ABSTRACT
@#BACKGROUND. Over 5% of the world’s population or 466 million people have disabling hearing loss (432 million adults and 34 million children). Profound sensorineural hearing loss and deafness can be treated successfully with a cochlear implant. A cochlear implant (CI) stimulates the auditory nerve, bypassing the defective cochlea, and provides auditory information to the developing brain, thus improving oral language. Children, who receive an early diagnosis of deafness and proper speech rehabilitation, and undergo early cochlear implantation, are able to develop auditory and linguistic skills at par with their hearing peers. METHOD. 6 deaf patients who underwent unilateral Cochlear Implantation at the NCMCH from January 2017 to June 2018 were included in the study. Participants were divided into 3 groups on the basis of age at which participants underwent implantation. RESULTS. Pre-op average MAIS was 1,6/40, Category of Auditory Performance (CAP) - 0,77 and SIR - 0,7/5 in all implanted age groups. Score increased over time to attain average score MAIS -29.6/40, CAP- 3.3/7 SIR-2.7/5 in all implanted groups at one year after implantation. CONCLUSION. There is a need for more research on patient age and gender composition, and outcomes of cochlear implantation and hearing devices in this study population. A robust set of study measures would provide statistical significance. Parent-child relationships affect hearing and speech therapy results, so there’s a need to improve parents’ knowledge regarding these therapies.
ABSTRACT
@#BACKGROUND. Hearing loss is likely to be the most common congenital abnormality in newborns, with a reported prevalence of 1 to 2 per 1000 live births. It is vitally important to diagnose infant hearing loss or deafness at its early stages. Early detection and intervention is critical to prevent the adverse consequences of a delayed diagnosis on speech, language and cognitive development. Universal screening of hearing loss has been introduced in practice with distortion product of otoacoustic emission (DPOAE). The automated auditory brainstem response (AABR) screener is a dedicated hearing screening device which provides information not only about the outer and middle ear and cochlea but also about the auditory pathway up to the brainstem. METHODS. The study was descriptive and based on a retrospective analysis of the two year period databases (2014-2016) from the newborn hearing screening program. We have started the hearing screening from December 2012. Between 2014 to 2017 we have been screened total of 11218 newborns. We tested automated audiotory brainstem response of the newborns in their 1- 3 days of birth, using Maico MB11 Beraphone machine (German) according to the Joint Committee on Hearing Screening guidence. We assessed the test result of “pass” as “normal hearing, “refer” as to rescreen and tested again after 1 month. Infants referred again were gone to a specialist for further audio logic analysis (behavioral tests, auditory brainstem response, otoacoustic emissions and auditory steady state response). RESULTS. Our study was the first in Mongolia. Total of 10290 newborns passed bilaterally out of 11218 and 1323 referred in the first screening. For the rescreen test, 1088 out of 1134 infants resulted with “pass” and 46 infants with “refer”. For those infants, we did ABR test in their 3 and 6 months, and result of 9 children (18 ears) have bilateral profound hearing loss, 2 children (2 ears) have bilateral mixed profound hearing loss and 13 (26 ears) have bilateral profound conductive hearing loss. Coverage rate was 34,7%. First refer rate was 11,7%. Follow rate was 39,7%. We conducted the cochlear implantation surgery for 2 children out of 11. Currently, we are preparing other infants with bilateral profound hearing loss of 0-3 years old for the follow up CI surgery. CONCLUSION. In Mongolia, the data of infant hearing difficulties and prevalence of deafness is lacking. Although newborn hearing screening program has been approved in 2014 and brought opportunities to conduct universal neonatal hearing screening program. But at the moment, its only available at NCMCH which located in Ulaanbaatar city. 11 cases have a bilateral profound hearing loss out of 11218 newborns. Our study result shows similiar pattern (1.1 - 1.3 ear deafness in every 1000 birth. Lenarz et all.2008). Automated audiotory brainstem response was efficient in early identification of newborn hearing loss with high sensitivity and specification rates. Small population in the remote locations, high birth percentage, short period in the hospital after birth, lack of technology and human resources, and other factors result in higher level of referral rate newborn hearing screening and lower level of follow up and confirmation rate referals in Mongolia.
ABSTRACT
Hearing loss is likely to be the most common congenital abnormality in newborns, with a reported prevalence of 3 per 1000 live births. It is vitally important to diagnose infant hearing loss or deafness at its early stages. The automated auditory brainstem response (AABR) screener is a dedicated hearing screening device which provides information not only about the outer and middle ear and cochlea but also about the auditory pathway up to the brainstem. The data presented were collected in the well-baby nursery. Overall, data from 5857 neonates screened from December 2012 to July 2015 were analyzed in this study. During 1-3 days after birth, they were analyzed with automated auditory brainstem response (AABR). Neonates referred the screening were scheduled for repeated diagnostic evaluation within a month. And newborns referred again were sent to a specialist for further audiology analysis. Out of the 5857 babies screened, 5050 passed bilaterally and 807 referred. The number of infants referred for 2nd stage, post-discharge re-screening was 319. Of this group, 287 passed bilaterally and 32 failed the re-screening in one or both ears. Diagnostic testing was performed on all of the 32 infants who were referred. The resulting referral rate was 13.7% for first stage and 1,4% for second stage. The follow-up rate was 37%. The confirm rate was 0,13%. Profound bilateral sensor neural hearing loss was identified in 3 infants. Profound bilateral mixed hearing loss was identified in 1 infant. Automated auditory brainstem response (AABR) was efficient in the early identification of newborn and infant hearing loss with high sensitivity and specificity rates. Due to the results of the study, 3 out of 5857 infants were diagnosed with a profound hearing loss and it’s approximately close to the results of other studies and statistics.
ABSTRACT
Hearing loss is likely to be the most common congenital abnormality in newborns, with a reported prevalence of 3 per 1000 live births. It is vitally important to diagnose infant hearing loss or deafness at its early stages. The automated auditory brainstem response (AABR) screener is a dedicated hearing screening device which provides information not only about the outer and middle ear and cochlea but also about the auditory pathway up to the brainstem.The data presented were collected in the well-baby nursery. Overall, data from 5857 neonates screened from December 2012 to July 2015 were analyzed in this study. During 1-3 days after birth, they were analyzed with automated auditory brainstem response (AABR). Neonates referred the screening were scheduled for repeated diagnostic evaluation within a month. And newborns referredagain were sent to a specialist for further audiology analysis.Out of the 5857 babies screened, 5050 passed bilaterally and 807 referred. The number of infantsreferred for 2nd stage, post-discharge re-screening was 319. Of this group, 287 passed bilaterally and 32 failed the re-screening in one or both ears. Diagnostic testing was performed on all of the 32 infants who were referred. The resulting referral rate was 13.7% for first stage and 1,4% for second stage. The follow-up rate was 37%. The confirm rate was 0,13%. Profound bilateral sensor neural hearing loss was identified in 3 infants. Profound bilateral mixed hearing loss was identified in 1 infant.Automated auditory brainstem response (AABR) was efficient in the early identification of newborn and infant hearing loss with high sensitivity and specificity rates. Due to the results of the study, 3 out of 5857 infants were diagnosed with a profound hearing loss and it’s approximately close to the results of other studies and statistics.