Intratympanic Dexamethasone for Sudden … · 2 and 6 weeks after onset of symptoms), still, 26% improved by 20 dB or 20% SDS. The recovery rates after initial systemic failure are
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Intratympanic Dexamethasone for SuddenSensorineural Hearing Loss After Failure ofSystemic Therapy
David S. Haynes, MD; Matthew O’Malley, MD; Seth Cohen, MD; Kenneth Watford, NP;Robert F. Labadie, MD, PhD
Objective: Intratympanic steroids are increas-ingly used in the treatment of inner ear disorders,especially in patients with sudden sensorineuralhearing loss (SNHL) who have failed systemic ther-apy. We reviewed our experience with intratympanicsteroids in the treatment of patients with suddenSNHL to determine overall success, morbidity, andprognostic factors. Hypothesis: Intratympanic ste-roids have minimal morbidity and the potential tohave a positive effect on hearing recovery in patientswith sudden SNHL who have failed systemic therapy.Study Design: The authors conducted a retrospectivereview. Methods: Patients presenting with suddenSNHL defined as a rapid decline in hearing over 3days or less affecting 3 or more frequencies by 30 dBor greater who underwent intratympanic steroidstherapy (24 mg/mL dexamethasone) were reviewed.Excluded were patients with Meniere disease, retro-cochlear disease, autoimmune HL, trauma, fluctuat-ing HL, radiation-induced HL, noise-induced HL, orany other identifiable etiology for sudden HL. Pa-tients who showed signs of fluctuation of hearingafter injection were excluded. Pretreatment and post-treatment audiometric evaluations including pure-tone average (PTA) and speech reception threshold(SRT) were analyzed. Patient variables as they re-lated to recovery were studied and included patient
age, time to onset of therapy, status of the contralat-eral ear, presence of diabetes, severity of HL, andpresence of associated symptoms (tinnitus, vertigo). A20-dB gain in PTA or a 20% improvement in SDS wasconsidered significant. Results: Forty patients fit thecriteria for inclusion in the study. The mean age of thepatients was 54.8 years with a range from 17 to 84years of age. Overall, 40% (n � 16) showed any im-provement in PTA or SDS. Fourteen (35%) men and 26(65%) women were included. Using the criteria of20-dB improvement in PTA or 20% improvement inSDS for success, 27.5% (n � 11) showed improvement.The mean number of days from onset of symptoms tointratympanic therapy was 40 days with a range of 7days to 310 days. A statistically significant differencewas noted in those patients who received earlier in-jection (P � .0008, rank sum test). No patient receivingintratympanic dexamethasone after 36 days recov-ered hearing using 20-dB PTA decrease or a 20% in-crease in discrimination as criteria for recovery.Twelve percent (n � 5) of patients in the study haddiabetes with 20% recovering after intratympanicdexamethasone (not significantly different from non-diabetics at 28.6%, Fisher exact test, P � 1.0). Compar-ison to other studies that used differing steroid type,concentration, dosing schedule, inclusion criteria,and criteria for success revealed, in many instances, asimilar overall recovery rate. Conclusions: Difficultyin proving efficacy of a single modality is present inall studies on SNHL secondary to multiple treatmentprotocols, variable rates of recovery, and a high rateof spontaneous recovery. Forty percent of patientsshowed some improvement in SDS or PTA after treat-ment failure. When criteria of 20-dB PTA or 20% isconsidered to define improvement, the recovery ratewas 27.5%. Modest improvement is seen with the cur-rent protocol of a single intratympanic steroid injec-
From Vanderbilt University Medical Center/The Otology Group ofVanderbilt, Nashville, Tennessee, U.S.A.
Editor’s Note: This Manuscript was accepted for publication August30, 2006.
Send correspondence to David S. Haynes, MD, Associate Professor,Department of Otolaryngology/The Otology Group of Vanderbilt, 1215 21stAvenue South, 7209 MCE South Tower, Nashville, TN 37232, U.S.A.E-mail: [email protected]
DOI: 10.1097/01.mlg.0000245058.11866.15
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tion of 24 mg/mL dexamethasone in patients whofailed systemic therapy. Dramatic hearing recoveryin treatment failures was rarely encountered. No pa-tient showed significant benefit from intratympanicsteroids after 36 days when using this protocol foridiopathic sudden SNHL. If patients injected after 6weeks are excluded from the study, the improvementrate increases from 26.9% to 39.3%. Earlier intratym-panic injection had a significant impact on hearingrecovery, although with any therapeutic interventionfor sudden SNHL, early success may be attributed tonatural history. If we further exclude seven patientstreated with intratympanic steroids within 2 weeks ofthe onset of symptoms (i.e., study only those patientstreated with intratympanic dexamethasone between2 and 6 weeks after onset of symptoms), still, 26%improved by 20 dB or 20% SDS. The recovery ratesafter initial systemic failure are higher than would beexpected in this treatment failure group given ourcontrol group (9.1%) and literature review. Thesefindings indicate a positive effect from steroid perfu-sion in this patient population. Key Words: Suddensensorineural HL, intratympanic therapy, dexameth-asone, steroid perfusion.
Laryngoscope, 117:3–15, 2007
INTRODUCTIONIdiopathic sudden sensorineural hearing loss (SNHL)
is defined as a decline in hearing over 3 days or lessaffecting 3 or more frequencies by 30 dB or greater with noidentifiable etiology.1 Sudden SNHL affects between 5and 20 persons per 100,000 year or approximately 4,000new cases annually in the United States.2 The HL isnearly always unilateral and is commonly associated withtinnitus and aural fullness. The true incidence of suddenSNHL is probably underestimated because many who re-cover hearing early (within the first few days) are unlikelyto seek medical therapy.
Although this disorder is not one of the more commonetiologies for HL, disproportionate interest in suddenSNHL exists most likely because it is one of the fewreversible (sensorineural) hearing losses encountered byclinicians.3 Another potential reason for high interestlevel is that sudden SNHL is encountered by all otolaryn-gologists in all areas of the country and treated as a trueemergency often without the timeframe to allow for ter-tiary referral.
The etiology, natural history, and treatment of thisdisorder have been subjects of debate for many years. Theactual number of patients recovering spontaneously fromsudden SNHL without having sought medical attention isnot known. The high rate of spontaneous recovery, up to65%,4 also confounds reviews as to the therapeutic efficacyof any single agent or therapeutic intervention. Any pro-posed therapeutic intervention must improve on the 65%recovery rate that would be seen if no intervention wasoffered. The treatment of patients with sudden SNHLremains varied among otologic centers with no standardprotocol universally accepted. With no specific etiology,and a short timeline for effective therapy realized, a tech-nique termed “shotgun” therapy is often used. This ther-apy entails multiple therapeutic agents geared toward thehypothetical etiologies given at once, because the narrow
therapeutic window prevents trials with each agent sin-gly. This commonly used technique prevents the determi-nation of which, if any, of the agents were effective inrestoring hearing. Notwithstanding the timeframe inwhich maximum recovery may occur, from several days5,6
to possibly several months,7,8 also leads to errors in deter-mining treatment efficacy versus natural history. Despitehigh reported spontaneous recovery rates, it is our expe-rience, and that of others, that hearing recovery is poor inthose patients who have failed systemic therapy.5,9,10
Multiple treatment protocols and agents have beenproposed to treat SNHL. Steroids, antiviral agents, anti-coagulants, vasodilators, antiinflammatory agents, andothers have been proposed as therapeutic agents to treatsudden SNHL, most of which propose some benefit in thetreatment of sudden SNHL. The most accepted currenttreatment of sudden SNHL is systemic steroids. Althoughproven to be effective in randomized, double-blind,placebo-controlled trials,1,11 other studies have questionedthe efficacy of systemic steroids in the treatment of sud-den SNHL.2,4,8
Both short-term and long-term complications fromsystemic steroids are well known to otolaryngologists,leading to the continued investigation into directed ther-apy for inner ear disorders, including sudden SNHL. In-tratympanic steroids offer the potential for directed ther-apy of a high concentration to the inner ear withavoidance of systemic side effects. Like most proposedtherapies, the efficacy of intratympanic steroid therapy inthe treatment of sudden HL has yet to be determined,although several reports have demonstrated efficacy espe-cially after treatment failures.9,12–21,25–27
Intratympanic TherapyItoh was the first to report on the use of intratym-
panic steroids for inner ear disease when he treated pa-tients for Meniere disease in 1991.22 The first report onthe use of intratympanic steroids for sudden SNHL was bySilverstein in 1996.12 Other authors have also describedthe use of intratympanic steroids in the treatment of sud-den SNHL.9,12–21,23–27 Although the efficacy has not beendefinitively proven, intratympanic steroids as a therapeu-tic option for sudden HL is increasingly used in the UnitedStates. The variability that exists in treatment protocolsfor sudden SNHL also applies to protocols that involveintratympanic steroids. The use of intratympanic steroidshas evolved into 3 main protocols for treatment of suddenSNHL:
● As an initial or primary treatment for suddenSNHL without systemic steroids;
● As adjunctive treatment given concomitantly withsystemic steroids for sudden SNHL; and
● As “salvage therapy” after failure of systemic ste-roids for sudden SNHL.
The primary reason for the use of intratympanic ste-roids without systemic steroids is in patients who cannottolerate systemic steroids or those at greater risk for com-plications from systemic steroids (e.g., diabetics).13,15,16
The majority of the literature concerning the use of intra-
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tympanic steroids in the treatment of sudden SNHL hasreported the experience in treatment after failure of sys-temic therapy.9,12–21,25–27 Two studies, however, havestudied the effects of intratympanic steroids as a primaryor first-line agent for patients with sudden SNHL23,24
used adjunctively with systemic steroids.There are several advantages of intratympanic ste-
roids as a treatment for sudden SNHL (Table I). Theprocedure is well tolerated and relatively easy to perform.As an office-based procedure done under local (topical)anesthesia, there is an avoidance of general anesthesia.Most patients understand the concept of intratympanicinjection and readily accept the proposed therapy. Unlikesystemic therapies, intratympanic therapy allows for theselection of the affected ear to be treated. In addition toglucose intolerance and avascular necrosis of the hip,other less severe side effects of systemic steroids such asinsomnia, irritability, gastritis, and mood changes maypotentially be avoided with topical therapy. The primarydisadvantage of intratympanic steroids is the lack ofproven efficacy and/or superiority over systemic steroids.Other potential disadvantages include pain, tympanicmembrane perforation, acute otitis media, otorrhea, ver-tigo, and the potential for further HL.
Described techniques for steroid perfusion of the mid-dle ear for sudden SNHL differ in many aspects, includingthe type of steroid used. Dexamethasone is the most com-mon steroid used for intratympanic use14,15,18–21,24,25 fol-lowed by methylprednisolone.9,13,15,16,17,23,26,27 Reports inthe literature also differ in the strength of the solution(2–4 mg/mL14,20 to 25 mg/mL dexamethasone15; 32 mg/mL23 to 62.5 mg/mL methylprednisolone).9,16,17 Theamount injected into the middle ear in most studies is be-tween 0.3 and 0.5 mL, the approximate volume of the middle
ear space. Techniques also differ in method of delivery: tran-stympanic needle injection,9,13,15,19,20,17,24–27 deliverythrough a myringotomy,13,14 delivery through a myringot-omy with a tube,12,23 delivery with a wick placed in a myr-ingotomy (Micromedics, Eagan, MN),18,21 and deliverythrough an implantable pump (Round Window m-Cath; Du-rect Corp., Cupertino, CA) to deliver the steroid as a constantinfusion.16,17,21
The length of time and number of injections in whichpatients are treated with intratympanic steroids also dif-fers ranging from a single day to weekly transtympanicinjections9,12,14,15,18,20,23 to multiple weeks with self-administered steroid drops18,21 to transtympanic injec-tions given several times per week19,23,25,26 or to an im-plantable pump.16,17,21 Reported complications are rareand include pain,13 vertigo,13,16,17,20,21 otitis media,13 tym-panic membrane perforation,9,21 acne,20 dysgeusia,21
chronic otitis media,21 and further HL.16,21
This study was undertaken to review the experiencewith 24 mg/mL intratympanic dexamethasone given at asingle time point in the treatment of patients with idio-pathic sudden SNHL that have failed systemic steroidtherapy. Special attention was given to evaluating thesafety of the procedure and correlation with improvementin hearing related to age, time to onset of therapy, priortherapy, diabetes, severity of loss, and status of the oppo-site ear.
MATERIALS AND METHODS
Inclusion CriteriaA retrospective review of the patients undergoing intratym-
panic steroid injection from January 1, 2000, to July 30, 2005,were reviewed, yielding 312 procedures in 195 patients (Table II).These records were further reviewed to determine which patientsunderwent intratympanic steroid therapy for sudden SNHL. Ex-
TABLE I.Transtympanic Dexamethasone Perfusion for Sudden
Sensorineural Hearing Loss.
Advantages
Office-based procedure
Easily administered
Rapid administration after diagnosis
Relatively painless
Use in patients in which systemic steroids may becontraindicated
Use in patients in which use of systemic steroids are declined
Ability to direct therapy to the affected ear
A high concentration of medication can be delivered directly tothe (affected) ear
Side effects/complications are uncommon
Disadvantages/complications
Tympanic membrane perforation
Pain
Otitis media
Vertigo (usually temporary)
Hearing loss
TABLE II.Inclusion and Exclusion Criteria.
● Sudden, unilateral sensorineural hearing loss of at least 30 dBover three frequencies developing within 72 hours
● An audiogram was performed pretreatment and at least oneposttherapy audiogram was performed
● Underwent intratympanic injection with 24 mg/mLdexamethasone at a single time period
● No evidence of retrocochlear disease evident on magneticresonance imaging
● No history of otologic surgery
● No history of Meniere disease, autoimmune hearing loss,radiation-induced hearing loss, or other potential etiology forsensorineural hearing loss
● No history of acoustic trauma or barotrauma
● No history of genetic sensorineural hearing loss or known innerear anomaly
● No history of fluctuation of hearing before or after intratympanictherapy
● Failed systemic steroid trial or did not receive steroid trial (i.e.,patient refused, diabetes)
● No evidence of acute otitis media or chronic otitis media onexamination
● Failed systemic steroids
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cluded from this group were those patients who did not meet theinclusion criteria outlined in Table I, patients with incorrectcoding, incomplete records, inadequate follow up, or inadequateaudiometric analysis. Patients undergoing multiple injections orpatients receiving dexamethasone at any dose other than 24mg/mL were excluded. All patients with fluctuating HL or Me-niere disease were excluded. Eighty-five patients underwent in-tratympanic steroids for sudden SNHL for diagnoses other thanMeniere disease. Excluded from this group were patients withfluctuating HL (8) head trauma (3), autoimmune HL (3),radiation-induced HL (1), noise trauma (1) barotrauma (1), laby-rinthitis (1), congenital HL (1), delayed perilymph fistula afterstapedectomy (1), and herpes zoster oticus (1). These exclusionsleft 64 patients with idiopathic sudden SNHL who underwentintratympanic dexamethasone perfusion and available for study.Six patients had had inadequate audiometric data, 4 patientsfailed to follow up, 4 patients had intratympanic steroids startedconcomitantly with oral steroids, and 2 had HL less than 30 dBand were excluded. Seven patients did not receive systemic ste-roids (diabetes, n � 4; or refused, n � 3) and were excluded. Onepatient failed a 5-day course of steroids and was injected on thefifth day and was excluded. Forty patients were available to studywith idiopathic sudden SNHL who failed systemic therapy andunderwent intratympanic dexamethasone as salvage therapy af-ter at least 7 days of therapy.
We also present a control group of patients who failed sys-temic therapy, did not receive intratympanic therapy, and had atleast one follow-up audiogram after determining failure of sys-temic steroids. Excluded from this group were patients who hadMeniere disease, autoimmune HL, or any other identifiable hear-ing cause for HL. Any patient with fluctuating HL before steroidtherapy was excluded.
Audiometric DataPatients were all evaluated using standardized methods for
pure-tone threshold audiometry and speech intelligibility by cer-tified audiologists pre- and postinjection (Grason-Stadler GSImodel 16 or 61). Pure-tone average (PTA) was calculated as anaverage of the threshold measured at 0.5, 1.0, and 2.0 KHz.Speech intelligibility (SDS) was tested by calculating the percentcorrect of a phonetically balanced, monosyllabic word list (North-western University, NU-6).
TechniqueThe correct ear is confirmed for injection by patient re-
sponse and audiometric review. EMLA cream (AstraZeneca, Wil-mington DE) is used for anesthesia by topical application. TheEMLA cream is left on the tympanic membrane for 30 to 45minutes. The cream is removed and the head is placed in position45° toward the unaffected ear. The dexamethasone solution of 24mg/mL (Table III) is checked and warmed to body temperaturebefore injection. Before each procedure, the patient is counseledregarding the risks and expectations of the procedure and in-formed consent obtained. Approximately 0.3 to 0.5 mL of thesolution is injected into the middle ear. No myringotomy,pressure-equalizing tube, or secondary myringotomy is made. Nomiddle ear endoscopy is performed. On completion of the injec-tion, the head is turned toward the affected side and then backaway to the original position. This maneuver is performed in anattempt to maximize exposure of the solution in the middle earspace to the round window membrane. A second injection may beimmediately performed if the first was felt to be inadequate or ifinspection of the middle ear shows a predominantly air-filledmiddle ear space. Up to 3 injections may be given during this timeperiod. The patient is asked to lie in the supine position with the
head turned 45° away from the treated ear for 10 to 15 minutes onaverage. No subsequent injections are given on follow-up visits.
Statistical AnalysisData are presented in numeric and percent form. Categorical
data analysis was performed using �2 techniques or the Fisher exacttest. Comparison between days before treatment and improvementwas performed using the rank sum test. All statistical analysis usedSigmaStat software 2.03 (SPSS Inc., Chicago, IL).
Reporting RecoveryThe criteria used to define a successful recovery after ther-
apy differs in the literature pertaining intratympanic steroids. A20-dB improvement in PTA or a 20% improvement in discrimi-nation was considered a successful therapeutic intervention. Thedata from this study were also applied to the criteria for successas defined in other studies that investigated the use of intratym-panic steroids for sudden SNHL (see Table IV).
TABLE III.Dexamethasone Solution for Otic Injection.
Auxiliary labels For external/otic irrigation use only
NOT FOR INJECTION
Sample labels Dexamethasone sodium phosphate, USP
For otic irrigation use only
Lot # 102700M1 date
Must be filtered with 0.22-� m filter beforeuse
NOT FOR INJECTION
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RESULTS
Patient PopulationAfter inclusion and exclusion criteria were applied,
40 patients were available for study. There were 14 (35%)men and 26 (65%) women. The mean age was 54.8 with arange from 17 to 84 years of age. The mean age for thewomen was 58 years and for the men 48 years. The overallrecovery rate for men was 35.7% and for women was 23%(P � .5, Fisher exact test).
Overall Recovery. Forty patients fit the criteria forinclusion in the study. Overall, 40% (n � 16) showedimprovement in PTA or SDS. For those 37.5% (n � 15)showing an improvement in PTA, the mean gain was 15dB. For the 37.5% (n � 15) showing an improvement inSDS, the mean gain was 31.9% (range, 8% to 88%).Using the criteria of 20-dB improvement in PTA or 20%
improvement in SDS for success, a 27.5% (n � 11) improve-ment was noted (Fig. 1). For these 27.5% who had an im-provement, an average improvement in PTA of 16.9 dB(range, 0–42 dB) and average improvement in SDS of 38.9%(range, 8% to 88%) was noted (Fig. 2). Seven patients (17.5%)showed worse PTA with a mean decrease of 3.8 dB (range,2–7 dB). Five patients (12.5%) showed worse SDS after in-jection with a mean decrease of 16% (range, 8% to 28%).Thirty-five percent of patients had no change in hearingafter intratympanic steroids.
Age Related to Recovery. Recovery as related topatient age was studied. Sixty-three percent of patientswere under 60 years of age and had an overall recoveryrate of 24%. Thirty-seven percent of patients were 60years of age or older and had an overall recovery rate of33.3% (P � .7, Fisher exact test).
TABLE IV.Comparison of Recovery Rates in Sudden Sensorineural Hearing Loss Treated With Intratympanic Steroids.
Author Percent Improved Criteria for Improvement Current Study With Applied Criteria
Silverstein et al.,12 1996 25% 10-dB PTA 32.5%15% SDS
Parnes,13 1999§ 46% 5 normal thresholds 40%One serviceable hearing (57% if including only patients
treated within 6 wks)Kopke et al.,17 2001 (�6 wks)† 0% 10-dB PTA 0%
15% SDS (50% if including only patientstreated within 6 wks)
Chandrasekhar,14 2001 73% Increase in SDS, decrease inPTA
40%
Gianoli and Li,15 2001 44% 10-dB PTA 40%10% SDS
Lefebre and Staeker,16 2002 100% �16 dB improvement in PTA 12.5% (overall)50% if treated within 10 days
Gouveris,19 2003 Complete recovery (CR):33.3%
CR: within 10 dB of unaffectedear
CR 2.5%
Partial: 39% NR: less than 10-dBimprovement
Partial 15%
No recovery: (NR) 28.6% NR 82.5%Jackson,18 2002 31% Positive response 40%Ho et al.,20 2004 53% 30-dB PTA 7.5%
(10.3% if only those treated within50 days)
Herr and Marzo,21 2005 53% 10 dB PTA 32.5%20% SDS (33.3% if only those treated within
20 wks)Battista,24 2005‡ 8% full Full within 10 dB baseline 2.5% full
12% partial Partial within 50 dB baseline 10% partial overallSlattery et al.,9 2005 55% 10-dB PTA 40% (42.1% if only those treated
within 3 months)12% SDS
Choung et al.,25 2006 38.2% 10 dB PTA15% SDS
35%(10% if treated after 28 days)
Dallan et al.,26 2006 75% 15 dB PTA 12.5% (5% if treated after 21 days)
Xenellis27 2006 47% 10 dB PTA 15% (5% if treated after 2 days)
†Study divided into two groups based on time to presentation.‡Study involved only profound hearing loss; our data were adjusted accordingly.§Although response rates are similar, those that did respond in Parnes et al. had a significantly greater response than the current study.PTA � pure-tone average; SDS � speech discrimination score; Dex � dexamethasone; MP � methylprednisolone.
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Prior Treatment. All patients entered had receivedsystemic therapy before intratympanic injection. In addi-tion to steroids, 85.4% received antiviral agents with a28.9% recovery rate in this subset. Diuretics were used in27.1% with a 23.1% recovery rate noted in this subset.
Recovery Related to Associated Symptoms. Ver-tigo was present in 37.5% of patients with a recovery rateof 20%. A total of 62.5% of patients did not have symptomsof vertigo and had an overall recovery of 32% (P � .5,Fisher exact test). Tinnitus was present in 65% of patientswith a 23.1% recovery in this group. Tinnitus was absentin 35% of patients with 36% showing recovery in thisgroup (P � .5, Fisher exact test).
Status of the Opposite Ear. A total of 87.5% ofpatients had normal hearing in the contralateral ear. Therecovery rate in this group was 26.5%. Only 12.5% ofpatients had abnormal hearing in the contralateral ear.The recovery rate in this group with abnormal hearing inthe contralateral ear was 33.3% (P � 1.0, Fisher exacttest).
Recovery Related to Time of Onset of Symptoms.The average number of days from onset of symptoms tointratympanic therapy was 40 days overall with a range of7 days to 310 days. For the group (n � 11) that respondedto injection, the median was 14 days. For the group thatdid not respond, the mean was 31 days (P � .008, rank
sum test). No patient receiving intratympanic dexameth-asone after 36 days recovered hearing using 20-dB PTA/20% discrimination as criteria for recovery. If patientsreceiving injections for sudden SNHL after 6 weeks areexcluded, the recovery rate increases to 39.3% (Table V).
Recovery Related to Severity of Loss. Recovery ofhearing as related to severity of initial loss was studied.Twelve patients (30%) had HL greater than 90 dB with an8.3% improvement rate noted in this group. Twenty-twopatients (55%) had HL of 90 dB or less and greater than orequal to 50 dB with a 20% recovery rate noted in thisgroup. Six patients (15%) had HL less than 50 dB andgreater than 30 dB with an 33% improvement rate in thisgroup (P � .2 �2) (Fig. 3). Patients with severe lossesgreater than 90 dB had a poorer recovery (8.3%) comparedwith losses that were less than or equal to 90 dB (35.7%recovery) (P � .1, Fisher exact test).
Recovery Related to Diabetes. A total of 12.5% ofpatients in the study had diabetes. Twenty percent ofthose had recovery after intratympanic dexamethasone.The recovery rate in patients without diabetes was 28.6%(Fisher exact test, P � 1.0). Four of the nine patients withdiabetes did not receive systemic steroids and were notincluded in the primary study. The recovery rate was 25%(1 of 4) in this group.
Control Group. A matched group of patients whofailed systemic steroid therapy were identified within thesame time period as the study group. This group included11 patients identified who had sudden SNHL, failed sys-temic steroid therapy, and were available for long-termfollow up. Patients required pretreatment, posttreatment,and at least one more posttreatment audiogram after doc-umentation of systemic steroid failure. There were 7males and 4 females. The average age was 67 years witha range from 61 to 78 years. Average follow up from onsetof symptoms was 271 days with a range from 22 days to1,460 days. Recovery of hearing of 20-dB PTA or 20% SDSwas seen in 9.1% of patients. Eighteen percent had adecline in hearing thresholds by 20 dB or 20% discrimi-nation over time. The one patient who improved had noimprovement in hearing with steroids at 2 weeks afteronset of symptoms and treatment with steroids but had a20% gain in SDS at 6 weeks follow up.
DISCUSSIONIn a double-blind, placebo-controlled study, Wilson et
al. showed a statistically significant benefit with systemic
Fig. 2. Recovery in SDS as a function of time from onset of symp-toms to injection (n � 11).
Fig. 1. Decibel gain (PTA) as a function of time from onset ofsymptoms (n � 11).
TABLE V.Recovery Related to Time to Therapy From Onset of Symptoms.
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steroids in recovery of hearing in patients with suddenSNHL.1 Other studies have also demonstrated the benefitof systemic steroids in hearing recovery in suddenSNHL.3,5,6,7,11 On the contrary, systemic steroids wereshown to be of little benefit in the treatment of suddenSNHL in several other studies.2,4,8
Effects of Steroids on Cochlear FunctionDexamethasone (9-fluro-11b,17,21-trihydroxy-16a-
methylpregna-1,4-diene-3,20-dione) is a synthetic cortico-steroid used commonly in clinical medicine through oral,parenteral, and topical routes primarily for its antiinflam-matory effect. The exact mechanism in which steroids mayimprove hearing is unknown. The effects of steroids aremediated through receptors found within the cytoplasm.Both glucocorticoid and mineralocorticoid receptors arefound in the inner ear.28 This study and others cited latersuggest that steroids play a significant role in modulatingcochlear function. Multiple studies have shown systemicsteroids to have a positive effect on cochlear function.Other studies have shown steroids to decrease inflamma-tion from labyrinthitis,29 improve cochlear blood flow,30
protect against cochlear ischemia,31 protect against noise-induced HL,32 and regulate inner ear de novo proteinsynthesis.33 Studies have shown the stria vascularis,which maintains Na�/K� secretion necessary for mainte-nance of the endocochlear potential, to be a site for poten-tial pathology in sudden HL.34 Systemic steroids have alsobeen shown to improve stria vascularis function and mor-phology35 and therefore the potential to recover hearingafter sudden SNHL.
Multiple studies have shown that intratympanic ste-roids are safe without evidence of histologic changes orcochlear dysfunction.12,36–39 Intratympanic steroids havebeen shown to increase cochlear blood flow,12,36 preventaminoglycoside toxicity,40 prevent drill-induced noiseloss,37 and improve ion homeostasis necessary for cochlearfunction.39 Intratympanic steroids were also shown tohave a protective effect on stria vascularis changes afterotitis media.41 In a study of patients with tinnitus, intra-tympanic dexamethasone was found to have no adverseaffect on cochlear function as measured by otoacousticemission.38 Other studies suggest that intratympanic ste-roids may not be beneficial in the treatment of HL. Thepotential for intratympanic steroids to cause decreasedcochlear function has been suggested.42 Intratympanicsteroids have been shown to lead to round window inflam-
mation.43 Yang and colleagues noted that intratympanicsteroids were ineffective at preventing immune-mediatedlabyrinthitis after induction of keyhole limpit hemocyanin(KLH) and therefore may be ineffective in treating suddenSNHL.44
Cochlear PharmacokineticsSteroids delivered intratympanically can achieve
high concentrations in perilymph, higher than when ad-ministered by either intravenous or oral routes.13,45,46 Thepharmacokinetics of topically applied steroids within thecochlea have been studied. Using the markers trimethyl-phenylammonium (TMPA)47 and horseradish peroxi-dase,48 nonuniform distribution was noted with concen-tration of the markers near the round window (basal turn)higher than that of the apical turns. Salt found that sub-stances can reach the vestibule through extracellular com-munication between the scalae across the spiral ligamentas opposed to longitudinal flow through the helicotre-ma.49,50 These studies and that of Parnes13 suggest non-linear flow and interscalar communication of topicallyapplied substances through the spiral ligament.13,49,50 Us-ing the data of Parnes13 and Bachman,46 Plontke, usingthe Washington University Cochlear Fluids Simulatormodel (the Washington University cochlear Fluids Simu-lator, a public domain program available online at http://oto.wustl.edu/cochlea/),47 studied the effects of single ap-plication and continuous delivery of intratympanicsteroids on perilymph concentration. They found that rel-ative distribution of drugs in the inner ear is unlikely to beaffected by the application protocol. This finding is felt tobe secondary to the clearance of the drug from the peril-ymph, i.e., a drug that is rapidly cleared will not progressalong the scalar fluid. A steady state will be establishedwithin a matter of hours that will remain unchanged byfurther application. Application protocols did have amarked affect on drug levels achieved in the perilymphwith continuous delivery resulting in higher perilymphlevels than single application.48
Studies on Intratympanic Steroids for SuddenSensorineural Hearing Loss
The first report of intratympanic steroids in thetreatment of sudden SNHL was by Silverstein in 199612
followed by Parnes in 1999.13 Several other reports havebeen published since this initial report, most since20019,14–21,23–27 (Table VI). Most studies have shown thebenefits of intratympanic steroids in the treatment of sud-den HL in patients who had failed previous systemic ther-apy. Only 2 papers have studied the effects on intratym-panic steroids as a primary or initial therapy usedadjunctively with systemic steroids.23,24 Both of thesestudies reported that the addition of intratympanic ste-roids did not have a significant effect on the hearingrecovery in sudden SNHL. Lauterman23 compared pa-tients who received intratympanic steroids with systemicsteroids with patients who received no intratympanic ste-roids and found no benefit to the addition of intratympanicsteroids in hearing recovery. Battista24 noted minimalimprovement after intratympanic steroids for sudden
Fig. 3. Recovery rate related to severity of initial hearing loss basedon 20dB PTA/ 20% SDS.
Laryngoscope 117: January 2007 Haynes et al.: Intratympanic Dexamethasone for Sudden SNHL
9
TAB
LEV
I.S
umm
ary
ofS
tud
ies
Pub
lishe
dto
Dat
eon
Intr
atym
pan
icS
tero
ids
for
Sud
den
Sen
sorin
eura
lHea
ring
Loss
.
Aut
hor
Num
ber
ofP
atie
nts
Ste
roid
Typ
e
Tim
eC
ours
eFr
omH
earin
gLo
ssN
umb
erof
Inje
ctio
nsS
tud
yTy
pe
Per
cent
Imp
rove
dC
riter
iafo
rIm
pro
vem
ent
Silv
erst
ein
etal
.,12
1996
8D
exN
AU
pto
thre
etim
esa
wee
kfo
r3–
4w
eeks
Sal
vage
25%
10-d
BP
TA
(var
ious
dos
es)
15%
SD
S
Par
nes,
13
1999
13*
MP
40m
g/m
Lor
2d–6
wee
ks2–
29S
alva
gean
dp
rimar
y46
%Fi
veno
rmal
thre
shol
ds
Dex
One
serv
icea
ble
hear
ing
Kop
keet
al.,1
720
01†
3M
P62
.5m
g/m
L�
6w
ksC
athe
ter
for
14d
ays
Sal
vage
0%10
-dB
PTA
15%
SD
S
Kop
keet
al.,1
720
016
MP
62.5
mg/
mL
6w
eeks
orle
ssC
athe
ter
for
14d
ays
Sal
vage
83%
10-d
BP
TA
15%
SD
S
Gia
noli
and
Li,1
520
0123
Dex
25m
g/m
L72
wee
ksFo
ur(0
.4–0
.6m
L)ov
er10
–14
day
sS
alva
ge44
%10
-dB
PTA
MP
125
mg/
mL
10%
SD
S
Cha
ndra
sekh
ar,
14
2001
11§
Dex
2–4
mg/
mL
33d
ays
1–15
Sal
vage
73%
Incr
ease
inS
DS
,d
ecre
ase
inP
TA
Lefe
bre
and
Sta
eker
,16
2002
6M
P62
.5m
g/m
LA
pp
roxi
mat
ely
10d
ays
Cat
hete
r8–
10d
ays
Sal
vage
100%
�16
-dB
imp
rove
men
tin
PTA
Jack
son,
18
2002
19D
ex4–
24m
g/m
LN
AM
icro
Wic
kN
A31
%N
A
Thre
ed
rop
s3
times
/day
for
2–4
wee
ks
Gou
veris
,19
2003
a21
Dex
8m
g/m
L5.
45d
ays
2.7
aver
age
Sal
vage
Com
ple
tere
cove
ry(C
R)
33.3
%C
R:
with
in10
dB
ofun
affe
cted
ear
(1–7
)P
artia
l39.
1%P
artia
l:�
10-d
Bim
pro
vem
ent
Eve
ryse
cond
day
No
reco
very
(NR
)28
.6%
NR
:le
ssth
an10
-dB
imp
rove
men
t
Gou
veris
,20
03b
10D
ex8
mg/
mL
5.45
day
s2.
7av
erag
eS
alva
geC
R0%
See
a
(1–7
)P
60%
NR
40%
Gou
veris
,20
03c
9D
ex8
mg/
mL
5.45
day
s2.
7av
erag
eS
alva
geC
R0%
See
a
(1–7
)P
31%
NR
55.5
%
Ho
etal
.,20
2004
15D
ex4
mg/
mL
19.7
-day
aver
age
Thre
e(0
.4–0
.7m
L)ov
er3
wks
Sal
vage
53%
30-d
BP
TA
Laut
erm
anet
al.,2
320
0513
MP
32m
g/m
L2–
3d
ays
Five
over
5d
ays
Initi
al15
.3%
full
reco
very
Full,
par
tial,
none
,re
cove
rysc
ale;
noch
ange
from
cont
rol
15.3
%p
artia
l
69%
none
(con
tinue
s)
Laryngoscope 117: January 2007 Haynes et al.: Intratympanic Dexamethasone for Sudden SNHL
10
SNHL in his study of 25 patients all with profound(�90-dB PTA) HL.
Silverstein, in a retrospective review of 46 patientstreated with transtympanic steroids for a variety of disor-ders, had 8 patients with the diagnosis of sudden SNHL.One patient had improvement in speech reception thresh-olds from 110 dB to 85 dB and another from 75% to 65%SRT.12 Parnes et al. treated 37 patients with a variety ofinner ear disorders; 13 of these patients had suddenSNHL. Patients were treated with intratympanic methyl-prednisolone (9 patients) and intratympanic dexametha-sone (4 patients). All patients presented within 6 weeks ofonset of symptoms. Six of the 13 patients showed signifi-cant improvement in hearing thresholds, with 5 progress-ing from a severe or profound loss to relatively normalthresholds. No correlation between outcome and time oftreatment after HL was noted.13 Chandrasekhar treated10 patients who had variety of inner ear disorders with 2to 4 mg/mL dexamethasone intratympanically. The timeinterval between onset of loss and treatment averaged 33days. Most patients had failed medical therapy; however,some were treated primarily. Overall improvement wasnoted with a mean improvement of 9-dB PTA and 15.8%discrimination. Improvement was noted in all patientswith diabetes (3) and Meniere disease (2). Patients withlong intervals to treatment, downsloping audiogram, andsurgical trauma to the inner ear did not show recoverywith intratympanic steroids.14
Lefebre and Staeker treated 6 patients with suddenSNHL with methylprednisolone infused with a microcath-eter for 8 to 10 days. All patients had failed systemictherapy. All 6 patients showed improvement in hearingthresholds with an average of 16.25- to 25-dB improve-ment in thresholds.16 Kopke et al. reported the results ofintratympanic steroids delivered through an implantedmicrocatheter (62.4 mg/mL methylprednisolone at 10 �L/hour over 14 days) to treat patients with sudden SNHL.All of the patients treated in Kopke’s study had failed a2-week course of oral steroid therapy. Four of the 6 pa-tients had sudden SNHL. Five of 6 patients treated within6 weeks improved their hearing, with 4 returning to base-line hearing levels. None of the patients (3 of 3) whoinitiated treatment 6 weeks or more after the onset of the HLshowed improvement.17 Gianoli and Li in 2001 performed aprospective study on patients treated with intratympanicsteroids (dexamethasone or methylprednisolone) after treat-ment failure with systemic steroids for a minimum of 1week. A change of greater than or equal to 10 dB in the PTAor speech reception threshold or 10% in speech discrimina-tion was considered a positive response. A 44% response ratewas noted in these prior treatment failures with the averageimprovement of 15.2 dB and 21% SDS.15 Silverstein et al.examined 19 patients with sudden SNHL treated with in-tratympanic dexamethasone delivered through a MicroWickfor 2 to 4 weeks. Five (31%) patients had a positive response.The average gain in hearing was 45 dB and 39% discrimi-nation. Patients treated earlier had better results, although1 patient responded more than 1 year after the onset ofsymptoms.18
Gouveris treated 40 patients with intratympanic ste-roids in a prospective study of patients who had failed
TAB
LEV
I.(C
ontin
ued
)
Aut
hor
Num
ber
ofP
atie
nts
Ste
roid
Typ
e
Tim
eC
ours
eFr
omH
earin
gLo
ssN
umb
erof
Inje
ctio
nsS
tud
yTy
pe
Per
cent
Imp
rove
dC
riter
iafo
rIm
pro
vem
ent
Her
ran
dM
arzo
,21
2005
17D
ex10
mg/
mL
6.3
wee
ksP
ump
,M
icro
Wic
kS
alva
ge53
%10
-dB
PTA
MP
62.5
mg/
mL
(2–2
0w
ks)
8–14
day
s20
%S
DS
Bat
tista
,24
2005
‡25
Dex
24m
g/m
L28
day
sFo
urov
er14
day
sIn
itial
8%fu
llFu
ll:w
ithin
10d
Bb
asel
ine
12%
par
tial
Par
tial:
with
in50
dB
bas
elin
e
Sla
tter
yet
al.,9
2005
20M
P62
.5m
g/m
LU
pto
3m
onth
sFo
urin
ject
ions
over
2w
eeks
Sal
vage
55%
10-d
BP
TA
12%
SD
S
Cho
ung
etal
.,25
2006
33D
ex5
mg/
mL
28d
ays
2in
ject
ions
per
wee
kfo
r2
wee
ksS
alva
ge38
.2%
10d
BP
TA15
%S
DS
Dal
lan
etal
.,26
2006
8M
P40
mg/
mL
21.5
day
sS
ingl
ein
ject
ion
Sal
vage
75%
15d
BP
TA
Xen
ellis
etal
.,27
2006
19M
P40
mg/
mL
21d
ays
4in
ject
ions
over
15d
ays
Sal
vage
47%
10d
BP
TA
Hay
nes
etal
.40
Dex
40d
ays
Sin
gle
inje
ctio
nS
alva
ge26
.7%
20-d
BP
TA
24m
g/m
L40
day
s20
%S
DS
Not
e.G
ouve
risab
c;au
thor
rep
orte
dre
sults
sep
arat
ely:
aha
dhe
arin
gth
resh
old
s�
30d
Bb
ut�
80d
B;
bha
dhe
arin
gth
resh
old
s�
80d
B;
cha
dp
red
omin
antly
high
freq
uenc
yhe
arin
glo
ss.
*Pat
ient
sw
ithsu
dd
ense
nsor
ineu
ralh
earin
glo
ssfr
oma
larg
erre
por
tof
37p
atie
nts.
†Stu
dy
div
ided
into
two
grou
ps
bas
edon
time
top
rese
ntat
ion.
‡Stu
dy
only
ente
red
pat
ient
sw
ithp
rofo
und
(�90
dB
)he
arin
glo
ss.
§Not
allp
atie
nts
had
sud
den
sens
orin
eura
lhea
ring
loss
.P
TA�
pur
e-to
neav
erag
e;S
DS
�sp
eech
dis
crim
inat
ion
scor
e;D
ex�
dex
amet
haso
ne;
MP
�m
ethy
lpre
dni
solo
ne.
Laryngoscope 117: January 2007 Haynes et al.: Intratympanic Dexamethasone for Sudden SNHL
11
systemic therapy. Overall significant improvements inhearing thresholds were noted. Reduced efficacy wasnoted in patients who had profound HL and primarilyhigh frequency loss at presentation.19 Lauterman et al. in2005 reported the results of a prospective, controlled studyin which transtympanic methylprednisolone was used as aprimary treatment modality, not as salvage therapy aftersystemic steroids failure. Twenty-seven patients weretreated with systemic therapy (rheologic agents and sys-temic steroids) with 13 of these undergoing intratympanicsteroids in addition to the systemic therapy. No differencein recovery was noticed between the group treated withintratympanic steroids and the control group. Ho et al. in2005 reported a randomized, controlled study of 39 pa-tients with sudden SNHL in which 29 (74%) failed sys-temic steroids and were randomized into 2 treatmentgroups. Fifteen patients received intratympanic steroidtherapy and 14 were continued on further medical therapy(without steroids). They noted 53% improvement in theintratympanic steroid group as opposed to 7.1% for thenoninjected group using 30-dB gain in PTA as criteria forsuccessful outcome. Age, treatment delay time, and sexdid not affect response to therapy.20
Herr and Marzo reported on 17 patients treated withtranstympanic steroids (dexamethasone initially, methyl-prednisolone later in the study) through a MicroWickand/or round window catheter placement. All patients hadfailed prior systemic therapy with prednisone and weretreated from 2 to 20 weeks after onset of HL. Overall, 53%showed improvement in thresholds after treatment.21 Theaverage improvement was 24.3 dB in those ears thatshowed improvement. Battista in 2005 enrolled 25 pa-tients with profound SNHL. Both systemic and intratym-panic steroids were used concomitantly. Overall poor re-sults were achieved in this population of profound HLpatients with only 12% (3 of 25) achieving a full or partialresponse.24 Slattery et al. reported 20 patients treatedwith methylprednisolone for sudden SNHL that failedsystemic steroids. Fifty-five percent showed clinically sig-nificant (10-dB PTA or 12% discrimination) improvementin hearing. Improvement in tinnitus was also noted.9
In 2006, Dallan et al. treated 8 consecutive patientswith intratympanic methylprednisolone in a prospectivestudy, with 75% improving after a single injection.26
Choung et al. had a 38% improvement following withintratympanic therapy compared to 6.1% improvement ina control group treated with systemic therapy alone.25
Also in 2006 Xenellis showed a 47% improvement in pa-tients with intratympanic therapy following treatmentfailure, while none of the patients in a matched controlimproved over time.27
With the natural history of sudden SNHL suggestinga high recovery rate, it is difficult to determine if anytherapeutic intervention actually improves hearing recov-ery. The natural history of untreated patients with suddenSNHL ranges from recovery rates of 31% to 65%.1,3,4,8 Therange of hearing recovery reported in the literature intreated patients ranges from 35% to 89%.7,11 Several rea-sons may explain the significant differences in reportedrecovery rates between studies; however, the best expla-nation may lie in what is considered a “successful” treat-
ment outcome. Mattox and Simmons reporting a relativelyhigh spontaneous recovery rate of 65% classified goodrecovery as a final PTA of less than 40 dB or a more than50-dB improvement in the initial audiogram.4 Slattery etal. used the criteria described by Wilson et al.1 to describerecovery (recovery of �50% of baseline hearing). Usingthis formula, they reported a hearing recovery rate withsystemic therapy of 35%. Chen and Wilson using thisformula described hearing recovery rates of 55%3 and78%,1 respectively.
On review of the studies published to date in intra-tympanic steroids, it is clear that studies in the literaturealso differ on the definition of “success” for significantimprovement after therapy. No definitive criteria exist todefine recovery in patients with sudden SNHL, especiallysecondary recovery after initial treatment failure. Thecriteria to which the authors define recovery range fromany improvement in PTA or SDS14 to an improvement in10-dB PTA or 10% SDS15 to the criteria described byWilson et al.1 that describes recovery as �50% of theinitial loss.24 A true meta-analysis of the literature is notpossible given the wide variance in treatment protocols,patient data, and reporting of data. However, if we applyour hearing outcome data to the criteria in the currentliterature, similar hearing recovery rates are often found.For example, Gianoli15 reported a success rate of 44%using the criteria of 10-dB PTA/10% SDS; using this cri-teria applied to our data, the success rate rises from 26.7%to 40%. Table IV and Figure 4 illustrate the change in ourreported success rate when different criteria are applied.Our hearing recovery rates are surprisingly similar tomany other studies on intratympanic steroids for suddenSNHL when similar criteria are used to calculate the ratesof improvement despite marked differences in treatmentprotocols, number of injections, steroid type and concen-tration. There are several possible explanations for thesimilar recovery rates between studies. One possible ex-planation is that the variables of steroid type, dose, andnumber of injections may have minimal influence ontreatment outcome and recovery rates. Another possibleexplanation is that the injection had no effect at all andthe similar recovery rates reflect the natural history of
Fig. 4. Percent recovery of patients injected 6wks or less, usingvarious definitions for recovery.
Laryngoscope 117: January 2007 Haynes et al.: Intratympanic Dexamethasone for Sudden SNHL
12
recovery from idiopathic sudden SNHL. Although possiblein theory, the prognosis for recovery in patients with sud-den HL who have failed systemic therapy in our experi-ence and others is uniformly poor.9,10,15
With the inclusion/exclusion criteria applied, all pa-tients with Meniere disease, autoimmune HL, or fluctuat-ing loss requiring multiple injections were excluded andonly patients with true idiopathic sudden SNHL thatfailed systemic steroids were studied. Although our recov-ery rate is low (26.7%), it is difficult to compare with thereported natural history recovery rates, because our grouphad failed systemic therapy and were an average of 40days out from onset of symptoms. The literature wouldsupport a low chance of further recovery in this group. InHo’s study, only 7.1% of the control group of those whofailed systemic therapy gained further hearing on followup.20 Choung25 and Xenellis27 respectively showed 6.1%and 0% improvement in hearing after failed systemic ther-apy with long-term follow up. Zadeh noted an improve-ment in hearing for those patients seen and treated within3 days of the onset of symptoms as compared with thosetreated beyond 3 days.6 Shaia and Sheehy noted a signif-icant improvement in patients treated within 1 week orless. However, some patients who initiated therapy after 3months had recovery (10%).52 Fuse et al. noted that themajority of patients who recovered completely after treat-ment with oral steroids did so within 7 to 10 days afteradministration of steroids. In long-term follow up of 3months to 2 years, none of the patients with no recovery orpartial recovery recovered to normal hearing levels. Theynoted that patients resistant to steroids with regard toearly outcome continued to have poor hearing recoveryduring long-term follow up.6 Ito et al. noted hearing out-comes in 90 patients treated for sudden HL. Patients withimprovement within 2 weeks were more likely to have abetter outcome. Patients with poor recovery at 2 weeksshowed minimal improvement at 1-month follow up.10
Lefebre reported that 100% of patients treated with ste-roids for sudden SNHL recovered within 7 days.16
Because controversy exists regarding efficacy of sys-temic steroids in treating sudden SSNHL, it will exist aswell regarding the use of intratympanic steroids in thistreatment population. Truly, only one patient recoveredhearing to within 10 dB of the contralateral ear with asecond patient having a significant improvement in dis-crimination of the 40 treatment failures studied. Theseresults are hardly considered dramatic. However, 39% ofpatients recovering 20 dB or 20% SDS (if treated within 6weeks) in this group of treatment failures is higher thanwould be expected given our controls (9.1%), experience,and literature review. If we further exclude 7 patientstreated with intratympanic steroids within 2 weeks of theonset of symptoms (i.e., study only those patients treatedwith intratympanic dexamethasone between 2 and 6weeks after onset of symptoms), still, 26% improved by 20dB or 20% SDS. This recovery is higher than what wouldbe expected by our experience, control group (9.1%), andliterature review. Although this represents one of thelargest series of treatment failures to date treated withsteroid perfusion, the statistical power of the study doesnot support efficacy. Although it lacks statistical power,
the data suggest a trend toward efficacy of steroid perfu-sion in this treatment group.
We excluded patients who had Meniere disease, fluc-tuating HL, and autoimmune HL from the study to refinethe study to patients with idiopathic sudden SNHL. Anypatient whose hearing fluctuated and subsequently re-ceived multiple injections was excluded. This exclusioneliminated a number of patients who would have beenclassified as a good response. That is, some patients whoresponded to intratympanic injection whether recoverywas from a true therapeutic intervention or from recoverythrough natural history were more likely to receive asecond injection if hearing fluctuated. Those who did notrespond to initial intratympanic steroids did not receivesubsequent injections. Exclusion of all patients who dem-onstrated evidence of fluctuation of hearing before injec-tion was done so improvement after injection would be lesslikely attributed to upward fluctuation; 87.5% of patientsin the study group had a normal contralateral ear in thecurrent study group, reflective of patients with idiopathicsudden SNHL.
Recovery in the group with diabetes (20%) was sim-ilar to the nondiabetics (28.6%). No complications werenoted in this group; however, one patient did have wors-ening thresholds. Four of 9 (44%) of the patients withdiabetes did not receive systemic steroids before injectionwith one (25%) recovering hearing using 20 dB or 20%discrimination as definition for recovery. These patientswere not included in the primary study but are comparedwith those receiving systemic steroids in Figure 5. Five of9 (56%) received systemic steroids before injection withone (20%) showing recovery using this criteria. Chan-drasekhar noted improvement in 3 of 3 patients withdiabetes treated with intratympanic therapy for suddenSNHL.14 Diabetic patients are felt to have a poorer overallrecovery from sudden SNHL.52,53
Although not statistically significant, some of thedifferences between groups were noteworthy. Patientswith abnormal hearing in the contralateral ear had aslightly better recovery rate (33%) than those with normalhearing in the contralateral ear (26.5%) (P � 1.0, Fisherexact test). Patients with no vertigo had a recovery rate of32% compared with those with vertigo who had a recoveryrate of 20% (P � .5, Fisher exact test). The presence of
Fig. 5. Recovery related to diabetes. Note diabetics that did notreceive systemic steroids were excluded from the primary study.
Laryngoscope 117: January 2007 Haynes et al.: Intratympanic Dexamethasone for Sudden SNHL
13
vertigo has been shown to be a poor prognostic sign inseveral studies.2,4,21,52,53 Those patients with severe losseshad a poorer recovery (8.3%) compared with losses thatwere less than 90 dB (35.7% recovery) (P � .1, Fisher exacttest). Severe losses have been shown in several studies tohave poorer recovery rates.2,7,11,24
A total of 17.5% of patients (n � 7) had a worse PTA(defined as any drop in the PTA on follow-up testing) afterinjection. Although this seems relatively high, the averagedrop in PTA was only 3.8 dB. A more significant drop wasseen in changes in SDS. Only 5 patients had worsening ofSDS (defined as any drop in SDS on follow-up testing)after injection, but the average drop was 16%. The major-ity of the loss is from one patient who dropped 28% on theSDS scores after injection. This patient developed a tem-porary perforation with otorrhea. If this patient is ex-cluded, the average drop in discrimination in the remain-ing 4 patients is 12%. No other patient had perforation,otitis media, otorrhea pain, or vertigo after intratympanicinjection. It is unclear as to whether these losses can bedirectly attributed to the procedure. Progression of lossmay be seen in up to 15% of patients with sudden SNHL,4which is consistent with our controls (18%). These lossesmost likely fall within the range of natural progression ofdisease. No other complications were noted.
The limitations of this study lie primarily in theretrospective analysis of patient data. This study lacksformal control and should be interpreted as a descriptionof the clinical experience from a single institution in thetreatment of sudden SNHL with a single injection of in-tratympanic steroids. However, the studied group wouldbe expected to have a poor prognosis given the delay totherapy (average over 40 days) and failure of systemictherapy. Our small control group is reflective of the factthat long-term follow up after documented treatment fail-ure in patients is uncommon. Given the low numbers ofour control population, statistical analysis was not possi-ble; only descriptive analysis can be made in comparisonto our treatment group. Other limitations may be the typeof steroid used and the dosing schedule applied. Dexa-methasone has good round window diffusion; however, theprofile may not be as beneficial as methylprednisolone.Parnes showed that methylprednisolone had a higher con-centration and longer duration in perilymph after tran-stympanic administration than hydrocortisone or dexa-methasone.13 Despite the practicality in treating patientswith a single intratympanic injection of steroids, this pro-tocol may not be as optimal as a continuous infusion ormultiple injections.16,17
CONCLUSIONDramatic improvements in PTA or SDS were uncom-
mon in this group of patients treated as salvage patients(failed systemic therapy), with only 1 patient in 40 recov-ering to within 10 dB of the contralateral ear. However,39% of patients recovering 20 dB or 20% SDS (if treatedwithin 6 weeks) in this group of treatment failures ishigher than would be expected given our controls (9.1%),experience, and literature review. Although this repre-sents one of the largest series of treatment failures to datetreated with steroid perfusion, the statistical power of the
study does not support efficacy. Despite failure to reachstatistical significance, the data suggest a trend towardefficacy of steroid perfusion in patients who have failedsystemic steroid therapy. No patient showed benefit basedon our criteria from intratympanic steroids after 36 dayswhen using this protocol for idiopathic sudden SNHL. ANational Institutes of Health-sponsored, prospective trialis being conducted to determine the potential therapeuticefficacy in treating sudden SNHL, and will hopefully fur-ther answer questions regarding this treatment option.
BIBLIOGRAPHY1. Wilson WR, Byl FM, Laird N. The efficacy of steroids in the
treatment of idiopathic sudden hearing loss. A double-blind clinical study. Arch Otolaryngol 1980;106:772–776.
2. Byl FM Jr. Sudden hearing loss: eight years’ experience andsuggested prognostic table. Laryngoscope 1984;94:647–661.
3. Chen CY, Halpin C, Rauch SD. Oral steroid treatment ofsudden sensorineural hearing loss: a ten year retrospectiveanalysis. Otol Neurotol 2003;24:728–733.
4. Mattox DE, Simmons FB. Natural history of sudden sensori-neural hearing loss. Ann Otol Rhinol Laryngol 1977;86:463–480.
5. Zadeh MH, Storper IS, Spitzer JB. Diagnosis and treatmentof sudden-onset sensorineural hearing loss: a study of 51patients. Otolaryngol Head Neck Surg 2003;128:92–98.
6. Fuse T, Aoyagi M, Funakubo T, Sakakibara A, Yoshida S.Short-term outcome and prognosis of acute low-tone sen-sorineural hearing loss by administration of steroid. ORL JOtorhinolaryngol Relat Spec 2002;64:6–10.
7. Slattery WH, Fisher LM, Iqbal Z, Liu N. Oral steroid regi-mens for idiopathic sudden sensorineural hearing loss.Otolaryngol Head Neck Surg 2005;132:5–10.
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