grafts are used to repair small chronic tympanic membrane perforations. Konstantinidis et al. showed that fat graft myringoplasty was most successful when used to repair perforations smaller than 30 per cent of the pars tensa; the success rates decreased significantly when the perforations were larger.Reference Konstantinidis, Malliari, Tsakiropoulou and Constantinidis 10 Kim et al. also found that patients with perforations of more than 30 per cent had poor closure rates after fat graft myringoplasty.Reference Kim, Park, Yeo, Kim, Kim and Kim 11 In addition, several studies have shown that tympanoplasty using cartilage (with or without perichondrium) was associated with better anatomical success rates than tympanoplasty employing temporalis fascia.Reference Mohamad, Khan and Hussain 8 , Reference Vashishth, Mathur, Choudhary and Bhardwaj 12 Reference Khan and Parab 14 Ozbek et al. found that tympanoplasty using palisade cartilage was associated with a significantly higher graft acceptance rate (100 per cent) than tympanoplasty using fascia (70.2 per cent; p = 0.008).Reference Ozbek, Ciftçi, Tuna, Yazkan and Ozdem 15 Most scholars suggest that temporalis fascia will degenerate and shrink over time, triggering eardrum atrophy and re-perforation.Reference Vashishth, Mathur, Choudhary and Bhardwaj 12 Reference Khan and Parab 14 , Reference England, Strachan and Buckley 16 However, cartilage perichondrium can receive nutrients by diffusion, maintain bradytrophic metabolism and resist deformation by pressure variations.Reference Vashishth, Mathur, Choudhary and Bhardwaj 12 Reference Khan and Parab 14 , Reference Levinson 17 Thus, factors affecting myringoplasty outcomes should be evaluated using the same graft material in future studies.

References

1 Carr, SD, Strachan, DR, Raine, CH. Factors affecting myringoplasty success. J Laryngol Otol 2015;129:23–6CrossRefGoogle ScholarPubMed
2 Furukawa, M, Hayashi, C, Narabayashi, O, Kasai, M, Okada, H, Haruyama, T et al. Surgical management of myringosclerosis over an entire perforated tympanic membrane by simple underlay myringoplasty. Int J Otolaryngol 2016;2016:2894932 CrossRefGoogle ScholarPubMed
3 Migirov, L, Volkov, A. Influence of coexisting myringosclerosis on myringoplasty outcomes in children. J Laryngol Otol 2009;123:969–72Google Scholar
4 Pinar, E, Sadullahoglu, K, Calli, C, Oncel, S. Evaluation of prognostic factors and middle ear risk index in tympanoplasty. Otolaryngol Head Neck Surg 2008;139:386–90Google Scholar
5 Iacovou, E, Vlastarakos, PV, Papacharalampous, G, Kyrodimos, E, Nikolopoulos, TP. Is cartilage better than temporalis muscle fascia in type I tympanoplasty? Implications for current surgical practice. Eur Arch Otorhinolaryngol 2013;270:2803–13CrossRefGoogle ScholarPubMed
6 Collins, WO, Telischi, FF, Balkany, TJ, Buchman, CA. Pediatric tympanoplasty: effect of contralateral ear status on outcomes. Arch Otolaryngol Head Neck Surg 2003;129:646–51CrossRefGoogle ScholarPubMed
7 Onal, K, Uguz, MZ, Kazikdas, KC, Gursoy, ST, Gokce, H. A multivariate analysis of otological, surgical and patient-related factors in determining success in myringoplasty. Clin Otolaryngol 2005;30:115–20Google Scholar
8 Mohamad, SH, Khan, I, Hussain, SS. Is cartilage tympanoplasty more effective than fascia tympanoplasty? A systematic review. Otol Neurotol 2012;33:699705 Google Scholar
9 Kirazli, T, Bilgen, C, Midilli, R, Ogut, F. Hearing results after primary cartilage tympanoplasty with island technique. Otolaryngol Head Neck Surg 2005;132:933–7Google Scholar
10 Konstantinidis, I, Malliari, H, Tsakiropoulou, E, Constantinidis, J. Fat myringoplasty outcome analysis with otoendoscopy: who is the suitable patient? Otol Neurotol 2013;34:95–9Google Scholar
11 Kim, DK, Park, SN, Yeo, SW, Kim, EH, Kim, JE, Kim, BY et al. Clinical efficacy of fat-graft myringoplasty for perforations of different sizes and locations. Acta Otolaryngol 2011;131:22–6CrossRefGoogle ScholarPubMed
12 Vashishth, A, Mathur, NN, Choudhary, SR, Bhardwaj, A. Clinical advantages of cartilage palisades over temporalis fascia in type I tympanoplasty. Auris Nasus Larynx 2014;41:422–7CrossRefGoogle ScholarPubMed
13 Cabra, J, Moñux, A. Efficacy of cartilage palisade tympanoplasty: randomized controlled trial. Otol Neurotol 2010;31:589–95Google Scholar
14 Khan, MM, Parab, SR. Comparative study of sliced tragal cartilage and temporalis fascia in type I tympanoplasty. J Laryngol Otol 2015;129:1622 Google Scholar
15 Ozbek, C, Ciftçi, O, Tuna, EE, Yazkan, O, Ozdem, C. A comparison of cartilage palisades and fascia in type 1 tympanoplasty in children: anatomic and functional results. Otol Neurotol 2008;29:679–83Google Scholar
16 England, RJ, Strachan, DR, Buckley, JG. Temporalis fascia grafts shrink. J Laryngol Otol 1997;111:707–8CrossRefGoogle ScholarPubMed
17 Levinson, RM. Cartilage-perichondrial composite graft tympanoplasty in the treatment of posterior marginal and attic retraction pockets. Laryngoscope 1987;97:1069–74Google Scholar