key: cord-0064497-y5zsqoa4
authors: Hajare, Priti; Mudhol, Ramesh
title: A Study of JCIH (Joint Commission on Infant Hearing) Risk Factors for Hearing Loss in Babies of NICU and Well Baby Nursery at a Tertiary Care Center
date: 2021-06-15
journal: Indian J Otolaryngol Head Neck Surg
DOI: 10.1007/s12070-021-02683-w
sha: c0fa95c23d6bb359dd622a7e3ebf7856104c2abd
doc_id: 64497
cord_uid: y5zsqoa4

Babies in Neonatal Intensive Care Units (NICU) have an additional risk for hearing loss due to various risk factors like, prematurity, low birth weight, mechanical ventilation, hyperbillirubinemia, ototoxic drugs, low APGAR score etc. as compared to the babies from well baby nursery (WBN) who, poses risk factors mostly family history, syndromic deafness. So the present study was aimed know the risk factors responsible for hearing loss in NICU and WBN babies and to assess the incidence of deafness. A total of 800 babies from NICU (n = 402) and WBN (n = 398) underwent hearing screening from a tertiary care center. Hearing screening was done using two staged screening protocol as per JCIH guidelines with Distortion product Evoked Otoacoustic Emissions (DPOAE) and Automated Auditory Brainstem Responses (A-ABR). According to DPOAE test, 311 from NICU and 383 from WBN passed the test and during second screening, 80 out of 91 from NICU and 11 out of 13 from WBN passed the DPOAE test. Further BERA was done at the 3(rd) month of corrected age where 6 out of 11 showed positive responses from NICU and 3 babies from WBN had profound hearing loss. Data analysis revealed that family history of deafness, anemia and hypertension in ANC, TORCH in mother, low Apgar score and hyperbillirubinemia in newborns were a major risk factor for hearing impairment. We conclude that the diagnoses of auditory disorders at early stage due to various risk factors are important since appropriate therapeutic intervention and rehabilitation would help in better development of children.

As per World health organization (WHO), 0.5 to 5 per 1000 newborn and infants have congenital or early childhood onset sensorineural deafness or severe-to-profound hearing impairment [18] . Genetic factors contribute to 50% with no other risk factors and this may go unnoticed in the normal newborn population. NICU babies are a subset of the general newborn population displaying characteristically high incidence of risk factors for hearing loss.

In the year 2000, Joint Commission on infant hearing (JCIH) proposed several perinatal risk factors which increase the incidence of deafness by up to 14.1% [22] . Hearing loss being an invisible disability, early detection of deafness has been a long standing priority in the field of otology. Currently the mean age of identification of pediatric deafness is 24 to 30 months. This results in loss of precious duration of Cerebral plasticity. In India, hearing disability has a higher prevalence in children aged 0-4 years (0.60%) and 5-9 years (0.28%) than all other disabilities (0.32%). Also with limited resources and population burden there are no established universal newborn hearing screening (UNHS) programs as it is masked by other life-threatening public health diseases [11] JCIH strongly recommends all neonates should undergo hearing screening by the first month of life and diagnosis should be made by 3 months of age, so that it can benefit patients by timely fitting of hearing aids or cochlear implants [1, 19] .

Clinically, it is difficult to detect the early hearing loss in newborns. There are two widely used tests for the hearing screening. OAE an objective test which determine the cochlear status, especially the outer hair cells function, and BERA tests the functional integrity of the auditory pathway from the eighth nerve to brainstem. As OAE is simple, quick, and inexpensive, it is usually more preferred than BERA for screening as a first step in newborns [27] . The JCIH has set separate test protocols for NICUs and well-baby nurseries, recommending a two-step screening procedure for all healthy low-risk newborns, with OAEs followed by a-ABRs if there is no response at the original screening test. In 2007, JCIH set out revised guidelines, with specific mention of ANSD(Auditory Neuropathy Spectrum Disorders) detection and listing indicators which point to high-risk of developing permanent childhood hearing impairment [1] .OAEs are not enough and ABRs should be the basis of the screening in order not to misdiagnose ANSD cases.

The genetic factors contribute 50-70% of either syndromic (30%) or non-syndromic (70%) profound hearing loss [24] . Over 400 syndromes presenting audiological disorders among other clinical manifestations have been identified, [25] . Non-syndromic deafness is related to mutations of genes that regulate the production of the gap junction protein connexin 26, which causes abnormal cochlear hair cell function. Overall, only 50% of hearing impaired infants have known risk factors, as given by JCIH, a fact that underlines the necessity for UNHS [26] . Several studies have tried to identify and re-evaluate the role and relative importance of certain risk factors in the development of hearing loss.We have done this study to find the incidence of hearing loss in newborns and also risk factors associated among well baby nursery and high-risk newborn from NICU at tertiary care hospital and also to develop a protocol and methodology for regular screening programme.

This is a clinical, prospective cross sectional study conducted at a tertiary care hospital of North Karnataka. A total of 402 babies from NICU and 398 normal newborn babies from well baby nursery (WBN) formed the study group. Ethical clearance for the study was obtained from the institutional ethics committee. Informed consent taken from the parents. A detailed history taken and documented in preformed proforma. Detailed history regarding prenatal, natal, demographic details, family history of deafness and consanguinity, gestational history of the mother, intra-natal and postnatal events, and complications and postnatal period were recorded from the mother. Highrisk factors as per JCIH category were defined.. Low birth weight baby, preterm baby, delivery by cesarean section, birth asphyxia, congenital anomalies, neonatal jaundice, newborns with a history of convulsions, and infection were categorized into high-risk group. Positive antenatal history of drug intake, hypertension, diabetes, hypothyroidism, and Rh incompatibility were also considered as risk factors.

A two-stage screening protocol was made as per JCIH guidelines, in which newborn babies were screened first with Distortion product otoacoustic emissions (DPOAE). Infants who fail the OAE were screened for auditory brainstem response (ABR). In this two tier screening program, the second tier being ABR (which is more expensive) was done only for a select few, making the program more practical and viable.

Portable OAE machine is completely automated analysis systems that gives Result.as PASS (normal functioning) or REFER (poor functioning). Parents of babies who failed (REFER) the screening test were asked for follow up after counseling. Those who passed on the second DPOAE screening were discharged from the study while those who failed second time were referred for further BERA testing, which was performed at 3 month of corrected age after all diagnostic evaluation. Recording of waveforms in BERA was done at different intensities starting at 90 dB. Two replications were obtained at each intensity and peaks I,III, V were marked wherever present. Phone calls and letters were used to contact parents who failed to return for follow up.

Data from the proforma questionnaire and the results of the testing were tabulated in Microsoft excel and subjected to analysis using Statistical Package for Social Sciences [SPSS] for Windows Version 22.0 IBM Corp. was used to perform statistical analyses. The level of significance was set at P \ 0.05.

During the study period there were a total of 798 (NICU baby (n = 402), Well baby Nursery (WBN, n = 396) babies who underwent OAE for hearing assessment. NICU babies were assessed as per the JCIH RISK factors and 398 babies from WBN had few environmental risk factors as per JCIH. In the first DPOAE test screening, 311 from NICU and 383 from WBN passed the test and monitoring after 4-6 weeks on second DPOAE, 80 out of 91 from NICU and 11 out of 13 passed the test. Further BERA was done at the 3 rd month of corrected age where 6 out of 11 showed positive responses for 50 db from NICU babies and 5 babies showed profound hearing loss. From WBN out of 3 babies, one baby had moderate to severe and two babies had profound hearing loss. Flow chart of children/patient grouping is shown in Fig. 1 .

The demographics of NICU baby that includes frequency and percentile of male: female ratio, education level, consanguineous marriage family history of deafness and associated JCIH risk factors is given in Table 1 and the risk factors associated with the babies from well-baby nursing (WBN) is represented in Table 2 . Age parameter was significant to the deafness (p = 0.048) between babies of WBN but insignificantly associated with babies from NICU. Consanguineous marriage was a significant risk factor noted in both NICU and WBN groups with p = 0.003 and 0.452 respectively. Mode of delivery including normal (p = 0.096) and assisted delivery (p = 0.033) were noted to be significant in NICU babies whereas LSCS caesarean section was insignificant in both the groups (NICU, p = 0.428 and WBN, p = 0.946). Family history was also assessed for the cause of deafness in both the groups and was found to be extremely significant (p = 0.003) in NICU babies and (p = 0.013) in wellbaby nursing.

WHO [10] lists a number of factors that contribute to hearing loss including hereditary and non hereditary genetical factors or the intrauterine infections such as rubella and cytomegalovirus infection during the prenatal period. In the perinatal period, birth asphyxia, hyperbilirubinemia, low-birth weight and other perinatal morbidities and their management are shown to be risk factors of hearing loss. The current study analyses the torch infection, amino injection and application of mechanical ventilators for its association with hearing loss. Torch infections which are causative pathogens of congenital infections (p = 0.022) and hyper-bilirubinaemia [ 10 (p = 0.001) was noted to be associated with deafness in NICU babies. Interestingly use of routine medication was not a valid factor associated with hearing loss (p = 0.220) in NICU babies. The Receiver Operating Characteristic Curve (Fig. 2 ) with a probability cut off at 0.5 suggests that the maximum area under the curve was seen at a sensitivity of 0.769 and specificity of 0.775. Hence all the above-mentioned factors in Table 1 that were analysed and assessed contribute to hearing loss. RoC curve for REFER ( Fig. 3) with (CI: 0.736-0.960) show that most of the parameters were associated with the deafness in NICU baby. 

Sense of hearing has been recently considered as a severe health problem by National Program for the prevention and Control of Deafness (NPPCD). Auditory sense if undetected at an early stage lead to speech impairment, developmental issues and loss of productive years of the child. Therefore detection of hearing loss at the neonatal stage decreases the burden, where intervention therapies can help the children. A two stage screening test involving otacoustic emission (OAE) and Auditory Brainstem response Audiometry (BERA) screening have been recommended [23] . When a Child develops hearing loss with no risk factors involved, first tier genetic screening for the role of the GJB2 gene encoding protein connexin-26 is also recommended since this gene accounts for 20% of sensorineural hearing impairment [6] . Early hearing detection and intervention (EHDI) states that screening infants at 1, 3 and 6 months of age, help in early prognosis and treatment procedures. In a study involving 303 childern, the age of suspicion, diagnosis and intervention was observed to be 18, 72, 84 months respectively. Parent's literacy, father's occupation, consangiuos marriage, socioeconomic status and geographical location of the family determined the age of diagnosis [7] . A prior study by Chary et al. [8] in rural Karnataka, India showed the age of hearing loss recognition between 24 and 36 months.

The current study aims to understand the incidence of deafness in newborn for NICU and WBN nursery groups with various risk factors as proposed by JCIH using DPOAE and BERA. Various studies show the incidence of hearing loss in newborns in India. In one of pilot studies conducted Paul et al. [21] at Cochin the incidence of hearing loss were 10.3/1000 births in NICU and 0.98/1000 births in well baby nursery group. In another study by Nagapoornima, et al. [16] an incidence of hearing loss of 5.6/1000 births was demonstrated. Hearing impairment incidences were higher in the current study much larger than the national average of 4/1000. This may be because our tertiary care centre hospital has large number of high risk deliveries leading to larger caseload of at-risk group. Our finding is in contradictory to the other reports, it might be because of less sample size.

Risk factors that lead to hearing impairment are primarily due to genetic aspects, congenital infections and craniofacial abnormalities. Infectious congenital hearing loss is linked to Toxoplasma gondii, Rubella virus, Cytomegalovirus, herpes simplex virus and Treponema pallidum [14] . Besides risk factors such as positive history of hearing loss in families, consangiuos marriage, admission to NICU, decreased birth weight, increased gestational age, Table 2 that were analysed and assessed contribute to hearing loss medical interventions such as mechanical ventilation, ototoxic drug use, venous access and increased duration of hospital stay have been linked to increased hearing loss. Bilirubin induced neurotoxicity (BINT) also leads to auditory disorder where neonates with extreme hyperbilirubinemia (Total Serum Bilirubin C 25 mg/dL) were associated with BINT [2] . Unbound bilirubin is shown to strongly associate with auditory toxicity in 28 out of 100 neonates [2] . Preterm and term infants are affected up to 84% by hyperbilirubinemia during the first week of life. Total serum/plasma bilirubin elevated levels can be mild, transitory or inconsequential in most of the babies [3] .

The current study shows that normal and assisted delivery, family history of hearing loss, torch infections and hyperbilirubinemia greater than 10 were strongly associated with the hearing loss of NICU babies. Age and family history of hearing loss were linked with the hearing impairments of WBN babies. No significant association between hearing loss and birth weight of the babies, C-section delivery, medication, gestational age, amino injection, mechanical ventilation, associated syndromes and craniofacial abnormalities was observed. However APGAR score (p \ 0.05) and family history (p = 0.013) were found to have significant association. The current study is in accordance with multiple reports on risk factors of hearing impairments. In a prospective non randomized clinical study involving 8192 babies around the rural areas of Maval, Maharastra, India, various risk factors such as low birth weight (5.9/1000 high risk births), hyperbilirubinemia (3.56/1000 high risk births) and craniofacial abnormalities in neonates (1.18/1000 high risk births) were associated with hearing impairment. There was strong association between high risk babies (10.69/1000 births) and hearing loss when compared to well babies (1.689/ 1000 births). Birth weight (less than 2.5 kg), hyperbilirubinemia, asphyxia and family history are the high risk factors leading to hearing loss, where five infants failed in both OAE and tympanometry screening. This study screened 2000 live neonates at a tertiary care institute around a 12 month period [4] A study involving 307 children were assessed for etiologies related to mild or severe hearing loss. Stay at NICU, mechanical ventilation, ototoxic drug (aminoglycoside exposure), oxygen need and history of deafness in the family positively correlated with the hearing loss. No significant association between hearing loss and congenital disease (cytomegalovirus), bacterial meningitis, streptococcus positivity, loop diuretic exposure and ECMO [20] .

A longitudinal cohort study involving 87 babies showed that NICU (65.52%), ototoxicity (48.28%), hyperbiliirubinemia (46.55%) and mechanical ventilation (39.66%) played a major risk factor in the development of hearing loss. Preterm babies were at higher risk pertaining to the parameters when compared to full term babies. APGAR score, infections, gestational age also played a major role [22] [23] [24] . In our study, family history of deafness in NICU and WBN group has statistical significance (p = \ 0.001). Ganapathy et al. [10] conducted study on association of family history and consanguinity that showed 18.6 and 39.5% of babies having hearing loss in India. This study was also supported by an analysis on Mumbai school children by D'Mello et al. [9] . Family history of hearing loss is seen in different studies in India, with 25% in Karnataka and in Kerala, 45% had a family history of deafness with mutations in GJB2 gene [12, 15] .

Risk factors contribute to the burden of hearing impairment in developing countries. Most cases of deafness in India are preventable as per WHO report which is aimed to be reduced to 1%. Screening at younger age as early as in the prenatal and perinatal period can help in effective management of hearing impairment. But the challenges that are faced to avail the services related to diagnosis of hearing loss in rural children include cultural, educational, financial and navigational barriers [9] . Therefore proper medical and counseling regimens should be employed for early detection, intervention and minimizing the risk factors that induce congenital hearing loss.

To summarize, data analysis in our sample revealed that family history of deafness, anemia and hypertension in ANC, TORCH in mother, low Apgar score and hyperbillirubinemia in newborns were a major risk factor for hearing impairment. The diagnosis of auditory disorders at early stage are important since appropriate therapeutic intervention and clinical treatments would help in better development of children. We also strongly recommend Universal Newborn Hearing Screening (UNHS), especially for NICU patients who are having multiple risk factors for hearing loss. Multicenter studies incorporating large sample size should be done at different levels of health care in order to get a clearer picture of hearing status of babies in developing countries. IN India, majority of hospitals do not conduct universal or high risk screening. In such a situation, a centralized facility catering to all hospitals in a city is a practical option.

Position statement: principles and guidelines for early hearing detection and intervention programs

Unbound bilirubin and auditory neuropathy spectrum disorder in late preterm and term infants with severe jaundice

Auditory toxicity in late preterm and term neonates with severe jaundice

Predischarge screening for severe neonatal hyperbilirubinemia identifies infants who need phototherapy

Newborn hearing screening: time to act

Advances in the understanding of the genetic causes of hearing loss in children inform a rational approach to evaluation

State of deaf children in West Bengal, India: what can be done to improve outcome

Factors Influencing delayed presentation of congenitally hearing impaired children in rural India

High risk register-an economical tool for early identification of hearing loss

Multi-country Assessment of national capacity to provide hearing care

High frequency of connexin26 (GJB2) mutations associated with nonsyndromic hearing loss in the population of Kerala

Medical referral patterns and etiologies for children with mild-to-severe hearing loss

Congenital hearing loss

Barriers to timely diagnosis and treatment for children with hearing impairment in a southern Indian city: a qualitative study of parents and clinic staff

Universal hearing screening

Risk indicators for hearing loss and language acquisition and their relationship with socioeconomic, demographic and obstetric variables in preterm and term babies

Newborn and infant hearing screening, Current Issues And Guiding Principles For Action,Outcome Of A Who Informal Consultation Held At Who Headquarters

Progress towards early detection servicesfor infants with hearing loss in developing countries

Neonatal screening for prevalence of hearing impairment in rural areas

Early identification of hearing loss and centralized newborn hearing screening facility-the Cochin experience

Association; Directors of Speech and Hearing Programs in State Health and Welfare Agencies

Infant hearing screening in India: current status and way forward

Current assessment of newborn hearing screening protocols

Association of family history and consanguinity with permanent hearing impairment

Auditory neuropathy spectrum disorder in late preterm and term infants with severe jaundice

An effective compromise between cost and referral rate: a sequential hearing screening protocol using TEOAEs and AABRs for healthy newborns

Multi-country Assessment of national capacity to provide hearing care

Acknowledgements Authors would like to acknowledge all the participants.Funding Present study is not supported any external funding source.