Etiology Profile of the Patients Implanted in the Cochlear Implant Program ()
1. Introduction
Hearing loss in children constitutes a considerable handicap because it is an invisible disability and compromises optimal development and personal achievement of a child. Hearing loss in a child may develop from causes before birth (prenatal), during birth (perinatal) or thereafter (postnatal). Prenatal causes may pertain to the infant or the mother. An infant may be born with inner ear anomalies due to genetic or nongenetic causes. Anomalies affecting the inner ear may involve only the membranous labyrinth or both the membranous and bony labyrinths, which include Sheibe’s dysplasia, Alexander’s dysplasia, Bing-Siebenmann dysplasia, Mondini’s dysplasia, enlarged vestibular aqueduct and semicircular canal malformations. Maternal factors include infections, drugs during pregnancy, radiation to the mother in first trimester and other factors which include nutritional deficiency, diabetes, toxaemia and thyroid deficiency. Maternal alcoholism is also teratogenic to the developing auditory system. Infections which affect the developing foetus are Toxoplasmosis, Rubella, Cytomegalovirus, Herpes type 1 and 2 and Syphilis. Drugs like Streptomycin, Gentamycin, Tobramycin, Amikacin, Quinine or Chloroquine, when given to the pregnant mother, cross the placental barrier and damage the cochlea. Perinatal causes relate to those during birth or in early neonatal period and include anoxia, prematurity, low birth weight, birth injuries, neonatal jaundice (bilirubin level greater than 20 mg% damages the cochlear nuclei), neonatal meningitis, sepsis, time spent in neonatal ICU and ototoxic drugs. Postnatal causes include viral infections (Measles, Mumps, Varicella, and Influenza), meningitis and encephalitis. Other causes are secretory otitis media, ototoxic drugs, trauma including fracture of temporal bone, middle ear surgery or perilymph leak and noise induced deafness.
2. Material and Methods
Present study included prelingually deafened patients, who attended ENT OPD and underwent cochlear implant in Department of Otorhinolaryngology, SMS Medical College, Jaipur from July 2011 to Dec. 2013. 60 patients (age 2.5 yrs - 11 yrs) underwent cochlear implant in the study period. A detailed history was obtained in reference to prenatal, perinatal and post natal period to find out various risk factors for hearing loss. The etiological diagnosis was obtained by means of an interview carried with the parents and family members. We approached relevant issues such as problems during pregnancy (prenatal factors), problems during delivery and birth of the baby (perinatal factors), problems during postnatal period and hereditary factors associated with the current disease.
3. Results
The study included 60 patients, with male to female ratio of 1.72 and males contributing 63.4% and females were 36.6%. The most common cause of deafness in our study was acquired (56.66%), which predominantly included perinatal risk factors (64.70%), followed by prenatal risk factors (41.17%). The second common cause was hereditary (26.66%), followed by unknown (16.66%) (Table 1, Table 2 and Figure 1).
Considering the 14 cases which presented with prenatal risk factors, it was observed that Infection and ototoxic drug history was the most common prenatal risk factor. There were two patients who had congenital rubella syndrome (Table 3 and Figure 2).
Considering the perinatal factors, it was observed that low birth weight, birth asphyxia and prematurity were the important risk factors (Table 4). Infection with history of ototoxic drugs, and hyperbilirubenemia requiring phototherapy in neonatal period were the predominant postnatal factors, contributing 80% (Table 5 and Figure 3). 5% of our patients had Waardenburg’s syndrome. The distribution of hearing loss in the syndromic verses nonsyndromic group is statistically highly significant (Table 6). 13 patients had family history of deaf-mutism, out
Table 2. Acquired causes of deafness.
Prenatal: 14 (41.17); Perinatal: 22 (64.70); Postnatal: 10 (29.41); Infant factor: 2 (5.88).
of them 2 patients had both maternal and sibling factors, these patients were included in sibling group, therefore, out of 13 cases of familial deafness, 69.23% of the patients were in the sibling group (Table 7).
4. Discussion
We have performed an institutional study which included prospective review of prelingually deaf children aged 2.5 to 11 years (60 cases), with bilateral severe to profound SNHL who derived minimal to no benefit from conventional amplification i.e. using hearing aid and underwent unilateral Cochlear Implant from July 2011 to Dec. 2013. In the present study of 60 patients, male to female ratio was 1.72, with males contributing 63.33% and females were 36.66%, this is in concordance with the gender distribution given by Calhau [1] , in which
Table 3. Distribution of prenatal risk factors.
Table 4. Distribution of perinatal risk factors.
Figure 2. Distribution of prenatal risk factors.
Table 5. Distribution of postnatal risk factors.
Table 6. Syndromic/nonsyndromic hearing loss.
HS: Highly Significant
Table 7. Familial cases of deafmutism.
male to female ratio was 1.66 with males contributing 62.5% and females were 37.5%; while in a study of 70 cases by Iype [2] , male to female ratio was 1.06:1.
There is wide variation across the globe in the incidence and prevalence of childhood hearing loss and its possible etiology. The etiological diagnosis was obtained by means of an interview carried with the parents and family members. We approached relevant issues such as problems during pregnancy (prenatal factors), problems during delivery and birth of the baby (perinatal factors), problems during postnatal period and hereditary factors associated with the current disease.
The most common cause in our study was the acquired (56.66%), corroborating with the prior studies reported by Iype [2] , while Taylor [3] reported 41.86% incidence of acquired causes. Studies by Fisch [4] , Calhau [1] reported unknown cause as the most common factor. The second most contributing factor was the hereditary cause (26.66%), corroborating with Billings [5] , while Calhau [1] reported maternal rubella to be the second most common cause. The third cause is unknown (idiopathic), contributing to 16.66% of the deafness. Fraser [6] in 1960 from U.K reported that in 70% patients, the etiology was congenital and in 30%, it was acquired. Strauss [7] in 1990 from USA reported that the probable cause of congenital deafness in their patients were toxoplasmosis (10% - 15%), rubella (33%) and cytomegalovirus (33% - 48%). He further observed that with introduction of immunization program, the incidence of disease has decreased. As reported by Martin and Davis, the most frequent cause of acquired deafness in childhood was meningitis [8] [9] and according to Dodge [10] , 5% to 35% of the patients with bacterial meningitis develop permanent sensorineural hearing loss..
In 34 cases out of 60, an acquired cause for deafness was found. Infant factor in the form of meningitis was found in 2 patients. Prenatal risk factors were identified in 14 cases (41.17%) (Table 2), infection and ototoxic drug history was found to be the most common contributing factor (42.85%), next common factors were history of repeated abortion (14.28%) and preeclampsia (14.28%). Serological test results were available for two cases which were positive for rubella infection (Table 3).
In 22 cases (64.70%), perinatal risk factors were found, the most common cause was low birth weight followed by birth asphyxia and prematurity (Table 4). This is in concordance with the study carried out by Iype [2] , in which prenatal risk factors were identified in 45.71%, perinatal factors were found in 71.42%. Birth asphyxia predisposed by prematurity and low birth weight was the most common perinatal risk factor. Majority of their neonatal group had jaundice requiring phototherapy and had delayed motor or personal social development. Bergman [11] found higher incidence of hearing loss in preterm babies than normal because of prolonged hypoxia or acidosis.
In the present study, postnatal risk factors were found in 10 cases (29.41%), infection with history of ototoxic drugs was the most common contributing postnatal risk factors (60%). Ototoxic drugs leading to hearing loss in our study were Gentamycin, Tobramycin and Amikacin, this is in concordance with study by Zahnert [12] . Delayed milestones were found in two patients (Table 5). In the study by Iype [2] , neonatal risk factors along with antenatal or perinatal risk factors were found in 8 patients. Majority had neonatal jaundice requiring exchange transfusion (6 cases); of these a high proportion had delayed motor or personal social development.
3 patients of the study group had syndromic features with white forelock, dystopia canthorum and heterochromiairidis (Waardenburg’s syndrome), contributing to 5% and with the significant P value of 0.001 (Table 6). Zeitter [13] reported 3 (4.47%) patients of Waardenburg’s syndrome. In a study by Singh [14] , syndromic hearing loss were found in 5.4% patients of which, three cases were of Usher syndrome, four Waardenburg’s syndrome, two Down syndrome and one patient of Treacher-collin syndrome.
S2-leitlinie, 2011 [15] reported that hearing impairment of genetic cause is due to congenital syndrome in 30% of cases and is nonsyndromic in 70%. Among the nonsyndromic cases, the inheritance pattern is autosomal recessive in 70% - 80%, autosomal dominant in 10% - 25%, and X-linked in 2% - 3%. In our study of 16 cases of hereditary cause 18.75% were of syndromic group.
Nonsyndromic autosomal recessive hearing loss (the most common) is often due to a genetic mutation that impairs the synthesis of transmembrane proteins connexin 26 and 30, which in turn affects the ion transport mechanism in the hair cells and accordingly, connexin 26 and 30 mutations should be sought, whenever hearing impairment of genetic origin is suspected. Genetic hearing impairment is usually severe, being due to sporadic mutation and therefore hard to diagnose [16] .
13 patients (21.66%) (Table 1) in the study group had familial deafness, including 9 patients with history of deafmutism in sibling, 2 patients with paternal and 2 with maternal history of deafmutism (Table 7 and Figure 4), while study by Singh (2009) [14] reported 10.8% cases of familial deafness.
Figure 4. Distribution of familial cases of deafmutism.
5. Summary and Conclusions
The present study included 60 prelingually deafened patients who underwent cochlear implant in Department of Otorhinolaryngology, SMS Medical College, Jaipur. In this study, group perinatal risk factors were (64.7%) most common followed by prenatal (41.17%) and postnatal risk factors.
Infant factors were present in 2 cases (5.88%). Low birth weight along with asphyxia and prematurity was most common perinatal cause. Infection and ototoxic drug history were most common causes in both prenatal and postnatal group. 3 patients (5%) were of syndromic deafness while 13 patients (21.66%) had familial deafness.
NOTES
*Corresponding author.