The Influence of Tinnitus on the Audiometric Threshold of Sufferers

Ukaegbe, Onyinye; Ezeanolue, Basil; Orji, Foster

doi:10.1055/s-0035-1571271

Abstract

Introduction

Tinnitus is a worldwide problem.

Objective

The objective of this study is to evaluate the audiometric hearing thresholds of adult patients with ongoing tinnitus as their only otological symptom.

Methods

We evaluated the hearing thresholds of 43 adult patients with ongoing tinnitus and no history of hearing loss from the otolaryngology department of a tertiary health institution at speech and high frequencies. A total of 56 tinnitus ears were compared against 30 contralateral normal ears as well as with the 100 ears of 50 healthy volunteers.

Results

The study group consisted of 11 (25.6%) males and 32 (74.4%) females with a mean age of 40.9 11.7. The mean Pure Tone Average of the 56 tinnitus ears was 14.8 9, while that of the 100 control ears was 11.2 6 (U 1/4 2078, p= 0.008). The mean pure tone average of the control was also significantly lower than that of the 30 contralateral normal ears of the tinnitus sufferers (U 1/4 1136, p= 0.02). We observed mild to moderate hearing loss in 10 (23%) of the participants. We observed no hearing loss among the control group.

Conclusion

A proportion of tinnitus sufferers with self-professed normal hearing are likely to have mildly elevated pure tone audiometric thresholds. In patients with unilateral tinnitus, such elevated pure tone hearing thresholds are likely to be in the tinnitus ear and the contralateral non-tinnitus ear.

Keywords:
tinnitus; hearing threshold; audiometry

Introduction

Tinnitus is a worldwide problem and is estimated to affect 12% to 15% of the adult population, with a male preponderance.¹1 Axelsson A, Ringdahl A. Tinnitus-a study of its prevalence and characteristics. Br J Audiol 1989;23(1):53-62 Studies indicate that approximately one third of the global population will experience tinnitus in their lifetime, but tinnitus as a symptom remains a challenge to most clinicians.²2 Aaron GB, Wayne KR. Inner ear: tinnitus. Emed; 2013 ³3 Martines F, Bentivegna D, Martines E, Sciacca V, Martinciglio G. Assessing audiological, pathophysiological and psychological variables in tinnitus patients with or without hearing loss. Eur Arch Otorhinolaryngol 2010;267(11):1685-1693

Tinnitus is usually described as a buzzing, ringing, humming, clicking, blowing or drum-like sound and involves the perception of pure tones or frequency ranges of noise similar to white noise with no particular pattern of organization.⁴4 Frank M, Marie BT, Barry L, et al. Auditory hallucinations: An audiological perspective. Hearing J 2007;60:32-52 ⁵5 Santos RMR, Sanchez TG, Bento RF, Lucia MC. Auditory hallucinations in tinnitus patients: Emotional relationships and depression. Int Arch Otorhinolaryngol 2012;16(3):322-327

As much as 80% of patients seen in the otorhinolaryngology clinic may have tinnitus, and it has been associated with a variety of ear pathologies among which hearing loss remains the most common.³3 Martines F, Bentivegna D, Martines E, Sciacca V, Martinciglio G. Assessing audiological, pathophysiological and psychological variables in tinnitus patients with or without hearing loss. Eur Arch Otorhinolaryngol 2010;267(11):1685-1693 ⁶6 Cima R, Joore M, Maes I, et al. Cost-effectiveness of multidisciplinary management of Tinnitus at a specialized Tinnitus centre. BMC Health Serv Res 2009;9:29 ⁷7 Ogunleye AO, Labaran AO. Presbycusis in Nigerians at the University College Hospital, Ibadan. Afr J Med Med Sci 2005;34(3): 293-296 ⁸8 Adobamen PO, Ogisi FO. Symptoms Associated With Hearing Loss As Seen In the University Of Benin Teaching Hospital, Benin City, Nigeria. Gomal J Med Sci 2011;9:159-162 ⁹9 Monzani D, Genovese E, Marrara A, et al. Validity of the Italian adaptation of the Tinnitus Handicap Inventory; focus on quality of life and psychological distress in tinnitus-sufferers. Acta Otorhinolaryngol Ital 2008;28(3):126-134 Tinnitus has been cited as a potentially debilitating symptom and can be a source of distress to the affected individual especially in cases where there is an associated hearing loss.³3 Martines F, Bentivegna D, Martines E, Sciacca V, Martinciglio G. Assessing audiological, pathophysiological and psychological variables in tinnitus patients with or without hearing loss. Eur Arch Otorhinolaryngol 2010;267(11):1685-1693 ¹⁰10 Snow JB. Tinnitus: theory and management. Hamilton, London: BC Decker; 2004:16-63 ¹¹11 Schlee W, Kleinjung T, Hiller W, Goebel G, Kolassa IT, Langguth B. Does tinnitus distress depend on age of onset? PLoS ONE 2011 ; 6(11):e27379

Tinnitus is believed to be generated from several disorders of the physiological mechanism of hearing.¹²12 Bauer CA. Mechanisms of tinnitus generation. Curr Opin Otolaryngol Head Neck Surg 2004;12(5):413-417 These disorders are believed to exist in the peripheral sensorineural activity of the peripheral auditory system or in the central neural pathways.¹²12 Bauer CA. Mechanisms of tinnitus generation. Curr Opin Otolaryngol Head Neck Surg 2004;12(5):413-417 Tinnitus may also arise from the interaction between a defective peripheral input and a dysfunctional central neural pathway.¹²12 Bauer CA. Mechanisms of tinnitus generation. Curr Opin Otolaryngol Head Neck Surg 2004;12(5):413-417

The progress in tinnitus management has been slow especially in developing countries like Nigeria and there is a paucity of data on the hearing thresholds of tinnitus patients with self-professed normal hearing and no additional otological symptoms, probably due to the fact that most of these patients may not present to otorhinolaryngologists. It is important to determine the pure tone audiometric hearing thresholds of these patients who present with tinnitus as their only otological symptom, to find out how it defers from that of healthy controls, as well as to evaluate the hearing thresholds in the contralateral non-tinnitus ears of patients with unilateral tinnitus for better counselling of the patient and overall management of the tinnitus patient.

Materials and Methods

We conducted the study in the outpatient otorhinolaryngology clinics of a tertiary hospital over a year period ending in May 2014. We obtained approval from the Ethics review committee of our institution and informed consent from each participant.

We recruited for the study forty-three consecutive patients aged 21 - 58 years with a mean age of 40.9 ± 11.7 who had self-reported normal hearing and ongoing tinnitus as their only otorhinolaryngology complaint. Thirteen (30.2%) of the patients had bilateral tinnitus, thereby making a total of 56 ears with ongoing tinnitus available for analysis, while 30 contralateral ears were symptom free in the 30 (69.8%) unilateral tinnitus sufferers. We excluded subjects from the study if they had a prior history of hearing loss, or had any debilitating illness. The average duration of tinnitus was 17.3 months ± 20.3. Persistent tinnitus was observed in 20 (46.5%) of the participants while 23 (53.5%) had intermittent tinnitus. We obtained a history of noise exposure from 8 (18.6%) of the participants, while 14 (32.6%) of the participants had been exposed to drugs likely to cause tinnitus. Two of the subjects were diabetic, one was hypertensive and diabetic, seven of the subjects were hypertensive, and all were on medication.

The control group consisted of 50 healthy volunteers (100 ears) aged 21 to 57 years with a mean of 38.7 ± 9.7 years, who were pooled from the hospital staff, as well as the medical and nursing students of the institution. Eighteen (36%) were male and 32 (64%) were female. A comprehensive history and detailed ear, nose, and throat examination was performed in both groups.

Pure Tone Audiometry

All the participants in the study and control group underwent pure tone audiometry using an Amplivox 260 diagnostic audiometer (Amplivox Limited, Oxforshire, England). Tests were conducted in a sound proof booth and using circumaural head phones. We assessed the frequencies of 500Hz, 1000Hz, 2000Hz, 3000Hz, 4000Hz, 6000Hz, and 8000Hz for the air conduction thresholds while 500Hz, 1000Hz, 2000Hz, and 4000Hz were assessed for the bone conduction thresholds with the use of a bone vibrator placed on the appropriate mastoid process. The three standard rules of masking were applied. We calculated the Pure Tone Average (PTAv) from the average of the four air conduction speech frequencies of 500Hz, 1000Hz, 2000Hz, and 4000Hz. We calculated the high frequency pure tone average from the average of 6KHz and 8KHz. Audiometric results were graded as: normal hearing (≤25 dBHL), mild hearing loss (26–40 dBHL), moderate hearing loss (41–60 dBHL), severe hearing loss (61–80 dBHL), and profound hearing loss (≥81 dBHL).¹³13 World Health Organization. Prevention of Blindness and deafness: Grades of HearingImpairment. http://www.who.int/pbd/deafness/hearing_impairment_grades/en/index.html2002( accessed 17th April 2012).
http://www.who.int/pbd/deafness/hearing_... The hearing loss was classified as “Sensorineural” if both the air and bone conduction thresholds were above 25 dBHL or “Conductive” in cases with air-bone gaps of 10 dBHL or more or “Mixed” if both the air and bone conduction thresholds were above 25 dBHL with air-bone gaps of 10 dBHL or more.¹⁴14 Park JP, Lim HW, Shim BS, et al. Interaural differences of distortion product otoacoustic emission amplitudes in patients with unilateral tinnitus. Otolaryngol Head Neck Surg 2013;148(3):456-459

We used the Statistical Package for Social Sciences version 15 (IBM, Armonk, U.S.A.) in the statistical analysis. We applied the independent samples t-test and Mann Whitney U test in comparing the mean pure tone thresholds for the 56 tinnitus ears, 30 non-tinnitus ears, and the 100 control ears. The results are single-tailed and the significance level was set at less than 0.05.

Results

Table 1 outlines the age and gender distribution of the participants. The differences in the mean age between the study group and the control, as well as their gender distributions, were not significant (p= 0.3 and 0.1, respectively).

Thumbnail

Table 1
Age and sex distribution of the participants

We observed bilateral tinnitus in 13 (30.2%) of subjects. Fourteen (32.6%) had tinnitus in their right ear only, while 16 (37.2%) of the subjects had tinnitus in the left ear only.

Hearing Threshold of 43 Tinnitus Sufferers and 50 Normal Volunteers

Concerning the tinnitus individuals, 10 (23.3%) of them had elevated hearing thresholds within the mild to moderate hearing loss range, with 6 (13.9%) of them being conductive loss, 3 (7%) sensorineural, and 1 patient (2.3%) had mixed hearing loss. The elevated hearing thresholds were unilateral in 7 patients (16.3%) and bilateral in 3 (7%). All the 50 participants in the control group had normal hearing thresholds within the speech frequencies, but 12 of them had elevated hearing thresholds in the high frequencies (6 and 8 Khz), with 7 (14%) of the individuals being unilateral whereas 5 of them (10%) were bilateral (Fig. 1a, 1b, 1c).

Fig. 1
(a) Right audiogram of a 49-year-old female tinnitus sufferer in the study group with mild sensorineural hearing loss. (b) Right audiogram of a 53-year-old female tinnitus sufferer in the study group with conductive hearing loss. (c) Right audiogram of a 38-year-old female tinnitus sufferer in the study group with high frequency hearing loss.

Pure Tone Average (PTAv) of the Tinnitus Ears and Control Ears

The 56 tinnitus ears had a mean PTAv of 14.8 ± 9 while that of the 100 control ears was 11.2 ± 6. The difference was significant (U = 2078; p= 0.008). See Table 2.

Thumbnail

Table 2
The mean pure tone thresholds for the 56 ears with tinnitus among the study group and the 100 control ears

In the high frequencies, the 56 ears with tinnitus had a mean pure tone threshold of 20.9 dBHL at 6KHz, 19.1dBHL at 8KHz, while the 100 control ears without tinnitus had a mean pure tone threshold of 16.6dBHL at 6KHz, 15dBHL at 8KHz. These differences were not significant (U =2366, p= 0.05)

Comparison of the Tinnitus Ears and the Non-Tinnitus Ears in Participants with Unilateral Tinnitus

The PTAv for the 30 ears with tinnitus was 17 ± 10.4, while the PTAv of the 30 contralateral ears without tinnitus was 15.7 ± 13.2. The difference was not significant (U = 448; p= 0.5).

Comparison of the Contralateral Non-Tinnitus Ears and the Control Ears

The PTAv in the 100 ears of the control group without tinnitus was significantly better than the PTAv of the 30 contralateral non-tinnitus ears among the participants with unilateral tinnitus (U = 1136; p= 0.02).

Discussion

Pure Tone Average

In this study, 10 (23.3%) individuals with tinnitus were observed to have hearing loss as measured by pure tone audiometry, despite the fact that all of them reported that they had normal hearing. This implies that the hearing impairment was mild enough to have gone unnoticed by the participants or that the participants may have blamed the tinnitus for their difficulties with hearing. The subjects with unilateral tinnitus may also have been compensating with the contralateral ear without tinnitus.

Comparison between the 56 ears affected by tinnitus and the 100 ears not affected by tinnitus showed that the ears affected by tinnitus had a higher mean PTAv, which was significantly worse than the mean pure tone average of the ears not affected by tinnitus, this indicates that ears with tinnitus are likely to have elevated pure tone thresholds and hearing loss, even in tinnitus sufferers with self-reported normal hearing.

Several other studies made observations similar to those in this study.⁸8 Adobamen PO, Ogisi FO. Symptoms Associated With Hearing Loss As Seen In the University Of Benin Teaching Hospital, Benin City, Nigeria. Gomal J Med Sci 2011;9:159-162 ⁹9 Monzani D, Genovese E, Marrara A, et al. Validity of the Italian adaptation of the Tinnitus Handicap Inventory; focus on quality of life and psychological distress in tinnitus-sufferers. Acta Otorhinolaryngol Ital 2008;28(3):126-134 ¹¹11 Schlee W, Kleinjung T, Hiller W, Goebel G, Kolassa IT, Langguth B. Does tinnitus distress depend on age of onset? PLoS ONE 2011 ; 6(11):e27379 ¹⁵15 Gopinath B, McMahon CM, Rochtchina E, Karpa MJ, Mitchell P. Incidence, persistence, and progression of tinnitus symptoms in older adults: the Blue Mountains Hearing Study. Ear Hear 2010 ; 31(3):407-412 ¹⁶16 Shargorodsky J, Curhan GC, Farwell WR. Prevalence and characteristics of tinnitus among US adults. Am J Med 2010;123(8):711-718 Their results indicated that patients with hearing loss are likely to present with tinnitus as their main complaints while majority of tinnitus sufferers may have some degree of hearing loss.⁸8 Adobamen PO, Ogisi FO. Symptoms Associated With Hearing Loss As Seen In the University Of Benin Teaching Hospital, Benin City, Nigeria. Gomal J Med Sci 2011;9:159-162 ⁹9 Monzani D, Genovese E, Marrara A, et al. Validity of the Italian adaptation of the Tinnitus Handicap Inventory; focus on quality of life and psychological distress in tinnitus-sufferers. Acta Otorhinolaryngol Ital 2008;28(3):126-134 ¹¹11 Schlee W, Kleinjung T, Hiller W, Goebel G, Kolassa IT, Langguth B. Does tinnitus distress depend on age of onset? PLoS ONE 2011 ; 6(11):e27379 ¹⁵15 Gopinath B, McMahon CM, Rochtchina E, Karpa MJ, Mitchell P. Incidence, persistence, and progression of tinnitus symptoms in older adults: the Blue Mountains Hearing Study. Ear Hear 2010 ; 31(3):407-412 ¹⁶16 Shargorodsky J, Curhan GC, Farwell WR. Prevalence and characteristics of tinnitus among US adults. Am J Med 2010;123(8):711-718 Monzani et al observed that 74 of the 100 tinnitus sufferers in their study had hearing loss.⁹9 Monzani D, Genovese E, Marrara A, et al. Validity of the Italian adaptation of the Tinnitus Handicap Inventory; focus on quality of life and psychological distress in tinnitus-sufferers. Acta Otorhinolaryngol Ital 2008;28(3):126-134 Martinesi et al observed that 64.14% of the 312 tinnitus sufferers in their study had varying degrees of hearing loss.¹⁷17 Martines F, Bentivegna D, Di Piazza F, Martines E, Sciacca V, Martinciglio G. Investigation of Tinnitus Patients in Italy: Clinical and Audiological Characteristics. Int J Otolaryngol 2010;20(10): 265861 However, none of these studies focused on determining the hearing thresholds of tinnitus patients with self-perceived normal hearing and none compared them to individuals without tinnitus. The elevated mean PTAv observed among the tinnitus sufferers in this study and in the 56 ears with tinnitus indicate that patients with tinnitus are more likely to have hearing loss than those without tinnitus. Therefore audiometry should be routinely performed for all patients presenting with tinnitus regardless of their self-reported hearing status. None of the subjects in the control group had PTAv greater than 25 dBHL in the speech frequencies.

Comparison of the PTAv between Tinnitus and Non-Tinnitus Ears in Subjects with Unilateral Tinnitus

For the subjects with unilateral tinnitus, the mean pure tone average in the ears with tinnitus was higher than that in the contralateral ears without tinnitus but this was not statistically significant. Park et al made similar observations when they compared the pure tone thresholds in the ears of patients with unilateral tinnitus and did not observe a significant difference between the ears with tinnitus and their contralateral ears without tinnitus. However, with the use of Distortion Product Otoacoustic Emissions (DPOAE), a significant decrease in DPOAE threshold was observed in the ears with tinnitus.¹⁴14 Park JP, Lim HW, Shim BS, et al. Interaural differences of distortion product otoacoustic emission amplitudes in patients with unilateral tinnitus. Otolaryngol Head Neck Surg 2013;148(3):456-459 In studies that relied on otoacoustic emissions to assess tinnitus sufferers, authors observed that a significant proportion of the tinnitus ears with normal pure tone thresholds had defective otoacoustic emissions, which indicates that some patients with tinnitus may have abnormal outer hair cell function despite a normal pure tone average.¹⁴14 Park JP, Lim HW, Shim BS, et al. Interaural differences of distortion product otoacoustic emission amplitudes in patients with unilateral tinnitus. Otolaryngol Head Neck Surg 2013;148(3):456-459 ¹⁸18 Granjeiro RC, Kehrle HM, de Oliveira TS, Sampaio ALL, de Oliveira CA. Is the degree of discomfort caused by tinnitus in normalhearing individuals correlated with psychiatric disorders? Otolaryngol Head Neck Surg 2013;148(4):658-663 ¹⁹19 Ami M, Abdullah A, Awang MA, Liyab B, Saim L. Relation of distortion product otoacoustic emission with tinnitus. Laryngoscope 2008;118(4):712-717

Comparison of the Contralateral Non-Tinnitus Ears and the Control Ears

In this study, we observed that the subjects with unilateral tinnitus had a significantly worse mean PTAv (15.7 ± 13.2) in the 30 contralateral ears without tinnitus than the mean PTAv (11.2 ± 5.3) in the 100 ears of the control group without tinnitus. This indicates that patients with tinnitus are likely to have elevated pure tone thresholds and that this elevated pure tone thresholds are likely to be seen in the contralateral unaffected ears of those with unilateral tinnitus. It appears that the contralateral unaffected ears of the subjects with unilateral tinnitus may have been exposed to the same etiological factor as the ear with tinnitus and may give rise to tinnitus in the future. It could also indicate that the insult to the contralateral ears without tinnitus was not severe enough to give rise to tinnitus. There is paucity of data on the hearing threshold of the contralateral non-tinnitus ear of the unilateral tinnitus sufferer and how it compares to the hearing threshold of healthy individuals without tinnitus. This information will help in the counselling of patients with unilateral tinnitus and will contribute to better patient management.

Type of Hearing Loss

In this study, out of the 10 (23.3%) subjects with hearing loss, conductive hearing loss was the commonest type of hearing loss observed in 6 (13.9%), while sensorineural hearing loss was observed in 3 (7%) of the participants and mixed hearing loss in 1 (2.3%). Our results defer from the findings in a study by Martines et al where sensorineural hearing loss was seen in 74.6% of tinnitus sufferers, mixed hearing loss in 14.7%, and conductive hearing loss in 10.7%.³3 Martines F, Bentivegna D, Martines E, Sciacca V, Martinciglio G. Assessing audiological, pathophysiological and psychological variables in tinnitus patients with or without hearing loss. Eur Arch Otorhinolaryngol 2010;267(11):1685-1693 Monzani et al also observed that sensorineural hearing loss was the commonest hearing loss amongst the tinnitus sufferers in their study.⁹9 Monzani D, Genovese E, Marrara A, et al. Validity of the Italian adaptation of the Tinnitus Handicap Inventory; focus on quality of life and psychological distress in tinnitus-sufferers. Acta Otorhinolaryngol Ital 2008;28(3):126-134 The conductive hearing loss observed in these subjects may be attributed to some subclinical middle ear disease such as Eustachian tube dysfunction which implies that these subjects are likely to have some improvement with therapy. The results of further middle ear analysis unfortunately are not available for this research.

Despite having a normal PTAv, 10 subjects (23.3%) of the study group had worsening hearing thresholds in their high frequency ranges, a fact not taken into account while calculating their standard pure tone hearing thresholds. Similar observations were made in the studies by Martines et al and Monzani et al, where they calculated the threshold in the high frequencies of 4kHz, 6kHz, and 8kHz.³3 Martines F, Bentivegna D, Martines E, Sciacca V, Martinciglio G. Assessing audiological, pathophysiological and psychological variables in tinnitus patients with or without hearing loss. Eur Arch Otorhinolaryngol 2010;267(11):1685-1693 ⁹9 Monzani D, Genovese E, Marrara A, et al. Validity of the Italian adaptation of the Tinnitus Handicap Inventory; focus on quality of life and psychological distress in tinnitus-sufferers. Acta Otorhinolaryngol Ital 2008;28(3):126-134 However both studies did not make use of a control group and, therefore, were unable to compare the high frequency hearing thresholds of the tinnitus sufferers to that of healthy controls. When the mean high frequency PTAv of the 56 ears affected by tinnitus was compared with the 100 ears of healthy controls, we observed that tinnitus sufferers had higher mean high frequency PTAv than the control group, but this difference was not significant.

This finding implies that high frequency hearing loss is likely to be present in tinnitus sufferers and in those without tinnitus, although tinnitus sufferers may have slightly worse high frequency thresholds.

Conclusion

Tinnitus sufferers with self-professed normal hearing are more likely to have hearing loss than none sufferers; however, high frequency hearing loss is likely to be observed in the tinnitus sufferer and in those without tinnitus.

The pure tone audiometric thresholds of the unaffected non-tinnitus ear in those with unilateral tinnitus is likely to be elevated when compared with that of individuals without tinnitus, indicating that these may also have a similar pathology as the tinnitus ear.

Tinnitus sufferers should therefore undergo routine audiometric evaluation even in cases where they report normal hearing.

References

¹
Axelsson A, Ringdahl A. Tinnitus-a study of its prevalence and characteristics. Br J Audiol 1989;23(1):53-62
²
Aaron GB, Wayne KR. Inner ear: tinnitus. Emed; 2013
³
Martines F, Bentivegna D, Martines E, Sciacca V, Martinciglio G. Assessing audiological, pathophysiological and psychological variables in tinnitus patients with or without hearing loss. Eur Arch Otorhinolaryngol 2010;267(11):1685-1693
⁴
Frank M, Marie BT, Barry L, et al. Auditory hallucinations: An audiological perspective. Hearing J 2007;60:32-52
⁵
Santos RMR, Sanchez TG, Bento RF, Lucia MC. Auditory hallucinations in tinnitus patients: Emotional relationships and depression. Int Arch Otorhinolaryngol 2012;16(3):322-327
⁶
Cima R, Joore M, Maes I, et al. Cost-effectiveness of multidisciplinary management of Tinnitus at a specialized Tinnitus centre. BMC Health Serv Res 2009;9:29
⁷
Ogunleye AO, Labaran AO. Presbycusis in Nigerians at the University College Hospital, Ibadan. Afr J Med Med Sci 2005;34(3): 293-296
⁸
Adobamen PO, Ogisi FO. Symptoms Associated With Hearing Loss As Seen In the University Of Benin Teaching Hospital, Benin City, Nigeria. Gomal J Med Sci 2011;9:159-162
⁹
Monzani D, Genovese E, Marrara A, et al. Validity of the Italian adaptation of the Tinnitus Handicap Inventory; focus on quality of life and psychological distress in tinnitus-sufferers. Acta Otorhinolaryngol Ital 2008;28(3):126-134
¹⁰
Snow JB. Tinnitus: theory and management. Hamilton, London: BC Decker; 2004:16-63
¹¹
Schlee W, Kleinjung T, Hiller W, Goebel G, Kolassa IT, Langguth B. Does tinnitus distress depend on age of onset? PLoS ONE 2011 ; 6(11):e27379
¹²
Bauer CA. Mechanisms of tinnitus generation. Curr Opin Otolaryngol Head Neck Surg 2004;12(5):413-417
¹³
World Health Organization. Prevention of Blindness and deafness: Grades of HearingImpairment. http://www.who.int/pbd/deafness/hearing_impairment_grades/en/index.html2002( accessed 17th April 2012).
» http://www.who.int/pbd/deafness/hearing_impairment_grades/en/index.html2002
¹⁴
Park JP, Lim HW, Shim BS, et al. Interaural differences of distortion product otoacoustic emission amplitudes in patients with unilateral tinnitus. Otolaryngol Head Neck Surg 2013;148(3):456-459
¹⁵
Gopinath B, McMahon CM, Rochtchina E, Karpa MJ, Mitchell P. Incidence, persistence, and progression of tinnitus symptoms in older adults: the Blue Mountains Hearing Study. Ear Hear 2010 ; 31(3):407-412
¹⁶
Shargorodsky J, Curhan GC, Farwell WR. Prevalence and characteristics of tinnitus among US adults. Am J Med 2010;123(8):711-718
¹⁷
Martines F, Bentivegna D, Di Piazza F, Martines E, Sciacca V, Martinciglio G. Investigation of Tinnitus Patients in Italy: Clinical and Audiological Characteristics. Int J Otolaryngol 2010;20(10): 265861
¹⁸
Granjeiro RC, Kehrle HM, de Oliveira TS, Sampaio ALL, de Oliveira CA. Is the degree of discomfort caused by tinnitus in normalhearing individuals correlated with psychiatric disorders? Otolaryngol Head Neck Surg 2013;148(4):658-663
¹⁹
Ami M, Abdullah A, Awang MA, Liyab B, Saim L. Relation of distortion product otoacoustic emission with tinnitus. Laryngoscope 2008;118(4):712-717

Publication Dates

Publication in this collection
Oct-Dec 2016

History

Received
06 Sept 2015
Accepted
23 Oct 2015

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Axelsson A, Ringdahl A. Tinnitus-a study of its prevalence and characteristics. Br J Audiol 1989;23(1):53-62

[2] ²
Aaron GB, Wayne KR. Inner ear: tinnitus. Emed; 2013

[3] ³
Martines F, Bentivegna D, Martines E, Sciacca V, Martinciglio G. Assessing audiological, pathophysiological and psychological variables in tinnitus patients with or without hearing loss. Eur Arch Otorhinolaryngol 2010;267(11):1685-1693

[4] ⁴
Frank M, Marie BT, Barry L, et al. Auditory hallucinations: An audiological perspective. Hearing J 2007;60:32-52

[5] ⁵
Santos RMR, Sanchez TG, Bento RF, Lucia MC. Auditory hallucinations in tinnitus patients: Emotional relationships and depression. Int Arch Otorhinolaryngol 2012;16(3):322-327

[6] ⁶
Cima R, Joore M, Maes I, et al. Cost-effectiveness of multidisciplinary management of Tinnitus at a specialized Tinnitus centre. BMC Health Serv Res 2009;9:29

[7] ⁷
Ogunleye AO, Labaran AO. Presbycusis in Nigerians at the University College Hospital, Ibadan. Afr J Med Med Sci 2005;34(3): 293-296

[8] ⁸
Adobamen PO, Ogisi FO. Symptoms Associated With Hearing Loss As Seen In the University Of Benin Teaching Hospital, Benin City, Nigeria. Gomal J Med Sci 2011;9:159-162

[9] ⁹
Monzani D, Genovese E, Marrara A, et al. Validity of the Italian adaptation of the Tinnitus Handicap Inventory; focus on quality of life and psychological distress in tinnitus-sufferers. Acta Otorhinolaryngol Ital 2008;28(3):126-134

[10] ¹⁰
Snow JB. Tinnitus: theory and management. Hamilton, London: BC Decker; 2004:16-63

[11] ¹¹
Schlee W, Kleinjung T, Hiller W, Goebel G, Kolassa IT, Langguth B. Does tinnitus distress depend on age of onset? PLoS ONE 2011 ; 6(11):e27379

[12] ¹²
Bauer CA. Mechanisms of tinnitus generation. Curr Opin Otolaryngol Head Neck Surg 2004;12(5):413-417

[13] ¹³
World Health Organization. Prevention of Blindness and deafness: Grades of HearingImpairment. http://www.who.int/pbd/deafness/hearing_impairment_grades/en/index.html2002( accessed 17th April 2012).
» http://www.who.int/pbd/deafness/hearing_impairment_grades/en/index.html2002

[14] ¹⁴
Park JP, Lim HW, Shim BS, et al. Interaural differences of distortion product otoacoustic emission amplitudes in patients with unilateral tinnitus. Otolaryngol Head Neck Surg 2013;148(3):456-459

[15] ¹⁵
Gopinath B, McMahon CM, Rochtchina E, Karpa MJ, Mitchell P. Incidence, persistence, and progression of tinnitus symptoms in older adults: the Blue Mountains Hearing Study. Ear Hear 2010 ; 31(3):407-412

[16] ¹⁶
Shargorodsky J, Curhan GC, Farwell WR. Prevalence and characteristics of tinnitus among US adults. Am J Med 2010;123(8):711-718

[17] ¹⁷
Martines F, Bentivegna D, Di Piazza F, Martines E, Sciacca V, Martinciglio G. Investigation of Tinnitus Patients in Italy: Clinical and Audiological Characteristics. Int J Otolaryngol 2010;20(10): 265861

[18] ¹⁸
Granjeiro RC, Kehrle HM, de Oliveira TS, Sampaio ALL, de Oliveira CA. Is the degree of discomfort caused by tinnitus in normalhearing individuals correlated with psychiatric disorders? Otolaryngol Head Neck Surg 2013;148(4):658-663

[19] ¹⁹
Ami M, Abdullah A, Awang MA, Liyab B, Saim L. Relation of distortion product otoacoustic emission with tinnitus. Laryngoscope 2008;118(4):712-717

		Study group N= 43	Control group N= 50	P value
Age group	< 25 years	3	6	−
	25–45 years	21	31	−
	> 45 years	19	13	−
Mean age		40.9 ± 11.7	38.7 ± 9.7	t(82) = 1, p= 0.3
Sex	Male	11	18	(x²= 1.2 (df= 1) p= 0.1)
	Female	32	32

Frequency (Hz)	Study ears (n= 56)	Control ears (n= 100)
500	17	11.2
1000	14.4	11
2000	12.8	10.3
4000	14.4	12.5

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The Influence of Tinnitus on the Audiometric Threshold of Sufferers

Abstract

Introduction

Objective

Methods

Results

Conclusion

Introduction

Materials and Methods

Pure Tone Audiometry

Results

Hearing Threshold of 43 Tinnitus Sufferers and 50 Normal Volunteers

Pure Tone Average (PTAv) of the Tinnitus Ears and Control Ears

Comparison of the Tinnitus Ears and the Non-Tinnitus Ears in Participants with Unilateral Tinnitus

Comparison of the Contralateral Non-Tinnitus Ears and the Control Ears

Discussion

Pure Tone Average

Comparison of the PTAv between Tinnitus and Non-Tinnitus Ears in Subjects with Unilateral Tinnitus

Comparison of the Contralateral Non-Tinnitus Ears and the Control Ears

Type of Hearing Loss

Conclusion

References

Publication Dates

History