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Otolaryngology-ENT Research

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Abstract

Objective: To evaluate the effectiveness and safety of Intratympanic methylprednisolone injection in patients with sudden sensorineural hearing loss (SSNHL) by means of a comparison between subjective and objective outcomes and a review of the literature regarding methylprednisolone transtympanic administration.

Data Sources: An electronic database search (MEDLINE and PubMed) was performed with the objective of identifying all studies published in the English language between January 1980 and October 2014 on the treatment of intratympanic methylprednisolone injection in ISSNHL. Prospective, non-randomized, case review of patients diagnosed with ISSNHL treated with intratympanic methylprednisolone from January 1, 2012 to June 1, 2014.

Study Selection: Twenty-seven articles describing intratympanic methylprednisolone injection in ISSNHL

Data Extraction: Mean, standard deviation and extreme values were presented in continuous variables; absolute value and proportions for categorical variables. The results were expressed as mean ± standard deviation (SD). The comparison between categorical variables was evaluated by the c2 test or the continuity correction c2.

Data Synthesis: The entire analysis was performed using the SPSS package, version 15.0 (SPSS package Inc.)

Conclusion: Intratympanic methylprednisolone injection is a valid and safety option as a rescue therapy and also as first line treatment according to objective and subjective outcomes. It is the first time in which a correlation between subjective and objective outcomes could be established.

Keywordsinner ear, methylprednisolone, intratympanic therapy, sudden sensorineural hearing loss, steroids

Abbreviations

SSNHL, sudden sensori neural hearing loss; ISSHL, idiopathic sudden sensori neural hearing loss; ITS, intratympanic steroids

Introduction

Since idiopathic sudden sensorineural hearing loss (ISSHL) is a true otologic emergency, a clear definition is mandatory. Although most authors agree that ISSHL can develop in 72hours, there is controversy in considering the defining intensity of the hearing loss.1‒4 The natural history of ISSHL has not been elucidated; spontaneous recovery has been reported to occur in approximately 30-60% of cases5 and some cases recover so quickly that they do not seek medical attention.

The diagnosis of ISSHL is currently debatable due to the fact that the natural history of ISSHL is unknown and there is no single therapy that has been demonstrated to be effective. Due to ISSHL is a diagnosis of exclusion, the more extended and thorough the diagnostic investigation is conducted, the less idiopathic causes are found. Since the diagnostic work-up must exclude any identifiable causes, patients should be followed for at least 12months, time enough to consider the diagnosis of ISSHL.6

Although the exact cause of ISSNHL is still controversial, the main theories include viral infection of the labyrinth, vascular insult and autoimmunity. The lack of consensus in the management of ISSNHL is due to difficulty in finding the real cause of the hearing loss. Most recoveries occur within the first two weeks after the onset. Recovery is mainly affected by the degree and type of hearing loss and time to therapy. Attempts to look for a consensus are recommended.7 If for refractory hearing loss the expected recovery is extremely low, for a first-line therapy a confounding factor is the presence of the spontaneous recovery. However, when a patient seeks for medical advice and attention, usually days or weeks after the onset of the hearing loss, we can hypothesize that spontaneous recovery of hearing is unlikely. Therefore, in such a situation, no treatment or the use of placebo may be questionable and raises ethical dilemmas.

Systemic steroid therapy is a common treatment modality, with a reported success rate between 5% and 89%.8‒10

One of the main advantages of systemic steroids is their ability to arrest an immune reaction in the context of an autoimmune disorder. When the inner ear is the only organ affected by immunological responses, e.g. ISSHL with suspected immunologic origin, a clinical profile for the diagnosis is valuable and corticosteroids achieve the best outcomes in such as patients.11 Despite their widespread use, there is little consensus on the effectiveness of oral steroids and recent systematic reviews have called standard oral steroid therapy into question.12 For patients failing to recover after initial oral or intravenous steroids, there were no additional options.

Silverstein et al.,13 first applied the Intratympanic steroid injection as treatment of ISSHL. Most of the studies regarding Intratympanic steroids (ITS) have shown their efficacy as an initial treatment for ISSNHL (as the first treatment without systemic corticosteroids), adjuvant therapy (concomitantly with systemic corticosteroids) or as a salvage therapy for the refractory ISSHL patients (started after systemic corticoid therapy has failed). The aims of the present study were the determination of the effectiveness and safety of Intratympanic methylprednisolone to treat ISSHL by means of a comparison between subjective and objective outcomes and a review of the literature regarding to trans tympanic intervention focused on methylprednisolone administration.

Patients and methods

Prospective, non-randomized, case review of patients diagnosed with ISSNHL treated with Intratympanicl methylprednisolone.

Inclusion criteria

  1. SSNHL, which was defined as a sudden unilateral sensorineural hearing loss of at least 30 dB at 3 contiguous frequencies over a period of ≤ 3days.
  2. Time from the onset of hearing loss to the treatment was ≤ 14days.
  3. No history of ear diseases.
  4. No specific causes for the SSNHL after proper investigation.
  5. Recovered less than 50% of their pre-loss hearing during systemic steroid treatment and presented for Intratympanic therapy within 1month (up to 34days) of onset (rescue group) or subjects affected by systemic disorders that do not recommend systemic steroid therapy (first line group).

The exclusion criteria were defined as follows

  1. Bilateral hearing loss
  2. Other contraindications to the administration of Intratympanic (IT) steroids
  3. The presence of a neoplasm or recent chemotherapy or radiation therapy
  4. Congenital cochlear malformations or the presence of otitis media with an abnormal Tympanogram
  5. Recent use of ototoxic medications
  6. Liver or renal dysfunction, and/or pregnancy. Our local ethical committee granted approval for the study, provided that the patient made the choice of treatment. All the patients included in the study were informed about each treatment and selected their preferred type of therapy of their own free will.

Rescue group

Seventeen patients had failure of systemic therapy and received injections as a rescue line. Of them, three were treated with intravenous methylprednisolone 125-500mg for 72hours, fourteen received oral steroids (methylprednisolone or deflazacor) 1mg/kg/day tapered in three weeks and two were treated in other hospital and we could not get the records.

First line group

Four patients were treated with local steroids because of their medical records: one had a vascular necrosis of hip, one had schizophrenia and two had hypertension treated with several drugs. Subjects received 4 methylprednisolone injections through the tympanic membrane within a 1-week period. Most injections were administered in the outpatient department of otolaryngology by one of the authors (JR G-B).

Intervention

The patient was placed in a supine position with the affected ear angled toward the ceiling. The external ear canal was cleaned of debris and the tympanic membrane was visualized with an operating microscope. Local anaesthetic of topical 5% lidocaine warmed to body temperature solution filled the external canal and tympanic membrane. A 1-ml tuberculin syringe and a 27-gauge spinal needle slightly angled to allow a proper visualization of the puncture site were used to inject 0.3-0.5ml of 40mg/ml methylprednisolone solution which penetrated the tympanic membrane at the posterior–inferior quadrant, avoiding puncturing in the same place twice during the course of the treatment. The injection was administered slowly so that the solution pooled around the round window niche, completely filling the middle ear cavity leaving any surplus fluid in the external auditory canal. The patient was instructed to avoid swallowing; speaking or moving in the supine position with the head tilted 45degrees to the healthy side for 30minutes to provide a maximal absorption of the medication through the round window and to prevent drug leakage through the eustaquian tube. The dose varied due to subject specific factors, although in most cases, at least 0.3ml was injected.

Hearing evaluation

Patients were evaluated with pure-tone audiometry before each injection and 1month after steroid injection. The mean value for the pre treatment and post treatment was calculated as the mean value at each of the 8 frequencies (125, 250, 500, 1000, 2000, 4000 and 8000 Hz) and also at 5 frequencies (250, 500, 1000, 2000, 4000).

Standard Assessment

The standard assessment included routine audiometric testing (PTA at five frequencies and impedance audiometry), serological tests (ANA, FTA, inmunophenotype of blood T cells), serum glucose measurement, coagulation and MRI of posterior fossa.

Outcome assessment

Hearing response was defined as an improved pure-tone average ≥10 dB, Subjective outcome was considered when a statistical difference in a visual analogue scale (VAS) pre treatment and post treatment was observed. The visual analogue scale was used to describe hearing loss and tinnitus in a subjective way. It was expressed from 0 to 10, indicating that 0 was no symptom and 10 the most annoying o incapacitating symptom.

Statistical analysis

Mean standard deviation and extreme values were presented in continuous variables; absolute value and proportions for categorical variables. The results were expressed as mean ± standard deviation (SD). The comparison between categorical variables was evaluated by the c2 test or the continuity correction c2.The results for each frequency between pre and post comparisons were analysed using t-tests for paired data. The mean of the differences have been estimated by calculating their confidence intervals of 95%. The Pearson correlation coefficient for the measures of relationship VAS and the global mean. The box plot was drawn to illustrate the median, quartiles and extreme values of VAS. The level of statistical significance was p<0.05 and two side. The entire analysis was performed using the SPSS package, version 15.0 (SPSS package Inc.)

Results

Twenty-one patients enrolled in the study. There were 12 males and 9 females. The mean age was 46 years and ranged from 27 to 85years. Seventeen patients (80.95%) had failure of systemic therapy and received injections as a rescue line. Of them, three were treated with intravenous methylprednisolone for 72hours, fourteen received oral steroids (methylprednisolone or deflazacor) for 21days and two were treated in other hospital and we couldn´t get the records. The mean days from the onset of systemic therapy to the injections were 11.5days. Four patients (19.04%) had contraindications for systemic therapy: two with hypertension, one had a previous a vascular necrosis of the hip and one had schizophrenia. In these cases, the tympanic injection was their first-line treatment

All patients received one weekly injection for 4weeks. Eleven patients (52.3%) did not express any complication. Seven patients (33.3%) experienced pain that disappear in minutes, four patients (19%) described dizziness and one (4.8%) had burning sensation. There was a case of perforation in a patient that had a monomer tympanic membrane. The mean value for hearing loss in the VAS before and after the treatment was 8.6 and 1.4, respectively. The mean of the difference in score was 7.1 (5.1- 9.2; p< 0.001) (Figure 1).

The mean value for tinnitus in the VAS before and after the treatment was 7.8 and 2.9, respectively. The mean of the difference in score was 4.9 (3.1- 6.6; p< 0.001).Of the 21 patients, 14 (66.7%) presented a PTA average > 10 dB hearing thresholds at 250-500-1000-2000-4000 Hz before and after the treatment were 59.0 dB and 40.4 dB, respectively and the improvement was 18.75dB (p<0.001). Table 1 represents each frequency (125-8000 Hz) with their means and standard deviation. We also used these frequencies to get the mean of hearing loss with the VAS and it was 7.4 before and 3.0 after, with a mean of 4.4 (p<0.001). The Pearson correlation between VAS (hearing loss) and the PTA average pre treatment was 0.53 (= 0.13) and post treatment was 0.67 (p= 0.01).We separate the total of patients in the two subgroups (first line and rescue) to evaluate if there is a significant difference in the results. In the first line group (4 patients) we got that the PTA pre treatment and post treatment using the five frequencies (250-4000Hz) were 46.8dB and 29.3dB and the improvement was 17.5 (p= 0.138). On the other hand, in the rescue group (17 patients), the PTA pre treatment and post treatment were 61.9dB and 43.1dB and the improvement was 18.8 (p< 0.01).

Frequency    

Mean Pretreatment(dB    )

SD pre Treatment(dB)    

Mean post Treatment(dB)     

SD post Treatment(dB)   

Improvement(dB)   

CI 95%

p

125

52.38

22.83

35.48

24.13

16.91

7.2-26.6

0.002

250

50.95

26.58

35.48

27.69

15.48

1.3-29.7

0.034

500

59.05

25.27

38.81

28.8

20.24

9.9-30.5

0.001

1000

59.05

23.27

40.95

25.72

18.1

9.7-26.5

< 0.001

2000

56.67

19.06

40.24

24.87

16.43

6.9-25.8

0.002

4000

65

22.97

46.67

24.51

18.33

9.8-26.8

< 0.001

8000

68.25

25.66

49.75

28.77

18.5

9.5-27.4

< 0.001

Table 1 Hearing thresholds before and after injections in each frequency
dB: Decibeles; SD: Standard deviation

Discussion

ISSHL can be considered the result of abnormal activation of cellular stress pathway involving nuclear factor κβ in supporting cells and spiral ligament fibrocystic resulting in the production of inflammatory cytokines and other stress-related proteins that can disrupt the homeostatic balance of the inner ear.6,14 Traditionally the effect of corticoids has been attributed to the anti-inflammatory and immunosuppressive activity including down-regulation of local proinflammatory cytokines (IL-1, IL-6, TNF-α),15 neuroprotective, antioxidant and ant apoptotic effects, ion homeostasis (up regulation of aquaporins, increasing Na+ -K+ exchange in the stair vascular is and direct effect on connexion-protein expression) and promotion of cochlear blood flow. Furthermore, glucocorticoids and mineral corticoid receptors have been demonstrated in the human inner ear with the highest concentration in the spiral ligament.16

Several trials showed that Intratympanic treatment was not inferior to oral steroid in hearing recovery.17‒22 Although Intratympanic steroids for salvage have not yet been established as the gold standard for patients with incomplete recovery from ISSHL, mounting evidence for their effectiveness has been reported.23‒25 Although dramatic recoveries in patients with profound ISSHL after salvage treatment with Intratympanic steroids are rare. The injections were offered to patients because we consider unethical not giving an alternative in patients with risk factors to systemic therapy. The Trans tympanic route has 2 advantages; firstly, it allows a greater concentration of drugs in the perilymph and secondly, it minimizes systemic effects and absorption. Side effects of systemic steroids can greatly compromise a person’s quality of life and hinder their capacity to work throughout the treatment period.26

Based on Parnes et al report27 in which methylprednisolone presented the best absorption profile in both perilymph and endolymph after trans tympanic administration, we only use methylprednisolone for Intratympanic therapy and focused on this drug the present review. Trans tympanic corticosteroid treatment, however, has potential limitations, such as the presence of barriers and air bubbles in the round window niche28 and loss of drug down the Eustachian tube. Intratympanic steroid injection is an effective, safe, cheap and well-tolerated office based-procedure for the treatment of ISSHL.

Injection procedures include Intratympanic injection using a needle puncture technique, Intratympanic injection after myringotomy, steroid administration through tympanostomy tubes and continuous delivery of steroids via a micro pump embedded in the round window niche (Table 2). Most authors achieve local anaesthesia of the external auditory canal and tympanic membrane by different methods (Table 3) in order to make comfortable the procedure. In our experience the most safety and simple method of achieving local anaesthesia is by means of topical lidocaine 5% solution warmed to body temperature. Infiltration of the vascular strip could cause blister formation in the external auditory canal skin and diffusion of the anaesthetic to the middle ear cleft resulting in vertigo and transient facial palsy. Injection of a drug mixture consisting of methylprednisolone and lidocaine29 may interfere with the effect of the steroid, increases the potential risk of sudden vertigo due to lidocaine diffusion to the labyrinth, may be as painful as an IT injection without any previous local anaesthesia30 and adds another variable for the outcome evaluation. The reason for the pain reported in patients undergoing trans tympanic injection could be the pH of the steroid solution31 because of the volume needed, whereas with targeted delivery administration by using a round window membrane micro catheter,32 the lower volume is less likely to cause discomfort. Potential disadvantages of micro catheter include the risk and expense of general anaesthesia, operating room time, perforations of the tympanic membrane and price of the device.

Administration

Author

 

 

Injection

William H Slaterry8

 

Dallan I54

 
 

John Xenellis24

 
 

Fitzgerald44

 
 

Rahmi Kiliç39

 
 

Guillermo Plaza47

 

Dallan I46

 
 

Yang Chen29

 
 

Igor Texeira48

 
 

Necmi Arslan38

 
 

Dallan I42

 
 

Peng Li35

 
 

Steven D Rauch17

 
 

Yide Zhou25

 
 

Tomás Labatut34

 
 

Onur Gundogan41

 

Our study

 

Micropump

Richard D Kopke32

 

Stefan Plontke37

 
 

France Van Wijck45

 

Wandong She49

 
 

Sébastian Barriat43

Tube

Gerard J Gianoli2

 
 

Avik Banerjee22

 

 

Jürgen Lautermann36

   

Table 2 Comparison of administration delivery of local methylprednisolone

Anesthesia

Author

   

Alphacaine  articaine hydrochloride 40mg epinephrine 0006 mg/ml

Sébastian Barriat43

EMLA

Gerard J Gianoli2

 
 

Igor Texeira48

 

General

Richard D Kopke32

Lidocaine

William H Slattery8

Lidocaine 1% + adrenaline 1:100000

France Van Wijck45

injection

Tomás Labatut34

 

Lidocaine 10% cotton ball soaked

Onur Gundogan41

Lidocaine hydrochloride 2% added in the solution

John Xenellis24

 

None

Necmi Arslan38

 
 

Rahmi Kiliç39

 

Not specified

I Dallan54

 
 

I Dallan46

 
 

Stefan Plontke37

 

Phenol

Gerard J Gianoli2

 
 

Avik Banerjee22

 
 

Fitzgerald44

 
 

Guillermo Plaza47

 

Peng Li35

 
 

Steven D Rauch17

 
 

Benjamin J Wycherly50

 

Yide Zhou25

 

Tetracaine

Yang Chen29

 
 

Wandong She49

 

Topic lidocaine

Our study

   

Table 3  Comparison of anesthesia in methylprednisolone local administration

Concerns with steroid administration through a tympanostomy tube are related to the dose administered, in many cases, by the own patient, and the higher risk of perforation of the tympanic membrane.22,33 Needles of different diameters have been used for ITS injection. In our study we used a 27-gauge spinal needle, what facilitates the collapse of the injection site when the needle is pulled out and keeping the fluid in the middle ear.34 The patient is placed supine with the treated ear upward for 20-30minutes in most studies. The amount injected in the middle ear in published papers ranges from 0.3 to 0.5mL, which is approximately the middle ear volume. In our study we used an approximate dose of 0.5mL of 40mg/mL. The optimal dose, however, is debatable and it is very difficult to estimate taking into consideration that the amount of drug filling the middle ear cleft could be reduced by the mixture with local anaesthesia or sodium bicarbonate, the middle ear cleft size, the existence of adhesions in the round window niche and the loss through the eustaquian tube.35 Another concern are the exact treatment duration and schedule. Most protocols include from 1 to 4 injections with different time courses of administration (Table 4).

Interval

Author

 

 

1 alternating days injection [total 3]

Igor Texeira48

 

1 alternating days injection [total 4]

Yide Zhou25

 

1 alternating days injection [total 5]

Necmi Arslan38

 

1 consecutive diary injection [total 5]

Jürgen Lautermann36

1 injection

I Dallan54

 
 

I Dallan46

 

1 injection each 2 days [ total 4]

Yang Chen29

 

1 injection each 3 days [ total 4]

Peng Li35

 
 

Onur Gundogan41

1 injection each 3 days [ total 5]

Rahmi Kiliç39

 

1 injection or more

I Dallan42

 

1 weekly injection [ total 3]

Fitzgerald44

 
 

Guillermo Plaza47

 

Benjamin J Wycherly50

1 weekly injection [ total 4]

Our study

 

2 weekly injections until improvement

Avik Banerjee22

 

Not specified

France Van Wijck45

 

Sébastian Barriat43

Perfusion 4 weeks

Stefan Plontke37

 

Perfusion for 10 days

Wandong She49

 

Perfusion for 14 days

Richard D Kopke32

Separated injection in 10-14 days[total 4]

Gerard J Gianoli2

 

 

William H Slattery8

   

Table 4 Comparison between intervals of methylprednisolone administration

In the present study we performed 4 injections with one-week interval. Perhaps due to the pharmacodynamics of corticosteroids in the inner ear, the IT injections might be done with at least 24-hour intervals, but the risks of overdose and perforation of the tympanic membrane advise a more prolonged interval. The reported effective rates ranges from 12 to 100% and the average PTA improvement ranged from 8 to 62 dB.36,37 Most authors include 0.5, 1, 2, and 4kHz. The most widely adopted criteria for hearing recovery is the improvement of 10dB in PTA after treatment.38,39 Since this criterion can overestimate the effectiveness of steroids, we included all frequencies (0.125 to 8000 Hz) for calculating hearing recovery. According to this criterion, 66.7% of our patients showed a positive response. However, we could not establish significantly differences between the rescue group and first line group of patients due to the low number of cases in the first line group. Efficacy of treatment was also categorized according to Siegel’s criteria40,41 relative gain42 and the speech reception thresholds (SRT), speech discrimination testing (SDS) and the maximum speech intelligibility.43‒45

Many authors agree that patients that started therapy soon after failures of systemic therapy was detected had an evident advantage.46,47 In the present study time elapsed from onset of the symptoms to the beginning of the ITS injections was 11.3days. This short period could represent a prognosis factor in the outcome of ISSHL and it was similar to observed by other authors.8,32,48,49 A significantly increased response rate was found in patients having an audiogram >5weeks after the first dose of ITS.50 In our protocol we performed the last audiogram for the outcome assessment 4weeks after the last ITS administration. This follow-up would identify early versus late responders in base to different mechanisms of damaging the inner ear.

Although the possible ototoxic effect of IT steroids has been ruled out in experimental and clinical studies51‒53 one patient with worsening of the PTA with repeated injections of methylprednisolone has been reported.54 This worsening may represent a dose-effect response: a higher than therapeutic dose might have damaged the inner ear . In our study, no patient experienced worsening of their hearing. Although IT steroid procedure was well tolerated, in our study seven patients (33.3%) experienced pain that spontaneously disappearing in minutes or easily controlled by the administration of paracetamol. A recent report that compared the pain level of local anaesthesia, showed no difference in pain intensity among three methods (application of EMLA cream, subcutaneous injection of lidocaine 1% with 1:100.000 epinephrine and IT injection without previous anaesthesia). A burning sensation around the ear was one of the most frequently encountered side effects of IT methylprednisolone, and it resolved over a period of 10-20minutes after the injection in most patients.55 In Rauch et al study (17), 54 % of patients experienced pain.

Effective drug delivery into the inner ear can stimulate the vestibule and induce dizziness, possibly due to caloric effect, which implies a good prognosis.29 Four patients (19%) complained of vertigo (despite of the solution was warmed to body temperature) or an increase in tinnitus during the injections, but these complaints resolved within minutes. Tympanic membrane perforations are usually observed if myringotomy had been done, and usually recover easily.32 In our study only one patient developed a tympanic membrane perforation. The use of a needle of 27-gauge that causes a small hole and the fact that injections were repeated at one-week intervals could facilitate the healing of the tympanic membrane thus justifying the low percentage of perforations found in our patients.

We propose the addition of a VAS (Visual Analogue Scale) to contribute to the evolution assessment of hearing recovery and tinnitus amelioration in ISSHL, based in a preliminary report presented in 2013.56 A statistically difference in the VAS before and after the treatment in tinnitus and hearing loss could be observed (p< 0.001). Correlation between VAS (hearing loss) and the PTA average pre-treatment and post treatment was statistically significant as well (p = 0.01). This is the first time, in our knowledge, that such a correlation has been reported

Conclusion

ISSHL remains a challenging clinical problem. ISSHL can be considered the result of abnormal activation of cellular stress pathway inside the inner ear resulting in the production of inflammatory cytokines and other stress-related proteins that can disrupt the homeostatic balance of the inner ear. The main mechanism of action of steroids on cochlear function has been attributed to the anti-inflammatory and immunosuppressive activity. Tran’s tympanic route allows a greater concentration of drugs in the perilymph minimizing systemic adverse effects. Since methylprednisolone presented the best absorption profile we used this drug for treating patients affected by ISSHL.

Intratympanic steroid injection is an effective, safe, cheap and well-tolerated office based-procedure for the treatment of ISSHL. The low rate of complications and the hearing outcomes support its use not only as a rescue therapy but also as first line treatment. Subjective outcomes regarding to hearing loss and tinnitus strongly advocate the use of Intratympanic injection of methylprednisolone in ISSHL. It has to be considered that the second group has a small number of patients to extract definitive conclusions despite the results and that a study with a big number is needed to confirm the results.

Acknowledgments

None.

Conflicts of interest

Author declareas there are no conflicts of interest.

Funding

None.

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