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Balloon dilation for eustachian tube dysfunction: systematic review

Published online by Cambridge University Press:  04 August 2016

S Y Hwang*
Affiliation:
Department of Otolaryngology and Head and Neck Surgery, Sydney Children's Hospital, Randwick, New South Wales, Australia Faculty of Medicine, University of New South Wales, Kensington, Australia
S Kok
Affiliation:
Department of Otolaryngology and Head and Neck Surgery, Sydney Children's Hospital, Randwick, New South Wales, Australia
J Walton
Affiliation:
Department of Otolaryngology and Head and Neck Surgery, Sydney Children's Hospital, Randwick, New South Wales, Australia
*
Address for correspondence: Dr Sang Y Hwang, Department of Otolaryngology and Head and Neck Surgery, Sydney Children's Hospital, High Street, Randwick, NSW 2031, Australia E-mail: syhwang15@gmail.com
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Abstract

Background:

Eustachian tube dysfunction is a disorder for which there are limited medical and surgical treatments. Recently, eustachian tube balloon dilation has been proposed as a potential solution.

Method:

A systematic literature review was performed. Abstracts were selected for relevance, and pooled data analysis and qualitative analysis was conducted.

Results:

Nine prospective studies, describing 713 eustachian tube balloon dilations in 474 patients (aged 18–86 years), were identified. Follow-up duration ranged from 1.5 to 18 months. Ability to perform a Valsalva manoeuvre improved from 20 to 177 out of 245 ears following eustachian tube balloon dilation and, where data were reported in terms of patient numbers, from 15 to 189 out of 210 patients. Tympanograms were classified as type A in 7 out of 141 ears pre-operatively and in 86 out of 141 ears post-operatively.

Conclusion:

Prospective case series can confirm the safety of eustachian tube balloon dilation. As a potential solution for chronic eustachian tube dysfunction, further investigations are warranted to establish a higher level of evidence of efficacy.

Type
Review Articles
Copyright
Copyright © JLO (1984) Limited 2016 

Introduction

Eustachian tube dysfunction is a physiological disorder of the eustachian tube that results in inadequate middle-ear ventilation, causing aural fullness and tinnitus. In addition, complications such as serous otitis media, tympanic membrane retraction and cholesteatoma can occur.Reference Adil and Poe 1 Eustachian tube dysfunction affects around 1 per cent of adults.Reference Norman, Llewellyn, Harden, Coatesworth, Kimberling and Schilder 2 , Reference Martino, Di Thaden, Krombach and Westhofen 3

Current treatment modalities for eustachian tube dysfunction, which include pharmacological agents, mechanical devices and nasal surgery, can be ineffective.Reference Adil and Poe 1 , Reference Norman, Llewellyn, Harden, Coatesworth, Kimberling and Schilder 2 Treatment may entail multiple insertions of ventilation tubes in patients with chronic eustachian tube dysfunction, leading to complications such as tympanosclerosis, chronic perforation and cholesteatoma.Reference Catalano, Jonnalagadda and Yu 4

Recently, eustachian tube balloon dilation has been researched in prospective cohort studies and is currently used ‘off-label’ as a potential treatment for chronic eustachian tube dysfunction.Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 5 , Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 It aims to improve eustachian tube compliance and middle-ear ventilation. Its proposed mechanisms include mechanical dilation of the cartilaginous eustachian tube and initiation of histopathological changes to the mucosa that can alter the inflammatory process.Reference Kivekas, Chao, Faquin, Hollowell, Silvola and Rasooly 7

However, eustachian tube balloon dilation is a new procedure, and the operative technique needs to be verified for its efficacy and complications. This paper systematically reviews the available evidence on eustachian tube balloon dilation for treating chronic eustachian tube dysfunction.

Materials and methods

Criteria for study eligibility

Studies were eligible for inclusion in data analysis if they were prospective (cohort or randomised), aimed to assess the effectiveness of eustachian tube balloon dilation in adults, and included outcomes of ability to perform Valsalva or Toynbee's manoeuvre and/or tympanometry results. Retrospective studies, studies that did not include one of the two aforementioned outcomes, cadaveric studies and technical studies were excluded from data analysis but included in the discussion. Published conference abstracts and case reports were excluded from this review.

Literature search and study selection

Two authors (SH and JW) independently searched Medline, PubMed and Embase databases for relevant papers published from 1950 to October 2015. No restrictions were made on language. The keywords ‘eustachian tube’, ‘auditory tube’, ‘dilation’, ‘dilatation’ and ‘balloon’ were used. This search was supplemented by using the ‘related article’ function. The search was repeated on Google Scholar to locate additional abstracts. A manual search of references of eligible manuscripts was also performed.

Studies that were eligible for inclusion in the systematic review were assessed independently and any disagreements were resolved by discussion between the two aforementioned authors. Figure 1 demonstrates the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (‘PRISMA’) flow diagram.

Fig. 1 Preferred Reporting Items for Systematic Reviews and Meta-Analyses (‘PRISMA’) flow diagram of search method.

Data extraction and statistical analysis

Data extraction was performed independently by two authors (SH and JW). Pooled data analysis was performed.

Results

Nine prospective studies,Reference Catalano, Jonnalagadda and Yu 4 , Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 , Reference Jurkiewicz, Bien, Szczygielski and Kantor 8 Reference Wanscher and Svane-Knudsen 14 describing 713 eustachian tube balloon dilations in 474 patients (aged 18–86 years), were identified. Follow-up duration ranged from 1.5 to 18 months. The included studies are summarised in Tables I and II.

Table I Papers evaluating eustachian tube balloon dilation

Pt = patient; ETBD = eustachian tube balloon dilation; NR = not reported

Table II Results of eustachian tube balloon dilation

*Results reported as numbers of patients not individual eustachian tubes. Pre-op = pre-operative; post-op = post-operative; N/A = not applicable

Indications

The indication for eustachian tube balloon dilation in all studies was chronic eustachian tube dysfunction. The method of diagnosis varied between the studies, but all included clinical history and otoscopy, with six studies using tympanometry and two studies using tubomanometry.

Techniques

Two main balloon dilation techniques were described in the literature, with five studiesReference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 , Reference Jurkiewicz, Bien, Szczygielski and Kantor 8 , Reference Schroder, Reineke, Lehmann, Ebmeyer and Sudhoff 11 , Reference Tisch, Maier and Maier 13 , Reference Wanscher and Svane-Knudsen 14 reporting the use of the Bielefeld technique (developed in Germany) and four studiesReference Catalano, Jonnalagadda and Yu 4 , Reference McCoul and Anand 9 , Reference Poe, Silvola and Pyykko 10 , Reference Silvola, Kivekas and Poe 12 using the Acclarent balloon technique (developed in North America). Both techniques were performed under general anaesthetic, with pre-operative topical decongestant applied to nasal mucosa and the eustachian tube orifice.

In the Bielefeld technique, a Storz micro-endoscope is used to visualise the insertion of a purpose-built Bielefeld balloon catheter into the eustachian tube. The balloon is inflated to a pressure of 10 bars for 2 minutes, with the aim of inflating the balloon to a size of 3 × 20 mm.

In the Acclarent balloon technique, a 30- or a 45-degree, 4 mm Hopkins rod is used to visualise the insertion of an angled 70-degree catheter into the eustachian tube. Balloon sizes, pressures and duration of inflation vary between the papers that use this technique. These include a 5 × 16 mm balloon inflated to 8 atm for 30 seconds,Reference Catalano, Jonnalagadda and Yu 4 a 5 × 24 mm or 7 × 24 mm balloon (adjusted for individual patients) inflated to 10 atm for 2 minutes,Reference McCoul and Anand 9 or a 7 × 16 mm balloon inflated to 12 atm for 1 minute.Reference Poe, Silvola and Pyykko 10 , Reference Silvola, Kivekas and Poe 12

Valsalva

The ability to perform a Valsalva or Toynbee's manoeuvre pre- and post-eustachian tube balloon dilation was reported in seven studies. This improved from 20 (8 per cent) to 177 (72 per cent) out of 245 ears following eustachian tube balloon dilation,Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 , Reference Jurkiewicz, Bien, Szczygielski and Kantor 8 , Reference Poe, Silvola and Pyykko 10 Reference Silvola, Kivekas and Poe 12 , Reference Wanscher and Svane-Knudsen 14 and, where data were reported in terms of patient numbers, from 15 (7 per cent) to 189 (90 per cent) out of 210 patients.Reference Tisch, Maier and Maier 13

Tympanometry

Tympanometry results were reported in six studies.Reference Jurkiewicz, Bien, Szczygielski and Kantor 8 Reference Silvola, Kivekas and Poe 12 , Reference Wanscher and Svane-Knudsen 14 Tympanograms were classified as type A in 7 out of 141 ears (5 per cent) pre-operatively, and this improved to 86 out of 141 ears (61 per cent) post-operatively. Twelve of these classifications (9 per cent) were because of grommets being removed and/or tympanic membrane perforations healing.

Tubomanometry

Tubomanometry was performed pre-operatively in two studies,Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 , Reference Schroder, Reineke, Lehmann, Ebmeyer and Sudhoff 11 but no post-operative data were provided. Tubomanometry was mainly used as an adjunct to aid in the diagnosis of eustachian tube dysfunction.

Quality of life

One studyReference McCoul and Anand 9 used the 7-item Eustachian Tube Dysfunction Questionnaire and the 22-item Sino-Nasal Outcome Test (SNOT-22) to evaluate improvement in symptoms and quality of life pre- and post-eustachian tube balloon dilation.

There were statistically significant improvements in both measures: the 7-item Eustachian Tube Dysfunction Questionnaire pre-operative mean score of 4.5 decreased to 2.8 at 6 months (p < 0.001), and the SNOT-22 pre-operative mean score decreased from 51.4 to 30 at 6 months (p = 0.001).

Complications

All studies documented complications. Four studiesReference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 , Reference Jurkiewicz, Bien, Szczygielski and Kantor 8 , Reference McCoul and Anand 9 , Reference Silvola, Kivekas and Poe 12 reported no eustachian tube balloon dilation related complications and one studyReference Schroder, Reineke, Lehmann, Ebmeyer and Sudhoff 11 reported only minor epistaxis. More serious complications included two cases of self-resolving subcutaneous emphysema in two separate studies.Reference Catalano, Jonnalagadda and Yu 4 , Reference Tisch, Maier and Maier 13

Complications associated with a learning curve were described by Wanscher and Svane-Knudsen,Reference Wanscher and Svane-Knudsen 14 who reported 3 cases of acute otitis media in the first 20 eustachian tube balloon dilations, which decreased to 1 out of 30 after 5 days of post-operative prophylactic oral antibiotics.

Poe et al.Reference Poe, Silvola and Pyykko 10 reported 5 cases of minor mucosal lacerations in 11 eustachian tube balloon dilations and 1 case of C6–C7 contralateral radiculopathy, the latter of which was thought to be caused by operative positioning.

There were no reported cases of carotid artery injury or patulous eustachian tube in any of the papers reviewed.

Discussion

The eustachian tube in adults is approximately 37.5 mm long, and consists of bony and cartilaginous portions, extending from the middle-ear cleft to the nasopharynx.Reference Cummings 15 It has several physiological functions, which include pressure equalisation, drainage of the middle ear and protection from the nasopharyngeal environment.Reference Cummings 15

Poor or inadequate eustachian tube function causes eustachian tube dysfunction, which is a physiological disorder that may be temporary and spontaneously resolving.Reference Adil and Poe 1 Chronic eustachian tube dysfunction occurs when the dysfunction lasts for over three months; it is a poorly defined clinical entity, with variable diagnostic criteria based on clinical history, otoscopy and tympanogram results.Reference Norman, Llewellyn, Harden, Coatesworth, Kimberling and Schilder 2 It can be a difficult pathology to manage, with debilitating symptoms affecting quality of life; current conventional treatments may not be effective.

A recent health technology assessment found that there was minimal evidence of effectiveness for current medical and surgical interventions, including nasal decongestants, topical and systematic corticosteroids, antihistamines, mechanical devices, and nasal surgery.Reference Norman, Llewellyn, Harden, Coatesworth, Kimberling and Schilder 2 It identified only one study with a low risk of bias, a randomised, controlled trial, which found no improvement in eustachian tube dysfunction symptoms after six weeks of nasal steroids.Reference Gluth, McDonald, Weaver, Bauch, Beatty and Orvidas 16

In cases of chronic eustachian tube dysfunction refractory to conventional treatment, multiple insertions of ventilation tubes may be required. This can cause persistent perforation requiring dry ear precautions and/or myringoplasty. As a potential solution for this, eustachian tube balloon dilation (proposed as a treatment for chronic eustachian tube dysfunction) aims to ventilate and drain the middle ear by improving the physiological function of the eustachian tube.Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 , Reference Poe, Silvola and Pyykko 10

The initial papers by Ockermann et al. in 2010Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 5 , Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 and Poe et al. in 2011Reference Poe, Silvola and Pyykko 10 , Reference Poe and Hanna 17 focused on establishing the safety of eustachian tube balloon dilation by performing both cadaveric and clinical studies. The cadaveric studies revealed no evidence of fractures to the cartilaginous or bony lumen, and no damage to the internal carotid artery. Only minor mucosal lacerations at the eustachian tube orifice were noted.Reference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 5 , Reference Poe and Hanna 17

Since then, numerous prospective cohort studies have examined the role of eustachian tube balloon dilation. Pooled data analysis in this review revealed that the ability to perform a Valsalva improved from 8 per cent pre-eustachian tube balloon dilation to 72 per cent post-eustachian tube balloon dilation, while the rate of type A tympanograms increased from 5 to 61 per cent. Further statistical analysis is inappropriate because of the heterogeneity of the inclusion criteria, techniques and outcome measures in the papers included in this review.

The mechanisms by which eustachian tube balloon dilation improves eustachian tube function is an area of ongoing research, but appear to include both anatomical dilation of the cartilaginous eustachian tube and the initiation of histopathological changes.Reference Kivekas, Chao, Faquin, Hollowell, Silvola and Rasooly 7 A recent study examining the histopathological changes associated with eustachian tube balloon dilation found that the balloon had a crushing effect on inflammatory cells within the eustachian tube mucosa while sparing the basal layer, rapidly replacing the inflamed mucosa with a fibrous scar.Reference Kivekas, Chao, Faquin, Hollowell, Silvola and Rasooly 7

One major concern of eustachian tube balloon dilation is the theoretical risk of injury to a dehiscent carotid artery running adjacent to the bony eustachian tube;Reference Abdel-Aziz, Schroder, Lehmann, Gehl, Ebmeyer and Sudhoff 18 hence, computed tomography (CT) of the petrous temporal bones was routinely performed as a part of the pre-operative investigations. Abdel-Aziz et al.Reference Abdel-Aziz, Schroder, Lehmann, Gehl, Ebmeyer and Sudhoff 18 conducted a retrospective analysis of petrous temporal bone CT scans of 285 patients who underwent eustachian tube balloon dilation. The authors found that 24 eustachian tube balloon dilations were performed in 17 patients with carotid canal dehiscence, with no complications or technical difficulties. This suggests that routine petrous temporal bone CT is not indicated before eustachian tube balloon dilation.

Another area of concern for eustachian tube balloon dilation is its use in the paediatric population, where middle-ear disease is more prevalentReference Jenckel, Kappo, Gliese, Loewenthal, Lorincz and Knecht 19 because of a shorter, more horizontal eustachian tube, with a lumen that is less than half the size of an adult eustachian tube.Reference Cummings 15 Currently, there are 2 retrospective case series that describe eustachian tube balloon dilations in 33 children aged 5–14 years (mean, 9 years),Reference Jenckel, Kappo, Gliese, Loewenthal, Lorincz and Knecht 19 and in 66 children aged 4–14 years (mean, 8 years),Reference Maier, Tisch and Maier 20 with no reported complications and an improvement in middle-ear symptoms.

Despite the aforementioned results of this review, BluestoneReference Bluestone 21 suggested, in 2014, that the efficacy of eustachian tube balloon dilation remains unverified. This is because the majority of studies have small numbers of patients, limited follow up, a weak definition of ‘cure’ and do not evaluate the direct effect of eustachian tube balloon dilation on eustachian tube function. This suggests that a more rigorous clinical trial is required.

Any future clinical trial on eustachian tube balloon dilation would require strict inclusion criteria and should use commonly accepted outcome measurements. The authors of this paper believe that the appropriate outcome measures should include: clinical measures of otoscopy and the ability to perform a Valsalva manoeuvre; objective measures of tympanometry, audiometry and/or tubomanometry; and patient-reported measures acquired using a verified questionnaire such as the seven-item Eustachian Tube Dysfunction Questionnaire.Reference McCoul, Anand and Christos 22

Our evaluation of the evidence for eustachian tube balloon dilation is limited by the quality of the papers included, as the highest level of evidence available is prospective case series. Three papersReference Ockermann, Reineke, Upile, Ebmeyer and Sudhoff 6 , Reference Jurkiewicz, Bien, Szczygielski and Kantor 8 , Reference Poe, Silvola and Pyykko 10 had less than 20 patients, and only 2 papersReference Schroder, Reineke, Lehmann, Ebmeyer and Sudhoff 11 , Reference Silvola, Kivekas and Poe 12 had an average follow-up period longer than 12 months. Also, there were significant variations in terms of the assessment of patients, indications for eustachian tube balloon dilation and assessment of outcomes.

The diagnosis, investigations and indications for eustachian tube balloon dilation were not standard across the papers. This standardisation is in part limited by the subjective clinical nature by which chronic eustachian tube dysfunction is diagnosed. Although all studies reviewed used clinical history, otoscopy and tympanometry to diagnose chronic eustachian tube dysfunction, the indications for eustachian tube balloon dilation differed. In some papers, eustachian tube dysfunction refractory to conventional treatment was required, while in others a diagnosis of chronic eustachian tube dysfunction was sufficient. In future evaluations of eustachian tube balloon dilation, diagnostic criteria that include objective measurements of tympanometry and the seven-item Eustachian Tube Dysfunction Questionnaire should be used.

In addition, the technique of eustachian tube balloon dilation differed across the nine papers, with the two main techniques being those described in the Results section. In both techniques, the target for balloon dilation is the 8–12 mm segment that acts as a valve within the cartilaginous eustachian tube, as this is where the physiological deficiency in chronic eustachian tube dysfunction is thought to originate.Reference Poe and Hanna 17 Hence, care is taken to not push the balloon catheter past the cartilaginous and bony isthmus, or to use a balloon size that is too large for the patient.

However, this has meant that a variety of balloon sizes and pressures have been employed, especially among those who use the Acclarent balloon catheters. No ‘best’ way to perform eustachian tube balloon dilation has yet been established; at the current early stages of evaluating its efficacy, the heterogeneity of techniques confounds the ability to draw conclusions.

Overall, this review found that eustachian tube balloon dilation is a procedure with a low rate of complications and may be considered for refractory chronic eustachian tube dysfunction in adults. More rigorous studies with standardised indications, techniques and outcomes are required to provide a higher level of evidence before its mainstream use. Nevertheless, the current data suggest a potential benefit of this procedure for a condition that can be difficult to manage.

References

1 Adil, E, Poe, D. What is the full range of medical and surgical treatments available for patients with eustachian tube dysfunction? Curr Opin Otolaryngol Head Neck Surg 2014;22:815 Google Scholar
2 Norman, G, Llewellyn, A, Harden, M, Coatesworth, A, Kimberling, D, Schilder, A et al. Systematic review of the limited evidence base for treatments of eustachian tube dysfunction: a health technology assessment. Clin Otolaryngol 2014;39:621 Google Scholar
3 Martino, E, Di Thaden, R, Krombach, GA, Westhofen, M. Function tests for the eustachian tube. Current knowledge [in German]. HNO 2004;52:1029–39; quiz 1040Google Scholar
4 Catalano, PJ, Jonnalagadda, S, Yu, VM. Balloon catheter dilatation of eustachian tube: a preliminary study. Otol Neurotol 2012;33:1549–52Google Scholar
5 Ockermann, T, Reineke, U, Upile, T, Ebmeyer, J, Sudhoff, HH. Balloon dilation eustachian tuboplasty: a feasibility study. Otol Neurotol 2010;31:1100–3Google Scholar
6 Ockermann, T, Reineke, U, Upile, T, Ebmeyer, J, Sudhoff, HH. Balloon dilatation eustachian tuboplasty: a clinical study. Laryngoscope 2010;120:1411–16Google Scholar
7 Kivekas, I, Chao, WC, Faquin, W, Hollowell, M, Silvola, J, Rasooly, T et al. Histopathology of balloon-dilation eustachian tuboplasty. Laryngoscope 2015;125:436–41CrossRefGoogle ScholarPubMed
8 Jurkiewicz, D, Bien, D, Szczygielski, K, Kantor, I. Clinical evaluation of balloon dilation eustachian tuboplasty in the eustachian tube dysfunction. Eur Arch Otorhinolaryngol 2013;270:1157–60CrossRefGoogle ScholarPubMed
9 McCoul, ED, Anand, VK. Eustachian tube balloon dilation surgery. Int Forum Allergy Rhinol 2012;2:191–8Google Scholar
10 Poe, DS, Silvola, J, Pyykko, I. Balloon dilation of the cartilaginous eustachian tube. Otolaryngol Head Neck Surg 2011;144:563–9Google Scholar
11 Schroder, S, Reineke, U, Lehmann, M, Ebmeyer, J, Sudhoff, H. Chronic obstructive eustachian tube dysfunction in adults: long-term results of balloon eustachian tuboplasty [in German]. HNO 2013;61:142–51Google ScholarPubMed
12 Silvola, J, Kivekas, I, Poe, DS. Balloon dilation of the cartilaginous portion of the eustachian tube. Otolaryngol Head Neck Surg 2014;151:125–30Google Scholar
13 Tisch, M, Maier, S, Maier, H. Eustachian tube dilation using the Bielefeld balloon catheter: clinical experience with 320 interventions [in German]. HNO 2013;61:483–7Google Scholar
14 Wanscher, JH, Svane-Knudsen, V. Promising results after balloon dilatation of the eustachian tube for obstructive dysfunction. Dan Med J 2014;61:A4818 Google Scholar
15 Cummings, CW. Cummings Otolaryngology – Head and Neck Surgery, 4th edn. Philadelphia: Elsevier Mosby, 2005 Google Scholar
16 Gluth, MB, McDonald, DR, Weaver, AL, Bauch, CD, Beatty, CW, Orvidas, LJ. Management of eustachian tube dysfunction with nasal steroid spray: a prospective, randomized, placebo-controlled trial. Arch Otolaryngol Head Neck Surg 2011;137:449–55CrossRefGoogle Scholar
17 Poe, DS, Hanna, BM. Balloon dilation of the cartilaginous portion of the eustachian tube: initial safety and feasibility analysis in a cadaver model. Am J Otolaryngol 2011;32:115–23Google Scholar
18 Abdel-Aziz, T, Schroder, S, Lehmann, M, Gehl, HB, Ebmeyer, J, Sudhoff, H. Computed tomography before balloon eustachian tuboplasty–a true necessity? Otol Neurotol 2014;35:635–8CrossRefGoogle ScholarPubMed
19 Jenckel, F, Kappo, N, Gliese, A, Loewenthal, M, Lorincz, BB, Knecht, R et al. Endonasal dilatation of the eustachian tube (EET) in children: feasibility and the role of tubomanometry (Esteve) in outcomes measurement. Eur Arch Otorhinolaryngol 2015;272:3677–83CrossRefGoogle Scholar
20 Maier, S, Tisch, M, Maier, H. Balloon dilation of the eustachian tube in pediatric chronic obstructive eustachian tube dysfunction patients [in German]. HNO 2015;63:686–8, 690–4, 696–7Google Scholar
21 Bluestone, CD. Balloon dilation of the eustachian tube is indeed a “gizmo” until future research proves safety and efficacy. Otolaryngol Head Neck Surg 2014;151:374 Google Scholar
22 McCoul, ED, Anand, VK, Christos, PJ. Validating the clinical assessment of eustachian tube dysfunction: The Eustachian Tube Dysfunction Questionnaire (ETDQ-7). Laryngoscope 2012;122:1137–41Google Scholar
Figure 0

Fig. 1 Preferred Reporting Items for Systematic Reviews and Meta-Analyses (‘PRISMA’) flow diagram of search method.

Figure 1

Table I Papers evaluating eustachian tube balloon dilation

Figure 2

Table II Results of eustachian tube balloon dilation