A Prevalence Study of Hearing Loss among Primary School Children in the South East of Iran
Abstract
Hearing impairment substantially affects child’s ability to normally acquire the spoken language. Such negative effects create problems for the child not only in terms of communication but also in terms of achievement in school as well as social and emotional growth. The aim of this research is to study the prevalence of hearing disorders and its relationship to age and gender among primary school students of Zahedan, Iran. In this cross-sectional and descriptive analytical study, 1500 students from elementary schools were screened for hearing loss. The selection of samples was performed using multistage sampling method. Primary information was obtained through direct observation, otoscopy, and audiometric and tympanometric screenings. Data was obtained and analyzed via ANOVA test. Statistical analysis showed a significant correlation between the age and the prevalence of middle ear abnormal function. Conductive hearing loss in males and females was 8.8% and 7.1%, respectively. In addition, 1% and 0.7% of male and female students, respectively, suffered from sensorineural hearing loss. Results indicated that 20.2% of students of elementary schools in Zahedan needed medical treatment for their problems. Therefore, it is recommended that the hearing screening of school-age children should be included in annual school health programs in this region.
1. Introduction
- (i)
The program should be run annually for children aged 3–9 years.
- (ii)
After nine years of age, the program should be performed annually for children at risk.
2. Subjects and Methods
- (i)
Presence of any structural and anatomic problems of auricle and the external ear canal.
- (ii)
Detection of abnormal cases of the ear canal and eardrum at the time of otoscopic examination.
- (iii)
No response of either ear to at least one of the experimental frequencies.
- (iv)
Detection of type B or C tympanogram.
3. Results
The results of direct observation and otoscopic examination of students are presented in Table 1. The presence of excessive cerumen in canal in this stage of screening was the most common disorder in both genders and in all grades, as the prevalence of this disorder was 8.7% in boys and 7.7% in girls. This difference was not statistically significant. In total, 8.2% of students suffered from this disorder. In tympanometric assessment, type C tympanogram was the most common disorder in all age groups and in both genders, whereas it was prevalent in 11.7% of boys and 6% of girls. The obtained results in this study suggested the influence of gender on the incidence of type C tympanogram, whereas the incidence of these disorders was more prevalent in boys (z = 3.9057). Other notable result of the tympanometry screening was the significant decrease of negative pressure incidences in the ear with an increase in age (Table 2). Using Spearman’s correlation coefficient, a significant correlation was observed between school grade and the percentage of type C tympanogram (P = 0.037, r = −0.9), which suggests the decrease of type C tympanogram incidences with an increase in age. A particular correlation coefficient was obtained for the relationship between the amount of conductive problems cases and school grade of students at estimated value of r = −0.972, degree of freedom of df = 3, and confidence coefficient of t = 19.331, respectively. In other words, conductive problems are reduced with grade increase (Table 3). Table 4 shows the results of conductive hearing loss prevalence in terms of gender. The difference was not statistically significant. Table 5 shows the results of sensorineural hearing loss in terms of gender. The observed difference between the genders was not statistically significant.
| Observation | Cerumen | External substance | Obstruction and narrowness of the canal | Eardrum rupture | Hearing aid |
|---|---|---|---|---|---|
| Male | 65 | 4 | 1 | 2 | 4 |
| Female | 58 | — | — | 3 | 1 |
| Tympanogram | Grade | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 6 | 7 | 8 | 9 | 10 | Total | |||||||
| Fr. | Percent | Fr. | Percent | Fr. | Percent | Fr. | Percent | Fr. | Percent | Fr. | Percent | |
| A | 243 | 81% | 266 | 88.7% | 267 | 89% | 275 | 91.7% | 275 | 91.7% | 1326 | 88.4% |
| B | 12 | 4% | 10 | 3.3% | 6 | 2% | 6 | 2% | 6 | 2.3% | 41 | 2.7% |
| C | 45 | 15% | 24 | 8% | 27 | 9% | 19 | 6.3% | 18 | 6% | 133 | 8.9% |
| Total | 300 | 100% | 300 | 100% | 300 | 100% | 300 | 100% | 300 | 100% | 1500 | 100% |
- *Fr.: frequency.
| Conductive hearing loss | Grade | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1st grade | 2nd grade | 3rd grade | 4th grade | 5th grade | Total | |||||||
| Fr. | Percent | Fr. | Percent | Fr. | Percent | Fr. | Percent | Fr. | Percent | Fr. | Percent | |
| Yes | 30 | 11% | 25 | 9% | 20 | 7.3% | 20 | 7.3% | 14 | 5% | 109 | 88.4% |
| No | 243 | 89% | 252 | 91% | 253 | 92.7% | 254 | 92.7% | 268 | 95% | 1270 | 2.7% |
| Total | 273 | 100% | 277 | 100% | 273 | 100% | 274 | 100% | 282 | 100% | 1379 | 100% |
| Conductive hearing loss | Gender | |||||
|---|---|---|---|---|---|---|
| Male | Female | Total | ||||
| Fr. | Percent | Fr. | Percent | Fr. | Percent | |
| Yes | 59 | 8.8% | 50 | 7.1% | 109 | 7.9% |
| No | 611 | 91.2% | 659 | 92.9% | 1270 | 92.1% |
| Total | 670 | 100% | 709 | 100% | 1379 | 100% |
| Sensorineural hearing loss | Gender | |||||
|---|---|---|---|---|---|---|
| Male | Female | Total | ||||
| Fr. | Percent | Fr. | Percent | Fr. | Percent | |
| Yes | 7 | 1% | 5 | 0.7% | 12 | 0.9% |
| No | 663 | 99% | 704 | 99.3% | 1367 | 99.1% |
| Total | 670 | 100% | 709 | 100% | 1379 | 100% |
4. Discussion
The frequency of different hearing losses in this study was obtained as 8.8%. Therefore, compared with the study conducted in Bangladesh (11.9%) [9] and in Turkey (10.4% and 9.8%) [10, 11], a lower percentage of students in Zahedan had suffered hearing loss. However, the percentage of conductive hearing loss (7.9%) had a higher rate compared with that in Thailand (6.8%) [12] and India (4.79) [13] and also is very close to the study in Egypt (8.5%) [14]. Compared with a study conducted on primary school children in Australia, the rate of mild and minimal hearing loss was far more (8.2% versus 3%) [15]. The annual organized screening programs as well as greater public awareness and information can also be the reason of lower incidence of conductive hearing loss in a country like Australia [16].
The results of this study had some similarity with behavioral test results of Poland study [17]. In Iran, some researches were done, compared with a study conducted on primary schools of Tehran, in which the prevalence of different hearing losses was shown to be 14.3% [18]; in the present study, this rate was 8.8% for Zahedan. Similarly, a lower value was obtained for this rate compared with the value obtained for the cities of Birjand (10.4%) [19], Islamabad (9.7%) [20], and Mahabad (18%) [21]. In contrast, compared with studies conducted in the cities of Nishapur (5.5%) [22], Isfahan (4.2%) [23] and Shiraz (6.5%) [24], prevalence of hearing loss types was obtained higher in primary schools of the city of Zahedan. It is necessary to mention that the time gap between this study and other studies conducted in the country is at least ten years. Therefore, given the growing trend of preschool assessments in the whole country, it is expected that these figures have experienced decreasing trends in various cities. Overall, 20.2% of students in this study needed treatment measures for problems including excessive wax, type B and C tympanograms and external substance. Compared with studies conducted in other cities, the rate was only lower than the rate obtained in the study conducted in Tehran. Shortage of specialized personnel, notifications, and public awareness can be factors contributing to this problem; meanwhile, economic issues cannot be ignored with respect to timely action to overcome the hearing loss. The rate of students who were in need of rehabilitation measures was 0.9%, which shows less prevalence only compared with the rate obtained in the study conducted in Birjand. In this study, we were faced with limitations such as inadequate cooperation of parents for diagnostic evaluations—despite necessary follow-ups and free-of-charge examinations—in such a way that, from a total number of 354 students referred to in the first phase, 121 subjects left the study. Consequently, the statistic associated with the types of hearing losses is calculated based on the number of referrers.
5. Conclusion
Hearing loss and its consequent difficulties on speech and language might be controlled and treated via appropriate hearing screening protocol and program in every educational setting; it is noteworthy that, according to the obtained results, the authors emphasize annual hearing screening programs for school-age children in order to promote health care and to prevent social and educational problems in this region, as these programs are being carried out in other areas.
